JPH03182077A - High voltage connector for power supply and manufacture of connector - Google Patents

Abstract

PURPOSE:To accomplish electrical and mechanical stability by manufacturing a connector by means of insertion of a fixed resistor in a cylindrical recess of a holder for accommodation of fixed resistor. CONSTITUTION:A holder 20 for accommodation of a fixed resistor is molded previously, and a fixed resistor 40 is inserted in a cylindrical recess 22b of the holder 20. A conductive spring 30 is fitted on a cylindrical protrusion 22c, and a cylindrical part 30c is wound in the cylindrically formed lower part 24, and a spiral protrusion 30e and it are projected down from the cylindrically formed lower part 24 by a conical bottom 30d to accomplish a single piece construction, which is led into an upper and a lower die 12, 10 and a core 14 and fixed, followed by injection of plastics from an injection hole 12b and separation of the dies, and thus a high voltage connector (c) used for a power supply is obtained. Because fixed resistor is inserted into the cylindrical recess of the holder in this manner, there is no fear of inclusion of metal powder at molding or occurrence of wire severance or poor contact, and also there is no change in the resistance value of the built-in fixed resistor, which eliminates measurement of the resistance value after molding. Further a large distance to a covered electric wire provides electrical and mechanical stability, and also the processing cost will be decreased.

Description

[Detailed Description of the Invention] 1. Industrial Application Rule J This invention relates to a high-voltage connector for power supply and its installation method, and more particularly to copying machines, facsimile printers, etc.;
This invention relates to a high voltage connector for E source and its manufacturing method.

Conventional technology Conventionally, for example, high voltage connectors for power supplies of copiers, facsimile machines, printers, etc. must be manufactured to be robust because high voltages such as 10, 20, and 30 kV are applied. A fixed resistor is connected between one end of the high voltage electric wire and the electrode sleeve.

A brass sleeve is connected to the other end of the fixed resistor, and a coil spring is connected to the lower end of the 4"A sleeve,
A part of the inner end of the high-voltage wire, the fixed resistor, and a part of the brass sleeve are embedded and molded in a connector body made of insulating synthetic resin, and the coil spring is fitted into the connector body with a plug. It protrudes into the recess.

``Problems to be Solved by the Invention'' In such high-voltage power supply connectors, the fixed resistor and the brass sleeve are provided separately within the connector body, so a considerable amount of space is required. However, the connector body becomes large, and there is a risk of wire breakage due to molding errors during molding.Since the fixed resistor is directly embedded in the main body, it is directly affected by the heat of the mold, and the resistance value changes easily. Metal powder may get mixed in during molding, and because the distance between the fixed resistor and the insulated wire is short, it may break or become electrically and mechanically unstable, and it may increase the processing cost and the product. The increase in the number of major injuries was also unavoidable.

``Means for Solving the Problems J'' This invention eliminates the disadvantages of 1. The gist of the invention is to form a holder made of insulating synthetic resin for a built-in fixed resistor into a cylindrical shape with a spiral groove formed around it. An upper part and a cylindrical lower part for fixing a spring with a smaller diameter are provided, and a cylindrical recess for fitting a fixed AT resistor is formed in the longitudinal direction of the center in the -F direction, and from the upper part of the cylindrical recess there is a cylindrical recess for fitting a fixed AT resistor. A fixed resistor lead wire penetration hole 41 is formed from the inner bottom of the cylindrical recess near the center downwardly curved bottom, and A sublink fitting hole is formed around the spiral groove from one location on the outside of the cylindrical projection in parallel with the cylindrical recess; ′, = Fitting the upper hook ring of the conductive spring (after winding it around the cylindrical protrusion of the boulder for building the resistor, fit its straight part into the spring fitting groove) the middle part thereof is wound around the cylindrical F part for fixing the small diameter spring, and its conical lower end and the bottom of the spiral protrusion protrude from the cylindrical lower part for fixing the small diameter spring; the inner end of the high voltage electric wire. and the fixed resistor built-in boulder are buried in an insulating synthetic resin main body,
By guiding the conical lower end and the bottom of the spiral protrusion of the conductive spring into the recess of the insulating synthetic resin body,
There is no need for metal powder to get mixed in during molding, there is no need for contact with @ wires, and changes in the resistance value of the built-in fixed resistor are black.
There is no need to measure resistance after molding, and the distance between the wire and the insulated wire is large, making it electrically and mechanically stable.
To provide a high-voltage connector for a power supply, which can save materials, downsize the entire product, and reduce processing costs, and a method for manufacturing the same.

"Structure" The high voltage connector for power supply and the method for manufacturing the same according to the invention of this application will be currently used in the embodiments shown in the attached drawings.

In Figures 1 to 1θ, a high voltage connector C for power supply is molded using a lower mold 10, an upper mold 12, and a core 14.

First, in FIGS. 5 to 7, a pre-molded insulating synthetic resin fixed resistor built-in holder 20 has a cylindrical upper part 22 with a spiral spiral 22a formed around the cylindrical upper part 22, and the cylindrical upper part 22.
A cylindrical lower part 24 for fixing a spring with a smaller diameter is integrally formed below the cylindrical part 24, and a cylindrical recess 22b including a fixing bottom is formed downward in the longitudinal direction of the center of the false cylindrical part 22. A cylindrical protrusion 22c is formed upward from the entrance of the cylindrical recess 22b, and a fixed resistor 340 is formed from the inner bottom of the cylindrical recess 22b to near the center downwardly curved bottom 2Aa.
A through hole 24b is formed so that the lead wire passes through the cylindrical recess 22b and is led from the second part of the holder 20 to the lower part at right angles to the cylindrical lower part 24. Spring fitting notch 2 up to the spiral 122a
Form 2d.

The conductive spring 30 shown in No. 8.90 has a hook ring 30a at the upper part, and a wire part 30h1 at the lower part.
is formed so that it can be freely fitted into the fitting notch 22d of the holder 20, and has a cylindrical part 30c wound around the small diameter cylindrical lower part 24 for fixing the spring at the lower part of the straight part 30b,
A conical portion 30d and a spiral protrusion 30e are formed at the bottom of the cylindrical portion 30c.

The hook ring 30a of the conductive spring 30 is fitted into the cylindrical protrusion 22c of the cylindrical upper part 22 of the boulder 20, and its straight part 30b is fitted into the notch 22d.
c is wound around the cylindrical lower part 24, and the conical lower end 30d and the spiral protrusion 30e are protruded downward from the cylindrical lower part 24, t,
Let me do it.

Cylindrical recess 2 for fitting the fixed resistor built-in holder 20
A fixed resistor 40 is inserted into the through hole 2b, one lead wire 40a of the fixed resistor 40 is connected to the inner end of the high voltage electric wire 50, and the other lead wire 40b is inserted into the lead wire through hole 2.
4b and leads outward from the cylindrical lower portion 24.

Holder 20 for built-in fixed resistor integrated in this way
is inserted into the cavity 10a of the lower mold 10 as shown in FIG. 30e into the cavity 10a of the lower mold 10, press the lower mold 10 and the corresponding mold 12 together with the core 14, and remove a part of the high voltage electric wire 50 from these molds. The molten insulating synthetic resin is guided to the outside through the injection port 12b formed at the center of the 4-mm part of the upper mold 12 at high temperature (approximately 300°C) and high pressure (kg/cxX).
injection injection.

After the synthetic resin is cooled and hardened, it is demolded to obtain the high constant pressure connector C for power supply shown in FIGS. 1 to 3.

As mentioned above, according to the VJ method of the present invention, the fixed resistor built-in holder 20 is sealed with an insulating synthetic resin, and then inserted into the cylindrical recess 22b of the holder 20. Fixed resistor 4
0 and conductive substrate 30 on the cylindrical protrusion 22c.
)・1 Fit the ring 30a, fit its straight part 30b into the notch 22d, and make the cylindrical part 30c into a cylindrical shape F ;'[
24, a conical lower end 30d and a spiral protrusion 30
e is made to protrude from the cylindrical lower part 24 in the F direction, and is guided and fixed into the upper and lower metal 1% + 442.10 and the core 14, and melted through the injection port 12b of the lx part mold 12. An insulating synthetic resin is injected at high temperature and high pressure, and after the synthetic resin is cooled and hardened, it is removed from the mold to obtain a high voltage connector C for power supply.

"Effect" According to the method for manufacturing a high voltage connector for power supply according to the present invention,
When the fixed resistor 40 is inserted into the cylindrical recess 22b of the fixed resistor built-in holder 20, there is no need for metal powder to be mixed in during molding, wire breakage, or contact is required, and the resistance value of the built-in fixed resistor is reduced. There is no change, there is no need to measure the resistance value after molding, and the distance between the wire and the insulated wire is large, making it electrically and mechanically stable, saving on materials, making the entire product smaller, and making it easier to process. A high voltage connector for power supply with reduced cost is obtained.

Furthermore, a spiral thread 22 is provided around the cylindrical upper part 22 of the boulder 20.
a is formed, the holder 20 is placed in the cavity 12a of the upper mold 12, and even when the lower mold 1o and the core 14 are combined, the holder 20 remains stable, and the holder 20 remains stable even when the holder 20 is placed in the cavity 12a of the upper mold 12. Even if it is injected through the injection port 12b, it does not move.

Moreover, the hook ring 32a of the conductive spring 30, which has a conical lower end 30d and a spiral protrusion 30e projecting into the cavity 10a of the lower mold 10, is fitted into the cylindrical protrusion 22c, and the straight part 30b is cut into the cylindrical protrusion 22d. Since it is fitted inside, it will not move at all even when the molten insulating synthetic resin is injected.

A conical lower end 30d and a spiral protrusion 30e of the conductive spring 30 protrude into the high voltage power supply connector C.
Since the one lug (not shown) inserted between the two contacts reliably, there is no contact failure at all.

[Brief explanation of drawings]

The attached drawings are drawings showing a state in which the high voltage connector for power supply and the method for manufacturing the same according to the present invention are implemented, and FIG. 1 is a front view of the high voltage connector for power supply manufactured by the manufacturing method of the present invention, and FIG. 1 is a vertical sectional view of FIG. 1, FIG. 3 is a partially cutaway perspective view of the power supply high voltage connector of FIGS. 1 and 2, and FIG. A front view of one end of the high-voltage power wire and the fixed resistor taken out from the voltage connector, and a sectional view of the holder for built-in fixed resistor. Figure 5 is a perspective view of the holder for built-in fixed resistor. Figure 6 is a perspective view of the holder for built-in fixed resistor. , FIG. 1 is a cross-sectional view of the holder for built-in fixed resistor, FIG. 8 is a schematic front view of the conductive spring, FIG. 9 is the plan view of FIG. Figure 10 is a partial cross-sectional perspective view showing a state in which a fixed resistor built-in holder and one end of a high-voltage electric wire for power supply are fitted and molded into upper and lower molds, and Figure 11 is a diagram of a conventional high-voltage connector for power supply. It is a partially cutaway perspective view. C...High voltage connector for power supply; 10...Lower mold; 10a...Cavity; 12...Upper mold; 12a...Cavity; 12b...Injection port: 14...Medium Child: 20... Holder for built-in fixed resistor made of insulating synthetic resin; 22... Cylindrical upper part: 22a... Spiral groove; 22b... Cylindrical recess for fitting fixed resistor; 22c... Cylinder Shape protrusion; 22d, fitting notch; 24.1. Cylindrical lower part for fixing a small diameter spring: 24a...Curved bottom: 30...Conductive spring; 30a...Hook ring; 30b...Straight part: 30c...Cylindrical part: 30d -Cone Shape: 30e - Spiral projection: 40 Fixed resistor: 40a, 40b Lead wire: 50 High voltage wire. Figure Figure

Claims (2)

[Claims] (1) In an insulating synthetic resin main body having a cylindrical upper part with a spiral groove formed around the periphery and a cylindrical lower part for fixing a spring of a smaller diameter integrally formed below the cylindrical upper part, It has a cylindrical recess for fitting a fixed resistor formed downward in the center longitudinal direction, a cylindrical protrusion formed upward from the entrance of the cylindrical recess, and an inner bottom of the cylindrical recess. a through hole for passing a lead wire of a fixed resistor formed from the center to a point near the bottom curved downward from the center; a holder for a built-in fixed resistor having a spring fitting groove formed around the groove; a holder fitted into the cylindrical recess of the holder for built-in fixed resistor, and one lead wire attached to the inner end of the high-voltage electric wire; a fixed resistor to which is connected, and the other lead wire is passed through its through hole and guided to the outside; an upper hook ring is comprised of a holder for incorporating the fixed resistor; an inner end of the high voltage electric wire and the fixed resistor; A power source characterized in that a holder for a built-in resistor is embedded in a main body made of an insulating synthetic resin, and the conical lower end and the bottom of the spiral protrusion of the conductive spring are guided into a recess of the insulating synthetic resin main body. High voltage connector for (2) Insert the fixed resistor with one lead wire connected to the inner end of the high-voltage power cable into the fixed resistor fitting cylindrical recess of the fixed resistor built-in holder, and A step of passing the lead wire through the through hole and guiding it to the outside; After winding the upper hook ring of the conductive spring around the cylindrical projection of the fixed resistor built-in holder, fitting the straight part into the spring fitting groove. the middle part is wound around the cylindrical lower part for fixing the small diameter spring, the conical lower end and the bottom part of the spiral protrusion protrude from the cylindrical lower part for fixing the small diameter spring, and the middle part is wrapped around the fixed resistor. connecting to the other lead wire; arranging the base of the fixed resistor built-in holder in the cavity of the upper mold; and connecting the fixed resistor built-in holder to the small diameter spring fixing cylindrical lower part and the The conical lower end and the spiral protrusion bottom of the conductive spring wound around the fixing cylindrical lower part are placed in the cavity of the lower mold, fixed with a core, and the upper mold and the lower mold are A method of manufacturing a high-voltage connector for a power supply, which involves combining the resin with a mold, injecting the insulating synthetic resin, and removing the mold after curing.