JP2011238634A - Pogo pin type press contact type connector - Google Patents

Abstract

The present invention provides a pogo-pin type pressure contact type connector that has a lower processing cost than conventional ones and that can be easily reduced in height and does not cause a problem of instantaneous interruption resistance.
A molded insulating housing 10 is provided with a cylinder hole 40 for mounting a pogo pin, and a pogo pin 31 is incorporated in the cylinder hole 40 while being biased in a protruding direction by a coil spring 12. The contact spring piece 22 that protrudes into the cylinder hole 40 and is always in pressure contact with the pogo pin 31 and the base connection terminal portion 13c are integrally fixed. The pogo pin 31 forms a pogo pin main body 31a by bending a belt-shaped metal plate material into a U shape.
[Selection] Figure 8

Description

  The present invention relates to a pogo pin type pressure contact connector mainly used as a battery connector in a small electronic device such as a mobile phone.

  Conventionally, a pressure contact type connector using pogo pins is used for a battery connector of a cellular phone.

  As shown in FIG. 11, the conventional pogo pin used in this type of pressure contact type connector is a metal bottomed cylindrical cylinder 1 with a pogo pin 3 biased in the pushing direction by a coil spring 2. The tip of the pressure contact pin portion 3a of the pogo pin 3 protrudes from the tip of the cylinder 1, and is pressed against the contact terminal portion of the battery by the urging force of the coil spring 2 in the protruding direction.

  The cylinder inner end surface of the pogo pin 3 is formed with a bias cut surface 4 which is inclined with respect to the axial direction. By pressing this surface with the coil spring 2, a component force in a direction perpendicular to the pressing direction is generated. Thus, the peripheral surface of the pogo pin 3 is always in pressure contact with the inner surface of the cylinder 1, and current is supplied from the pogo pin 3 through the cylinder 1.

  In this type of contact connector using pogo pins, the cylinder and pogo pins are manufactured by various machining processes such as lathes, milling machines and presses. . Further, since this is used by being incorporated into a molded housing, there is a problem that the whole connector has to be bulky. Furthermore, since the pogo pin 3 has a structure that can move in the radial direction in the cylinder 1, there is a problem that instantaneous interruption due to an external shock is likely to occur.

  As shown in FIG. 12, the pogo pin 3 and the cylinder 1 that accommodates the pogo pin 3 are manufactured by punching and bending a metal plate, and the cylinder 1 and the pogo pin 3 Has been developed in which the elastic contact piece 5 protruding from the inner surface of the cylinder 1 is always brought into pressure contact with the outer peripheral surface of the pogo pin 3. (For example, Patent Document 1)

JP 2005-112200 A

  In the case where the cylinder and the pogo pin are formed by bending the plate material as shown in FIG. 12 described above, the processing cost and the instantaneous interruption resistance against external shock are improved. Since a certain inner cylinder is manufactured together with a metal workpiece, and this is incorporated into a molded housing, it is necessary to have a low profile when mounting such a pressure contact type connector in a direction parallel to the base. There was a problem that I could not answer enough.

  The present invention has been made in view of the above-mentioned problems of the prior art, and has been made for the purpose of providing a pogo-pin type pressure contact connector that has a lower processing cost than that of the prior art and that can be easily reduced in height and does not cause a problem of instantaneous interruption. Is.

  The feature of the invention according to claim 1, which solves the conventional problems as described above and achieves the initial object, is provided with a cylinder hole for mounting a pogo pin in a molded insulating housing, and in the cylinder hole, The pogo pin is incorporated in a state in which the flange portion at the rear end is in contact with the inside of the opening on the front side of the cylinder hole on the front side of the housing and is prevented from coming off while being biased in the protruding direction by the coil spring accommodated in the cylinder hole. A pogo pin type pressure contact connector in which the contact is fixed to the housing integrally having a contact spring piece projecting into the cylinder hole and being in constant pressure contact with the pogo pin, and a base connection terminal portion, wherein the pogo pin is made of a strip-shaped metal plate. Bend in a U-shape to form the pogo pin main body, and each end side edge of the parallel piece constituting the U-shape In that integrally includes a flange portion out shape Ri.

  The invention according to claim 2 is characterized in that, in addition to the structure of claim 1, a spring receiving portion bent from one end of both flat piece portions constituting the U-shape toward the other parallel piece portion side. And the tip of the coil spring is brought into contact with the spring receiving portion.

  As described above, the molded insulating housing is provided with a cylinder hole for mounting the pogo pin, and the pogo pin is urged in the protruding direction by the coil spring accommodated in the cylinder hole in the cylinder hole. The flange part of the housing abuts the cylinder hole on the front side of the housing so that it comes into contact with the inside of the opening on the front side of the housing to prevent it from coming off, so that the housing has a cylinder function and the housing protrudes into the cylinder hole. A metal cylinder is used by fixing a contact having a contact spring piece that is always pressed against the pogo pin and a base connection terminal portion to make the pogo pin and the board connection terminal portion conductive. Compared to the structure that incorporates the housing into the housing, it is easier to reduce the size and By usage of the material is reduced, it is possible to reduce raw material costs.

  This structure not only facilitates multipolarization, but also allows various types of press-contact connectors to be flexibly realized by changing the shape of the housing, while at the same time providing a stable conductive state. Can be achieved with a simple structure.

  In the present invention, the pogo pin is bent into a U-shape from a belt-shaped metal plate material to form a pogo-pin main body portion, and the flange portion is formed in a shape in which each end side edge of the parallel piece portion constituting the U-shape is projected. Since the structure is provided integrally, it can be manufactured by press working using a plate material as a material, so that the manufacturing cost can be reduced.

  The present invention further includes a spring receiving portion bent from one end portion of both parallel piece portions constituting the U-shape toward the other parallel piece portion side, and the tip of the coil spring is provided in the spring receiving portion. The spring length can be shortened by adopting a structure in which the springs are in contact.

It is a front side perspective view which shows the external appearance of the reference example for description of the pogo pin type press-contact type connector which concerns on this invention. It is a rear surface side perspective view same as the above. It is a longitudinal cross-sectional view same as the above. It is a disassembled perspective view which shows a pogo pin, a coil spring, and a contact part same as the above. The contact used for the reference example is shown, (a) is a side view, (b) is a rear view (c) is a bottom view. It is a front side perspective view showing the appearance of one example of the pogo pin type pressure contact type connector concerning the present invention. It is a rear surface side perspective view same as the above. It is a longitudinal cross-sectional view same as the above. It is a disassembled perspective view which shows a pogo pin, a coil spring, and a contact part same as the above. The pogo pin used for the pogo pin type pressure contact type connector shown to the figure is shown, (a) is a side view, (b) is a rear view (c) is a bottom view. It is a longitudinal cross-sectional view which shows an example of the conventional pogo pin. It is a longitudinal cross-sectional view which shows the other example of the conventional pogo pin.

  Next, embodiments of the present invention will be described based on examples shown in the drawings.

  1 to 7 are reference examples for explaining a pogo pin type pressure contact connector according to the present invention, and show an example in which a plurality of pogo pins are elastically projected from a battery connector. The pogo pin type pressure contact type connector includes a housing 10, a pogo pin 11, a coil spring 12 and a contact 13. A pair of pogo pins 11 and 11 are incorporated in the housing 10 so as to be freely inserted and removed.

  The housing 10 is molded by an insulating synthetic resin material, and has a cylinder hole 20 that is opened through the front and rear surfaces. The cylinder hole 20 has a circular cylinder hole housing front side opening 20a on the front end surface of the housing, but a cylinder hole main body 20b on the rear side of the housing on the contact side of the cylinder hole housing front side opening 20a is described later. The flange portion 11b at the rear end of the pogo pin is formed in an irregular shape that fits in a non-rotatable manner.

  As shown in FIG. 4, the pogo pin 11 is composed of a cylindrical pin main body portion 11a and a flange portion 11b projecting from the outer periphery of the rear end, and the tip of the pin main body portion 11a is a hemispherical pressure contact. It is the surface 11c. The flange portion 11b is projected only on both side surfaces of the rear end portion of the pin main body portion 11a, and the shape thereof is a shape in which the upper and lower surfaces are cut by a horizontal plane having the same height as the outer peripheral surface of the pin main body portion 11a. Yes.

  The pin body portion 11a is fitted to the cylinder hole housing front side opening 20a on the housing front side of the cylinder hole 20 so as to be slidable in the axial direction, and the flange portion 11b is fitted into the cylinder hole body portion 20b. Although it can move in the axial direction, it is fitted so that it cannot turn. And the flange part 11b is integrated in the state which contact | abutted inside the cylinder hole housing front side opening part inside of the housing, and was prevented from coming off.

  The rear end of the pogo pin 11 is urged in a direction in which the front end side protrudes by a coil spring 12 inserted into the cylinder hole 20. The coil spring 12 is prevented from coming off by a contact 13.

  A contact 13 is fixed to the rear end surface of the housing 10. As shown in FIG. 5, the contact 13 has a cross-shaped plate-like main body 13 a, and the central portion of the main body 13 a is in contact with the rear end opening of the cylinder hole 20, and the coil spring 12 is Plays the role of retaining.

  Side press-fitting pieces 13b and 13b formed by bending on the front side of the housing are integrally provided on both sides of the main body 13a. In addition, a substrate connection terminal 13c that is bent to the front side along the outside of the bottom surface of the housing is integrally provided at the lower portion. Further, an upper press-fitting piece 13d wider than each side press-fitting piece 13b is integrally formed on the upper side of the main body 13a toward the front side of the housing.

  The upper press-fitting piece 13d is integrally formed with overhanging portions 21 and 21 for press-fitting on both side edges, and a contact spring piece 22 is integrally formed at the tip of the upper press-fitting piece 13d in the extending direction. Has been. The contact spring piece 22 has its tip end inclined to the center of the main body, that is, downward, and an arcuate contact portion 23 is formed on the lower surface of the tip end.

  As shown in FIG. 2, side press-fitting piece press-fitting holes 24, 24 are formed on the rear surface of the housing 10 on the left and right of the opening on the rear side of the cylinder hole housing. Has been. Upper press-fitting piece press-fitting holes 25 are formed above the opening on the rear side of the cylinder hole housing, and the press-fitting pieces 13b and 13d are press-fitted into the press-fitting holes 24 and 25 so that the contacts 13 are inserted into the housing 10. It is fixed.

  Further, a concave groove 26 having a depth corresponding to the thickness of the base connection terminal portion 13c is formed on the lower surface of the rear end side of the housing 10, and the substrate connection terminal 13c is inserted into the concave groove 26 so that the housing It is mounted at the same height as the bottom.

  In the upper press-fitting piece press-fitting hole 25, a contact spring piece insertion hole 27 is formed on the lower side of the center part toward the front side of the housing. This hole 27 is for inserting the contact spring piece 22, and a window hole 28 communicating with the cylinder hole 20 is formed in the inner part of the hole 27, and the cylinder hole 20 and the hole 27 are located on the rear side of the housing from the window hole 28. A partition wall 29 is provided. This partition is not always necessary.

  The contact spring piece 22 protrudes to the side of the cylinder hole 20 through the window hole 28, and the contact portion 23 at the tip thereof is always in pressure contact with the upper surface of the pogo pin 11, and the pogo pin 11 abuts on a contact terminal such as a battery. When it is pushed in, the contact portion 23 at the tip of the contact spring piece 22 slides in a pressed state, and the contact state is always contacted by a constant spring pressure, and an instantaneous shock is applied when an external shock is applied. Is prevented.

  Next, an embodiment of the present invention will be described based on the embodiment shown in FIGS. In the reference example described above, the pogo pin 11 is formed by turning a metal bar-like material by lathe and milling. However, in this embodiment, the pogo pin is formed by punching and bending a metal plate material. The same parts as those in the above-described reference example are denoted by the same reference numerals, and the duplicate description is omitted.

  The pogo pin 31 in this embodiment has a pogo-pin main body 31a formed by bending a band-shaped plate-like material into a U shape as shown in FIG. 10, and the U-shaped folded curved semicircular portion is pressurized. It is a contact surface 31c. Further, parallel plate-like flanges 31b and 31b are formed on both side edges of the end portions of the U-shaped parallel piece portions 31e and 31f. Furthermore, a spring receiving portion 31g bent at a right angle toward the other parallel piece portion 31f is provided at the tip of one parallel piece portion 31e.

  On the other hand, the cylinder hole housing front side opening 40a on the front end surface of the housing is formed in a cross-sectional shape that fits the U-shaped pogo pin main body 31a, and the cylinder hole main body 40b on the rear side of the housing is The parallel plate-like flange portions 31b and 31b are fitted to each other and have a cross-sectional shape that can move in the axial direction.

  Since the contact is the same as in the above-described reference example, the description thereof is omitted.

  In the above-described embodiment, the contact spring piece for making contact with the pogo pin is integrally formed on the upper press-fitting piece of the contact. However, the contact spring piece may be integrally formed in the extending direction of the left and right side press-fitting pieces. May be provided integrally with the contact independently.

  Further, the contact spring piece is configured to contact the upper side of the housing, that is, the upper side of the pogo pin. However, the pogo pin may be rotated 90 degrees and contact the side surface thereof.

DESCRIPTION OF SYMBOLS 10 Housing 11 Pogo pin 11b Flange part 11a Pin main-body part 11c Pressure contact surface 12 Coil spring 13 Contact 13a Main-body part 13b Side press-fit piece 13c Board | substrate connection terminal 13d Upper press-fit piece 20 Cylinder hole

20a Cylinder hole housing front side opening part 20b Cylinder hole body part 21 Overhang part 22 Contact spring piece 23 Contact part 24 Side part press-fitting piece press-fitting hole 25 Upper press-fitting piece press-fitting hole 26 Concave groove 27 Contact spring piece insertion hole 28 Window hole 29 Partition wall a Contact terminal 31 Pogo pin 31a Pogo pin body 31b Flange 31c Pressure contact surface 31e, 31f U-shaped parallel piece 31g Spring receiving portion 40 Cylinder hole

40a Cylinder hole housing front side opening 40b Cylinder hole body

Claims (2)

A molded insulating housing is provided with a cylinder hole for mounting a pogo pin, and the pogo pin is urged in a protruding direction by a coil spring accommodated in the cylinder hole, and a flange portion at the rear end thereof. Cylinder hole on the front side of the housing is incorporated in a state where it comes into contact with the inside of the opening on the front side of the housing and is prevented from coming off, and a contact spring piece and a base connection terminal part that protrudes into the cylinder hole and is constantly pressed against the pogo pin. In a pogo pin type pressure contact type connector with a fixed contact,
The pogo pin includes a flange portion integrally formed in a shape in which a strip-shaped metal plate is bent into a U shape to form a pogo pin main body portion, and each end side edge of the parallel piece portion constituting the U shape is projected. Pogo pin type pressure contact connector.   A spring receiving portion that is bent from one end portion of both parallel piece portions constituting the U shape toward the other parallel piece portion side, and the tip of the coil spring is brought into contact with the spring receiving portion. Item 2. The pogo-pin type pressure contact connector according to Item 1.

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