CN108963554A - A kind of high voltage withstanding structure for Microminiature electrical connector insulating base - Google Patents

Abstract

The present invention provides a kind of high voltage withstanding structures for Microminiature electrical connector insulating base, including support spring circle, top base and bottom base；The bottom base is connect by adhesive with top base, and adhesive forms bonding plane between bottom base and top base；It is respectively equipped with the corresponding top base mounting hole in position and bottom base mounting hole in the top base and bottom base, several support spring circles are equipped in top base mounting hole；The radial port of the support spring circle is equipped with support spring circle notch and is axially arranged with the symmetrical trapezoidal protrusion of at least two on end face of the support spring circle close to bonding plane.The configuration of the present invention is simple, small and exquisite and practical, conveniently, the electric connector that can satisfy high density node arrangement realizes the needs of high voltage withstanding performance.

Description

A kind of high voltage withstanding structure for Microminiature electrical connector insulating base

Technical field

The present invention relates to a kind of high voltage withstanding structures for Microminiature electrical connector insulating base, belong to electric connector skill Art field.

Background technique

Currently, the electric connector insulating base of Demountable contact element frequently with independent top base, bottom base, support spring circle and Adhesive composition.Contact cavity is set in top base, bottom base, and support spring circle is axially located in mounting hole, by mounting hole Step fix.Top base, bottom base are adhesively fixed together using adhesive, and gluing of surfaces is often plane, or installation Truncated cone-shaped protrusion and the round cavity with male cooperation are set on hole.Plane adhesion mode is tight to gluing of surfaces flatness, bonding Density requirements are higher；Truncated cone-shaped protrusion and with round cavity cooperation after bonding way due to increasing contact cavity outer diameter, Be unfavorable for increase insulating base number of nodes and dielectric base structure size microminaturization development need, such as application No. is A kind of insulated mounting plate disclosed in 2010202301087 Chinese patent.

Summary of the invention

In order to solve the above technical problems, the present invention provides a kind of resistance to high electricity for Microminiature electrical connector insulating base Laminated structure, the high voltage withstanding structure for being used for Microminiature electrical connector insulating base can satisfy Microminiature electrical connector, improve The needs of contact density and high voltage withstanding performance.

The present invention is achieved by the following technical programs.

A kind of high voltage withstanding structure for Microminiature electrical connector insulating base provided by the invention, including top base and Bottom base；The bottom base is connect by adhesive with top base, and adhesive forms bonding plane between bottom base and top base； It is respectively equipped with the corresponding top base mounting hole in position and bottom base mounting hole in the top base and bottom base, pacifies in top base It fills and is equipped with several support spring circles in hole；The radial port of the support spring circle is equipped with support spring circle notch, in support spring circle close to bonding plane On end face, it is axially arranged with the symmetrical trapezoidal protrusion of at least two.

The support spring circle is cylindrical shape, and top base mounting hole is circle.

The support spring circle notch and the position of trapezoidal protrusion are relatively fixed.

The side wall of the top base mounting hole is axially arranged with positioning convex key.

Positioning convex key and the top base mounting hole towards identical.

The support spring circle notch towards all the same.

The internal diameter of the top base mounting hole is less than the outer diameter under support spring circle free state.

The internal diameter of the bottom base mounting hole is less than the outer diameter under the stationary state after support spring circle is packed into top base mounting hole.

After the support spring circle is packed into top base mounting hole, the width of support spring circle notch is less than the width of positioning convex key.

The height of the positioning convex key is less than the wall thickness of support spring circle.

The beneficial effects of the present invention are: structure is simple, small and exquisite, and practical, conveniently, can satisfy high density node arrangement Electric connector realize the needs of high voltage withstanding performance.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of support spring circle of the present invention；

Fig. 3 is the top view of Fig. 1；

Fig. 4 is the expanded view of Fig. 2；

Fig. 5 is top base mounting hole of the present invention and the structural schematic diagram for positioning convex key；

Fig. 6 is the top view of Fig. 5；

In figure: 1- support spring circle, 11- support spring circle notch, the trapezoidal protrusion of 12-, 2- top base, 21- top base mounting hole, 22- Position convex key, 3- adhesive, 31- bonding plane, 4- bottom base, 41- bottom base mounting hole.

Specific embodiment

Be described further below technical solution of the present invention, but claimed range be not limited to it is described.

As shown in Figure 1, a kind of high voltage withstanding structure for Microminiature electrical connector insulating base, including support spring circle 1, on Pedestal 2 and bottom base 4；The bottom base 4 is connect by adhesive 3 with top base 2, and adhesive 3 is in bottom base 4 and top base 2 Between formed bonding plane 31；Be respectively equipped in the top base 2 and bottom base 4 the corresponding top base mounting hole in position 21 and under Pedestal mounting hole 41, top base mounting hole 21 and bottom base mounting hole 41 form step cutting pattern hole, in top base mounting hole 21 Equipped with support spring circle 1；The radial port of the support spring circle 1 is equipped with support spring circle notch 11, in support spring circle 1 close to the end face of bonding plane 31 On, be axially arranged at least two it is symmetrical trapezoidal raised 12, as shown in figs. 2 to 4.

Further, support spring circle 1 is axially fixed in the step cutting pattern hole that top base 2 and bottom base 4 are formed, top base 2 It is bonded together with bottom base 4 by adhesive 3.

The support spring circle 1 is cylindrical shape, and top base mounting hole 21 is circle.

The support spring circle notch 11 and trapezoidal raised 12 position are relatively fixed.

The side wall of the top base mounting hole 21 is axially arranged with positioning convex key 22, and the width of positioning convex key 22 is t2, such as Shown in Fig. 5~6.

Positioning convex key 22 and the top base mounting hole 21 towards identical, i.e., towards same direction.

The support spring circle notch 11 towards all the same, i.e. the direction of several support spring circle notches 11 is consistent, support spring The gap width enclosed under 11 free state of notch is t1, to form radial elastic performance, and positions convex key 22 and support spring circle notch 11 match.

The internal diameter d1 of the top base mounting hole 21 is less than the outside diameter d 2 under 1 free state of support spring circle, guarantees support spring circle 1 not It falls off, the internal diameter d3 of bottom base mounting hole 41 is less than the outer diameter under the stationary state after support spring circle 1 is packed into top base mounting hole 21 D2 ' provides enough axial support forces.

After the support spring circle 1 is packed into top base mounting hole 21, (i.e. support spring circle 1 is packed into the width t1 ' of support spring circle notch 11 After top base mounting hole 21, the width of support spring circle notch 11) it is less than the width t2 of positioning convex key 22, prevent support spring circle 1 from radially turning It is dynamic, to guarantee that the creepage distance between any 2 adjacent support spring circles 1 is constant.

Further, for support spring circle notch 11 towards identical direction, which guarantees 2 support spring circles 1 of arbitrary neighborhood Any 2 trapezoidal protrusions between creepage distance it is maximum.

The height of the positioning convex key 22 is less than the wall thickness of support spring circle 1.

Claims (10)

1. a kind of high voltage withstanding structure for Microminiature electrical connector insulating base, including top base (2) and bottom base (4), It is characterized by: the bottom base (4) is connect by adhesive (3) with top base (2), adhesive (3) bottom base (4) with it is upper Bonding plane (31) are formed between pedestal (2)；The corresponding upper base in position is respectively equipped in the top base (2) and bottom base (4) Seat mounting hole (21) and bottom base mounting hole (41) are equipped with several support spring circles (1) in top base mounting hole (21)；The support The radial port of spring coil (1) is equipped with support spring circle notch (11), on the end face of support spring circle (1) close to bonding plane (31), is axially arranged with At least two symmetrical trapezoidal raised (12).

2. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute Support spring circle (1) is stated as cylindrical shape, top base mounting hole (21) is circle.

3. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute It states support spring circle notch (11) and the position of trapezoidal raised (12) is relatively fixed.

4. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute It states the side wall of top base mounting hole (21), be axially arranged with positioning convex key (22).

5. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as claimed in claim 4, it is characterised in that: institute State positioning convex key (22) and top base mounting hole (21) towards identical.

6. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute State support spring circle notch (11) towards all the same.

7. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute The internal diameter of top base mounting hole (21) is stated less than the outer diameter under support spring circle (1) free state.

8. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute The internal diameter of bottom base mounting hole (41) is stated less than outer under the stationary state after support spring circle (1) loading top base mounting hole (21) Diameter.

9. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as described in claim 1, it is characterised in that: institute After stating support spring circle (1) loading top base mounting hole (21), the width of support spring circle notch (11) is less than the width of positioning convex key (22).

10. being used for the high voltage withstanding structure of Microminiature electrical connector insulating base as claimed in claim 4, it is characterised in that: The height of positioning convex key (22) is less than the wall thickness of support spring circle (1).