CN215989585U - Assembled electric connector - Google Patents

Abstract

The utility model relates to an assembled electric connector, comprising a base and an upper cover, wherein a round terminal block is formed at the upper end of the base, a first electric connection terminal is arranged at the center of the terminal block, a second electric connection terminal is arranged on the base in an external connection mode, and the second electric connection terminal is in a ring sheet shape, is positioned at the periphery of the terminal block and is mutually isolated from the second electric connection terminal through the terminal block; the upper cover is in a hollow cylinder shape, is rotatably combined at the upper end of the base and enables the second electric terminal to be attached to the inner wall of the upper cover in a matching way; the second electric terminal is arranged on the terminal table of the base in an external connection mode and is not molded together with the base, so that an expensive vehicle terminal is not needed, the manufacture is convenient, and the cost is effectively reduced.

Description

Assembled electric connector

Technical Field

The present invention relates to an electrical connector, and more particularly, to an assembled electrical connector.

Background

The electric vehicle and/or the electric motorcycle must use the battery to supply the electric power needed by the operation, and a connector used as the connection interface between the vehicle end and the battery end is shown in fig. 9 and fig. 10, which comprises a base 70, a negative electric connection terminal 71, a positive electric connection terminal 72, a negative electric connection sheet 73, and a positive electric connection sheet 74; the negative pole electrical terminal 71 and the positive pole electrical terminal 72 are coaxially arranged in the base 70, an isolation seat 75 is further formed in the base 70, and the isolation seat 75 is positioned between the negative pole electrical terminal 71 and the positive pole electrical terminal 72 so as to isolate the negative pole electrical terminal 71 and the positive pole electrical terminal 72 from each other; the negative electrode electrical terminal 71 is hollow cylinder, a first crown spring 76 is arranged in the negative electrode electrical terminal 71 in an electrically connected mode, the positive electrode electrical terminal 72 is tubular, a second crown spring 77 is arranged in the positive electrode electrical terminal 72 in an electrically connected mode, when a connector with a matched specification is inserted into the connector, the connector is respectively in electrical contact with the first crown spring 76 and the second crown spring 77, and then is respectively in electrical connection with the negative electrode electrical terminal 71 and the positive electrode electrical terminal 72.

The base 70 is manufactured by Molding (Molding) in which the negative electrode electrical connection terminal 71 and the positive electrode electrical connection terminal 72 are simultaneously placed in a mold to mold the base 70, and after the Molding of the base 70 is completed, the negative electrode electrical connection terminal 71 and the positive electrode electrical connection terminal 72 are simultaneously fixed in the base 70 and are separated from each other by a separation seat 75 inside the base 70. Because the negative electrode electric terminal 71 and the positive electrode electric terminal 72 are placed in the mold when the base 70 is molded, considering the problems of mold design and strength, and the like, the negative electrode electric terminal 71 and the positive electrode electric terminal 72 need to use the vehicle parts, but the vehicle parts have large material consumption and more waste materials except the time-consuming process, and relatively improve the manufacturing cost, wherein the negative electrode electric terminal 71 is particularly large in outer diameter and much larger in material consumption than the positive electrode electric terminal 72, so the vehicle parts used by the negative electrode electric terminal 71 are naturally more expensive than the vehicle parts used by the positive electrode electric terminal 72.

Referring to fig. 10 and 11, the base 70 is formed with an inner cavity 78 below the isolation seat 75, and in order to match the installation manner that a relative included angle is formed between the negative electrical connection plate 73 and the positive electrical connection plate 74, the inner cavity 78 is limited within a specific range of the bottom of the base 70, in this case, the smaller the range of the inner cavity 78 is, the larger the space around the bottom of the base 70 is, and the higher the possibility of material stealing during molding to save the injected material is. However, the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 of the existing electrical connector are limited by the structure and the installation mode, so that the possibility of material stealing during molding is reduced.

As shown in fig. 11 and 12, the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 each have a vertical portion, the upper and lower ends of the vertical portion each have an upper horizontal portion 731, 741 and a lower horizontal portion 732, 742, and the upper horizontal portions 731, 741 and the lower horizontal portions 732, 742 extend in opposite directions, respectively, wherein the upper horizontal portions 731, 741 of the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 are screwed to the bottom portions of the negative electrode electrical connection terminal 71 and the positive electrode electrical connection terminal 72 by screws 733, 743, respectively, to form electrical connection. As shown in fig. 13, after the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 are mounted, the bottom of the base 70 is filled with the sealant 79, the sealant 79 fills the cavity 78, the upper horizontal portions 731 and 741 of the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74, and further fills the periphery of the cavity 78, so that only the lower horizontal portions 732 and 742 of the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 are exposed outside the sealant 79 for external electrical connection.

As described in the foregoing, the negative electrode electrical connection sheet 73 and the positive electrode electrical connection sheet 74 reduce the possibility of material theft during molding due to the structure and the installation manner, mainly because the negative electrode electrical connection sheet 73 and the positive electrode electrical connection sheet 74 are respectively combined with the bottoms of the negative electrode electrical connection terminal 71 and the positive electrode electrical connection terminal 72 through the upper horizontal portions 731 and 741 thereof, and the upper horizontal portions 731 and 741 directly determine the size of the space of the cavity 78, more specifically, if the upper horizontal portions 731 and 741 thereof cannot be cancelled or reduced by the negative electrode electrical connection sheet 73 and the positive electrode electrical connection sheet 74 thereof under the premise of considering the electrical characteristics, the possibility of material theft during molding is relatively reduced.

In addition to the above problems, the negative electrode electrical connection piece 73 and the positive electrode electrical connection piece 74 are exposed from the sealing compound 79 by the vertical portion and the horizontal portions 732 and 742, and since they are disposed opposite to each other at an included angle, the nearest distance of the exposed portions does not meet the safety requirement that the creepage distance must be greater than 17.6 mm.

As can be seen from the above, the conventional electric connector for electric vehicles still has many problems in structure, and further research and feasible solutions are still needed.

SUMMERY OF THE UTILITY MODEL

Therefore, the present invention is directed to an assembled electrical connector, which is assembled by using a part of main components in an external connection manner, so as to avoid using expensive vehicle parts, save materials, facilitate manufacturing, and reduce production cost.

The main technical means adopted to achieve the above object is to make the assembled electrical connector include:

a base, on the upper end of which a round terminal block is formed, and the center of the terminal block is provided with a first electric terminal which is provided with an upper end and a lower end, and the upper end of the first electric terminal is exposed out of the terminal block;

the second electric terminal is in a ring sheet shape, is externally grounded at the periphery of the terminal table of the base, and is coaxial and mutually isolated from the first electric terminal through the terminal table;

the upper cover is in a hollow cylindrical shape and is relatively combined with the upper end of the base, so that the upper end of the first electric terminal is positioned at the center of the inner part of the upper cover, and the second electric terminal is attached to the inner wall of the upper cover in a matching mode.

In the electric connector, the second electric connection terminal is arranged on the terminal table of the base in an external connection mode and is not molded together with the base, so that expensive vehicle parts are not needed, materials can be saved, and cost can be effectively reduced. On the other hand, the upper end of the electric connector base is oppositely combined with the upper cover, and the first electric terminal and the second electric terminal are fixed on a coaxial opposite position by the upper cover, so that the assembly and the production are convenient.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is an exploded view of the base and cover of the present invention.

Fig. 3 is a combined sectional view of the base and the upper cover of the present invention.

FIG. 4 is an exploded view of the base, the first electrical connection sheet and the second electrical connection sheet of the present invention.

Fig. 5 is a bottom plan view of the base of the present invention.

FIG. 6 is an external view of the first and second electrical connection pads of the present invention.

Fig. 7 is an assembled cross-sectional view of the present invention.

Fig. 8 is a bottom view of the present invention.

Fig. 9 is a perspective view of a conventional electrical connector.

Fig. 10 is a combined cross-sectional view of a conventional electrical connector.

Fig. 11 is an exploded view of a prior art electrical connector.

Fig. 12 is a bottom plan view of a prior art electrical connector.

Fig. 13 is a sectional view of another assembly of the prior art electrical connector.

Detailed Description

The technical means adopted by the utility model to achieve the predetermined purpose of the utility model will be further described below with reference to the drawings and preferred embodiments of the utility model.

Referring to fig. 1 and 2, a base 10 is assembled with an upper cover 20, the base 10 has a first electrical terminal 30 thereon, and a second electrical terminal 40 is externally connected to the base, the second electrical terminal 40 is located on an inner wall of the upper cover 20 and coaxially located at a periphery of the first electrical terminal 30. The bottom of the base 10 is provided with a first electrical connecting sheet 50 and a second electrical connecting sheet 60, which are electrically connected to the first electrical terminal 30 and the second electrical terminal 40, respectively. The first electric connecting terminal 30 can be used as a negative or positive electric connecting terminal, the first electric connecting sheet 50 can be used as a negative or positive electric connecting sheet, the second electric connecting terminal 40 can be used as a positive or negative electric connecting terminal, and the second electric connecting sheet 60 can be used as a positive or negative electric connecting sheet; in the present embodiment, the first electrical terminal 30 is used as a positive electrical terminal, the second electrical terminal 40 is used as a negative electrical terminal, the first electrical connector 50 is used as a positive electrical connector, and the second electrical connector 60 is used as a negative electrical connector, but not limited thereto.

Referring to fig. 2, the base 10 is formed by extending a circular step 11 upward from the center of a circular base, the outer diameter of the step 11 is smaller than that of the base, the step 11 further extends upward to form a terminal block 12, and the outer diameter of the terminal block 12 is smaller than that of the step 11, so that the base 10 is substantially in the shape of a circular tower.

The first electrical terminals 30 are disposed at the center of the terminal block 12. in terms of manufacturing process, the first electrical terminals 30 are placed in a mold when the base 10 is molded, and after the base 10 is molded, the first electrical terminals 30 are disposed at the center of the terminal block 12 of the base 10. The terminal block 12 is generally cylindrical, and more than two ribs 121 are formed on the radial wall of the terminal block 12 along the circumference for combining with the upper cover 20.

A through slot 122 is further formed on the radial wall of the terminal block 12, and the through slot 122 penetrates through the bottom of the base 10 in the vertical direction, that is, the through slot 122 also passes through the step 11 of the base 10, and the step 11 forms a fixing hole 111 on the corresponding radial wall, and the fixing hole 111 intersects and communicates with the through slot 122. The through groove 122 is used for fixing the second electrical terminal 40, the second electrical terminal 40 is in a ring sheet shape and is mainly formed by bending a conductive metal thin material after being punched and cut, the inner diameter of the second electrical terminal is matched with the outer diameter of the terminal block 12 and is suitable for being sleeved on the periphery of the terminal block 12, and therefore the second electrical terminal 40 is coaxial with the first electrical terminal 30 in the center of the terminal block 12 and is isolated from the first electrical terminal through the terminal block 12.

The bottom edge of the second electrical terminal 40 extends downward to form an elongated electrical connection portion 41, the lower end of the electrical connection portion 41 forms a connection hole 42, the electrical connection portion 41 corresponds to the through slot 122 on the terminal block 12, when the electrical connection portion 41 is inserted into the through slot 122, the connection hole 42 at the lower end thereof corresponds to the fixing hole 111 on the radial wall of the step 11, and the corresponding fixing hole 111 and the corresponding connection hole 42 are penetrated by a screw 43, so as to be connected with the second electrical connection piece 60 and form an electrical connection, which will be described in detail later.

The upper cover 20 is hollow cylinder, one end of which forms a circular insertion opening 21, the other end forms a circular combination opening 22, the inner diameter of the combination opening 22 matches with the outer diameter of the terminal block 12, and the combination opening 22 forms a plurality of strip-shaped blocks 221 along the inner circumference at the opening inner edge, the number of the blocks 221 matches with the convex rib 121 on the radial wall of the terminal block 12, in this embodiment, the upper cover 20 forms three blocks 221 at the opening inner edge of the combination opening 22, and they are arranged in equal angle to correspond to the convex rib 121 on the terminal block 12. The length of each latch 221 is smaller than the gap 123 between adjacent ribs 121 on the terminal block 12, when the upper cover 20 is coupled to the terminal block 12 of the base 10, the upper cover 20 is aligned with the latch 221 at the opening of the coupling opening 22 to the gap 123 between adjacent ribs 121 on the terminal block 12, so that the terminal block 12 can be covered by the upper cover 20, when the upper cover 20 is completely covered, the latch 221 of the coupling opening 22 of the upper cover 20 and the rib 121 of the terminal block 12 are staggered, but the latch 221 is located below the rib 121 in height, at this time, the latch 221 can be rotated to below the rib 121 and stopped by the rib 121 by rotating the upper cover 20, so that the upper cover 20 can be coupled to the terminal block 12 of the base 10, and the coupling is as shown in fig. 3.

Still referring to fig. 2, the latch 221 formed on the inner edge of the opening of the combining opening 22 of the upper cover 20 is L-shaped, that is, a stop portion is formed at one end of the latch 221 to limit the rotation angle of the upper cover 20.

Referring to fig. 2 and 3, more than one ring groove 13 is coaxially formed on the surface of the terminal block 12 of the base 10, and the depth of the ring groove 13 is at least greater than one half of the radius of the terminal block 12, so that the insulating surface of the terminal block 12 can be enlarged, a sufficient creepage distance meeting the safety requirement is ensured between the first electrical terminal 30 at the center of the terminal block 12 and the second electrical terminal 40 at the periphery of the terminal block 12, and the heat dissipation area of the terminal block 12 is enlarged.

The terminal block 12 has a thickness, a bottom end of the terminal block 12 extends downward to the inside of the step 11, a bottom end portion of the first electrical terminal 30 at the center of the terminal block 12 is exposed at the bottom end of the terminal block 12, please refer to fig. 4 and 5, an inner cavity 14 is formed at the bottom of the base 10 below the bottom end of the terminal block 12, the inner cavity 14 is communicated with the through groove 122 of the terminal block 12, and the inner cavity 14 is used for installing the first electrical connecting sheet 50 and the second electrical connecting sheet 60. Referring to fig. 6, the first electrical connection pad 50 includes a vertical portion, the upper and lower ends of the vertical portion extend horizontally to form an upper horizontal portion 51 and a lower horizontal portion 52, the upper horizontal portion 51 is located in the cavity 14 and is electrically connected to the bottom end of the first electrical connection terminal 30 by a screw 54.

The second electrical connection sheet 60 includes a vertical portion and a horizontal portion 62 extending from a lower end of the vertical portion in a horizontal direction, and a fixing hole 61 is formed at an upper end of the vertical portion. The second electrical connection sheet 60 is inserted into the cavity 14 with its vertical portion, and the fixing holes 61 at the upper end of the vertical portion correspond to the fixing holes 111 on the radial wall of the step 11 and the combining holes 42 of the electrical connection portion 41 of the second electrical connection terminal 40, and as shown in fig. 7, when the screws 43 pass through the fixing holes 111 of the step 11, the screws are screwed with the vertical portion of the second electrical connection sheet 60 and the electrical connection portion 41 of the second electrical connection terminal 40 to form electrical connection. Since the second electrical connecting piece 60 is located in the inner cavity 14 with a vertical part in a sheet shape, the range of the inner cavity 14 can be reduced as much as possible. Under the condition that the range of the inner cavity 14 is reduced, more than one material stealing groove 15 is formed at the periphery of the inner cavity 14 at the bottom of the base 10, thereby effectively reducing the material consumption during molding.

Referring to fig. 8, after the first and second electrical connection pads 50 and 60 are mounted, the sealant 16 is further injected into the bottom of the base 10 and fills the inner cavity 14. Because the first and second electrical connection sheets 50, 60 are disposed at the bottom of the base 10 at a relative angle, it is necessary to consider whether the creepage distance formed by the first and second electrical connection sheets 50, 60 along the surface of the sealing compound 16 meets the safety requirement, and in order to ensure that there is a sufficient creepage distance between the first and second electrical connection sheets 50, 60, the parts of the first and second electrical connection sheets 50, 60 exposed out of the sealing compound 16 except the tail end of the lower horizontal portion 52 and the tail end of the horizontal portion 62 for electrical connection are covered with an isolation layer 53, 63, and by the arrangement of the isolation layer 53, 63, the insulation surface between the first and second electrical connection sheets 50, 60 can be greatly extended, thereby meeting the creepage distance meeting the safety requirement.

Still referring to fig. 7, a first crown spring 31 and a second crown spring 44 are respectively disposed in the first electrical terminal 30 and the second electrical terminal 40, the first electrical terminal 30 is hollow and tubular, an upper slot chamber 301 and a lower slot chamber 302 are formed in the first electrical terminal 30 and are communicated with each other, the first crown spring 31 and a contact spring 32 are disposed in the upper slot chamber 301, and the first crown spring 31 is disposed at the upper end of the contact spring 32 and is located inside the opening of the first electrical terminal 30. The second crown spring 44 is attached to the inner wall of the second electrical terminal 40 and forms an electrical connection. When the electrical connector of the present invention is plugged with a mating connector, the first electrical terminal 30 and the second electrical terminal 40 are electrically connected by the first crown spring 31, the second crown spring 44 and the corresponding plugged connector, respectively.

It can be seen from the above description that the specific structure of a preferred embodiment of the present invention can be utilized to make the second electrical terminal externally connected to the terminal block of the base without being molded with the base, thereby saving material and effectively reducing cost. In addition, the utility model uses the ring-shaped second electric connecting terminal to match with the specially designed second electric connecting sheet, so that the second electric connecting sheet is only inserted into the inner cavity of the base by the sheet-shaped vertical part and is combined with the second electric connecting terminal to form electric connection.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. An assembled electrical connector, comprising:

a base, on the upper end of which a round terminal block is formed, and the center of the terminal block is provided with a first electric terminal which is provided with an upper end and a lower end, and the upper end of the first electric terminal is exposed out of the terminal block;

the second electric terminal is in a ring sheet shape, is externally grounded at the periphery of the terminal table of the base, and is coaxial and mutually isolated from the first electric terminal through the terminal table;

the upper cover is in a hollow cylindrical shape and is relatively combined with the upper end of the base, so that the upper end of the first electric terminal is positioned at the center of the inner part of the upper cover, and the second electric terminal is attached to the inner wall of the upper cover in a matching mode.

2. The assembled electrical connector of claim 1, wherein the terminal block is cylindrical and has two or more ribs arranged at equal angles formed on a radial wall thereof along a circumference;

the upper cover is hollow and cylindrical, a circular insertion opening is formed at one end of the upper cover, a circular combining opening is formed at the other end of the upper cover, the inner diameter of the combining opening is matched with the outer diameter of the terminal block, a plurality of strip-shaped clamping blocks are formed at the inner edge of the opening of the combining opening along the inner circumference, and the number of the clamping blocks is matched with the number of the convex ribs on the radial wall of the terminal block.

3. The assembled electrical connector as claimed in claim 2, wherein a stop portion is formed at one end of the latch of the engaging opening of the top cover to make the latch take an L-shape.

4. The assembled electrical connector of claim 1, wherein a through-slot is further formed on the radial wall of the terminal block, and the through-slot penetrates through the bottom of the base in a vertical direction;

the bottom edge of the second electric terminal extends downwards to form a long and narrow sheet-shaped electric connection part which correspondingly penetrates into the through groove on the terminal block.

5. The assembly electrical connector of claim 4, wherein the base is formed with a circular step extending upward from a center of a circular base, the step extending upward to form the terminal block, and a fixing hole formed on a radial wall of the step;

the lower end of the electric connection part of the second electric connection terminal is provided with a combination hole, and the combination hole corresponds to the fixing hole of the step.

6. The assembled electrical connector of claim 5, wherein the bottom of the base defines an interior cavity below the bottom end of the terminal block, the interior cavity communicating with the through slot of the terminal block;

the first electric connecting sheet comprises a vertical part, the upper end and the lower end of the vertical part respectively extend towards the horizontal direction to form an upper horizontal part and a lower horizontal part, and the upper horizontal part is positioned in the inner cavity and combined with the bottom end part of the first electric connecting terminal to form electric connection;

the second electric connecting sheet includes one vertical part and one horizontal part extending horizontally from the lower end of the vertical part, and has one fixing hole in the upper end and one combining hole corresponding to the fixing hole in the step and the electric connecting part of the second electric terminal.

7. The assembly-type electrical connector of claim 5, wherein a sealant is disposed at the bottom of the base, the sealant fills the cavity, and the first electrical connection pad, except for the end of the lower horizontal portion thereof, and the second electrical connection pad, except for the end of the horizontal portion thereof, have an isolation layer covering the exposed portion of the sealant.

8. The modular electrical connector of claim 6, wherein the base bottom defines more than one thieving groove about the periphery of the interior cavity.

9. The assembled electrical connector of claim 1, wherein the surface of the terminal block of the base is coaxially formed with at least one ring groove, the depth of the ring groove being at least greater than one-half of the radius of the terminal block.

10. The assembled electrical connector of claim 1, wherein the first and second electrical terminals are respectively provided with a first crown spring and a second crown spring, the first electrical terminal is hollow and tubular, and has an upper and a lower chambers formed therein and communicating with each other, the upper chamber is provided with the first crown spring and a contact spring, the first crown spring is disposed at an upper end of the contact spring and is located inside an opening of the first electrical terminal;

the second crown spring is abutted against the inner wall of the second electric terminal and forms electric connection.

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