JPH06196216A - Electric connector device - Google Patents

Abstract

PURPOSE:To resolve the occurrence of a corona discharge by improving the contact property between a connector pin and a contact hole and to avoid the possibility of a disconnection by eliminating the connection via soldering. CONSTITUTION:The second connector pin 18 connected to a high-voltage cable 2 and a contact hole 3 inserted with the second connector pin 18 are electrically connected. An electric connector device is provided with the first connector pin 6 protruded from the tip of the second connector pin 18 into contact with the bottom face of the contact hole 3, a spring 19 invariably exciting the first connector pin 6 toward the bottom face of the contact hole 3, and a spring pressing member 20.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric connector device for a high voltage cable for supplying a high voltage from a power supply device to a device such as an X-ray tube device which requires a high voltage supply.

[0002]

2. Description of the Related Art An external view of a general X-ray tube device is shown in FIG.
Shown in.

An X-ray tube is housed in an X-ray tube container 25 together with insulating oil, an X-ray tube support mechanism and the like. X-ray tube container 25
Although not shown, a window for radiating X-rays is provided in the center of the bottom surface of the X-ray tube, and an opening generally called a horn is provided on the upper and left sides of the X-ray tube container 25. A cup-shaped receptacle connected to the electrodes of the X-ray tube is inserted into the horns 26 and 27, and a high voltage (+) from the high voltage transformer 28 of the high voltage generator shown in FIG. ，
The tip of high voltage cables 29 and 30 in which three positive and negative two coaxial cables for supplying (-) are bundled is inserted. FIG. 5A is a cross-sectional view around the receptacle.

A plastic cable bushing 31 is attached to the tip of the high-voltage cable 29 as a high-voltage insulator, and three connector pins 32 corresponding to each coaxial cable are projected from the tip of the cable bushing 31. This connector pin 32 is the receptacle 3
The high voltage cable 29 and the restable 33 are electrically connected by being inserted into the contact hole provided on the bottom surface of the cable 3.

Further, a silicone plate 34 as an insulating member is sandwiched between the tip of the cable bushing 31 and the bottom surface of the receptacle 33, and they are in close contact with each other to maintain a high voltage. FIG. 5B is a sectional view of the connector pin 32 inserted into the contact hole 38.

High-voltage cable 2 covered with a cable jacket
9 is housed in the cable bushing 31. Anode from the tip of the high voltage cable 29, the cathode, three coaxial cables 35 for the filament current is drawn, the core wire 36 of the 2m ^{m @ 2} from the coaxial cable 35 is剥出, the tip of three 0.75mm ² Each lead wire 37 is soldered. The tip of each lead wire 37 is soldered to the corresponding connector pin 32 provided.

However, since the inside of the X-ray tube when exposed to X-rays reaches a very high temperature (about 100 °), the connection between the core wire 36 and the lead wire 37 and the connection between the lead wire 37 and the connector pin 32 are performed.
There is a problem in that the soldered portion used for connection with is very easily peeled off. Also, the filament current required by the X-ray tube is usually high, 4.5A to 6.0A, so 2mm ² Core wire 36 and 0.75 mm ² There is also a problem in that the soldered portion used for connection with the lead wire 37 is easily peeled off. The resistance of the solder itself was also a problem.

Further, the following problems have occurred. That is, due to the expansion or contraction of each part of the silicone plate 34, the cable bushing 31, the receptacle 33, etc. due to the high temperature and the vibration accompanying the movement of the X-ray tube, the contact between the connector pin 32 and the contact hole 38 becomes incomplete. An air gap is generated between them, and corona discharge is generated in the air gap.

[0009]

SUMMARY OF THE INVENTION The present invention has been made to address the above-mentioned circumstances, and the first purpose thereof is to improve the contact between the connector pin and the contact hole to prevent the occurrence of corona discharge. It is to cancel, and the second
Is to provide an electrical connector device capable of avoiding the possibility of disconnection by not connecting by soldering.

[0010]

SUMMARY OF THE INVENTION The present invention provides an electrical connector device for a high voltage cable, which electrically connects a connector pin connected to the high voltage cable and a contact hole into which the connector pin is inserted. And a biasing means for constantly biasing the other connector pin in the direction toward the bottom surface of the contact hole.

[0011]

According to the electrical connector device of the present invention, the contact hole is brought into contact with the contact hole at two points of the connector pin and the other connector pin, and the other connector pin is constantly pressed against the bottom surface of the contact hole by being biased by the biasing means. Therefore, at least one of the connector pin and the other connector pin comes into contact with the contact hole, and the occurrence of corona discharge due to poor contact between the contact hole and the connector pin can be eliminated.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an electric connector device according to the present invention will be described below with reference to the drawings.

FIG. 1 is a sectional view of the vicinity of a receptacle of an embodiment applied to an X-ray tube device. The appearance of the entire X-ray tube device is the same as that of the conventional example shown in the figure, and therefore the illustration is omitted. That is, also here, the high voltage transformer of the high voltage generator generates two types of high voltage (± 75 KV), positive and negative, through the two high voltage cables for positive voltage and negative voltage for the X-ray tube device. To supply.

An X-ray tube is contained in the X-ray tube container together with insulating oil, an X-ray tube support mechanism and the like. Although not shown, a window for radiating X-rays is provided in the center of the bottom surface of the X-ray tube container, and an opening generally called a horn is provided on the upper left and right of the X-ray tube container.

An opening for inserting a receptacle is provided in this horn, and a receptacle 1 made of, for example, plastic as a cup-shaped (container) connector container is fixed to this opening. The tip of a high voltage cable 2 from a high voltage transformer of the high voltage generator is inserted into the restable 1.

A conductive cup (container) -shaped contact hole 3 connected to the electrode of the X-ray tube is embedded in the bottom surface of the receptacle 1. Usually, an X-ray tube has three electrodes, an anode, a cathode, and a filament electrode, so the high-voltage cable 2 is formed by bundling three coaxial cables 4, and three contact holes 3 are provided corresponding to each coaxial cable 4. Is provided. This receptacle 1 and contact hole 3
Uses the same as before.

On the other hand, the coaxial cable 4 of the high voltage cable 2
As a high-voltage insulator, a plastic cable bushing 5 of the same size as a conventional one is attached to the tip of the cable bushing 5, and the first connector pin 6 connected to each coaxial cable 4 is projected from the tip of the cable bushing 5. When the cable bushing 5 at the tip of the high-voltage cable 2 is inserted into the restable 1, the contact hole 3 and the first connector pin 6 and the contact hole 3 and the second connector pin 18, which will be described later, are fitted to each other to establish an electrical connection. To be achieved.

As in the conventional case, a silicone plate 7 as an insulating member is sandwiched between the tip of the cable bushing 5 and the bottom surface of the receptacle 1 so as to closely contact the two to hold a high voltage.

A conductive connector 9 whose appearance is shown in FIG. 2 is crimped onto the coaxial cable 4. That is, the coaxial cable 4 is pressed and fixed to the pressing piece 11 of the connector 10 from its outer jacket, and the outer conductor 8 of the coaxial cable 4 whose outer jacket is peeled off is crimped to the crimping piece 12 to be connected to the inner core. The wire 9 is caulked at the lower part 15 of this connector 10. In addition, a protrusion 13 is provided on the peripheral edge near the center of the connector 10, and a drop-out prevention pin 14 is attached upward below the connector 10.

The connector 10 is inserted into the through hole of the connector pin hole 16 embedded in the tip of the cable bushing 5. The internal diameter of the through hole is slightly larger than that of the opening on the connector 10 side. Therefore, by inserting the connector 10 into the through hole of the connector pin hole 16 until it is locked by the protrusion 13,
The drop-out prevention pin 14 engages with the opening of the through hole to prevent the connector 10 from falling out of the connector pin hole 16.

A screw receiving groove 17 is threaded on the inner wall of the portion below the center of the through hole of the connector pin hole 16, and is screwed with a thread threaded on the rear side of the second connector pin 18. Connect the second connector pin 18 to the cable bushing 5
It is designed to be fixed to the tip of.

The second connector pin 18 has the same size as that of the conventional one, and has a through hole penetrating substantially the central portion along the inserting direction. Then, the first connector pin 6 is projected from the tip of this through hole. The first connector pin 6 is always pressed in the tip direction, that is, in the bottom direction of the contact hole 3, by a conductive spring pressing member 20 which is brought into contact with the connector 10 via a conductive spring 19. . Therefore, when the second connector pin 18 is inserted into the contact hole 3, the tip of the first connector pin 6 presses the bottom portion of the contact hole 3 to improve the contact between them.

FIG. 3 is a view showing the outer appearance of the first connector pin 6 and the second connector pin 18. Reference numeral 21 is a screw thread for screwing into the screw receiving groove 17 of the connector pin hole 16, and reference numeral 22 is an insertion portion of the second connector pin 18 inserted into the contact hole 3. The insertion portion 22 of the second connector pin 18 is formed with a split groove 23 along the insertion direction, so that when inserted into the contact hole 3, the inner wall is pressed to improve the contact between the two. Has become.

As described above, in this embodiment, the outer conductor wire 8 and the inner core wire 9 of the coaxial cable 4 are electrically connected to the connector 10 by crimping and caulking, and the connector 10 is connected to the second connector pin 18. Since it is brought into contact with the spring pressing member 20, the soldering for connecting the coaxial cable 4 and the connector pin as in the conventional case is unnecessary. Therefore, even under the high temperature caused by X-ray irradiation, the soldered portion used for connecting the core wire and the lead wire or connecting the lead wire and the connector pin is peeled off and broken as in the conventional case. The problem goes away. Moreover, the problem of the resistance of the solder itself can be solved.

Further, in addition to the second connector pin 18 which is in contact with the contact hole 3 and is similar to the conventional one, the first connector pin 6 which is urged from the tip of the second connector pin 18 by using the spring 19 to project. Since it is a two-point contact method that contacts the contact hole 3, it is greatly reduced that none of the connector pins come into contact with the contact hole 3. Therefore, the silicone plate 7, the cable bushing 5, the receptacle 1 and the like under high temperature can be greatly reduced. Solved the problem that the contact between the connector pin and the contact hole became incomplete due to the expansion or contraction of each part or the vibration accompanying the movement of the X-ray tube, and an air gap was created between them, causing corona discharge in the air gap. it can.

Since the second connector pin 18 and the first connector pin 6 are of a screw type that can be attached to and detached from the contact hole 3, they can be easily replaced in the event of a failure such as bending of the pin. Furthermore, since the sizes of the cable bushing 5 and the restable 1 are the same as the conventional ones,
The design is changed only in the vicinity of the connector pin, and the design changes of other parts are unnecessary.

The present invention is not limited to the above-mentioned embodiments, but can be modified in various ways. For example, in the above description, the extension force of the spring is used to bias the first connector pin 6, but of course other biasing means such as the repulsive force of the magnet may be used.

[0028]

As described above, the present invention provides an electrical connector device for a high voltage cable, which electrically connects a connector pin connected to the high voltage cable and a contact hole into which the connector pin is inserted, to the connector. Other connector pins protruding from the tip of the pin and abutting the bottom surface of the contact hole,

Since the other connector pin is provided with a biasing means for constantly biasing the connector pin in the direction toward the bottom surface of the contact hole, the connector pin and the other connector pin are brought into contact with the contact hole at two points. In addition, since the other connector pin is biased by the biasing means and constantly presses against the bottom surface of the contact hole, at least one of the connector pin and the other connector pin comes into contact with the contact hole, and the contact hole comes into contact with the connector pin. It is possible to eliminate the occurrence of corona discharge due to defects.

[Brief description of drawings]

FIG. 1 is a sectional view of an electric connector device used in an X-ray tube device according to an embodiment of the present invention.

FIG. 2 is a view showing the outer appearance of the connector shown in FIG.

FIG. 3 is a view showing the outer appearance of first and second connector pins shown in FIG.

FIG. 4 is a diagram showing the appearance of a conventional X-ray tube device and a high voltage transformer.

FIG. 5 is a view showing a structure of a conventional electric connector device.

[Explanation of symbols]

1 ... Receptacle, 2 ... High voltage cable, 3 ... Contact hole, 4 ... Coaxial cable, 5 ... Cable bushing, 6 ... First connector pin, 7 ... Silicon plate, 8
... outer conductor wire, 9 ... inner core wire, 10 ... connector, 11 ... presser piece, 12 ... crimping piece 12, 13 ... protrusion part, 14 ... fall-out prevention pin, 15 ... crimping part, 16 ... connector pin hole,
17 ... screw receiving groove, 18 ... second connector pin, 19 ... spring, 20 ... spring pressing member, 21 ... screw thread,
22 ... insertion part, 23 ... split groove.

Claims (2)

[Claims] 1. An electrical connector device for a high-voltage cable, which electrically connects a connector pin connected to a high-voltage cable and a contact hole into which the connector pin is inserted, wherein the contact hole is projected from the tip of the connector pin. An electrical connector device comprising: another connector pin that abuts the bottom surface of the contact hole; and a biasing unit that constantly biases the other connector pin in the direction toward the bottom surface of the contact hole. 2. The electrical connector device according to claim 1, wherein the high-voltage cable and the connector pin are crimped and connected via a conductive connector.