CN2891402Y - Telescopic multi-turning connector - Google Patents

Abstract

The utility model discloses a multi-turning connector with adjustable function, which comprises a first connector, a second connector, an outer sliding part, an inner sliding part, a first rotation shaft, and a second rotation shaft. A signal wire is connected between the two connectors. The outer sliding part can relatively slide and rotate with the inner sliding part. The first rotation shaft and the second rotation shaft can respectively be pin jointed with the first connector and the second connector, thereby the outer sliding part and the inner sliding part are connected between the first rotation shaft and the second rotation shaft to build up a multi-turning connector which has the function of multidirectional rotation, and can be adjusted into different lengths.

Description

Multi-steering connector with Telescopic

Technical field

The utility model relates to a kind of multi-steering connector with Telescopic, relates in particular to a kind of multi-steering connector that is used to electrically connect.

Background technology

Along with constantly bringing forth new ideas of computer science and technology, during correlation function also continues to increase, the ancillary equipment that computer is relevant constantly increases, and because the rise of LAN in recent years, make between main frames such as numerous computer peripheral equipments and portable computer, desktop PC and server, derive complicated connectivity problem, thereby computer engineering circle develops connectors such as USB, IEEE1394, PS2, solved the puzzlement that is connected between main frame and ancillary equipment.

When one highest wisdom is directly inserted connectivity port or gang socket with connectors such as USB, IEEE1394, PS2, because connector is too big or direction is not right, may disturb or hinder in the socket use during use in abutting connection with jack, and use of little space or equipment will produce extruding when leaning on wall, cause losing of wire rod easily.

Therefore there is a kind of multi-steering connector to arise at the historic moment, as announce in TaiWan, China Announcement Number on January 1st, 2004: No. 570391 i.e. announcements have a kind of " multi-steering computer equipment connector ", this connector can be multidirectional turn, this connector mode of being rotationally connected is used, can prevent to hinder use in abutting connection with jack, and use of little space or equipment will can not produce extruding when leaning on wall, to avoid causing losing of wire rod.

But above-mentioned existing multi-steering connector only has the function of multidirectional turn, and can't do flexible an adjustment according to actual needs, so still be restricted on using, can't have better applicability.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of multi-steering connector with Telescopic, it has the function of multidirectional turn, and can be adjusted to different length, so that do flexible an adjustment according to actual needs, can change flexibly on using, have better applicability.

For achieving the above object, the utility model provides a kind of multi-steering connector with Telescopic, and comprising: a connector is connected with holding wire; At least one outer sliding part; Sliding part at least one, but itself and the combination of being somebody's turn to do outer sliding part slide relative and rotation; One first rotating shaft; And one second rotating shaft, its rotating this connector that is articulated in, this outer sliding part and should in sliding part be connected between this first rotating shaft and this second rotating shaft.

And described holding wire is connected with another connector, rotating this another connector that is articulated in of described first rotating shaft.

And described holding wire is connected with a circuit board, rotating this circuit board that is articulated in of described first rotating shaft.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the utility model multi-steering connector first embodiment;

Fig. 2 is the stereogram of the utility model multi-steering connector first embodiment;

Fig. 3 is the top plan view of the utility model multi-steering connector first embodiment;

Fig. 4 is the side cutaway view of the utility model multi-steering connector first embodiment;

Fig. 5 is the schematic diagram () that the utility model multi-steering connector is adjusted state first embodiment;

Fig. 6 is the schematic diagram (two) that the utility model multi-steering connector is adjusted state first embodiment;

Fig. 7 is the schematic diagram (three) that the utility model multi-steering connector is adjusted state first embodiment;

Fig. 8 is the three-dimensional exploded view of the utility model multi-steering connector second embodiment;

Fig. 9 is the three-dimensional exploded view of the utility model multi-steering connector the 3rd embodiment;

Figure 10 is the three-dimensional exploded view of the utility model multi-steering connector the 4th embodiment;

Figure 11 is the stereogram of the utility model multi-steering connector the 5th embodiment;

Figure 12 is the stereogram of the utility model multi-steering connector the 6th embodiment.

Wherein, Reference numeral:

1: the first connector

11: insulating body

12: terminal

13: shielding casing

14: shell

141: upper half shell 142: lower half shell

143: recess 144: continuing surface

145: ratchet

2: the second connectors

21: insulating body

23: shielding casing

24: shell

241: upper half shell 242: lower half shell

243: recess 244: continuing surface

245: ratchet

25: fingerprint identifier

3: outer sliding part

31: outer sleeve

311: upper half shell 312: lower half shell

313: flange 314: profile groove

32: sliding surface

4: interior sliding part

41: inner sleeve

411: upper half shell 412: lower half shell

413: flange 414: profile groove

42: inner sleeve

421: flange

Rotating shaft in 5: the first

51: upper half shell

52: lower half shell

53: the articulated section

54: ratchet

55: ratchet

Rotating shaft in 6: the second

61: upper half shell

62: lower half shell

63: the articulated section

64: ratchet

65: ratchet

7: holding wire

8: keeper

81: the location division

9: hub

91: circuit board

Embodiment

As shown in Figures 1 to 4, the utility model provides a kind of multi-steering connector with Telescopic, include one first connector 1, one second connector 2, one outer sliding part 3, sliding part 4 in one, one first rotating shaft 5 and one second rotating shaft 6, wherein this first connector 1 can be USB, IEEE1394, the connector of PS2 or other pattern, it includes an insulating body 11 made from plastics, a plurality of being arranged on this insulating body 11 with metal terminal 12, one is coated on this insulating body 11 and terminal 12 outsides with metal shielding casing 13, and this outside, shielding casing 13 rear end further is coated with a shell 14 made from plastics.This shell 14 comprises upper and lower two halves shell 141,142 and utilizes modes such as buckle or gluing to form one.These shell 14 rear ends are formed with a recess 143, and this recess 143 stretches into the suitable length of shell 14, can be in order to the ccontaining outer sliding part 3 and first rotating shaft 5.These recess 143 relative both sides are provided with circular-arc continuing surface 144, can be in order to articulate first rotating shaft 5.

This second connector 2 can be the connector of USB, IEEE1394, PS2 or other pattern, and it includes insulating body 21, a plurality of being arranged on this insulating body 21 made from plastics and is coated on this insulating body 21 and terminal outer with metal terminal (scheming not shown),

With metal shielding casing 23, this outside, shielding casing 23 rear end further is coated with a shell 24 made from plastics.This shell 24 comprises upper and lower two halves shell 241,242 and utilizes modes such as buckle or gluing to form one.These shell 24 rear ends are formed with a recess 243, and this recess 243 stretches into the suitable length of shell 24, can be in order to the sliding part 4 in ccontaining and second rotating shaft 6.These recess 243 relative both sides are provided with circular-arc continuing surface 244, can be in order to articulate second rotating shaft 6.

Should outer sliding part 3 be a sliding component, should outer sliding part 3 be an outer sleeve 31 in the present embodiment, this outer sleeve 31 comprises upper and lower two halves shell 311,312 and utilizes modes such as buckle or gluing to form one, this two halves shell 311,312 is relative hollow semicylinder shape, this two halves shell 311,312 is formed the outer sleeve 31 of a hollow circular cylinder shape, thus sliding part 4 outsides in being sheathed on.

Should interior sliding part 4 be a sliding component, should interior sliding part 4 be an inner sleeve 41 in the present embodiment, this inner sleeve 41 comprises upper and lower two halves shell 411,412 and utilizes modes such as buckle or gluing to form one, this two halves shell 411,412 is relative hollow semicylinder shape, these two halves shell 411,412 compositions one are the inner sleeve 41 of hollow circular cylinder shape, thereby can be inserted in outer sliding part 3 inside, so that outer sliding part 3 is reached the telescoping mechanism that interior sliding part 4 mutual sockets are combined into a scalable adjustment length.Should be formed with a flange 413 by interior sliding part 4 one end outer walls, these outer sliding part 3 one end inwalls are formed with another flange 313, and this two flange 413 and 313 mutual contacts are separated with outer sliding part 3 in order to sliding part 4 in preventing.Should be outer sliding part 3 and in sliding part 4 slide relative vertically, in order to adjusting different length, and outer sliding part 3 reaches interior sliding part 4 and also can do relative rotation, makes the function that the utlity model has multidirectional turn.

This first rotating shaft 5 is one-body molded with outer sliding part 3 in the present embodiment, makes this outer sliding part 3 be connected in first rotating shaft 5.This first rotating shaft 5 comprises upper and lower two halves shell 51,52 and utilizes modes such as buckle or gluing to form one, and this two halves shell 51,52 is relative hollow semicylinder shape, and these two halves shell 51,52 compositions one are first rotating shaft 5 of hollow circular cylinder shape.These first rotating shaft, 5 two ends respectively are formed with articulated section 53, this first rotating shaft 5 crosses in the recess 143 of first connector 1, and the articulated section 53 that utilizes first rotating shaft, 5 two ends is articulated on first connector, the 1 corresponding continuing surface 144, makes first rotating shaft 5 and outer sliding part 3 rotating first connectors 1 that are articulated in.

This second rotating shaft 6 is one-body molded with interior sliding part 4 in the present embodiment, makes that sliding part 4 is connected in second rotating shaft 6 in this, so should outer sliding part 3 and should can be connected between this first rotating shaft 5 and this second rotating shaft 6 by interior sliding part 4.This second rotating shaft 6 comprises upper and lower two halves shell 61,62 and utilizes modes such as buckle or gluing to form one, and this two halves shell 61,62 is relative hollow semicylinder shape, and these two halves shell 61,62 compositions one are second rotating shaft 6 of hollow circular cylinder shape.These second rotating shaft, 6 two ends respectively are formed with articulated section 63, this second rotating shaft 6 crosses in the recess 243 of second connector 2, and the articulated section 63 that utilizes second rotating shaft, 6 two ends is articulated on second connector, the 2 corresponding continuing surfaces 244, makes second rotating shaft 6 and interior sliding part 4 rotating second connectors 2 that are articulated in.

As shown in Figures 3 and 4, between the terminal 12 of this first connector 1 and the terminal of second connector 2 (figure slightly) and be connected with a plurality of holding wires 7, this holding wire 7 is arranged in outer sliding part 3 and interior sliding part 4 inside, these holding wire 7 two ends then can be passed by in the middle of first rotating shaft 5, second rotating shaft 6 or two ends, and are convenient to be welded to connect in terminal.

Also can be provided with corresponding ring- type ratchet 54 and 145 between the shell 14 of first rotating shaft 5 of the present utility model and first connector 1 and be meshing with each other, when first rotating shaft 5 and first connector 1 are relatively rotated, can have the effect of multisection type location.In addition, also can be provided with corresponding ring- type ratchet 64 and 245 between the shell 24 of second rotating shaft 6 of the present utility model and second connector 2 and be meshing with each other, when second rotating shaft 6 and second connector 2 are relatively rotated, can have the effect of multisection type location; A lot of above-mentioned compositions are to form the multi-steering connector with Telescopic of the present utility model.

Outer sliding part 3 and interior sliding part 4 can be done relative rotation, make first connector 1 and 2 turns of second connector become different angles (as Fig. 5), and first connector 1, second connector 2 can utilize first rotating shaft 5, second rotating shaft 6 to rotate (as Fig. 6) for the axle center, make the function that the utlity model has multidirectional turn.In addition, outer sliding part 3 and in also slide relative vertically of sliding part 4, in order to adjust different length (as Fig. 7), make the spacing of first connector 1 and second connector 2 can do suitable adjustment, whereby the multi-steering connector is adjusted to different length, so that do flexible an adjustment according to actual needs,, have better applicability so can change flexibly on using.

In addition, as shown in Figure 8, in the present embodiment, be respectively arranged with positioning piece 8 on the shell 14 of first connector 1 and the shell 24 of second connector 2, this two keeper 8 is individually fixed on shell 14 and 24, and this two keeper 8 roughly is " C " type, and the articulated section 53 and 63 of first rotating shaft 5 and second rotating shaft, 6 one ends is articulated in respectively on two keepers 8, and respectively form a sheet of location division 81 on the keeper 8, this location division 81 protrudes in keeper 8 inside.Be respectively equipped with corresponding ring- type ratchet 55 and 65 in first rotating shaft 5 and second rotating shaft, 6 one ends in addition, the location division 81 of keeper 8 contacts at corresponding ratchet 55,65, make first rotating shaft 5, second rotating shaft 6 and first connector 1, when second connector 2 relatively rotates, can have the effect of multisection type location.

In addition, as shown in Figure 9, in the present embodiment, outer sliding part 3 is a sliding surface 32, this sliding surface 32 takes shape in the two halves shell 51,52 of first rotating shaft 5 and two halves shell 61,62 inside of second rotating shaft 6 respectively, and sliding surface 32 is a cambered surface, sliding surface 32 slides be sheathed in sliding part 4 outsides.Should interior sliding part 4 be a sliding component, should interior sliding part 4 be an inner sleeve 42 in the present embodiment, this inner sleeve 42 is the hollow circular cylinder shape, thereby can be inserted in sliding surface 32 inside of outer sliding part 3, so that outer sliding part 3 is reached the telescoping mechanism that a scalable adjustment length is formed in interior sliding part 4 mutual sockets, should reach interior sliding part 4 slide relative vertically by outer sliding part 3, in order to adjust different length, and outer sliding part 3 and interior sliding part 4 also can be done relative rotation, make the function that the utlity model has flexible adjustment and multidirectional turn.Should respectively be formed with the bigger flange of an external diameter 421 in interior sliding part 4 two ends, this two flange 421 is resisted against outer sliding part 3 outer rims, separates with outer sliding part 3 in order to sliding part 4 in preventing.

As shown in figure 10, outer sliding part 3, interior sliding part 4, first rotating shaft 5 and second rotating shaft 6 are respectively integrated structure, and be somebody's turn to do on outer sliding part 3 and the interior sliding part 4 and offer profile groove 314 and 414 respectively, but the diameter elasticity of outer sliding part 3 and interior sliding part 4 is changed, so that outer sliding part 3 and interior sliding part 4 make up easily.In addition, can be provided with a fingerprint identifier 25 on this second connector 2 (or first connector 1), be used for the identification of user's identity.

As shown in figure 11, this second connector 2 can be wire and cable connector, and this first connector 1 also can be wire and cable connector (figure slightly) certainly.

As shown in figure 12, first connector 1 of the present utility model also can be omitted, directly, make the multi-steering connector can be applicable to hub, be connected with holding wire (figure summary) between this circuit board 91 and second connector 2 on the rotating circuit board 91 that is articulated in hub 9 of first rotating shaft 5.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (20)

1, a kind of multi-steering connector with Telescopic is characterized in that, comprising:

A connector is connected with holding wire;

At least one outer sliding part;

Sliding part at least one, but itself and the combination of being somebody's turn to do outer sliding part slide relative and rotation;

One first rotating shaft; And

One second rotating shaft, its rotating this connector that is articulated in, this outer sliding part reach and should be connected between this first rotating shaft and this second rotating shaft by interior sliding part.

2, the multi-steering connector with Telescopic according to claim 1, it is characterized in that, this connector includes the shielding casing that an insulating body, a plurality of terminals, that are arranged on this insulating body are coated on this insulating body and terminal outer, and this shielding casing rear end external packets is covered with a shell.

3, the multi-steering connector with Telescopic according to claim 2 is characterized in that the outer casing back of this connector is formed with a recess, and sliding part and this second rotating shaft are placed in this recess in this.

4, the multi-steering connector with Telescopic according to claim 2, it is characterized in that, the shell of this connector is provided with continuing surface, and these second rotating shaft two ends respectively are formed with the articulated section, and this second rotating shaft is articulated on the corresponding continuing surface of this connector with the articulated section at two ends.

5, the multi-steering connector with Telescopic according to claim 1 is characterized in that, this outer sliding part is an outer sleeve.

6, the multi-steering connector with Telescopic according to claim 1, it is characterized in that this outer sliding part is a sliding surface, this sliding surface takes shape in first rotating shaft and the second rotating shaft inside respectively, this sliding surface is a cambered surface, and this sliding surface slides is sheathed on sliding part outside in this.

7, the multi-steering connector with Telescopic according to claim 1 is characterized in that, sliding part is an inner sleeve in this.

8, the multi-steering connector with Telescopic according to claim 1 is characterized in that, sliding part two ends respectively are formed with a flange in this, and this two flange is resisted against this outer sliding part outer rim.

9, the multi-steering connector with Telescopic according to claim 1 is characterized in that, this first rotating shaft and the structure that should outer sliding part be formed in one.

10, the multi-steering connector with Telescopic according to claim 1 is characterized in that, this second rotating shaft with should in sliding part structure that is formed in one.

11, the multi-steering connector with Telescopic according to claim 1 is characterized in that, is provided with intermeshing ratchet between this second rotating shaft and this connector.

12, the multi-steering connector with Telescopic according to claim 1 is characterized in that, this holding wire is arranged in this outer sliding part and is somebody's turn to do interior sliding part inside, and these holding wire two ends are passed by in the middle of this first rotating shaft, second rotating shaft or two ends.

13. the multi-steering connector with Telescopic according to claim 1 is characterized in that this holding wire is connected with another connector, rotating this another connector that is articulated in of this first rotating shaft.

14, the multi-steering connector with Telescopic according to claim 13, it is characterized in that, this another connector includes the shielding casing that an insulating body, a plurality of terminals, that are arranged on this insulating body are coated on this insulating body and terminal outer, and this shielding casing rear end external packets is covered with a shell.

15, the multi-steering connector with Telescopic according to claim 14 is characterized in that the outer casing back of this another connector is formed with a recess, and this outer sliding part and this first rotating shaft are placed in this recess.

16, the multi-steering connector with Telescopic according to claim 14, it is characterized in that, the shell of this another connector is provided with continuing surface, and these first rotating shaft two ends respectively are formed with the articulated section, and this first rotating shaft is articulated on the corresponding continuing surface of another connector with the articulated section at two ends.

17, the multi-steering connector with Telescopic according to claim 13 is characterized in that, is provided with intermeshing ratchet between this first rotating shaft and this another connector.

18, the multi-steering connector with Telescopic according to claim 13, it is characterized in that, be respectively arranged with positioning piece on this another connector and this connector, this first rotating shaft and this second rotating shaft are articulated in respectively on this two keeper, this two keeper respectively forms a location division, this first rotating shaft and this second rotating shaft are respectively equipped with ratchet, and the location division of this two keeper contacts at ratchet.

19, the multi-steering connector with Telescopic according to claim 13 is characterized in that, this another connector or this connector are provided with a fingerprint identifier.

20, the multi-steering connector with Telescopic according to claim 1 is characterized in that, this holding wire is connected with a circuit board, rotating this circuit board that is articulated in of this first rotating shaft.

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