CN110391529B - Cable connector and cable connector combination thereof - Google Patents

Abstract

The invention discloses a cable connector and a cable connector combination thereof, wherein the cable connector comprises an insulating body, at least two terminal grooves are concavely arranged on the outer surface of the insulating body; a cable including at least two core wires extending forwardly into the terminal slot; at least two plate-shaped terminals are arranged in the terminal groove, each plate-shaped terminal comprises a main body part, a contact part and at least one puncture part are respectively and convexly arranged on two sides of the plate edge of the main body part, the puncture parts puncture and are electrically connected with the core wires, the width of each plate-shaped terminal is narrowed, the two functions of electrically contacting with the butt-joint terminal and fixing the core wires are realized, a fixing part is bent and extended from one side of the main body part and is positioned behind the puncture parts, the fixing parts of the two adjacent plate-shaped terminals are bent and extended along the direction of mutual approaching, each core wire is correspondingly coated and fixed on the surface of each fixing part, the distance between the two adjacent plate-shaped terminals is reasonably utilized, the integral width of the plate-shaped terminal is reduced.

Description

Cable connector and cable connector combination thereof

[ technical field ] A method for producing a semiconductor device

The present invention relates to a cable connector and a cable connector assembly thereof, and more particularly, to a cable connector and a cable connector assembly thereof for use in a vehicle.

[ background of the invention ]

With the development of the automobile industry, the functions of automobiles are more and more diversified, and the types of automobile connectors are more and more, so that the transmission of various functional signals of the automobiles is met. The conventional automobile electric connector for transmitting signals comprises an insulating body and a plurality of sleeve terminals arranged in the insulating body, wherein each sleeve terminal comprises a cylindrical contact part and a pair of clamping parts which are arranged behind the cylindrical contact part and are used for clamping cables side by side, the cylindrical contact part is provided with a convex hull or an elastic arm so as to be abutted against the abutting terminals, the sleeve terminals are assembled in a rubber core, the sleeve terminals are assembled into the insulating body together with the rubber core, the insulating body is provided with a blocking part for blocking the rubber core, so that the sleeve terminals cannot exit from the insulating body, and the two clamping parts jointly clamp a wire.

The cylindrical contact part is composed of four wall surfaces formed by folding a metal plate, so that the cylindrical contact part is large in volume, the elastic arm or the convex hull is required to be arranged in the cylindrical contact part, if the side wall area of the cylindrical contact part is too small, the elastic arm or the convex hull is not arranged in enough space, so that the volume of the cylindrical contact part is further increased on the premise of ensuring that the elastic arm or the convex hull can be arranged, the pair of clamping parts are arranged along the width direction to clamp one wire together, the width of the sleeve terminal is also increased in the width direction, the overall volume of the sleeve terminal is large, the volume of a rubber core for accommodating and fixing the sleeve terminal is also increased, the volume of the insulating body is further increased, the overall volume of the electric connector is also increased, and the thinning of the current electric connector are not facilitated, The development concept of miniaturization. Secondly, the manufacturing process of the sleeve terminal is complicated, the spring arm or the convex hull is formed by stamping, the metal plate is curled, and the like, which not only consumes large material cost, but also complicates the manufacturing process, and further increases the manufacturing cost.

Therefore, there is a need to design a new cable connector and a cable connector assembly thereof to overcome the above-mentioned problems.

[ summary of the invention ]

In view of the problems encountered in the prior art, an object of the present invention is to provide a cable connector and a cable connector assembly thereof, in which a contact portion and a piercing portion are respectively protruded at both sides of a plate edge of a plate-shaped terminal main body portion, and fixing portions are extended from the plate-shaped terminal main body portion in a direction of approaching each other to reduce the overall volume.

In order to achieve the purpose, the invention adopts the following technical scheme: a cable connector comprises an insulating body, at least two terminal grooves are concavely arranged on the outer surface of the insulating body; the cable is arranged behind the insulating body and comprises at least two core wires, and the core wires extend forwards to enter the terminal groove; at least two platy terminals install in the terminal groove, each platy terminal includes a main part, certainly the board edge both sides of main part are protruding respectively and are equipped with a contact site and an at least portion of punctureing, puncture portion puncture and electric connection the heart yearn, and certainly a fixed part is located to the lateral buckling of main part is extended a fixed part the rear of puncturing the portion, adjacent two platy terminal the fixed part is bent along the direction that draws close each other and is extended the formation, each the fixed each of the corresponding cladding of face of fixed part the heart yearn.

Further, the piercing part and the contact part are respectively formed by protruding from the upper side and the lower side of the plate edge of the main body part, and the main body part, the contact part and the piercing part are located on the same plane in the vertical direction.

Furthermore, the outer surface of the insulating body comprises a top surface and a bottom surface which are oppositely arranged along the vertical direction, each terminal groove is formed by upwards concave arrangement of the bottom surface, the contact part is formed by vertically downwards convex arrangement of the plate edge of the main body part and is exposed on the bottom surface, and the puncture part is formed by vertically upwards convex arrangement of the plate edge of the main body part.

Furthermore, at least two grooves are formed in the top surface in a downward concave mode, each groove is correspondingly communicated with each terminal groove, and the fixing portion extends into the grooves from the terminal grooves.

Furthermore, the outer surface of the insulating body further comprises two side surfaces which are connected with the top surface and the bottom surface, two elastic beams extend backwards and parallelly from the front end of the insulating body, the two elastic beams are positioned on the outer side of one of the side surfaces, each elastic beam is provided with a buckling block in a protruding mode in the lateral direction, the rear ends of the two elastic beams are connected with each other and extend backwards to form an operation part, and the distance from the operation part to one of the side surfaces is larger than the distance from the elastic beam to the side surface.

Furthermore, another side of the insulation body is provided with a convex rib in a lateral protruding manner along a direction away from the operation part, and the convex rib and the operation part are positioned on two opposite sides of the insulation body and are both positioned at the rear end of the insulation body.

Furthermore, a guide groove is arranged between the two elastic beams, and the guide groove extends from the front end surface of the insulating body to the operating part backwards.

Further, the fixing portion includes an arc portion that is bent and extended from the plate surface of the main body portion away from the plate-shaped terminal adjacent thereto, and a bent portion that is bent and extended from the arc portion near the plate-shaped terminal adjacent thereto, and the bent portion is located behind the piercing portion and is higher than the piercing portion.

Further, the plate-shaped terminal is mounted in the terminal groove in the vertical direction, the main body portion is provided with a first interference portion in front of the piercing portion, the main body portion is provided with a second interference portion behind the piercing portion, the first interference portion is in interference fit with the front inner wall surface of the terminal groove, and the second interference portion is in interference fit with the rear inner wall surface of the terminal groove.

Furthermore, a bump is arranged on the front end face of the insulating body in a protruding mode, the bump is located in the terminal groove and is stopped above the main body portion, and the bump is stopped in front of the puncture portion.

In another aspect, the present invention further provides a cable connector assembly, including: the cable connector comprises an insulating body, the outer surface of the insulating body comprises a top surface and a bottom surface which are oppositely arranged along the vertical direction, and at least two terminal grooves are upwards and concavely arranged from the bottom surface; the cable is arranged behind the insulating body and comprises at least two core wires, and the core wires extend forwards to enter the terminal groove; at least two plate-shaped terminals are arranged in the terminal groove, each plate-shaped terminal comprises a main body part, a contact part and at least one puncture part are respectively arranged on two sides of the plate edge of the main body part in a protruding mode, the puncture parts puncture and are electrically connected with the core wires, a fixing part is bent and extended from one side of the main body part and is positioned behind the puncture parts, the fixing parts of two adjacent plate-shaped terminals are bent and extended along the direction of mutual approaching, and the plate surface of each fixing part correspondingly covers and fixes each core wire; the butting connector is butted with the cable connector along the front-back direction, the butting connector comprises a plastic body, a butting space is concavely arranged in the plastic body from front to back, at least two butting terminals are accommodated in the butting space, when the butting connector is butted with the cable connector, the insulating body is accommodated in the butting space, the contact part is exposed out of the butting space, and the butting terminals are elastically butted with the plate edge of the contact part.

Further, the piercing part and the contact part are respectively formed by protruding from the upper side and the lower side of the plate edge of the main body part, and the main body part, the contact part and the piercing part are located on the same plane in the vertical direction.

Further, the fixing portion includes an arc portion that is bent and extended from the plate surface of the main body portion away from the plate-shaped terminal adjacent thereto, and a bent portion that is bent and extended from the arc portion near the plate-shaped terminal adjacent thereto, and the bent portion is located behind the piercing portion and is higher than the piercing portion.

Further, the plate-shaped terminal is mounted in the terminal groove in the vertical direction, the main body portion is provided with a first interference portion in front of the piercing portion, the main body portion is provided with a second interference portion behind the piercing portion, the first interference portion is in interference fit with the front inner wall surface of the terminal groove, and the second interference portion is in interference fit with the rear inner wall surface of the terminal groove.

Furthermore, a bump is arranged on the front end face of the insulating body in a protruding mode, the bump is located in the terminal groove and is stopped above the main body portion, and the bump is stopped in front of the puncture portion.

Furthermore, each butt joint terminal including install in an installation department of plastic body diapire, certainly a leading portion that the front end of installation department is reverse to be buckled and the tilt up extends, leading portion with the board edge elasticity butt in vertical direction of contact site, and certainly the rear end of installation department is buckled downwards and is extended a welding part of plastic body.

Furthermore, the outer surface of the insulating body also comprises two side surfaces which are connected with the top surface and the bottom surface, and two elastic beams which are parallelly extended from the front end surface of the insulating body to the rear side, wherein the two elastic beams are both positioned at the outer side of one side surface, each elastic beam is convexly provided with a buckling block at the side direction, the rear ends of the two elastic beams are connected with each other and extend backwards to form an operation part, the distance from the operating part to one of the side surfaces is larger than the distance from the elastic beam to the side surface, the side wall of the plastic body is provided with two buckling grooves corresponding to the two buckling blocks, the buckling grooves are in buckling fit with the buckling blocks, a guide groove is arranged between the two elastic beams, a guide rib is arranged between the two buckling grooves, the guiding rib and the guiding groove are matched to guide the cable connector to be inserted into the butting connector.

Furthermore, another of insulator keep away from the side the protruding fin of establishing of operating portion, the fin with the operating portion is located insulator's relative both sides and all are located insulator's rear end, certainly the front end of another lateral wall of plastic body is the recess and is established a groove of stepping down backward, works as butting connector with when cable connector docks, the fin with the wall interval in groove of stepping down sets up.

Further, when the butting connector is butted with the cable connector, the plastic body covers the front of the convex rib.

Furthermore, two stopping parts are arranged on the side wall of the plastic body in a protruding mode, an accommodating space is arranged between the two stopping parts and communicated with the butting space, when the butting connector is butted with the cable connector, the operating part is accommodated in the accommodating space, and when the butting connector is seen from the top to the bottom in the projection direction, the projection of the operating part is at least partially overlapped with the projection of the stopping parts.

Compared with the prior art, the invention has the following beneficial effects: the cable connector comprises at least two plate-shaped terminals, compared with the existing sleeve terminal, the plate-shaped terminals are smaller in size and narrower in width, the plate-shaped terminals are directly installed in the terminal grooves and are fixed to the insulating body without being additionally provided with other components, the components of the cable connector are reduced, each plate-shaped terminal comprises a main body part which is vertically installed in the terminal groove, the contact part and the puncture part are respectively and convexly arranged from two sides of the plate edge of the main body part, and the contact part and the puncture part extend from the plate edge of the main body part, so that the contact part and the puncture part cannot increase the width of the plate-shaped terminal in the transverse direction, and the two functions of electrically contacting with the butt-joint terminal and fixing the core wire can be realized while the width of the plate-shaped terminal is minimized, the puncturing part punctures and electrically connects the core wire, so that the puncturing part can fix the core wire and can also realize signal transmission, the fixing part is bent and extended from one side of the main body part and is positioned at the rear part of the puncturing part, the fixing parts of two adjacent plate-shaped terminals are bent and extended along the direction of mutual approaching, the plate surface of each fixing part correspondingly coats and fixes each core wire, the fixing part fixes the core wire for the second time on the premise that the puncturing part fixes the core wire for the first time, so that each plate-shaped terminal can be stably arranged in the insulating body and can be stably and electrically connected with the plate-shaped terminals only by arranging one fixing part, each plate-shaped terminal is provided with only one fixing part, the width of the plate-shaped terminal is reduced, and the width of the insulating body is further reduced, therefore, the overall volume of the cable connector is reduced, the fixing parts of two adjacent plate-shaped terminals are arranged along the direction of mutual approaching, and the space between the two adjacent plate-shaped terminals is reasonably utilized, so that the plate-shaped terminals cannot increase the overall width of the plate-shaped terminals due to the arrangement of the fixing parts.

[ description of the drawings ]

FIG. 1 is an exploded perspective view of a cable connector according to the present invention;

FIG. 2 is an exploded perspective view of FIG. 1, turned 180;

FIG. 3 is a perspective assembly view of the cable connector of the present invention;

FIG. 4 is a top view of FIG. 3;

fig. 5 is an exploded perspective view of the docking connector of the present invention;

fig. 6 is a perspective assembly view of the docking connector of the present invention;

FIG. 7 is a schematic view of the cable connector assembly of the present invention when it is not mated;

FIG. 8 is a schematic view of the cable connector assembly of the present invention;

3 fig. 3 9 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 a 3- 3 a 3 of 3 fig. 3 8 3. 3

Detailed description of the embodiments reference is made to the accompanying drawings in which:

cable connector 100	Insulating body 1	Top surface a	Bottom surface b
				Side c	Terminal groove	11	Bump 12	Line-containing slot 13
Groove 14	Spring beam 15	Fastening block 16	Operation unit 17
				Guide groove 18	Convex rib 19	Plate-like terminal 2	Main body part 21
First interference portion 211	Second interference portion 212	Contact part 22	Piercing part 23
				Fixing part 24	Arc part 241	Bent part 242	Docking connector 200
Plastic body 3	Docking space 31	Retaining groove 32	Guide rib 33
				Stop part 34	Accommodating space 35	Abdication groove 36	Butt terminal 4
Mounting part 41	Lead-in portion 42	Welding part 43	Cable 5
				Core wire 51	Coating 52

[ detailed description ] embodiments

For a better understanding of the objects, structure, features, and functions of the invention, reference should be made to the drawings and detailed description that follow.

Referring to fig. 7 and 8, a cable assembly according to the present invention is shown, which is commonly used for network signal transmission in automobiles. The cable connector assembly includes a cable connector 100 and a mating connector 200 mated with the cable connector 100, the mating direction of the cable connector 100 and the mating connector 200 is defined as a front-back direction, the front end of the cable connector 100 is mated with the front end of the mating connector 200, the cable connector 100 is connected to a cable 5, the mating connector 200 is soldered to a circuit board (not shown), and the following description will sequentially describe the cable connector 100 and the mating connector 200.

Referring to fig. 1, the cable connector 100 includes an insulating housing 1, two plate-shaped terminals 2 fixed in the insulating housing 1, wherein the plate surfaces of the two plate-shaped terminals 2 are arranged in parallel and at intervals along a vertical direction, in this embodiment, the number of the plate-shaped terminals 2 is two, and in other embodiments, the number of the plate-shaped terminals 2 may be two or more. The cable 5 is disposed behind the insulating body 1 and partially accommodated in the insulating body 1, the cable 5 includes two core wires 51 and a coating layer 52 coated outside the core wires 51, the coating layer 52 at the front end of the cable 5 is removed to expose the core wires 51, and the core wires 51 extend forward into the insulating body 1, in this embodiment, the number of the core wires 51 is two, and in other embodiments, the number of the core wires 51 may be two or more to correspond to the number of the plate-shaped terminals 2.

Referring to fig. 1, 4, 7 and 9, the outer surface of the insulating body 1 includes a top surface a and a bottom surface b opposite to each other in the vertical direction and two side surfaces c connecting the top surface a and the bottom surface b, two terminal slots 11 are recessed upward from the bottom surface b, and the two terminal slots 11 further penetrate forward through the front end surface of the insulating body 1, in this embodiment, the number of the terminal slots 11 is two, and in other embodiments, the number of the terminal slots 11 may be more than two. The two terminal slots 11 are arranged in parallel at intervals, the terminal slots 11 are used for accommodating the plate-shaped terminal 2, a lug 12 is arranged on the front end face of the insulating body 1 in a protruding mode, and the lug 12 is located in the terminal slots 11. A wire accommodating groove 13 is formed in the rear end face of the insulating body 1 in a forward concave mode, the wire accommodating groove 13 extends forwards to be communicated with the terminal grooves 11, two core wires 51 are accommodated in the wire accommodating groove 13 and extend forwards to the upper portions of the two terminal grooves 11 correspondingly respectively, and each core wire 51 extends forwards to the upper side of the bump 12. Two grooves 14 are recessed downwards from the top surface a, the two grooves 14 are arranged in parallel at intervals and are respectively communicated with the corresponding terminal grooves 11, one of the grooves 14 extends to the side surface c, the other groove 14 extends to the other side surface c, and the grooves 14 are approximately rectangular. Two elastic beams 15 extend from the front end of the insulating body 1 to the rear side in parallel, the two elastic beams 15 are both positioned at the outer side of one side face c, the two elastic beams 15 are arranged at intervals, each elastic beam 15 is provided with a buckling block 16 in a protruding mode in the side direction, the buckling blocks 16 are approximately positioned in the middle of the elastic beams 15, the width of each buckling block 16 is the same as that of the elastic beam 15 on which the buckling block 16 is positioned, the rear ends of the two elastic beams 15 are connected and extend to form an operating part 17 which is inclined backwards away from the side face c, the operating part 17 is located at the rear end of the insulating body 1, the distance from the operating part 17 to one of the side surfaces c is greater than the distance from the elastic beam 15 to the side surface c, so that the operating portion 17 can be pressed to a large extent, which facilitates the smooth insertion of the cable connector 100 into the mating connector 200. A guiding groove 18 is disposed between the two elastic beams 15, the guiding groove 18 extends from the front end surface of the insulating body 1 to the operating portion 17, a protruding rib 19 is laterally protruded from the other side surface c of the insulating body 1 along a direction away from the operating portion 17, the protruding rib 19 and the operating portion 17 are located at two opposite sides of the insulating body 1 and are both located at the rear end of the insulating body 1, so that the cable connector 100 is more convenient to take when exiting from the mating connector 200. The protruding ribs 19 extend continuously in the vertical direction.

Referring to fig. 1, 5 and 9, two plate-shaped terminals 2 are respectively and correspondingly mounted in two terminal slots 11 along a vertical direction, and specifically, the plate-shaped terminals 2 are mounted in the terminal slots 11 from bottom to top. Each of the plate-shaped terminals 2 includes a main body 21 extending in a front-back direction, a contact portion 22 extending vertically downward from a lower plate edge of the main body 21 and exposed at the bottom surface b, the contact portion 22 is located below the main body 21, two piercing portions 23 extending vertically upward from an upper plate edge of the main body 21, the two piercing portions 23 are used for piercing and electrically connecting the core wires 51, the two piercing portions 23 are located above the main body 21, the two piercing portions 23 are arranged in the front-back direction and have the same height as the two piercing portions 23, the piercing portions 23 are substantially tooth-shaped, in this embodiment, the number of the piercing portions 23 is two, and in other embodiments, one or more than two piercing portions 23 may be provided. The contact portion 22, the main body portion 21 and the puncture portion 23 are sequentially arranged from bottom to top, and the main body portion 21, the contact portion 22 and the puncture portion 23 are located on the same plane in the vertical direction, so that the width of the plate-shaped terminal 2 in the transverse direction can be greatly reduced, the width of the terminal groove 11 is further reduced, the size of the cable connector 100 is greatly reduced, and the development trend of miniaturization and thinning is met. The main body 21 is provided with a first interference portion 211 in front of the piercing portion 23, the first interference portion 211 is located at the front end of the main body 21, the first interference portion 211 is in interference fit with the front inner wall surface of the terminal groove 11, the main body 21 is provided with a second interference portion 212 behind the piercing portion 23, the second interference portion 212 is located at the rear end of the main body 21, and the second interference portion 212 is in interference fit with the rear inner wall surface of the terminal groove 11, so that the front and the rear of the plate-shaped terminal 2 are interfered by the inner wall surface of the terminal groove 11, the plate-shaped terminal 2 is prevented from moving upwards in the front and rear direction, the contact portion 22 is ensured not to be easily displaced, the contact portion 22 is more stably contacted with the connector mating 200, and the plate-shaped terminal 2 can be stably fixed in the insulating body 1. From one side of main part 21 is still upwards buckled and is extended a fixed part 24, adjacent two the fixed part 24 of platelike terminal 2 is buckled and is extended along the direction of drawing close each other and form, each the face of fixed part 24 is used for corresponding fixed one of cladding centre gripping heart yearn 51, fixed part 24 further includes certainly the face of main part 21 is kept away from rather than adjacent another the arc portion 241 that platelike terminal 2 buckled and is extended, certainly arc portion 241 is close to rather than adjacent another a bending portion 242 that platelike terminal 2 buckled and extends, bending portion 242 is located pierce the rear of portion 23 and be higher than pierce portion 23, bending portion 242 extends and gets into in the recess 14 and be located the upside of heart yearn 51.

Referring to fig. 1, 2, 3 and 9, the assembly process of the cable connector 100 includes first passing the core wire 51 through the wire accommodating groove 13 from back to front into the terminal groove 11 until the front end of the core wire 51 is located above the bump 12, so that the core wire 51 is completely placed, and then assembling the plate-shaped terminal 2 into the terminal groove 11 from bottom to top, where it is to be noted that when the plate-shaped terminal 2 is not assembled, the bending portion 242 vertically extends from the arc portion 241 to be conveniently inserted into the terminal groove 11, so as to avoid collision between the bending portion 242 and the core wire 51. The first interference portion 211 is in interference fit with the front inner wall surface of the terminal groove 11, the second interference portion 212 is in interference fit with the rear inner wall surface of the terminal groove 11, the plate-shaped terminal 2 moves upward until the upper plate edge of the main body 21 abuts against the bump 12, the bump 12 is located in the terminal groove 11, and is stopped above the main body 21 and in front of the piercing portion 23, so that the plate-shaped terminal 2 does not excessively enter the terminal groove 11 during assembly, on one hand, normal electrical connection between the contact portion 22 and the mating terminal 4 is ensured, on the other hand, excessive piercing of the piercing portion 23 through the core wire 51 can be avoided, so that the piercing portion 23 can maintain stable electrical connection with the core wire 51 while properly fixing the core wire 51, and damage to the core wire 51 caused by the piercing portion 23 can be greatly reduced, further, the plate-like terminal 2 can be further surely restrained in the front-rear direction. Meanwhile, the two piercing portions 23 pierce the outer skin of the core wire 51 to electrically connect with the core wire 51, the piercing portions 23 form a primary fixation to the core wire 51, the arc portion 241 is located at one side of the core wire 51, the bending portion 242 extends into the groove 14 through the terminal groove 11, at this time, a jig (not shown) is used to bend the bending portion 242 toward another adjacent plate-shaped terminal 2 in the groove 14, so that the arc portion 241 and the bending portion 242 jointly wrap and fix the core wire 51, the fixing portion 24 forms a secondary fixation to the core wire 51, so that the core wire 51 is doubly fixed in the insulating body 1, the core wire 51 can be firmly fixed in the insulating body 1 to be electrically connected with the plate-shaped terminal 2, and when the core wire is detached, the bending portion 242 is restored to a state of extending vertically upwards from the arc portion 241 by the jig, the plate-like terminal 2 is withdrawn downward from the terminal groove 11, and the core wire 51 is drawn out. The plate-shaped terminal 2 can also stably fix the core wire 51 under the condition of ensuring the normal function operation of the terminal by two modes of puncture and plate surface wire covering, and other structures are not needed to fix the core wire 51, so that the component composition of the cable connector 100 is reduced, the structure is simple, two grooves 14 are downwards concavely arranged from the top surface a, the operation of the fixing part 24 is simple and easy when the core wire 51 is fixed and loosened, and the grooves 14 are communicated with the terminal groove 11, so that an operator can directly observe whether the core wire 51 is clamped in place by the fixing part 24.

Referring to fig. 1 and 5, the docking connector 200 is configured to dock with the cable connector 100, and the docking connector 200 includes a plastic body 3 and two docking terminals 4 assembled on the plastic body 3 and configured to elastically dock with the two plate-shaped terminals 2, in this embodiment, the number of the docking terminals 4 is two, and in other embodiments, the number of the docking terminals 4 may be more than two. The two butt-joint terminals 4 extend backwards out of the plastic body 3 to be welded with the circuit board.

Referring to fig. 5, 6 and 7, a docking space 31 is recessed from the front end of the plastic body 3, the docking space 31 is used to accommodate the insulator 1, two retaining grooves 32 are formed on the side walls of the plastic body 3 corresponding to the two retaining blocks 16, the retaining grooves 32 are snap-fitted with the retaining blocks 16, a guide rib 33 is formed between the two retaining grooves 32, the guide rib 33 extends continuously in the front-back direction, two stopping portions 34 are protruding from the side walls of the plastic body 3, an accommodating space 35 for accommodating the operating portion 17 is formed between the two stopping portions 34, the stopping portions 34 and the accommodating space 35 are both located in front of the retaining grooves 32 and the guide rib 33, the accommodating space 35 is laterally communicated with the docking space 31, a relief groove 36 is recessed from the front end of the other side wall of the plastic body 3, the receding groove 36 extends continuously in the vertical direction.

Referring to fig. 5 and 9, the docking terminal 4 is accommodated in the docking space 31, the docking terminal 4 includes an installation portion 41 fixed on the bottom wall of the plastic body 3, and a guiding portion 42 bent from the front end of the installation portion 41 in a reverse direction and extending upward in an inclined manner, the guiding portion 42 extends from the bottom wall of the plastic body 3 to the rear end wall of the plastic body 3, the guiding portion 42 is used for elastically abutting against the contact portion 22 in a vertical direction, the docking terminal 4 further includes a welding portion 43 bent downward from the rear end of the installation portion 41 and extending out of the plastic body 3, and the welding portion 43 is used for welding with the circuit board.

Referring to fig. 2, 5, 8 and 9, when the cable connector 100 is mated with the mating connector 200, the operation portion 17 is pressed to move the operation portion 17 toward the side surface c, and then the guiding groove 18 is aligned with the guiding rib 33 to guide the cable connector 100 to be inserted into the mating space 31 of the mating connector 200 along the correct direction, when the cable connector 100 is mated with the mating connector 200, the operation portion 17 and the rib 19 are located on two opposite sides of the insulative housing 1 and are both located behind the insulative housing 1, the plastic body 3 covers the front of the convex rib 19, so that most of the insulation body 1 is covered by the plastic body 3, the shaking amplitude of the cable connector 100 is reduced when the automobile runs, and the shockproof effect of the cable connector 100 is improved. The convex rib 19 and the wall surface of the receding groove 36 are arranged at intervals, so that the operator can hold the operation part 17 in a sufficient space, and the operation is more flexible and convenient. The contact portion 22 is exposed to the mating space 31, the guide portion 42 enters the terminal groove 11 and elastically abuts against the plate edge of the contact portion 22 in the vertical direction, the latching block 16 extends into the latching groove 32 and abuts against the wall surface of the latching groove 32 to prevent the cable connector 100 from exiting the mating connector 200, the operating portion 17 is accommodated in the accommodating space 35, the two stopping portions 34 are respectively located at the upper and lower sides of the operating portion 17, and the projections of the two operating portions 17 and the projections of the stopping portions 34 at least partially overlap when viewed from the top-down projection direction, the stopping portion 34 located above the operating portion 17 can prevent the operating portion 17 from being pressed mistakenly from above, and the stopping portion 34 located below the operating portion 17 can prevent the operating portion 17 from being pressed mistakenly from below.

In summary, the cable connector 100 and the cable connector assembly thereof of the present invention have the following advantages:

1. the cable connector 100 comprises at least two plate-shaped terminals 2, compared with the existing sleeve terminal, the plate-shaped terminals 2 have smaller volume and narrower width, the plate-shaped terminals 2 are directly mounted in the terminal grooves 11 without being fixed to the insulating body 1 by adding other components, so that the components of the cable connector 100 are reduced, each plate-shaped terminal 2 comprises a main body portion 21 vertically mounted in the terminal groove 11, a contact portion 22 and a puncture portion 23 are respectively convexly arranged from two sides of the plate edge of the main body portion 21, the contact portion 22 and the puncture portion 23 extend from the plate edge of the main body portion 21, so that the contact portion 22 and the puncture portion 23 do not increase the width of the plate-shaped terminal 2 in the transverse direction, and the plate-shaped terminal 2 can realize two functions of electrical contact with the butt terminal 4 and fixing the core wire 51 while the width of the plate-shaped terminal 2 is narrowest, the puncturing part 23 punctures and electrically connects the core wire 51, so that the puncturing part 23 can fix the core wire 51 and can also realize signal transmission, the fixing part 24 is bent and extended from one side of the main body part 21 and is positioned behind the puncturing part 23, the fixing parts 24 of two adjacent plate-shaped terminals 2 are bent and extended along the direction of mutual approaching, the plate surface of each fixing part 24 correspondingly coats and fixes each core wire 51, so that the fixing part 24 secondarily fixes the core wire 51 on the premise that the puncturing part 23 primarily fixes the core wire 51, each plate-shaped terminal 2 can be stably arranged in the insulating body 1 by only arranging one fixing part 24, the stable electrical connection is formed between the core wire 51 and the plate-shaped terminal 2, and each plate-shaped terminal 2 is provided with only one fixing part 24 to reduce the width of the plate-shaped terminal 2, and further reducing the width of the insulating body 1, thereby reducing the overall volume of the cable connector 100, and the fixing portions 24 of two adjacent plate-shaped terminals 2 are arranged along the direction of approaching each other, so that the distance between the two adjacent plate-shaped terminals 2 is reasonably utilized, and the plate-shaped terminals 2 cannot increase the overall width of the plate-shaped terminals 2 due to the arrangement of the fixing portions 24.

2. The piercing part 23 extends vertically upward from the main body part 21, the contact part 22 extends vertically downward from the main body part 21, and the main body part 21, the contact part 22 and the piercing part 23 are located on the same plane in the vertical direction, so that the width of the plate-shaped terminal 2 in the transverse direction can be greatly reduced, the width of the terminal groove 11 is further reduced, the volume of the cable connector 100 is greatly reduced, and the development trend of miniaturization and thinning is met.

3. Two grooves 14 are formed in the top surface a in a downward concave mode, each groove 14 is correspondingly communicated with each terminal groove 11, the bending portion 242 extends from the terminal groove 11 to enter the groove 14, the assembly and the disassembly of the cable connector 100 are very convenient, when parts are replaced, the fixing portion 24 can be fixed or loosened by bending the bending portion 242 through the jig, the operation is simple, the grooves 14 are communicated with the terminal grooves 11, and the operator can directly observe whether the fixing portion 24 clamps the core wires 51 in place.

4. The main body 21 is provided with the first interference portion 211 in front of the puncture portion 23, the first interference portion 211 is located at the front end of the main body portion 21, the first interference portion 211 is in interference fit with the front inner wall surface of the terminal groove 11, the main body 21 is provided with the second interference portion 212 at the rear of the puncture portion 23, the second interference portion 212 is located at the rear end of the main body portion 21, the second interference portion 212 is in interference fit with the rear inner wall surface of the terminal groove 11, the front and rear of the plate-like terminal 2 are interfered by the inner wall surface of the terminal groove 11, the plate-like terminal 2 is prevented from moving in the front and rear direction, the contact part 22 is ensured not to be easily displaced, thereby, the contact portion 22 is more firmly contacted with the mating connector 200, and the plate-shaped terminal 2 can be firmly fixed in the insulating body 1.

5. The bump 12 is located in the terminal groove 11, and is stopped above the main body portion 21 and in front of the piercing portion 23, so that the plate-shaped terminal 2 does not excessively enter the terminal groove 11 during assembly, on one hand, normal electrical connection between the contact portion 22 and the butt terminal 4 is ensured, on the other hand, excessive piercing of the core wire 51 by the piercing portion 23 can be avoided, the piercing portion 23 can properly fix the core wire 51 and can also maintain stable electrical connection with the core wire 51, and furthermore, the plate-shaped terminal 2 can be further ensured to be limited in the front-back direction.

6. The guiding groove 18 is disposed between the two elastic beams 15, the guiding rib 33 is disposed between the two latching grooves 32, the guiding groove 18 aligns with the guiding rib 33 to guide the cable connector 100 to be inserted into the mating space 31 of the mating connector 200 in a correct orientation, the latching block 16 extends into the latching groove 32 and abuts against the wall surface of the latching groove 32 to prevent the cable connector 100 from exiting the mating connector 200, and the distance from the operating portion 17 to one of the side surfaces c is greater than the distance from the elastic beam 15 to the side surface c, so that the operating portion 17 can be pressed to a greater extent, and the cable connector 100 can be inserted into the mating connector 200 smoothly.

7. The protruding rib 19 is laterally protruded from the other side face c far away from the operation portion 17, the protruding rib 19 and the operation portion 17 are located on two opposite sides of the insulation body 1 and are both located at the rear end of the insulation body 1, so that the cable connector 100 is convenient to take when exiting from the butting connector 200, when the cable connector 100 is butted with the butting connector 200, the protruding rib 19 and the wall surface of the receding groove 36 are arranged at intervals, and further, the operator can hold the cable connector in a sufficient space when operating the operation portion 17, and the use is more flexible and convenient.

8. The two puncturing parts 23 puncture the outer skin of the core wire 51 to electrically connect with the core wire 51, the puncturing parts 23 form a primary fixation for the core wire 51, the arc-shaped part 241 and the bending part 242 together cover and fix the core wire 51, the fixing part 24 forms a secondary fixation for the core wire 51, so that the core wire 51 is doubly fixed in the insulating body 1, the core wire 51 can be firmly fixed in the insulating body 1 to be electrically connected with the plate-shaped terminal 2, the plate-shaped terminal 2 can stably fix the core wire 51 under the condition of ensuring the normal functional operation of the terminal through two modes of puncturing and plate surface wire covering, other structures are not needed to fix the core wire 51, and the component composition of the cable connector 100 is reduced and the structure is simple.

9. When the cable connector 100 is connected to the mating connector 200, the operation portion 17 and the protruding rib 19 are located on two opposite sides of the insulating body 1 and located behind the insulating body 1, and the plastic body 3 covers the front of the protruding rib 19, so that most of the insulating body 1 is covered by the plastic body 3, the shaking range of the cable connector 100 is reduced when the automobile runs, and the anti-vibration effect of the cable connector 100 is improved.

10. The two stopping portions 34 are protruded from the side wall of the plastic body 3, the accommodating space 35 is disposed between the two stopping portions 34, when the cable connector 100 is inserted into the mating connector 200, the two stopping portions 34 are respectively located at the upper and lower sides of the operating portion 17, when viewed from the top-down projection direction, the projections of the two operating portions 17 and the projections of the stopping portions 34 are at least partially overlapped, the stopping portion 34 located above the operating portion 17 can prevent the operating portion 17 from being pressed by mistake from above, and the preventing portion located below the operating portion 17 can prevent the operating portion 17 from being pressed by mistake from below.

The above detailed description is only for the purpose of illustrating the preferred embodiments of the present invention, and not for the purpose of limiting the scope of the present invention, therefore, all technical changes that can be made by applying the present specification and the drawings are included in the scope of the present invention.

Claims (20)

1. A cable connector, comprising:

the insulation body is provided with at least two terminal grooves in a concave mode from the outer surface of the insulation body;

the cable is arranged behind the insulating body and comprises at least two core wires, and the core wires extend forwards to enter the terminal groove;

at least two platy terminals install in the terminal groove, each platy terminal includes a main part, certainly the board edge both sides of main part are protruding respectively and are equipped with a contact site and an at least portion of punctureing, puncture portion puncture and electric connection the heart yearn, and certainly a fixed part is located to the lateral buckling of main part is extended a fixed part the rear of puncturing the portion, adjacent two platy terminal the fixed part is bent along the direction that draws close each other and is extended the formation, each the fixed each of the corresponding cladding of face of fixed part the heart yearn.

2. The cable connector of claim 1, wherein: the puncture part and the contact part are respectively formed by protruding from the upper side and the lower side of the plate edge of the main body part, and the main body part, the contact part and the puncture part are positioned on the same plane in the vertical direction.

3. The cable connector of claim 1, wherein: the outer surface of the insulating body comprises a top surface and a bottom surface which are oppositely arranged along the vertical direction, each terminal groove is formed by upwards concave arrangement of the bottom surface, the contact part is formed by vertically downwards convex arrangement of the plate edge of the main body part and is exposed on the bottom surface, and the puncture part is formed by vertically upwards convex arrangement of the plate edge of the main body part.

4. The cable connector of claim 3, wherein: at least two grooves are formed in the top surface in a downward concave mode, each groove is correspondingly communicated with each terminal groove, and the fixing portion extends into the grooves from the terminal grooves.

5. The cable connector of claim 3, wherein: the outer surface of the insulating body further comprises two side surfaces connected with the top surface and the bottom surface, two elastic beams extend backwards and parallelly from the front end of the insulating body, the two elastic beams are located on the outer side of one of the side surfaces, each elastic beam is provided with a buckling block in a protruding mode in the lateral direction, the rear ends of the two elastic beams are connected with each other and extend backwards to form an operation portion, and the distance from the operation portion to one of the side surfaces is larger than the distance from the elastic beam to the side surface.

6. The cable connector of claim 5, wherein: another side of insulator along keeping away from the direction side direction protruding of operating portion establishes a fin, the fin with the operating portion is located insulator's relative both sides just all are located insulator's rear end.

7. The cable connector of claim 5, wherein: a guide groove is arranged between the two elastic beams and extends backwards from the front end surface of the insulating body to the operating part.

8. The cable connector of claim 1, wherein: the fixing part comprises an arc-shaped part which is far away from the plate surface of the main body part and is adjacent to the plate-shaped terminal, the arc-shaped part is bent and extended, the arc-shaped part is close to the bending part which is adjacent to the plate-shaped terminal, the bending part is bent and extended, and the bending part is located behind the puncture part and is higher than the puncture part.

9. The cable connector of claim 1, wherein: the plate-shaped terminal is installed in the terminal groove along the vertical direction, a first interference part is arranged in front of the puncture part of the main body part, a second interference part is arranged behind the puncture part of the main body part, the first interference part is in interference fit with the front inner wall surface of the terminal groove, and the second interference part is in interference fit with the rear inner wall surface of the terminal groove.

10. The cable connector of claim 1, wherein: a convex block is arranged on the front end face of the insulating body in a protruding mode backwards, the convex block is located in the terminal groove and is stopped above the main body portion, and the convex block is stopped in front of the puncture portion.

11. A cable connector assembly, comprising:

the cable connector comprises an insulating body, the outer surface of the insulating body comprises a top surface and a bottom surface which are oppositely arranged along the vertical direction, and at least two terminal grooves are upwards and concavely arranged from the bottom surface; the cable is arranged behind the insulating body and comprises at least two core wires, and the core wires extend forwards to enter the terminal groove; at least two plate-shaped terminals are arranged in the terminal groove, each plate-shaped terminal comprises a main body part, a contact part and at least one puncture part are respectively arranged on two sides of the plate edge of the main body part in a protruding mode, the puncture parts puncture and are electrically connected with the core wires, a fixing part is bent and extended from one side of the main body part and is positioned behind the puncture parts, the fixing parts of two adjacent plate-shaped terminals are bent and extended along the direction of mutual approaching, and the plate surface of each fixing part correspondingly covers and fixes each core wire;

the butting connector is butted with the cable connector along the front-back direction, the butting connector comprises a plastic body, a butting space is concavely arranged in the plastic body from front to back, at least two butting terminals are accommodated in the butting space, when the butting connector is butted with the cable connector, the insulating body is accommodated in the butting space, the contact part is exposed out of the butting space, and the butting terminals are elastically butted with the plate edge of the contact part.

12. The cable connector assembly of claim 11, wherein: the puncture part and the contact part are respectively formed by protruding from the upper side and the lower side of the plate edge of the main body part, and the main body part, the contact part and the puncture part are positioned on the same plane in the vertical direction.

13. The cable connector assembly of claim 11, wherein: the fixing part comprises an arc-shaped part which is far away from the plate surface of the main body part and is adjacent to the plate-shaped terminal, the arc-shaped part is bent and extended, the arc-shaped part is close to the bending part which is adjacent to the plate-shaped terminal, the bending part is bent and extended, and the bending part is located behind the puncture part and is higher than the puncture part.

14. The cable connector assembly of claim 11, wherein: the plate-shaped terminal is installed in the terminal groove along the vertical direction, a first interference part is arranged in front of the puncture part of the main body part, a second interference part is arranged behind the main body part and the puncture part, the first interference part is in interference fit with the front inner wall surface of the terminal groove, and the second interference part is in interference fit with the rear inner wall surface of the terminal groove.

15. The cable connector assembly of claim 11, wherein: a convex block is arranged on the front end face of the insulating body in a protruding mode backwards, the convex block is located in the terminal groove and is stopped above the main body portion, and the convex block is stopped in front of the puncture portion.

16. The cable connector assembly of claim 11, wherein: each butt joint terminal including install in an installation department of plastic body diapire, certainly the front end of installation department is reverse buckles and a lead the portion of connecting that the tilt up extends, lead the portion of connecting with the board edge elasticity butt in vertical direction of contact site, and certainly the rear end of installation department is buckled downwards and is extended a welding part of plastic body.

17. The cable connector assembly of claim 11, wherein: the outer surface of the insulating body further comprises two side surfaces connected with the top surface and the bottom surface, and two elastic beams which extend from the front end surface of the insulating body to the rear side in parallel, wherein the two elastic beams are positioned outside one of the side surfaces, each elastic beam is provided with a buckling block in a protruding mode in the side direction, the rear ends of the two elastic beams are connected with an operation part extending backwards, the distance from the operation part to one of the side surfaces is larger than the distance from the elastic beam to the side surface, the side wall of the plastic body is provided with two buckling grooves corresponding to the two buckling blocks, the buckling grooves are matched with the buckling blocks in a buckling mode, a guide groove is arranged between the two elastic beams, a guide rib is arranged between the two buckling grooves, and the guide rib is matched with the guide groove to guide the cable connector to be inserted into the butting connector.

18. The cable connector assembly of claim 17, wherein: another of insulator keep away from the side protruding a fin of establishing of operating portion, the fin with the operating portion is located insulator's relative both sides and all are located insulator's rear end, certainly the front end of another lateral wall of plastic body is to the back concave groove of stepping down of establishing, works as butting connector with when cable connector docks, the fin with the wall interval in groove of stepping down sets up.

19. The cable connector assembly of claim 18, wherein: when the butting connector is butted with the cable connector, the plastic body covers the front of the convex rib.

20. The cable connector assembly of claim 17, wherein: two stopping parts are arranged on the side wall of the plastic body in a protruding mode, an accommodating space is arranged between the two stopping parts and communicated with the butting space, when the butting connector is butted with the cable connector, the operating part is accommodated in the accommodating space, and when the butting connector is seen from the top to the bottom in the projection direction, the projection of the operating part is at least partially overlapped with the projection of the stopping parts.

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