JP5909456B2 - Rotary contact multicore connector - Google Patents

Description

  In high-performance electronic devices, signals to be transmitted and received are diversified and complicated. The present invention relates to a multi-rotary contact that can be used for connecting medical equipment such as ultrasonic diagnostic equipment, semiconductor manufacturing equipment, inspection equipment, computers, communication equipment, etc. It relates to a core connector.

  More specifically, the present invention relates to a connector used for interconnection between electronic devices connected via a cable having a plurality of wirings, etc., and relates to a multicore connector having a plug portion and a receptacle portion.

  In the conventional multi-core connector, a connector having a ZIF (zero insertion force) structure is used in order to reduce an operation force at the time of connection. For example, as shown in FIGS. 17 and 18, the connectors 3-1 and 4-1 have a plurality of contacts 3 corresponding to the plug connectors 3-2 and 4-2 and the receptacle connectors 3-3 and 4-3, respectively. 4, 3-5, or 4-4, 4-5 is arranged in a grid (FIG. 17) or in a series direction (FIG. 18), and a booster mechanism (not shown) such as a cam is provided. The structure is such that the contacts of the plug connector and the receptacle connector are connected by operating a cam or the like. As shown in FIG. 17, in the contact arrangement on the grid, the size of the connector with respect to the mating surface becomes large. Further, when contacts are arranged in series as shown in FIG. 18, there is a problem that the connector becomes longer in the longitudinal direction. In addition, a booster mechanism such as a cam for the ZIF structure is complicated, and the occupied area of this mechanism increases the connector.

  For example, when used in an ultrasonic diagnostic apparatus for surgery, since the probe of the medical catheter enters the body, it is necessary to reduce the cross-sectional area of the measuring instrument. And the diameter of a plug is made small and multi-core is requested | required. The present invention makes it possible to form a multi-core connector capable of connecting a large number of wires even if the cross-sectional area is reduced.

JP 200431235 A JP 2007-134227 A

  The conventional multi-core connector used by connecting the plug connector to the receptacle connector and connecting a large number of contacts has a problem that the grid-like arrangement of multiple contacts in the contact contact portion increases the cross section of the contact portion. The arrangement in the series direction has a problem of lengthening the longitudinal direction. There has been a demand for a multi-core connector that can connect a large number of wires even if the cross-sectional area of the connector is reduced.

  The above requirements can be achieved by the connector described below as an example.

The plurality of receptacle contacts on the first surface of the receptacle connector and the corresponding plurality of plug contacts on the first surface of the columnar plug connector are inserted into the receptacle connector, and the columnar plug connector is inserted into the receptacle connector. A rotary contact multi-core connector that makes contact by rotating,
The first surface is perpendicular to the direction of insertion;
Both the receptacle connector and the columnar plug connector have a plurality of contacts in parallel in the direction of insertion,
The columnar plug connector has a polygonal cross section,
The contact portions of the plug contacts on the first surface are respectively disposed at polygonal corners,
Corresponding receptacle contacts are arranged radially with respect to the insertion direction axis of the plug connector, and by inserting the plug connector into the receptacle connector and then rotating the plug connector by a predetermined angle, the plug contact is aligned with the corresponding receptacle contact. A connector that comes into contact.

Furthermore, the polygonal connection structure in which the plug contacts are arranged at the corners of the plug connector has a laminated structure in which the plug contacts are laminated in the length direction of the plug connector, and the corresponding receptacle connector also has a laminated contact. A connector that has a structure, and contacts thus stacked are simultaneously brought into contact by inserting the plug connector into the receptacle connector and rotating the plug connector by a predetermined angle.

  Furthermore, a connector whose polygon is a square.

Furthermore, the plug connector has a polygonal support member formed of an insulator.

Further, the receptacle connector is a connector formed by a housing portion composed of a plurality of contact modules having the same shape .

Further, the receptacle contact is attached to the printed circuit board, and the printed circuit board is fixed to one of the housing parts.

The plug connector is a connector having insulators that are arranged in parallel and combined to support the plug contact .

It is a figure which shows the Example of the plug connector 1 and the receptacle connector 2 which are used in combination as a multicore connector according to this invention. This is a case where the cross section of the connecting portion is square. FIG. 2 is an overall view of the plug connector 1 of FIG. 1. FIG. 2 is an overall view of the receptacle connector 2 of FIG. 1. The exploded view of the plug connector 1 of FIG. 1 is shown. 2 is a view showing a cross section of a contact portion of the plug connector 1. FIG. The exploded view of the receptacle connector 2 of FIG. 1 is shown. It is a figure which shows the contact module assembly 2-3 which comprises the receptacle connector 2 of FIG. FIG. 8 is an exploded explanatory view of one of the contact modules in FIG. 7. 6 is a cross-sectional view of the contact portion of the receptacle connector 2. FIG. 3 is a cross-sectional view of a contact portion in a state where the plug connector 1 is inserted into the receptacle connector 2. FIG. FIG. 3 is a cross-sectional view of the contact portion in a state where the inserted plug connector 1 is rotated in a plane perpendicular to the insertion direction in the receptacle connector 2. FIG. 3 is a longitudinal sectional view in a state where the plug connector 1 is inserted into the receptacle connector 2. After the slot knob 2-4 is rotated, the lock button 2-5 enters the lock groove 2-1-1 of the housing shell, and the rotation of the slot knob 2-4 is locked. The case where the lock button 2-5 enters the temporary lock groove 2-1-2 and enters the temporary lock state is shown. The detection switch 2-3-1-7 is turned on by the detection switch 2-3-1-7 mounted on the contact module assembly 2-3 and the detection projection 2-4-3 of the slot knob 2-4. Indicates the state. The LED 2-3-1-6 mounted on the connection board 2-3-1-4 of the contact module assembly 2-3 is shown. It is a figure which shows the example of a grid-like arrangement | positioning of the contact of a prior art. It is a figure which shows the example of arrangement | positioning of the contact of a prior art in series.

[Example]
FIG. 1 shows a plug connector 1 and a receptacle connector 2 according to an example of the present invention. A state before the columnar plug connector 1 having a stacked structure in which the plug contacts 1-2 are formed so as to be stacked in the longitudinal direction is inserted into the receptacle connector 2 is shown. The columnar plug connector 1 is inserted from the insertion port 2-4-4 of the receptacle connector 2, and a plurality of corresponding contacts are brought into contact with each other. Reference numeral 1-5 denotes a waterproof O-ring of the plug connector 1 when fitted, and reference numeral 2-13 denotes a waterproof cap of the receptacle connector 2. This is an example of a structure in which the shape of the cross section of the contact portion is a square, and contacts are brought into contact with each other at corner portions (R portions) 1-1-1 of the four corners of the square. That is, in this case, both the receptacle connector 2 and the columnar plug connector 1 have a plurality of contacts arranged in parallel in the direction of insertion.

  FIG. 2 shows an overall view of the plug connector 1 having a large number of contacts. The plug connector 1 can be formed in the form of a plurality of identical housing parts. A plurality of plug contacts 1-2 are placed around the insulator A1-1 (upper side) and the insulator B1-1 '(lower side) that are combined with each other so as to be arranged in parallel vertically as support members such as contacts. It is arranged so as to surround and to be laminated in the longitudinal direction of the plug connector 1.

  The insulator A1-1 and the insulator B1-1 'combined as a support member are formed in a substantially quadrangular prism. The cross section of the columnar part of this embodiment is approximately square. Corner portions 1-1-1 are formed at the four corners of the square. This corner portion receptacle connector 2 contacts the contact 2-3-1-1. In this case, four sets of contacts are arranged radially in a plane perpendicular to the insertion direction at the corners of the square cross section, and further stacked. The plug connector 1 has a plurality of contacts 1-2 arranged in parallel in the insertion direction.

  In FIG. 2, key groove portions 1-1-2, 1-1-3, and 1-1-4 are formed on the top surface of the insulator A1-1. The key groove portions 1-1-2 and 1-1-3 engage with the key protrusion portions 2-3-1-3-1 provided on the insulator 2-3-1-3 of the receptacle connector 2. Further, the key groove portion 1-1-4 engages with a key protrusion 2-4-2 formed in the slot knob 2-4.

  FIG. 3 shows an overall view of the receptacle connector 2. A slot knob 2-4 for contact contact operation of the plug connector 1 shown in FIG. 2 is attached to the front surface of the housing shell 2-1. The central circular opening is an insertion slot 2-4-4 for inserting the plug connector 1. The key projections 2-4-2 arranged at the upper and lower portions in the central opening of the slot knob 2-4 are combined with the key groove 1-1-4 of the plug connector 1, so that the plug connector 1 after insertion is inserted into the slot. It acts to rotate in conjunction with the rotation of the knob 2-4. The receptacle connector 2 has a plurality of receptacle contacts 2-3-1-1 arranged in parallel in the insertion direction.

  Reference numeral 2-1-1 denotes a lock groove formed in the housing shell 2-1. The plug connector 1 and the slot knob 2-4 are used to prevent the plug connector 1 and the slot knob 2-4 from rotating when a predetermined rotation occurs and the connector becomes usable. In order to prevent rotation, the lock button 2-5, which is formed on the slot knob 2-4 and is biased upward, is received and engaged. Reference numeral 2-13 denotes a waterproof cap for the receptacle connector 2. Reference numeral 2-3-1-3 denotes an insulator constituting the receptacle connector 2.

  FIG. 4 shows an exploded view of the plug connector 1. Insulator A1-1 and Insulator B1-1 ′ for holding a plurality of plug contacts 1-2, a plurality of plug contacts 1-2, a cable bushing 1-3, and a cable clamp 1 for grounding for connector protection -4, O-ring 1-5 for waterproofing at the time of fitting is included. The insulators A and B are preferably configured such that the cross-sectional shapes of the key groove portions 1-1-2 are different.

  The assembly of the plug connector 1 will be described. A cable core wire (not shown) is connected inside the connector 1-2 to each contact of the insulator A1-1 and the insulator B1-1 'into which the plug contact 1-2 is press-fitted. Insulator assembly A1-1-5 and insulator assembly B1-1′-5, bushing 1-3 formed integrally with the cable, and cable clamp 1-4 are incorporated, respectively, and finally the adhesive also serves as waterproofing inside the insulator. Inject the agent and assemble.

  FIG. 5 shows a cross section of the contact portion of the plug connector 1 (the wire connection state is omitted).

  It is sectional drawing of the structure which combined insulator A1-1 and insulator B1-1 'of FIG. 4 up and down. The insulator A1-1 and the insulator B1-1 'combined with the electrical connection portion have a substantially rectangular cross section, and form corner portions 1-1-1 at the four corners. It is desirable that the corner portion 1-1-1 has a curved shape so as to act as a contact portion and contact with the contact portion of the receptacle connector while rotating. In this case, the cross section of the contact portion of the plug connector 1 is substantially rectangular, but it may be a polygon such as a triangle or a pentagon instead of the rectangle.

  The plurality of plug contacts 1-2 formed in a substantially U shape are press-fitted into the holes 1-1-6 at the corners of the insulator A1-1 or the insulator B1-1 ′, and are inserted into the grooves 1-1-7. Each is incorporated. The plug contact 1-2 is formed with a four-corner contact portion 1-2-1 in contact with the contact portion of the receptacle connector at one corner portion of the combined structure of the insulators 1-1 and 1-1 '. Further, a connecting portion 1-2-2 connected to a core wire (not shown) of a multi-core cable is formed at one end portion of the plug contact 1-2.

  Reference numeral 1-1-2 denotes a key groove, which is guided in combination with a key protrusion 2-3-1-3-1 formed on the surface of the insulator 2-3-1-3 of the receptacle connector when the plug connector 1 is inserted. The

  FIG. 6 is an example of an exploded view of the receptacle connector 2. In this case, for example, a metal housing shell 2-1, a housing shell cover 2-2, a contact module assembly 2-3, a slot knob 2-4, a waterproof O-ring 2-15, an LED irradiation light transmitting resin 2 -4-1, lock button 2-5 for locking the rotation of the slot knob 2-4, spring 2-6 for urging the lock button 2-5 vertically upward, housing shell packing 2-7, for housing shell Screws 2-8 (4), Cable clamps 2-9 (2), Cable clamp screws 2-10 (2), Cable clamp nuts 2-11 (2), Cable bushing 2-12, Waterproof Cap 2-13 for cap and spring pin 2-14 for cap.

  The assembly of the receptacle connector 2 will be described. After the lock button 2-5 and the spring 2-6 are assembled into the slot knob 2-4, the slot knob 2-4 is inserted from the inside of the housing shell 2-1. The bushing 2-12 integrally molded with the cable is inserted into the housing shell cover 2-2, and the shield portion of the cable is sandwiched by the cable clamp 2-9, and the cable clamp screw 2-10 and the cable clamp nut 2-11 are used. Tighten and fix the cable.

  Four thin coaxial connectors connected in advance to the receptacle-side cable are connected to the respective connectors 2-3-1-5 of the contact module assembly 2-3. The contact module assembly 2-3 connected with the cable is inserted into the housing shell 2-1, sandwiched between the housing shell covers 2-2, and tightened with the housing shell screws 2-8.

  The waterproof cap 2-13 is incorporated in the bearing portion of the housing shell 2-1, and the cap spring pin 2-14 is inserted and fixed.

  FIG. 7 shows an actual example of the contact module assembly 2-3 arranged inside the receptacle connector 2. The receptacle connector of FIG. 7 is formed by a housing portion composed of a plurality of contact modules having the same shape. FIG. 7 shows a state in which four contact modules (2-3-1, 2-3-2, 2-3-3, 2-3-4) in which contacts, substrates and the like are incorporated are combined. After the four modules are combined, they are fixed with module screws 2-3-5.

  FIG. 8 is an exploded view for explaining one of the four modules of the contact module assembly 2-3 of the receptacle connector 2. Receptacle contact 2-3-1-1 having a laminated structure laminated to fit corresponding plug contact 1-2 is formed at the same time as insert mold 2-3-1-2. The insert mold 2-3-1-2 in which the receptacle contact 2-3-1-1 is inserted is press-fitted and fixed to the insulator 2-3-1-3. In this press-fitted and fixed state, the distal end portion 2-3-1-1-1 of the receptacle contact 2-3-1-1 is the lower distal end portion 2-3-1-3 of the insulator 2-3-1-3. -2 is engaged with a constant holding load, it is possible to make contact with a large pressure with a small amount of movement when contacting the plug contact 1-2. The contact portion with the plug contact 1-2 at the distal end portion 2-3-1-1-1 preferably has a shape of a convex portion 2-3-1-1-2.

  Connection board on which a thin coaxial connector 2-3-1-5, indicator LED 2-3-1-6, detection switch 2-3-1-7 (mounted on only one module) and the like are mounted, that is, printing The circuit board 2-3-1-4 is soldered to the upper board connecting portion 2-3-1-8 of the receptacle contact 2-3-1-1.

  FIG. 9 is a cross-sectional view of the contact portion of the receptacle connector 2. Four sets of contact modules 2-3-1, 2-2-2, 2-3-3, and 2-3-4 are arranged in the housing shell 2-1 of the receptacle connector 2. One end of the contact 2-3-1-1 is fixed to the insert mold 2-3-1-2, and is solder-connected to the wiring of the connection board 2-3-1-4.

  A plurality of contacts on one surface perpendicular to the insertion direction of the receptacle connector and a plurality of corresponding contacts on the one surface of the columnar plug connector are inserted into the receptacle connector by inserting the columnar plug connector into the column connector. Contact by rotating the plug.

  FIG. 10 is a sectional view of the contact portion in a state where the plug connector 1 is inserted into the receptacle connector 2 and before the slot knob is rotated. That is, FIG. 10 is a view before the plug connector 1 is rotated. In this state, the contact 1-2 of the plug connector 1 and the contact 2-3-1-1 of the receptacle are not in contact.

  FIG. 11 is a cross-sectional view of the contact portion in a state in which the plug connector 1 is rotated, for example, 50 degrees clockwise after the plug connector 1 is inserted into the receptacle connector 2. When the cross section of the plug connector is square, it is appropriate that the plug connector is configured to come into contact with rotation of about 50 degrees. In this state, the contact 1-2 of the plug connector and the contact 2-3-1-1 of the receptacle are in contact with each other at the corner portion 1-1-1 of the plug connector.

  FIG. 12 is a longitudinal sectional view of the state in which the plug connector 1 is inserted into the receptacle connector 2 (before the plug connector 1 is rotated). In the contact module 2-3 of the receptacle connector 2, contacts 2-3-1-1 formed so as to be stacked are arranged at an equal pitch. When the plug connector 1 is inserted to a predetermined position as shown in FIG. 12, the positions of the contact 2-3-1-1 of the receptacle connector 2 and the corresponding stacked plug contacts 1-2 of the plug connector 1. Match.

  In this state, the slot knobs 2-4 of the plug connector 1 and the receptacle connector 2 are rotatable with respect to the receptacle connector 2. The lock button 2-5 is urged in the vertical direction by the spring 2-6, and in this state, the lock button 2-5 is temporarily locked by the lock button 2-5 (see FIG. 14).

  A waterproof O-ring 2-15 is incorporated in the slot knob 2-4 of the receptacle connector 2. Further, the waterproof O-ring 1-5 of the plug connector 1 makes the plug connector 1 waterproof when fitted.

  The LED knob light transmitting resin 2-4-1 is molded in two colors on the slot knob 2-4 of the receptacle connector 2, and is used for the indicator mounted on the connection board 2-3-1-4 shown in FIG. The light of the LED 2-3-1-6 is transmitted in an annular shape up to the surface of the slot knob 2-4.

  FIG. 13 shows that after the plug connector 1 is inserted into the receptacle connector 2, it rotates clockwise together with the slot knob 2-4, and the lock button 2-5 built in the slot knob 2-4 locks the housing shell 2-1. The state which entered into the groove | channel 2-1-1 and was locked is shown.

  In FIG. 14, the lock button 2-5 incorporated in the slot knob 2-4 of the receptacle connector 2 is pressed to release the lock, and then the plug connector 1 and the slot knob 2-4 are rotated counterclockwise to form the housing shell 2-1. A state in which the lock button 2-5 enters the temporary lock groove 2-1-2 and enters the temporary lock state is shown.

  FIG. 15 shows a state when the plug connector 1 is inserted into the receptacle connector 2 and is rotated clockwise together with the slot knob 2-4 to be locked. The detection switch 2-3-1-7 mounted on the connection board 2-3-1-4 in the receptacle connector 2 is pushed by the detection projection 2-4-3 of the slot knob 2-4 to be turned on. . The housing shell is shown in an undisplayed state for explanation.

  FIG. 16 shows an example of mounting the indicator LED 2-3-1-6. In this case, the LED 2-3-1-6 is mounted on the connection board 2-3-1-4 of the contact module assembly 2-3 of the receptacle connector 2. The irradiation light 2-3-1-9 from the LED 2-3-1-6 is sent to the front surface 2- of the slot knob 2-4 by the LED irradiation light transmitting resin 2-4-1 molded in two colors by the slot knob 2-4. 4-5 transmits light.

[Operation overview]
An outline of the operation of the connector described above will be described.

  (1) The plug connector 1 is inserted from the insertion slot 2-4-4 on the front surface of the slot knob 2-4 of the receptacle connector 2. The axial alignment of the plug connector 1 and the receptacle connector 2 is performed on the circular inner surfaces of the receptacle insulator 2-3-1-3 and the insertion slot knob 2-4 with the insulator A1-1 and the insulator B1- A square four-corner portion 1-1-1 combining 1 'is positioned and inserted. Note that the polarity in the rotational direction is such that the key protrusion 2-4-2 (see FIG. 16) provided on the circular inner surface of the insertion slot knob 2-4 of the receptacle connector 2 and the insulator 2-3-1-3 of the receptacle connector 2 are. Guided by a key projection 2-3-1-3-1 (see FIG. 7) provided on the surface. That is, when the key groove portion 1-1-2 (see FIG. 2) of the insulator A1-1 of the plug connector 1 and the insulator B1-1 'is inserted, the plug connector 1 is inserted in a non-rotatable state in a predetermined arrangement. The Since the plug connector 1 is inserted into the receptacle connector 2 in a non-rotatable state, the plug connector 1 is inserted without contacting the receptacle contact 2-3-1-1-1 exposed inside the receptacle connector 2. Is done.

  (2) When the plug connector 1 is inserted to the final position, the key protrusion 2-3-1-3-1 provided on the insulator 2-3-1-3 of the receptacle connector 2 is connected to the insulator A1- of the plug connector 1. 1 and the insulator B1-1 ′ extend in a circumferential direction from the key groove portion 1-1-2, and engage with a key groove portion 1-1-3 that allows the plug connector 1 to rotate. For this reason, the plug connector 1 is in a state in which it can rotate in one direction (clockwise). The plug connector 1 can be rotated by rotating the slot knob 2-4.

  That is, in this state, the key protrusions 2-4-2 (see FIG. 16) provided in the opening of the slot knob 2-4 of the receptacle connector 1 are formed on the plug insulator A1-1 and the plug insulator B1-1 ′, respectively. It is engaged with the groove 1-1-4 at the end of the key groove 1-1-2. For this reason, the plug connector 1 rotates in synchronization with the rotation of the slot knob 2-4 of the receptacle connector 2.

  From the insertion state shown in FIG. 10, the plug connector 1 starts to rotate clockwise in synchronization with the rotation of the slot knob 2-4. In the plug connector 1, the key protrusion 2-3-1-1-3 of the insulator 2-3-1-3 of the receptacle connector 2 is rotatable key groove portion 1-1 of the insulator A 1-1 and the insulator B 1-1 of the plug connector 1. It moves so that it may rotate in the circumferential direction with respect to 1-3 and is engaged. Then, the plug connector 1 cannot be pulled out from the receptacle connector 2.

(3) When the plug connector 1 is rotated clockwise by the slot knob 2-4 of the receptacle connector 2, the contact portions 1-2-1 at the four corners of the contact 1-2 of the plug connector 1 shown in FIG. 10 and the front end portion 2-3-1-1-1 of the receptacle contact 2-3-1-1 shown in FIG. 11 is pressed. Therefore, the receptacle contact 2-3-1-1 and the plug as shown in FIG. The contact 1-2 is in an electrical connection state. Since the contacts are brought into contact with each other at the four corners, the force is evenly distributed, and stable contact is obtained at each of the four corners.

(4) When the plug connector 1 is rotated to a predetermined angle (for example, 50 degrees) together with the slot knob 2-4 of the receptacle connector 2, it is incorporated in the slot knob 2-4 shown in FIG. The lock button 2-5 including the spring 2-6 is raised. Then, as shown in FIG. 13, it engages with the lock groove 2-1-1 of the housing shell 2-1 of the receptacle connector 2. Therefore, the slot knob 2-4 is locked in a non-rotatable state.

(5) When the fitting between the plug connector 1 and the receptacle connector 2 is released, the lock button 2-5 of the slot knob 2-4 of the receptacle connector 2 is pushed down to release the lock by the lock button 2-5. Thereafter, the slot knob 2-4 and the plug connector 1 are rotated counterclockwise in the opposite direction to that at the time of locking. In this way, the contact contact between the plug connector 1 and the receptacle connector 2 is released.

  When the slot knob 2-4 is further rotated to the initial rotation angle, the key protrusion 2-3-1-3-1 provided on the insulator 2-3-1-3 of the receptacle connector 2 is connected to the insulator A1 of the plug connector 1. -1 and the rotatable key groove 1-1-3 of the insulator B1-1 'are disengaged. In this state, the angle of the key groove portion 1-1-2 of the insulator A1-1 and the insulator B1-1 'coincides with the position of the key protrusion 2-4-2, and the plug connector 1 is ready to be pulled out.

  In this state, as shown in FIG. 14, the lock button 2-5 of the slot knob 2-4 enters the temporary lock groove 2-1-2 having a shallow depth formed in the housing shell 2-1. It becomes locked. In the temporary lock state, the slot knob 2-4 is in a non-rotatable state in a state where a certain torque is applied or less.

(6) As shown in FIG. 15, in this example, after the plug connector 1 is inserted into the receptacle connector 2, when the plug connector 1 rotates clockwise together with the slot knob 2-4 and is locked, The detection switch 2-3-1-7 mounted on the circuit board 2-3-1-4 is locked at an angle by which the detection projection 2-3-4 of the slot knob 2-4 is locked. -1-7 was turned on.

(7) As shown in FIG. 16, in this case, as an option, the LED 2-3-1-6 mounted on the connection board 2-3-1-4 of the contact module assembly 2-3 of the receptacle connector 2 is a slot knob. As a structure that transmits light to the front surface of the slot knob 2-4 by the LED irradiation light transmitting resin 2-4-1 molded into two colors in 2-4, the operation can be confirmed by illumination during communication.

The embodiment of the present invention has been described above. However, various modifications can be made without departing from the technical scope of the present invention. That is, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention at the stage of implementation. Further, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements.
The invention described in the initial claims of the present application is attached below.
[1]
The plurality of contacts on the first surface of the receptacle connector and the corresponding plurality of contacts on the first surface of the columnar plug connector are inserted into the receptacle connector, and the columnar plug connector is inserted into the receptacle connector. A rotary contact multi-core connector that makes contact by rotating
The first surface is perpendicular to the direction of insertion;
Both the receptacle and the columnar plug connector have a plurality of contacts parallel to the direction of insertion;
At least a part of the columnar plug connector has a polygonal cross section;
The plug contacts of the first surface are each disposed at a corner of the polygon;
Matched receptacle contacts are arranged radially with respect to the axis of insertion direction of the plug connector, and
A connector in which the plug contact is brought into contact with a corresponding receptacle contact by inserting the plug connector into the receptacle connector and then rotating the plug connector by a predetermined angle.
[2]
The polygonal connection structure in which the plug contacts are arranged at the corner portions of the plug connector has a stacked structure in which the plug contacts are stacked in the length direction of the plug connector, and the receptacle connector to be adapted is also The connector according to [1], wherein the connector has a stacked structure of contacts, and the stacked contacts are simultaneously brought into a contact state by inserting the plug connector into the receptacle connector and rotating the plug connector by a predetermined angle.
[3]
The connector according to [1] or [2], wherein the polygon is a square.
[4]
The columnar part according to any one of [1] to [3], wherein the columnar part includes a polygonal support member formed of an insulator.
[5]
The receptacle connector according to any one of [1] to [4], wherein the receptacle connector is formed in the shape of a plurality of identical housing portions.
[6]
The connector according to [5], wherein the receptacle connector contact is attached to a printed circuit board, and the printed circuit board is fixed to one of the housing portions.
[7]
The plug connector is formed in the shape of a plurality of identical housing parts, and the connector according to [1].
Necta.

1 ・ ・ ・ Plug connector,
1-1 Insulator A,
1-1 ′ Insulator B,
1-1-1 ... corner part,
1-1-2: Key groove,
1-1-3: Key groove,
1-1-4: Key groove,
1-1-5 Insulator assembly A,
1-1'-5 ... insulator assembly B,
1-1-6 ... hole,
1-1-7 ... groove part,
1-2 ... Plug contact,
1-2-1. Contact point,
1-2-2 ... connection part,
1-3 ... Cable bushing,
1-4 Cable clamp,
1-5 O-ring,
2 ... Receptacle connector,
2-1 ... Housing shell,
2-1-1 Lock groove,
2-1-2 Temporary lock groove,
2-1-3: Waterproof cap,
2-2 ... Housing shell cover,
2-3 Contact module assembly,
2-3-1. Contact module,
2-3-1-1 Receptacle contact,
2-3-1-1-1 ... tip,
2-3-1-1-2 ... convex part,
2-3-1-2 ... Insert mold,
2-3-1-3 Insulator,
2-3-1-3-1 Key projection,
2-3-1-3-2 ... lower tip,
2-3-1-4 ... Connection board,
2-3-1-5 Fine wire coaxial connector,
2-3-1-6 LED,
2-3-1-7 Detection switch,
2-3-1-8 ... board connection part,
2-3-1-9 ... Irradiation light,
2-3-2 ... contact module,
2-3-3 ... contact module,
2-3-4 ... Contact module,
2-4 ... Slot knob,
2-4-1 Resin for LED irradiation light transmission,
2-4-2 Key projection,
2-4-3 ... detection protrusion,
2-4-4 Insertion port,
2-3-5 ... Module screws,
2-5 ... Lock button,
2-6 ... Spring,
2-7... Housing shell packing,
2-8... Housing shell screw,
2-9 Cable clamp,
2-10 ... Screws for cable clamping,
2-11 ... Cable clamp nut,
2-12 Cable bushing,
2-13 .. Waterproof cap,
2-14 ... Spring pin for cap,
2-15 ... O-ring,
3-1 Connector,
3-2 ... Plug connector,
3-3 Receptacle connector,
3-4 ... Contact,
3-5 Contact ...
4-1 Connector ...
4-2 ... Plug connector,
4-3. Receptacle connector,
4-4 Contact ...
4-5 ... Contact,

Claims (7)

The plurality of receptacle contacts on the first surface of the receptacle connector and the corresponding plurality of plug contacts on the first surface of the columnar plug connector are inserted into the receptacle connector, and the columnar plug connector is inserted into the receptacle connector. A rotary contact multicore connector that makes contact by rotating a plug connector,
The first surface is perpendicular to the direction of insertion;
Both the receptacle connector and the columnar plug connector have a plurality of contacts parallel to the direction of insertion;
The columnar plug connector has a polygonal cross section;
The contact portions of the plug contacts on the first surface are respectively disposed at the corners of the polygon,
Corresponding receptacle contacts are arranged radially with respect to the insertion direction axis of the plug connector, and the plug contact is inserted by inserting the plug connector into the receptacle connector and then rotating the plug connector by a predetermined angle. A connector that comes into contact with the corresponding receptacle contact. The polygonal connection structure in which the plug contacts are arranged at the corners of the plug connector has a laminated structure in which the plug contacts are stacked in the length direction of the plug connector, and the corresponding receptacle connector is also 2. The connector according to claim 1, wherein the connector has a stacked structure of contacts, whereby the stacked contacts are simultaneously brought into contact by inserting the plug connector into the receptacle connector and rotating the plug connector by a predetermined angle.   The connector according to claim 1 or 2, wherein the polygon is a square. The connector according to any one of claims 1 to 3, wherein the plug connector has a polygonal support member formed of an insulator. The connector according to any one of claims 1 to 4, wherein the receptacle connector is formed by a housing portion including a plurality of contact modules having the same shape . 6. The connector of claim 5, wherein the receptacle contact is attached to a printed circuit board, and the printed circuit board is secured to one of the housing portions. The connector according to claim 1, wherein the plug connector includes a pair of insulators arranged in parallel with each other and supporting the plug contacts .

Images