Connector for microphone and microphone

Abstract

A connector for a microphone and a microphone are provided that can prevent loose connections to a microphone stand. The connector for the microphone is to be inserted into a connector support hole of a microphone stand. The connector includes pins to be electrically connected to the microphone stand, a connector body accommodating the pins, a sleeve disposed on the outer circumferential surface of the connector body, and an elastic member for biasing the sleeve toward the rear end of the connector body. The sleeve has an insertion portion to be inserted into a space between the connector body and the connector support hole.

Claims

1. A connector for a microphone comprising: pins to be electrically connected to a microphone stand; a connector body accommodating the pins; a sleeve disposed on an outer circumferential surface of the connector body; and an elastic member for biasing the sleeve toward the rear end of the connector body, wherein the sleeve has an insertion portion to be inserted into a space between the connector body and a connector support hole of the microphone stand, the elastic member has a pressing portion at its rear end that contacts a pressed portion of the sleeve, and the elastic member has a groove in its rear end such that, in response to a reaction force from the pressed portion of the sleeve on the pressing portion of the elastic member, the pressing portion of the elastic member is deformable and a displacement of the pressing portion of the elastic member toward a front end of the outer circumferential surface of the connector body is prevented.

2. The connector for the microphone according to claim 1, wherein the sleeve has a shape of a cylinder, the elastic member presses the front end of the sleeve, and the insertion portion is disposed at the rear end of the sleeve.

3. The connector for the microphone according to claim 2, wherein the outer diameter of the insertion portion gradually decreases from the front end toward the rear end of the sleeve.

4. The connector for the microphone according to claim 1, wherein the modulus of elasticity of the elastic member is higher than the modulus of elasticity of the sleeve.

5. The connector for the microphone according to claim 1, wherein the connector body has a latch hole that can be engaged with a latch claw disposed in the connector support hole, and the latch hole is disposed at a position closer to the rear end of the connector body than the position of the sleeve.

6. A microphone comprising: a microphone unit; a connector to be electrically connected to the microphone unit; and a connection member connecting the microphone unit with the connector, wherein the connector comprises pins to be electrically connected to a microphone stand, a connector body accommodating the pins, a sleeve disposed on an outer circumferential surface of the connector body, and an elastic member for biasing the sleeve toward the rear end of the connector body, wherein the sleeve has an insertion portion to be inserted into a space between the connector body and a connector support hole of the microphone stand.

7. The microphone according to claim 6, wherein the connection member includes a bendable flexible pipe.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a cross-sectional view of a connector portion of a microphone according to the present invention.

(2) FIG. 2 is a cross-sectional view of a sleeve of the connector.

(3) FIG. 3 is a cross-sectional view of an elastic member of the connector.

(4) FIG. 4 is a partially sectional view of the connector portion of the microphone attached to a microphone stand.

(5) FIG. 5 is an external view of a conventional gooseneck microphone.

(6) FIG. 6 is a cross-sectional view of the connector portion of the conventional gooseneck microphone.

(7) FIG. 7 is a perspective view of the microphone stand to which the conventional gooseneck microphone is to be attached.

(8) FIG. 8 is a partially sectional view of the first output connector of the microphone stand.

(9) FIG. 9 is a schematic view of example use of the conventional gooseneck microphone attached to the microphone stand.

(10) FIG. 10 is a partially sectional view of the connector case portion of the conventional gooseneck microphone attached to the microphone stand.

DESCRIPTION OF EMBODIMENTS

(11) Embodiments of a connector for a microphone and a microphone will now be described with reference to the attached drawings. In the description below, a gooseneck microphone will be described as an example microphone according to the present invention.

(12) FIG. 1 is a cross-sectional view of a connector portion of the gooseneck microphone according to the present invention.

(13) The structure of the gooseneck microphone 1 according to the present invention differs from that of the conventional gooseneck microphone 10 shown in FIG. 5 in the following points. The gooseneck microphone 1 according to the present invention is provided with a sleeve 100 and an elastic member 200 attached on an outer circumferential surface of a connector body 90 in place of the connector case 8 of the conventional gooseneck microphone 10.

(14) A gooseneck microphone 1 according to the present invention includes a microphone case 2, a microphone unit 2a, a rear case 3, a first flexible pipe 4, a pipe 5, a joint 6, a second flexible pipe 7, and a connector for the microphone according to the present invention. The connector for the microphone according to the present invention includes a connector base 9, a connector body 90, a sleeve 100, and an elastic member 200.

(15) The gooseneck microphone 1 is attachable to the microphone stand 20 shown in FIG. 7 and is used similarly to the conventional gooseneck microphone 10. Hereinafter, the gooseneck microphone 1 according to the present invention will now be described also with reference to FIGS. 5 and 7.

(16) The microphone unit 2a is accommodated in the front (the direction of the gooseneck microphone 1 to a sound source during sound collection) portion of the microphone case 2. The microphone unit 2a generates audio signals corresponding to sound waves received from the sound source, and outputs the signals.

(17) The rear portion of the microphone case 2 is connected to the first flexible pipe 4 via the rear case 3. The first flexible pipe 4 is connected to one end of the pipe 5. The other end of the pipe 5 is connected to one end of the second flexible pipe 7 via the joint 6. The other end of the second flexible pipe 7 is connected to the connector base 9. The pipe 5 and the joint 6 are composed of metal. The pipe 5 and the joint 6 have shapes of straight tubes. The sleeve 100 and the elastic member 200 will be described below.

(18) The microphone unit 2a is connected to the connector base 9 via a connection member that includes the microphone case 2, the rear case 3, the first flexible pipe 4, the pipe 5, the joint 6, and the second flexible pipe 7. That is, the connection member connects the microphone unit 2a with the connector. The audio signals generated by the microphone unit 2a are output to the connector (connector base 9) via a microphone cable inserted into the connection member.

(19) The second flexible pipe 7 is connected to the front end (upper side in FIG. 1) of the connector base 9. The connector base 9 includes, for example, a first pin 91 for ground, a second pin 92 for hot signals, and a third pin 93 for cold signals at the rear end (lower side in FIG. 1) of the connector base 9, and conforms to JEITA Standard RC-5236 “Circular Connectors, Latch Lock Type for Audio Equipment”. The connector base 9, and the three pins 91, 92, and 93 are accommodated in the connector body 90. These pins 91, 92, and 93 are electrically connected to the microphone stand 20.

(20) The second flexible pipe 7 which consists the connection member is supported by the front portion of the connector body 90.

(21) The connector body 90 has a latch hole 94. The latch hole 94 can be engaged with a latch claw 36. The latch hole 94 is formed on the inner circumferential surface of the rear end of the connector body 90. The latch hole 94 is formed at a position closer to the rear end of the connector body 90 than a position where the sleeve 100, which will be described below, is attached.

(22) The gooseneck microphone 1 is attached to the microphone stand 20 shown in FIG. 7. That is, the rear end of the connector body 90 is inserted into a connector support hole 37. The latch claw 36 of the first output connector 30 engages with the latch hole 94 of the connector body 90. The gooseneck microphone 1 is mechanically connected to the microphone stand 20, and attached in an upright state. By bending the first flexible pipe 4 and the second flexible pipe 7, the microphone unit 2a accommodated in the microphone case 2 is directed toward a desired direction, for example, in a direction toward the mouth of a speaker.

(23) The first output connector 30 includes a first pin 31, a second pin 32, and a third pin 33. These pins 91, 92, and 93 of the connector base 9 can be inserted into the pin receiver 35. When the pins 91, 92, and 93 of the connector base 9 are inserted into the pin receiver 35, then the first pin 91 is electrically connected to the first pin 31, the second pin 92 is electrically connected to the second pin 32, and the third pin 93 is electrically connected to the third pin 33.

(24) A second output connector 40 is disposed in back side of the base body 21 (see FIG. 9). The shape of the second output connector 40 is similar to that of the first output connector 30. The first pins, the second pins, and the third pins of the first output connector 30 and the second output connector 40 are electrically connected with each other within the base body 21, for example, with a lead wire (not shown). A plug 50 is inserted into the second output connector 40. The plug 50 is connected to an external device such as a mixer (not shown) via a microphone cord 60.

(25) When the rear end portion of the connector body 90 is inserted into the connector support hole 37 of the first output connector 30, then the first pin 91 is electrically connected to the first pin 31, the second pin 92 is electrically connected to the second pin 32, and the third pin 93 is electrically connected to the third pin 33, as described above. As a result, the audio signals generated by the microphone unit 2a are then output to the microphone cord 60 via the connector base 9, the first output connector 30, and the second output connector 40.

(26) When the latch release lever 23 is pressed, for example, with a finger of the operator, then the engagement between the latch claw 36 and the latch hole 94 is released. By the releasing operation, the gooseneck microphone 1 attached to the microphone stand 20 is detached from the microphone stand 20.

(27) FIG. 2 is a cross-sectional view of the sleeve 100.

(28) The sleeve 100 is composed of an elastic material. The sleeve 100 has a shape of a cylinder (a substantial cylinder). The sleeve 100 includes a connector body insertion hole 100h, a portion to be pressed 110, and an insertion portion 120. The inner circumferential surface of the sleeve 100 is the connector body insertion hole 100h. The connector body 90 is to be inserted into the connector body insertion hole 100h of the sleeve 100. The portion to be pressed 110 is disposed in the proximity of one open end (front end) of the sleeve 100. The portion to be pressed 110 is pressed from an elastic member 200 described below. The insertion portion 120 is disposed in the proximity of the other open end (rear end) of the sleeve 100. The insertion portion 120 is inserted into a space between the connector body 90 and the connector support hole 37.

(29) The outer diameter of the insertion portion 120 gradually decreases from the front end (upper side in FIG. 2) toward the rear end (lower side in FIG. 2) of the sleeve 100. That is, the shape of the outer circumferential surface of the insertion portion 120 is tapered from the front end toward the rear end of the sleeve 100.

(30) The connector body 90 is to be inserted into the connector body insertion hole 100h of the sleeve 100. That is, the sleeve 100 is attached to the outer circumferential surface of the connector body 90. In this state, the insertion portion 120 is located in the rear end portion of the connector body 90.

(31) FIG. 3 is a cross-sectional view of the elastic member 200.

(32) The elastic member 200 is composed of an elastic material. The elastic member 200 has a shape of a cylinder (a substantial cylinder). The elastic member 200 includes a connector body insertion hole 200h, a pressing portion 210, and a groove 220. The inner circumferential surface of the elastic member 200 is the connector body insertion hole 200h. The connector body 90 is to be inserted into the connector body insertion hole 200h. The pressing portion 210 is disposed in the proximity of one open end (rear end, lower side in FIG. 3) of open ends of the elastic member 200. The groove 220 is disposed in the rear end portion of the elastic member 200 in the proximity of the pressing portion 210 on the outer circumferential surface of the elastic member 200.

(33) The connector body 90 is to be inserted into the connector body insertion hole 200h. That is, the elastic member 200 is attached to the outer circumferential surface of the connector body 90. In this state, the pressing portion 210 comes in contact with the portion to be pressed 110 of the sleeve 100. In other words, the elastic member 200 is attached to the front of the outer circumferential surface of the connector body 90. The sleeve 100 is attached to the rear of the elastic member 200 on the outer circumferential surface of the connector body 90 in a state the sleeve 100 is in contact with the elastic member 200. As described below, the elastic member 200 biases the sleeve 100 toward the rear end of the connector body 90 when the gooseneck microphone 1 is attached to the microphone stand 20.

(34) FIG. 4 is a partially sectional view of the connector base 9 and the first output connector 30 of the gooseneck microphone 1 attached to the microphone stand 20.

(35) The rear end of the connector body 90 is inserted into the connector support hole 37. The latch hole 94 of the connector body 90 engages with the latch claw 36 of the first output connector 30. At the same time, the insertion portion 120 of the sleeve 100 is inserted into the space between the connector body 90 and the connector support hole 37. In other words, the position where the sleeve 100 and the elastic member 200 are attached on the outer circumferential surface of the connector body 90 is the position where the insertion portion 120 of the sleeve 100 can be inserted into the space between the connector body 90 and the connector support hole 37 when the gooseneck microphone 1 is attached to the microphone stand 20.

(36) FIG. 4 illustrates an example that the entire insertion portion 120 (see FIG. 2) of the sleeve 100, in other words, the entire tapered portion of the outer circumferential surface of the sleeve 100 is inserted into the space between the connector body 90 and the connector support hole 37. Alternatively, only a part of the tapered portion of the outer circumferential surface of the sleeve 100 may be inserted into the space between the connector body 90 and the connector support hole 37 in the present invention. That is, a part of or all of the tapered portion of the outer circumferential surface of the sleeve 100 may be inserted into the space between the connector body 90 and the connector support hole 37 in the present invention. In other words, in the present invention, the insertion portion of the sleeve is a part of the sleeve, and the portion is to be inserted into the space between the connector body and the connector support hole.

(37) The gooseneck microphone 1 attached to the microphone stand 20 is fixed to the microphone stand 20 by the insertion portion 120 of the sleeve 100 inserted into the space between the connector body 90 and the connector support hole 37 in addition to the engagement between the latch claw 36 and the latch hole 94. Consequently, in the gooseneck microphone 1, loose connections to the microphone stand 20 are to be prevented as compared to the conventional gooseneck microphone 10 that is fixed only by the engagement between the latch claw 36 and the latch hole 94. Especially, when a part of the tapered portion of the outer circumferential surface of the sleeve 100, for example, only the tip portion of the rear end of the sleeve 100 is inserted into the space between the connector body 90 and the connector support hole 37, a so-called wedge effect is produced. That is, the tip portion of the sleeve 100 fills the space between the connector body 90 and the connector support hole 37. At the same time, the sleeve 100 receives pressure from the pressing portion 210. Thus, the tip portion of the sleeve 100 is pressed toward the connector support hole 37, and fixed within the space. As a result, effects which prevent the loose connection of the gooseneck microphone 1 to the microphone stand 20 are improved.

(38) As described above, the outer circumferential surface of the insertion portion 120 is tapered from the front end to the rear end. Thus, the insertion portion 120 readily enters the space between the connector body 90 and the connector support hole 37 when the rear end of the connector body 90 is inserted into the connector support hole 37.

(39) Furthermore, the elastic member 200 biases the sleeve 100 toward the rear end of the connector body 90. Thus, the insertion portion 120 that has been inserted into the space between the connector body 90 and the connector support hole 37 is biased toward the rear side (lower side in FIG. 4) of the connector support hole 37. In other words, the insertion portion 120 inserted into the space between the connector body 90 and the connector support hole 37 does not readily fall off from the space.

(40) The sleeve 100 and the elastic member 200 may be composed of different materials. That is, for example, a modulus of elasticity (for example, Young's modulus) of the elastic member 200 may be higher than that of the sleeve 100, in other words, the elastic member 200 may be composed of the material that has higher resistance to deformation than that of the sleeve 100. In such a case, the displacement (displacement toward the front end of the outer circumferential surface of the connector body 90) of the pressing portion 210 can be prevented when the insertion portion 120 is inserted into the space between the connector body 90 and the connector support hole 37 with reaction force from the pressed portion 110 to the pressing portion 210. Further, even if the pressing portion 210 is deformed by the reaction force from the pressed portion 110, the displacement of the pressing portion 210 toward the front end of the outer circumferential surface of the connector body 90 is prevented by the groove 220 disposed in the proximity of the pressing portion 210. Consequently, the insertion portion 120 does not readily fall off from the space between the connector body 90 and the connector support hole 37 by the adjustment of the moduli of the elasticity between the elastic member 200 and the sleeve 100 and the effect of the groove 220. As a result, the loose connections of the gooseneck microphone 1 to the microphone stand 20 is prevented.

(41) According to the embodiment described above, to the outer circumferential surface of the connector body 90 that is to be inserted into the connector support hole 37, the sleeve 100 that has the insertion portion 120 to be inserted into the space between the connector body 90 and the connector support hole 37, and the elastic member 200 that biases the insertion portion 120 of the sleeve 100 toward the connector support hole 37 are attached. Thus, a part (a space in the proximity of the upper surface of the first output connector 30) of the space between the connector body 90 and the connector support hole 37 is filled with the insertion portion 120.

(42) Consequently, the gooseneck microphone 1 attached to the microphone stand 20 is fixed to the microphone stand 20 by the insertion portion 120 of the sleeve 100 inserted into the space between the connector body 90 and the connector support hole 37 in addition to the engagement between the latch claw 36 and the latch hole 94. Thus, the loose connections to the microphone stand 20 is prevented as compared to the conventional gooseneck microphone 10 that is fixed only by the engagement between the latch claw 36 and the latch hole 94. As a result, the gooseneck microphone 1 is prevented from outputting noise due to, for example, vibration of a desk on which the microphone stand 20 is placed.