CN105370711A - Connecting component and electronic equipment - Google Patents

Abstract

The invention discloses a connecting component. The connecting component is used for connecting a first body with a second body of electronic equipment so that the first body can rotate relative to the second body and the first body and the second body can be kept at a first angle. The connecting component comprises a first shaft sleeve, a rotary shaft set and a connecting rod. The first shaft sleeve comprises an inner shaft sleeve body and an outer shaft sleeve body. The inner shaft sleeve body is nested in the outer shaft sleeve body, and the rotary shaft set is sleeved with the inner shaft sleeve body so that the rotary shaft set can rotate relative to the first shaft sleeve. The connecting rod is connected with the rotary shaft set so that all rotary shafts in the rotary shaft set can rotate synchronously. The invention further discloses the electronic equipment.

Description

A kind of connected element and electronic equipment

Technical field

The present invention relates to electronic equipment manufacturing technology, particularly relate to a kind of connected element and electronic equipment.

Background technique

Along with the development of science and technology, electronic technology have also been obtained development at full speed, and present people can pass through various types of electronic equipment, enjoy the comfortable life along with development in science and technology brings.Such as, user is seen a film by electronic equipments such as notebook computers, listen to the music, is played games etc.

In the prior art, the first noumenon of electronic equipment is connected by connected element usually with the second body, the first noumenon of electronic equipment and the second body can be rotated according to user's request, but, existing electronic equipment, such as notebook computer, because the design of connected element limits, namely the connected element of structure with double rotating shafts can not rotate simultaneously, notebook computer side can be rotated, and opposite side can not rotate, so, not only can affect the design of notebook computer product, also can reduce Consumer's Experience.Therefore, need a kind of Novel connection relay part badly to solve the problems of the technologies described above, to promote Consumer's Experience.

Summary of the invention

For solving the technical problem of existing existence, embodiments providing a kind of connected element and electronic equipment, twin shaft can be realized with dynamic, and in rotation process, there is continuity.

The technological scheme of the embodiment of the present invention is achieved in that and the invention provides a kind of connected element, described connected element is for connecting the first noumenon and second body of an electronic equipment, described the first noumenon can be rotated relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

The embodiment of the present invention additionally provides a kind of electronic equipment, and described electronic equipment comprises the first noumenon, the second body and connected element; Described connected element, for connecting described the first noumenon and the second body, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

Embodiment of the present invention connected element and electronic equipment, twin shaft can be realized with dynamic, the first noumenon that described connected element namely can be made to connect and the second body rotate relative to described connected element simultaneously, and the process of rotating has continuity, namely described the first noumenon and the second body can be made to be held in arbitrarily angled, and Consumer's Experience is better; And described connected element simple and reliable for structure, cost is low.

Accompanying drawing explanation

Fig. 1 is the structural representation one of embodiment of the present invention connected element;

Fig. 2 is the structural representation two of embodiment of the present invention connected element;

Fig. 3, Fig. 4 are the structural representation of each subassembly in embodiment of the present invention connected element;

Fig. 5 to Figure 10 is the schematic diagram of the assembling process of embodiment of the present invention connected element;

Figure 11 to Figure 13 embodiment of the present invention connected element schematic diagram in actual applications;

Figure 14 is the structural representation of the embodiment of the present invention 3 first axle sleeve;

The composition structural representation one of Figure 15 embodiment of the present invention nine connected element;

The composition structural representation two of Figure 16 embodiment of the present invention nine connected element;

Figure 17 is the composition structural representation three of the embodiment of the present invention nine connected element.

Embodiment

In order to more at large understand feature of the present invention and technology contents, below in conjunction with accompanying drawing, realization of the present invention is described in detail, the use of appended accompanying drawing explanation only for reference, is not used for limiting the present invention.

Embodiment one

Embodiments provide a kind of connected element, described connected element is for connecting the first noumenon and second body of an electronic equipment, described the first noumenon can be rotated relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

In the present embodiment, described connected element is specially in notebook computer for connecting the connected element of the first noumenon and the second body, or, described connected element can also be any connected element with the electronic equipment of two bodies, wherein, the first noumenon in the described electronic equipment with two bodies can by described connected element with the joint of the first noumenon and the second body for axis of rotation, or, described connected element can also be the connected element of the first electronic equipment and the second electronic equipment, wherein, described first electronic equipment can by described connected element with the joint of the first electronic equipment and the second electronic equipment for axis of rotation.

Embodiment two

Based on the connected element of embodiment one, in this example, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, when each rotating shaft in described rotating shaft group is rotated relative to described first axle sleeve, produces torsion.

Embodiment three

Based on the connected element of embodiment two, in this example, described rotating shaft group comprises: the first rotating shaft and the second rotating shaft; Described connected element also comprises: the first fixed block and the second fixed block; Wherein,

Described second rotating shaft and described first shaft parallel;

Described first fixed block and the second fixed block are sheathed on the first end of described first rotating shaft and the first end of described second rotating shaft respectively;

Accordingly, the sheathed described rotating shaft group of described inner sleeve, to enable described rotating shaft group rotate relative to described first axle sleeve, comprising:

On the second end that described inner sleeve is sheathed on described first rotating shaft arranged in parallel and on the second end of described second rotating shaft, described first rotating shaft and the second rotating shaft all can be rotated relative to described first axle sleeve;

Accordingly, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, comprising:

In described inner sleeve, the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produces torsion.

Embodiment four

Based on the connected element of embodiment three, in this example, described connected element also comprises: the first link and the second link; Wherein,

Described first link is connected with described first rotating shaft by described first axle sleeve;

Described second link is connected with described second rotating shaft by described first axle sleeve;

Accordingly, described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group, comprising:

Described connecting rod is connected with described first rotating shaft and described second rotating shaft respectively by described first link, the second link, to enable described first rotating shaft and the second rotating shaft synchronous axial system.

Embodiment five

Based on the connected element of embodiment three, in this example, described first fixed block comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft;

Described second fixed block comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft.

Embodiment six

Based on the connected element of embodiment four, or based on the connected element of embodiment five, in this example, described connected element also comprises:

Coating member, for being all coated on described first axle sleeve, the first link, the second link, connecting rod wherein.

Below in conjunction with accompanying drawing, the connected element of the embodiment of the present invention is described in further details.

Embodiment seven

Fig. 1 is the structural representation one of embodiment of the present invention connected element; Fig. 2 is the structural representation two of embodiment of the present invention connected element; Fig. 3, Fig. 4 are the structural representation of each subassembly in embodiment of the present invention connected element; Connected element in this example, for connecting the first noumenon and second body of an electronic equipment, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, described connected element comprises:

First rotating shaft 11;

Second rotating shaft 12, parallel with described first rotating shaft 11;

First fixed block 13 and the second fixed block 14, is sheathed on the first end of described first rotating shaft 11 and the first end of described second rotating shaft 12 respectively;

First axle sleeve 15, on the second end being sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, makes described first rotating shaft 11 and the second rotating shaft 12 all can rotate relative to described first axle sleeve 15; In described first axle sleeve 15, the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produces torsion;

First link 16, is connected with described first rotating shaft 11 by described first axle sleeve 15;

Second link 17, is connected with described second rotating shaft 15 by described second axle sleeve 15;

Connecting rod 18, is connected with described first rotating shaft 11 and described second rotating shaft 12 by described first link 16, second link 17.

In the present embodiment, described first angle is any angle in 360 degree.

In the present embodiment, described connected element is specially in notebook computer for connecting the connected element of the first noumenon and the second body, or, described connected element can also be any connected element with the electronic equipment of two bodies, wherein, the first noumenon in the described electronic equipment with two bodies can by described connected element with the joint of the first noumenon and the second body for axis of rotation, or, described connected element can also be the connected element of the first electronic equipment and the second electronic equipment, wherein, described first electronic equipment can by described connected element with the joint of the first electronic equipment and the second electronic equipment for axis of rotation.

Fig. 5 to Figure 10 is the schematic diagram of the assembling process of embodiment of the present invention connected element; Below in conjunction with accompanying drawing, embodiment of the present invention connected element is described in further details.

As shown in Figure 3, Figure 4, the subassembly of described connected element comprises: the first rotating shaft 11, second rotating shaft 12, first fixed block 13, second fixed block 14, first axle sleeve 15, first link 16, second link 17, connecting rod 18;

As shown in Figure 5, the first end of described first rotating shaft 11, through described first fixed block 13, makes described first fixed block 13 be sheathed on the first end of described first rotating shaft 11, obtains structure as shown in Figure 5;

In like manner, the first end of described second rotating shaft 12, through described second fixed block 14, makes described second fixed block 14 be sheathed on the first end of described second rotating shaft 12, wherein, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, therefore, obtain the structure shown in Fig. 6;

As shown in Figure 7, Figure 8, in described first axle sleeve 15, two ducts arranged in parallel are set, on the second end making described first axle sleeve 15 be sheathed on described first rotating shaft 11 arranged in parallel by arranged in parallel two ducts and on the second end of described second rotating shaft 12, obtain the structure shown in Fig. 8, described first rotating shaft 11 and the second rotating shaft 12 all can be rotated relative to described first axle sleeve 15; Wherein, the first damping material and the second damping material is respectively arranged with in the duct of sheathed described first rotating shaft 11 of described first axle sleeve 15 and the second rotating shaft 12, so, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

As shown in Figure 9, described first link 16 is connected with described first rotating shaft 11 by a duct of described first axle sleeve 15; Described second link 17 is connected with described second rotating shaft 12 by another duct of described first axle sleeve 15; Wherein, the port of the second end of described first rotating shaft 11 is provided with the first projection, the joint be connected in described first link 16, with described first rotating shaft 11 is provided with one first groove, so, described first projection is made to be embedded in described first groove, to be fixed by described first link 16; In like manner, the port of the second end of described second rotating shaft 12 is provided with the second projection, the joint be connected in described second link 17, with described second rotating shaft 12 is provided with one second groove, so, described second projection is made to be embedded in described second groove, to be fixed by described second link 17, obtain structure as shown in Figure 9.

As shown in Figure 10, described connecting rod 18 is connected with described first rotating shaft 11 and the second rotating shaft 12 by described first link 16, second link 17; Wherein, the 3rd projection is provided with in described first link, the 4th projection is provided with in described second link, the 3rd groove is provided with in described connecting rod, with described first link joint, the 4th groove is provided with in described connecting rod, with described second link joint, described 3rd projection is nested in described 3rd groove, and described 4th projection is nested in described 4th groove, obtains structure as shown in Figure 10.

Figure 11 to Figure 13 embodiment of the present invention connected element schematic diagram in actual applications, in conjunction with Figure 11 and Figure 13, the application of embodiment of the present invention connected element is described in further details, here, the first fixed block in Figure 11 to Figure 13 is connected with the first noumenon and the second body respectively with the second fixed block, and, first fixed block of described connected element and the second fixed block can rotate according to the rotation of described the first noumenon and the second body, therefore, in actual applications, the angle presented between described the first noumenon and the second body is identical with the angle presented between the first fixed block in described connected element and the second fixed block, so the schematic diagram of the angle that the first fixed block and the second fixed block present in the connected element only provided in Figure 11 to 13.

In the present embodiment, because the first end of described first rotating shaft 11 is through described first fixed block 13, described first fixed block 13 is made to be sheathed on the first end of described first rotating shaft 11, the first end of described second rotating shaft 12 is through described second fixed block 14, described second fixed block 14 is made to be sheathed on the first end of described second rotating shaft 12, and, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, again because described first rotating shaft 11 is sheathed by described first axle sleeve 15 with described second rotating shaft 12, and the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively in described first axle sleeve 15, when described first rotating shaft 11 and the second rotating shaft 12 can be rotated relative to described first axle sleeve, produce torsion, so, the described the first noumenon that described connected element is connected and the second body, can rotate relative to connected element, and described the first noumenon and the second body also can rotate relative to the other side, described the first noumenon and described second body is made to keep different amount, such as, shown in Figure 11, the described the first noumenon be connected with connected element described in this example and the second body can be in parastate, also the angle namely between described the first noumenon and the second body is 0 degree, or, as shown in figure 12, the described the first noumenon be connected with connected element described in this example and the second body can be in certain degree state, and the angle also namely between described the first noumenon and the second body is acute angle A1 degree or obtuse angle A2 degree, wherein, described A1+A2=360, or as shown in figure 13, the described the first noumenon be connected with connected element described in this example and the second body can be in a straight line, the angle also namely between described the first noumenon and the second body is 180 degree.

So, adopt connected element described in the embodiment of the present invention, twin shaft can be realized with dynamic, the first noumenon that described connected element namely can be made to connect and the second body rotate relative to described connected element simultaneously, and the process of rotating has continuity, and described the first noumenon and the second body namely can be made to be held in arbitrarily angled, and, described connected element simple and reliable for structure, cost is low.

Embodiment eight

Fig. 1 is the structural representation one of embodiment of the present invention connected element; Fig. 2 is the structural representation two of embodiment of the present invention connected element; Fig. 3, Fig. 4 are the structural representation of each subassembly in embodiment of the present invention connected element; Connected element in this example, for connecting the first noumenon and second body of an electronic equipment, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, described connected element comprises:

First rotating shaft 11;

Second rotating shaft 12, parallel with described first rotating shaft 11;

First fixed block 13 and the second fixed block 14, is sheathed on the first end of described first rotating shaft 11 and the first end of described second rotating shaft 12 respectively;

First axle sleeve 15, on the second end being sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, makes described first rotating shaft 11 and the second rotating shaft 12 all can rotate relative to described first axle sleeve 15; In described first axle sleeve 15, the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produces torsion;

First link 16, is connected with described first rotating shaft 11 by described first axle sleeve 15;

Second link 17, is connected with described second rotating shaft 15 by described second axle sleeve 15;

Connecting rod 18, is connected with described first rotating shaft 11 and described second rotating shaft 12 by described first link 16, second link 17;

Wherein, described first fixed block 13 comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft;

Described second fixed block comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft.

In the present embodiment, described first angle is any angle in 360 degree.

In the present embodiment, described connected element is specially in notebook computer for connecting the connected element of the first noumenon and the second body, or, described connected element can also be any connected element with the electronic equipment of two bodies, wherein, the first noumenon in the described electronic equipment with two bodies can by described connected element with the joint of the first noumenon and the second body for axis of rotation, or, described connected element can also be the connected element of the first electronic equipment and the second electronic equipment, wherein, described first electronic equipment can by described connected element with the joint of the first electronic equipment and the second electronic equipment for axis of rotation.

Fig. 5 to Figure 10 is the schematic diagram of the assembling process of embodiment of the present invention connected element; Below in conjunction with accompanying drawing, embodiment of the present invention connected element is described in further details.

As shown in Figure 3, Figure 4, the subassembly of described connected element comprises: the first rotating shaft 11, second rotating shaft 12, first fixed block 13, second fixed block 14, first axle sleeve 15, first link 16, second link 17, connecting rod 18.

As shown in Figure 5, the first end of described first rotating shaft 11, through the first connecting end 132 of described first fixed block 13, makes the first connecting end 132 of described first fixed block 13 be sheathed on the first end of described first rotating shaft 11, obtains structure as shown in Figure 5.

In like manner, the first end of described second rotating shaft 12 passes the second connecting end 142 of described second fixed block 14, the second connecting end 142 of described second fixed block 14 is made to be sheathed on the first end of described second rotating shaft 12, wherein, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, therefore, the structure shown in Fig. 6 is obtained.

As shown in Figure 7, Figure 8, in described first axle sleeve 15, two ducts arranged in parallel are set, on the second end making described first axle sleeve 15 be sheathed on described first rotating shaft 11 arranged in parallel by arranged in parallel two ducts and on the second end of described second rotating shaft 12, obtain the structure shown in Fig. 8, described first rotating shaft 11 and the second rotating shaft 12 all can be rotated relative to described first axle sleeve 15; Wherein, the first damping material and the second damping material is respectively arranged with in the duct of sheathed described first rotating shaft 11 of described first axle sleeve 15 and the second rotating shaft 12, so, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

As shown in Figure 9, described first link 16 is connected with described first rotating shaft 11 by a duct of described first axle sleeve 15; Described second link 17 is connected with described second rotating shaft 12 by another duct of described first axle sleeve 15; Wherein, the port of the second end of described first rotating shaft 11 is provided with the first projection, the joint be connected in described first link 16, with described first rotating shaft 11 is provided with one first groove, so, described first projection is made to be embedded in described first groove, to be fixed by described first link 16; In like manner, the port of the second end of described second rotating shaft 12 is provided with the second projection, the joint be connected in described second link 17, with described second rotating shaft 12 is provided with one second groove, so, described second projection is made to be embedded in described second groove, to be fixed by described second link 17, obtain structure as shown in Figure 9.

As shown in Figure 10, described connecting rod 18 is connected with described first rotating shaft 11 and the second rotating shaft 12 by described first link 16, second link 17; Wherein, the 3rd projection is provided with in described first link, the 4th projection is provided with in described second link, the 3rd groove is provided with in described connecting rod, with described first link joint, the 4th groove is provided with in described connecting rod, with described second link joint, described 3rd projection is nested in described 3rd groove, and described 4th projection is nested in described 4th groove, obtains structure as shown in Figure 10.

Figure 11 to Figure 13 embodiment of the present invention connected element schematic diagram in actual applications, in conjunction with Figure 11 and Figure 13, the application of embodiment of the present invention connected element is described in further details, here, the first fixed block in Figure 11 to Figure 13 is connected with the first noumenon and the second body respectively with the second fixed block, and, first fixed block of described connected element and the second fixed block can rotate according to the rotation of described the first noumenon and the second body, therefore, in actual applications, the angle presented between described the first noumenon and the second body is identical with the angle presented between the first fixed block in described connected element and the second fixed block, so the schematic diagram of the angle that the first fixed block and the second fixed block present in the connected element only provided in Figure 11 to 13.

In the present embodiment, because the first fixed end 131 in described first fixed block 13 can be connected with the first noumenon, and be fixed on described the first noumenon, the first end of described first rotating shaft through the first connecting end 132 in described first fixed block, and makes described first connecting end 132 be sheathed on the first end of described first rotating shaft 11, the second fixed end 141 in described second fixed block 14 can be connected with the second body, and be fixed on described second body, the first end of described second rotating shaft 12 through the second connecting end 142 in described second fixed block 14, and makes described second connecting end 142 be sheathed on the first end of described second rotating shaft 12, again because described first rotating shaft 11 is sheathed by described first axle sleeve 15 with described second rotating shaft 12, and the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively in described first axle sleeve, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produce torsion, so, the described the first noumenon that described connected element is connected and the second body, can rotate relative to connected element, and described the first noumenon and the second body also can rotate relative to the other side, described the first noumenon and described second body is made to keep different amount, such as, shown in Figure 11, the described the first noumenon be connected with connected element described in this example and the second body can be in parastate, also the angle namely between described the first noumenon and the second body is 0 degree, or, as shown in figure 12, the described the first noumenon be connected with connected element described in this example and the second body can be in certain degree state, and the angle also namely between described the first noumenon and the second body is acute angle A1 degree or obtuse angle A2 degree, wherein, described A1+A2=360, or as shown in figure 13, the described the first noumenon be connected with connected element described in this example and the second body can be in a straight line, the angle also namely between described the first noumenon and the second body is 180 degree.

So, adopt connected element described in the embodiment of the present invention, twin shaft can be realized with dynamic, the first noumenon that described connected element namely can be made to connect and the second body rotate relative to described connected element simultaneously, and the process of rotating has continuity, and described the first noumenon and the second body namely can be made to be held in arbitrarily angled, and, described connected element simple and reliable for structure, cost is low.

Embodiment nine

Fig. 1 is the structural representation one of embodiment of the present invention connected element; Fig. 2 is the structural representation two of embodiment of the present invention connected element; Fig. 3, Fig. 4 are the structural representation of each subassembly in embodiment of the present invention connected element; Connected element in this example, for connecting the first noumenon and second body of an electronic equipment, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, described connected element comprises:

First rotating shaft 11;

Second rotating shaft 12, parallel with described first rotating shaft 11;

First fixed block 13 and the second fixed block 14, is sheathed on the first end of described first rotating shaft 11 and the first end of described second rotating shaft 12 respectively;

First axle sleeve 15, on the second end being sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, makes described first rotating shaft 11 and the second rotating shaft 12 all can rotate relative to described first axle sleeve 15; In described first axle sleeve 15, the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produces torsion;

First link 16, is connected with described first rotating shaft 11 by described first axle sleeve 15;

Second link 17, is connected with described second rotating shaft 15 by described second axle sleeve 15;

Connecting rod 18, is connected with described first rotating shaft 11 and described second rotating shaft 12 by described first link 16, second link 17.

Wherein, described first axle sleeve 15 also comprises: inner sleeve and surrounding jacket;

Described inner sleeve is nested in described surrounding jacket, on the second end that described inner sleeve is sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, described first rotating shaft 11 and the second rotating shaft 12 all can be rotated relative to described first axle sleeve 15, and the part be connected in described inner sleeve 151, with described first rotating shaft 11, second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

In the present embodiment, described first angle is any angle in 360 degree.

In the present embodiment, described connected element is specially in notebook computer for connecting the connected element of the first noumenon and the second body, or, described connected element can also be any connected element with the electronic equipment of two bodies, wherein, the first noumenon in the described electronic equipment with two bodies can by described connected element with the joint of the first noumenon and the second body for axis of rotation, or, described connected element can also be the connected element of the first electronic equipment and the second electronic equipment, wherein, described first electronic equipment can by described connected element with the joint of the first electronic equipment and the second electronic equipment for axis of rotation,

Fig. 5 to Figure 10 is the schematic diagram of the assembling process of embodiment of the present invention connected element; Below in conjunction with accompanying drawing, embodiment of the present invention connected element is described in further details.

As shown in Figure 3, Figure 4, the subassembly of described connected element comprises: the first rotating shaft 11, second rotating shaft 12, first fixed block 13, second fixed block 14, first axle sleeve 15, first link 16, second link 17, connecting rod 18.

As shown in Figure 5, the first end of described first rotating shaft 11, through described first fixed block 13, makes described first fixed block 13 be sheathed on the first end of described first rotating shaft 11, obtains structure as shown in Figure 5.

In like manner, the first end of described second rotating shaft 12, through described second fixed block 14, makes described second fixed block 14 be sheathed on the first end of described second rotating shaft 12, wherein, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, therefore, obtain the structure shown in Fig. 6.

Figure 14 is the structural representation of the embodiment of the present invention 3 first axle sleeve; As shown in figure 14, described first axle sleeve 15 comprises: inner sleeve 151 and surrounding jacket 152, two ducts arranged in parallel are provided with in described inner sleeve 151, also two ducts arranged in parallel are provided with in described surrounding jacket 152, and, the aperture in two ducts in described surrounding jacket 152 is greater than the aperture in two ducts of described inner sleeve 151, makes described inner sleeve 151 can be nested in described surrounding jacket 152, forms the structure shown in Fig. 7.

Structure shown in composition graphs 8 is known, by two ducts arranged in parallel arranged in the inner sleeve 151 of described first axle sleeve 15, on the second end making described first axle sleeve 15 be sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, to obtain the structure shown in Fig. 8, the connected element shown in described Fig. 8 can make described first rotating shaft 11 and the second rotating shaft 12 all rotate relative to described first axle sleeve 15; Wherein, the first damping material and the second damping material is respectively arranged with in the duct of sheathed described first rotating shaft 11 of described first axle sleeve 15 and the second rotating shaft 12, so, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

As shown in Figure 9, described first link 16 is connected with described first rotating shaft 11 by a duct of described first axle sleeve 15; Described second link 17 is connected with described second rotating shaft 12 by another duct of described first axle sleeve 15; Wherein, the port of the second end of described first rotating shaft 11 is provided with the first projection, the joint be connected in described first link 16, with described first rotating shaft 11 is provided with one first groove, so, described first projection is made to be embedded in described first groove, to be fixed by described first link 16; In like manner, the port of the second end of described second rotating shaft 12 is provided with the second projection, the joint be connected in described second link 17, with described second rotating shaft 12 is provided with one second groove, so, described second projection is made to be embedded in described second groove, to be fixed by described second link 17, obtain structure as shown in Figure 9.

As shown in Figure 10, described connecting rod 18 is connected with described first rotating shaft 11 and the second rotating shaft 12 by described first link 16, second link 17; Wherein, the 3rd projection is provided with in described first link, the 4th projection is provided with in described second link, the 3rd groove is provided with in described connecting rod, with described first link joint, the 4th groove is provided with in described connecting rod, with described second link joint, described 3rd projection is nested in described 3rd groove, and described 4th projection is nested in described 4th groove, obtains structure as shown in Figure 10.

Figure 11 to Figure 13 embodiment of the present invention connected element schematic diagram in actual applications, in conjunction with Figure 11 and Figure 13, the application of embodiment of the present invention connected element is described in further details, here, the first fixed block in Figure 11 to Figure 13 is connected with the first noumenon and the second body respectively with the second fixed block, and, first fixed block of described connected element and the second fixed block can rotate according to the rotation of described the first noumenon and the second body, therefore, in actual applications, the angle presented between described the first noumenon and the second body is identical with the angle presented between the first fixed block in described connected element and the second fixed block, so the schematic diagram of the angle that the first fixed block and the second fixed block present in the connected element only provided in Figure 11 to 13.

In the present embodiment, because the first end of described first rotating shaft 11 is through described first fixed block 13, described first fixed block 13 is made to be sheathed on the first end of described first rotating shaft 11, the first end of described second rotating shaft 12 is through described second fixed block 14, described second fixed block 14 is made to be sheathed on the first end of described second rotating shaft 12, and, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, again because described first rotating shaft 11 is sheathed by described first axle sleeve 15 with described second rotating shaft 12, and the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively in described first axle sleeve 15, when described first rotating shaft 11 and the second rotating shaft 12 can be rotated relative to described first axle sleeve, produce torsion, so, the described the first noumenon that described connected element is connected and the second body, can rotate relative to connected element, and described the first noumenon and the second body also can rotate relative to the other side, described the first noumenon and described second body is made to keep different amount, such as, shown in Figure 11, the described the first noumenon be connected with connected element described in this example and the second body can be in parastate, also the angle namely between described the first noumenon and the second body is 0 degree, or, as shown in figure 12, the described the first noumenon be connected with connected element described in this example and the second body can be in certain degree state, and the angle also namely between described the first noumenon and the second body is acute angle A1 degree or obtuse angle A2 degree, wherein, described A1+A2=360, or as shown in figure 13, the described the first noumenon be connected with connected element described in this example and the second body can be in a straight line, the angle also namely between described the first noumenon and the second body is 180 degree.

So, adopt connected element described in the embodiment of the present invention, twin shaft can be realized with dynamic, the first noumenon that described connected element namely can be made to connect and the second body rotate relative to described connected element simultaneously, and the process of rotating has continuity, and described the first noumenon and the second body namely can be made to be held in arbitrarily angled, and, described connected element simple and reliable for structure, cost is low.

Embodiment ten

Fig. 1 is the structural representation one of embodiment of the present invention connected element; Fig. 2 is the structural representation two of embodiment of the present invention connected element; The composition structural representation one of Figure 15 embodiment of the present invention four connected element; Figure 16 is the composition structural representation two of the embodiment of the present invention four connected element; Connected element in this example, for connecting the first noumenon and second body of an electronic equipment, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; As shown in Figure 1, Figure 2, shown in Figure 15, Figure 16, Figure 17, described connected element comprises:

First rotating shaft 11;

Second rotating shaft 12, parallel with described first rotating shaft 11;

First fixed block 13 and the second fixed block 14, is sheathed on the first end of described first rotating shaft 11 and the first end of described second rotating shaft 12 respectively;

First axle sleeve 15, on the second end being sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, makes described first rotating shaft 11 and the second rotating shaft 12 all can rotate relative to described first axle sleeve 15; In described first axle sleeve 15, the part of sheathed described first rotating shaft 11 and the second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produces torsion;

First link 16, is connected with described first rotating shaft 11 by described first axle sleeve 15;

Second link 17, is connected with described second rotating shaft 15 by described second axle sleeve 15;

Connecting rod 18, is connected with described first rotating shaft 11 and described second rotating shaft 12 by described first link 16, second link 17.

Wherein, described first fixed block 13 comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft 11;

Described second fixed block 14 comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft 12;

Described first axle sleeve 15 also comprises: inner sleeve and surrounding jacket;

Described inner sleeve is nested in described surrounding jacket, on the second end that described inner sleeve is sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, described first rotating shaft 11 and the second rotating shaft 12 all can be rotated relative to described first axle sleeve 15, and the part be connected in described inner sleeve, with described first rotating shaft 11, second rotating shaft 12 has the first damping material and the second damping material respectively, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

Described connected element also comprises: coating member 19, described first axle sleeve 15, first link 16, second link 17, connecting rod 18 is all coated on wherein.

Here, described first axle sleeve 15, first link 16, second link 17 and connecting rod 18 can all be coated on wherein by described coating member 19, region residing for second end of described first rotating shaft 11 and the second rotating shaft 12 all can also be coated on wherein, so, obtain the structure shown in Figure 17; Wherein, region residing for the second end of described first rotating shaft 11 and the second rotating shaft 12 is that described first rotating shaft 11 and described second rotating shaft 12 be not by described first fixed block 13 and the sheathed region of described second fixed block 14.

In the present embodiment, described first angle is any angle in 360 degree.

In the present embodiment, described connected element is specially in notebook computer for connecting the connected element of the first noumenon and the second body, or, described connected element can also be any connected element with the electronic equipment of two bodies, wherein, the first noumenon in the described electronic equipment with two bodies can by described connected element with the joint of the first noumenon and the second body for axis of rotation, or, described connected element can also be the connected element of the first electronic equipment and the second electronic equipment, wherein, described first electronic equipment can by described connected element with the joint of the first electronic equipment and the second electronic equipment for axis of rotation,

Fig. 5 to Figure 10 is the schematic diagram of the assembling process of embodiment of the present invention connected element; Below in conjunction with accompanying drawing, embodiment of the present invention connected element is described in further details.

As shown in Figure 3, Figure 4, the subassembly of described connected element comprises: the first rotating shaft 11, second rotating shaft 12, first fixed block 13, second fixed block 14, first axle sleeve 15, first link 16, second link 17, connecting rod 18;

As shown in Figure 5, the first end of described first rotating shaft 11, through described first fixed block 13, makes described first fixed block 13 be sheathed on the first end of described first rotating shaft 11, obtains structure as shown in Figure 5;

In like manner, the first end of described second rotating shaft 12, through described second fixed block 14, makes described second fixed block 14 be sheathed on the first end of described second rotating shaft 12, wherein, described first rotating shaft 11 and the second rotating shaft 12 arranged in parallel, therefore, obtain the structure shown in Fig. 6.

Figure 14 is the structural representation of the embodiment of the present invention 3 first axle sleeve; As shown in figure 14, described first axle sleeve 15 comprises: inner sleeve 151 and surrounding jacket 152, two ducts arranged in parallel are provided with in described inner sleeve 151, also two ducts arranged in parallel are provided with in described surrounding jacket 152, and, the aperture in two ducts in described surrounding jacket 152 is greater than the aperture in two ducts of described inner sleeve 151, makes described inner sleeve 151 can be nested in described surrounding jacket 152, forms the structure shown in Fig. 7.

Structure shown in composition graphs 8 is known, by two ducts arranged in parallel arranged in the inner sleeve 151 of described first axle sleeve 15, on the second end making described first axle sleeve 15 be sheathed on described first rotating shaft 11 arranged in parallel and on the second end of described second rotating shaft 12, to obtain the structure shown in Fig. 8, the connected element shown in described Fig. 8 can make described first rotating shaft 11 and the second rotating shaft 12 all rotate relative to described first axle sleeve 15; Wherein, the first damping material and the second damping material is respectively arranged with in the duct of sheathed described first rotating shaft 11 of described first axle sleeve 15 and the second rotating shaft 12, so, when described first rotating shaft 11 and the second rotating shaft 12 are rotated relative to described first axle sleeve 15, produce torsion.

As shown in Figure 9, described first link 16 is connected with described first rotating shaft 11 by a duct of described first axle sleeve 15; Described second link 17 is connected with described second rotating shaft 12 by another duct of described first axle sleeve 15; Wherein, the port of the second end of described first rotating shaft 11 is provided with the first projection, the joint be connected in described first link 16, with described first rotating shaft 11 is provided with one first groove, so, described first projection is made to be embedded in described first groove, to be fixed by described first link 16; In like manner, the port of the second end of described second rotating shaft 12 is provided with the second projection, the joint be connected in described second link 17, with described second rotating shaft 12 is provided with one second groove, so, described second projection is made to be embedded in described second groove, to be fixed by described second link 17, obtain structure as shown in Figure 9.

As shown in Figure 10, described connecting rod 18 is connected with described first rotating shaft 11 and the second rotating shaft 12 by described first link 16, second link 17; Wherein, the 3rd projection is provided with in described first link, the 4th projection is provided with in described second link, the 3rd groove is provided with in described connecting rod, with described first link joint, the 4th groove is provided with in described connecting rod, with described second link joint, described 3rd projection is nested in described 3rd groove, and described 4th projection is nested in described 4th groove, obtains structure as shown in Figure 10.

Figure 11 to Figure 13 embodiment of the present invention connected element schematic diagram in actual applications, in conjunction with Figure 11 and Figure 13, the application of embodiment of the present invention connected element is described in further details, here, the first fixed block in Figure 11 to Figure 13 is connected with the first noumenon and the second body respectively with the second fixed block, and, first fixed block of described connected element and the second fixed block can rotate according to the rotation of described the first noumenon and the second body, therefore, in actual applications, the angle presented between described the first noumenon and the second body is identical with the angle presented between the first fixed block in described connected element and the second fixed block, so the schematic diagram of the angle that the first fixed block and the second fixed block present in the connected element only provided in Figure 11 to 13.

In the present embodiment, because the first fixed end 131 in described first fixed block 13 can be connected with the first noumenon, and be fixed on described the first noumenon, the first end of described first rotating shaft through the first connecting end 132 in described first fixed block, and makes described first connecting end 132 be sheathed on the first end of described first rotating shaft 11, the second fixed end 141 in described second fixed block 14 can be connected with the second body, and be fixed on described second body, the first end of described second rotating shaft 12 through the second connecting end 142 in described second fixed block 14, and makes described second connecting end 142 be sheathed on the first end of described second rotating shaft 12, again because described first rotating shaft 11 is sheathed by described first axle sleeve 15 with described second rotating shaft 12, and the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively in described first axle sleeve, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produce torsion, so, the described the first noumenon that described connected element is connected and the second body, can rotate relative to connected element, and described the first noumenon and the second body also can rotate relative to the other side, described the first noumenon and described second body is made to keep different amount, such as, shown in Figure 11, the described the first noumenon be connected with connected element described in this example and the second body can be in parastate, also the angle namely between described the first noumenon and the second body is 0 degree, or, as shown in figure 12, the described the first noumenon be connected with connected element described in this example and the second body can be in certain degree state, and the angle also namely between described the first noumenon and the second body is acute angle A1 degree or obtuse angle A2 degree, wherein, described A1+A2=360, or as shown in figure 13, the described the first noumenon be connected with connected element described in this example and the second body can be in a straight line, the angle also namely between described the first noumenon and the second body is 180 degree.

So, adopt connected element described in the embodiment of the present invention, twin shaft can be realized with dynamic, the first noumenon that described connected element namely can be made to connect and the second body rotate relative to described connected element simultaneously, and the process of rotating has continuity, and described the first noumenon and the second body namely can be made to be held in arbitrarily angled, and, described connected element simple and reliable for structure, cost is low.

Embodiment 11

The embodiment of the present invention additionally provides a kind of electronic equipment, and described electronic equipment comprises the first noumenon, the second body and connected element; Described connected element, for connecting described the first noumenon and the second body, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

Embodiment 12

Based on the electronic equipment described in embodiment 11, in this example, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, when each rotating shaft in described rotating shaft group is rotated relative to described first axle sleeve, produces torsion.

Embodiment 13

Based on the electronic equipment described in embodiment 12, in this example, described rotating shaft group comprises: the first rotating shaft and the second rotating shaft; Described connected element also comprises: the first fixed block and the second fixed block; Wherein,

Described second rotating shaft and described first shaft parallel;

Described first fixed block and the second fixed block, be sheathed on the first end of described first rotating shaft and the first end of described second rotating shaft respectively;

Accordingly, the sheathed described rotating shaft group of described inner sleeve, to enable described rotating shaft group rotate relative to described first axle sleeve, comprising:

On the second end that described inner sleeve is sheathed on described first rotating shaft arranged in parallel and on the second end of described second rotating shaft, described first rotating shaft and the second rotating shaft all can be rotated relative to described first axle sleeve;

Accordingly, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, comprising:

In described inner sleeve, the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produces torsion.

Embodiment 14

Based on the electronic equipment described in embodiment 13, the connected element of described electronic equipment also comprises: the first link and the second link; Wherein,

Described first link is connected with described first rotating shaft by described first axle sleeve;

Described second link is connected with described second rotating shaft by described first axle sleeve;

Accordingly, described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group, comprising:

Described connecting rod is connected with described first rotating shaft and described second rotating shaft respectively by described first link, the second link, to enable described first rotating shaft and the second rotating shaft synchronous axial system.

Embodiment 15

Based on the electronic equipment described in embodiment 13, described first fixed block comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft;

Described second fixed block comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft.

Embodiment 16

Based on the electronic equipment described in embodiment 14, or based on the electronic equipment described in embodiment 14, the connected element of described electronic equipment also comprises:

Coating member, for being all coated on described first axle sleeve, the first link, the second link, connecting rod wherein.

The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.

Claims (12)

1. a connected element, it is characterized in that, described connected element, for connecting the first noumenon and second body of an electronic equipment, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

2. connected element according to claim 1, is characterized in that, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, when each rotating shaft in described rotating shaft group is rotated relative to described first axle sleeve, produces torsion.

3. connected element according to claim 2, is characterized in that, described rotating shaft group comprises: the first rotating shaft and the second rotating shaft; Described connected element also comprises: the first fixed block and the second fixed block; Wherein,

Described second rotating shaft and described first shaft parallel;

Described first fixed block and the second fixed block are sheathed on the first end of described first rotating shaft and the first end of described second rotating shaft respectively;

Accordingly, the sheathed described rotating shaft group of described inner sleeve, to enable described rotating shaft group rotate relative to described first axle sleeve, comprising:

On the second end that described inner sleeve is sheathed on described first rotating shaft arranged in parallel and on the second end of described second rotating shaft, described first rotating shaft and the second rotating shaft all can be rotated relative to described first axle sleeve;

Accordingly, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, comprising:

In described inner sleeve, the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produces torsion.

4. connected element according to claim 3, is characterized in that, described connected element also comprises: the first link and the second link; Wherein,

Described first link is connected with described first rotating shaft by described first axle sleeve;

Described second link is connected with described second rotating shaft by described first axle sleeve;

Accordingly, described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group, comprising:

Described connecting rod is connected with described first rotating shaft and described second rotating shaft respectively by described first link, the second link, to enable described first rotating shaft and the second rotating shaft synchronous axial system.

5. connected element according to claim 3, it is characterized in that, described first fixed block comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft;

Described second fixed block comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft.

6. the connected element according to claim 4 or 5, is characterized in that, described connected element also comprises:

Coating member, for being all coated on described first axle sleeve, the first link, the second link, connecting rod wherein.

7. an electronic equipment, is characterized in that, described electronic equipment comprises the first noumenon, the second body and connected element; Described connected element, for connecting described the first noumenon and the second body, makes described the first noumenon can rotate relative to described second body, and described the first noumenon and described second body can be made to be held in the first angle; Described connected element comprises: the first axle sleeve, rotating shaft group and connecting rod; Wherein,

First axle sleeve comprises inner sleeve and surrounding jacket; Described inner sleeve is nested in described surrounding jacket, and the sheathed described rotating shaft group of described inner sleeve, described rotating shaft group is rotated relative to described first axle sleeve;

Described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group.

8. electronic equipment according to claim 7, is characterized in that, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, when each rotating shaft in described rotating shaft group is rotated relative to described first axle sleeve, produces torsion.

9. electronic equipment according to claim 8, is characterized in that, described rotating shaft group comprises: the first rotating shaft and the second rotating shaft; Described connected element also comprises: the first fixed block and the second fixed block; Wherein,

Described second rotating shaft and described first shaft parallel;

Described first fixed block and the second fixed block, be sheathed on the first end of described first rotating shaft and the first end of described second rotating shaft respectively;

Accordingly, the sheathed described rotating shaft group of described inner sleeve, to enable described rotating shaft group rotate relative to described first axle sleeve, comprising:

On the second end that described inner sleeve is sheathed on described first rotating shaft arranged in parallel and on the second end of described second rotating shaft, described first rotating shaft and the second rotating shaft all can be rotated relative to described first axle sleeve;

Accordingly, the part be connected in described inner sleeve, with each rotating shaft in described rotating shaft group has damping material, comprising:

In described inner sleeve, the part of sheathed described first rotating shaft and the second rotating shaft has the first damping material and the second damping material respectively, when described first rotating shaft and the second rotating shaft are rotated relative to described first axle sleeve, produces torsion.

10. electronic equipment according to claim 9, is characterized in that, the connected element of described electronic equipment also comprises: the first link and the second link; Wherein,

Described first link is connected with described first rotating shaft by described first axle sleeve;

Described second link is connected with described second rotating shaft by described first axle sleeve;

Accordingly, described connecting rod is connected with described rotating shaft group, to enable each rotating shaft synchronous axial system in described rotating shaft group, comprising:

Described connecting rod is connected with described first rotating shaft and described second rotating shaft respectively by described first link, the second link, to enable described first rotating shaft and the second rotating shaft synchronous axial system.

11. electronic equipments according to claim 9, it is characterized in that, described first fixed block comprises the first fixed end and the first connecting end, and described first fixed end is fixed on described the first noumenon, and described first connecting end is sheathed on the first end of described first rotating shaft;

Described second fixed block comprises the second fixed end and the second connecting end, and described second fixed end is fixed on described second body, and described second connecting end is sheathed on the second end of described second rotating shaft.

12. electronic equipments according to claim 10 or 11, it is characterized in that, the connected element of described electronic equipment also comprises:

Coating member, for being all coated on described first axle sleeve, the first link, the second link, connecting rod wherein.