CN101886660B

CN101886660B - Rotating shaft device and multicomputer switcher module with same

Info

Publication number: CN101886660B
Application number: CN 200910140896
Authority: CN
Inventors: 陈智明
Original assignee: Aten International Co Ltd
Current assignee: Aten International Co Ltd
Priority date: 2009-05-11
Filing date: 2009-05-11
Publication date: 2013-12-18
Anticipated expiration: 2029-05-11
Also published as: CN101886660A

Abstract

The invention provides a rotating shaft device and a multicomputer switcher module with the same. The rotating shaft device comprises a reference component and a first structural unit, wherein the first structural unit comprises a first component and a limiting component; the first component is provided with a first end; when the first component actuates, the first end drives the limiting component to perform first rotation and locks the first component and the reference component to release the buckle; and the first structural unit performs second rotation around the reference component.

Description

Turning gear and there is the multi-computer switcher module of this turning gear

Technical field

The invention relates to a kind of turning gear, particularly be used in a kind of turning gear of multi-computer switcher module.

Background technology

Refer to Fig. 1 (a), Fig. 1 (b) and Fig. 1 (c), it is respectively the schematic perspective view of the mode of operation configuration of traditional multi-computer switch system 101, the side schematic view of mode of operation configuration and the side schematic view of collapse state configuration.As shown in the figure, multi-computer switch system 101 comprises support body 11 and multi-computer switcher module 13.Multi-computer switcher module 13 is set up on support body 11, and controls multi-section computing machine (not shown) in order to switching ground.Multi-computer switcher module 13 comprises body 14, switching device shifter 141, key board unit 15, display 16 and turning gear 17.Body 14 is fixedly arranged on support body 11; Switching device shifter 141 is placed in body 14; Display 16 couples with body 14 rotationally; Turning gear 17 is arranged between key board unit 15 and body 14, and by turning gear 17, key board unit 15 changes the stop position of key board unit 15 around body 14 rotations.

Key board unit 15 comprises the first push button 1511, the second push button 1512, the first fixed pin 1521 and the second fixed pin 1522, wherein the first push button 1511 and the first fixed pin 1521 interlocks, and the second push button 1512 and the second fixed pin 1522 interlocks.Body 14 comprises the first fixed orifice 1421 and the second fixed orifice 1422.When key board unit 15 is opened to its operating position and while fastening with body 14, the first fixed pin 1521 and the second fixed pin 1522 buckle into respectively the first fixed orifice 1421 and the second fixed orifice 1422, therefore, key board unit 15 firmly is set in this operating position, now, multi-computer switch system 101 is in this mode of operation configuration.

Key board unit 15 upsets that will be positioned at this mode of operation configuration upwards fold to display 16, so that the configuration transitions of multi-computer switch system 101 to the process that this collapse state configures comprises as follows.The first push button 1511 and the second push button 1512 are pushed rearward, and the first fixed pin 1521 and the second fixed pin 1522 respectively with the first fixed orifices 1421 and the second fixed orifice 1422 are removed and fastened; At the initial stage of switching process, keep the first push button 1511 and the second push button 1512 to be pushed rearward, complete smoothly with the action of guaranteeing upset.

And that the shortcoming of traditional multi-computer switch system 101 comprises is as follows.(1), while wanting to make key board unit 15 to change to other position from this operating position, the user needs both hands to force in the first push button 1511 and the second push button 1512 simultaneously, and need keep this application of force at the initial stage of switching process, just can guarantee that rotary movement can complete smoothly.(2) at key board unit 15, be positioned under the state of this operating position, the first fixed pin 1521 and the second fixed pin 1522 buckle into respectively the first fixed orifice 1421 and the second fixed orifice 1422 cantilever, and the undercapacity of this cantilever fit structure, so that can't really locate and allow user's operation keyboard device 15 reposefully.(3) at key board unit 15, fold to the state of display 16, the first fixed pin 1521 and the second fixed pin 1522 expose to usage space, so that the user easily touches described fixed

1521 and 1522 and meet accident.

Summary of the invention

A purpose of the present invention is to provide a kind of turning gear and a kind of multi-computer switcher module with this turning gear, utilizes this turning gear to simplify and opens the action required with folding this multi-computer switcher module; Under this multi-computer switcher module is opened as exercisable state, there is stable structure; Therefore, increase the reliability of this multi-computer switcher module when operation is controlled.

The first conception of the present invention is to provide a kind of turning gear, and this turning gear comprises a reference component and one first structural unit.This first structural unit comprises one first assembly and a limit assembly.This first assembly has a first end.When this first assembly start, this first end drives this limit assembly work one first and rotatablely moves and lock this first assembly and this reference component releasing fastening, and this first structural unit is done one second around this reference component and rotatablely moved.

The second conception of the present invention is to provide a kind of multi-computer switcher module, and this multi-computer switcher module comprises a body, a switching device shifter, a key board unit and a turning gear.This switching device shifter is placed in this body.This turning gear is arranged between this key board unit and this body.This turning gear comprises a reference component and one first structural unit.This first structural unit comprises one first assembly and a limit assembly.This first assembly has a first end.When this first assembly start, this first end drives this limit assembly work one first and rotatablely moves and lock this first assembly and this reference component releasing fastening, and this first structural unit is done one second around this reference component and rotatablely moved.

The accompanying drawing explanation

The present invention must be by the detailed description of following accompanying drawing, in order to do more deep understanding:

Fig. 1 (a), Fig. 1 (b) and Fig. 1 (c): be respectively the schematic perspective view of the mode of operation configuration of traditional multi-computer switch system, the side schematic view of mode of operation configuration and the side schematic view of collapse state configuration;

Fig. 2: the schematic diagram of turning gear that first embodiment of the invention is carried;

Fig. 3: first embodiment of the invention is carried the schematic diagram of the second structural unit;

Fig. 4: the schematic diagram of turning gear that first embodiment of the invention is carried;

Fig. 5 (a), Fig. 5 (b) and Fig. 5 (c): the first configuration, the second configuration and the 3rd schematic diagram configured that are respectively first module that first embodiment of the invention is put forward;

Fig. 6: second embodiment of the invention is carried the schematic diagram of the combination configuration with turning gear; And

Fig. 7: third embodiment of the invention is carried the schematic diagram of the computer switch module with turning gear.

Embodiment

Refer to Fig. 2, it is the schematic diagram of turning gear that first embodiment of the invention is carried 20, and please in the lump with reference to figure 3, Fig. 4 and Fig. 5 further to understand the present embodiment.As shown in the figure, turning gear 20 comprises reference unit 30 and assembled unit 40.Assembled unit 40 is coupled to reference unit 30 rotationally.Reference unit 30 comprises two

reference components

31 and 32 and two shaft connection unit 341 and 342.Shaft connection unit 341 is used to couple the first side 4A of reference component 31 and assembled unit 40, and shaft connection unit 342 is used to couple the second side 4B of reference component 32 and assembled unit 40;

Shaft connection unit

341 and 342 is used to make assembled unit 40 to rotate around reference unit 30 with a default torsion.Assembled unit 40 comprises 2 first

structural units

60,70 and one second structural unit 50.

The first side 5A of the second structural unit 50 is fixed in the first side 6A of the first structural unit 60, and the second side 5B of the second structural unit 50 is fixed in the first side 7A of the first structural unit 70.The second side 6B by shaft connection unit 341, the first structural units 60 is coupled to reference component 31; The second side 7B by shaft connection unit 342, the first structural units 70 is coupled to reference component 32.The first structural unit 60 comprises first module 601 and the second unit 602 that is fixed in first module 601, and the first structural unit 70 comprises first module 701 and the second unit 702 that is fixed in first module 701.

In one embodiment, first module 601 has the first assembly 61 and limit assembly 62, and first module 701 has the first assembly 71 and limit assembly 72; Being configured to that the structure that reference component 31, shaft connection unit 341 form with the first structural unit 60 and reference component 32, shaft connection unit 342 and the first structural unit 70 form is mutual corresponding.

In one embodiment, the second structural unit 50 responds directed force F 11 and drives the first assembly 61 and 71; The first assembly 61 drives limit assemblies 62 R21 that rotates, so that the first assembly 61 is locked in the latched position LK1 (please refer to the 5th (b) figure) of the first structural unit 60, and makes the first assembly 61 remove and fasten with reference component 31; Now, the first assembly 71 also drives limit assembly 72 R41 that rotates, so that the first assembly 71 is locked in the latched position LK2 of the first structural unit 70, and makes the first assembly 71 remove and fasten with reference component 32.Latched position LK2 and latched position LK1 symmetry in the present embodiment.At the first assembly 61 and 71, be locked in respectively under the lock-out state of latched position LK1 and LK2, assembled unit 40 can start around

shaft connection unit

341 and 342 R01 that rotates.In one embodiment, reference unit 30 has salient point 31B1 and 32B1, and turning gear 20 is removed this lock-out state when the R01 that rotatablely moves marches to salient point 31B1 and 32B1.

Refer to Fig. 3, it is the schematic diagram that first embodiment of the invention is carried the second structural unit 50.As shown in the figure, the second structural unit 50 comprises pedestal 51, the first mobile unit 52 and two the second mobile units 53 and 54.The second structural unit 50 responsive force F11 and drive the first assembly 61 and 71 to make respectively translation motion M211 and translation motion M411, wherein the direction of directed force F 11 is vertical with two translation motion M211 with the direction of M411.

Described directed force F 11 drives the first mobile unit 52 and makes displacement DS1, and wherein the direction of displacement DS1 is perpendicular to the direction of translation motion M211.The displacement DS1 that the second mobile unit 53 is connected in the first assembly 61, the first mobile units 52 drives the second mobile unit 53 and drives the first assembly 61 to make translation motion M211; The displacement DS1 that the second mobile unit 54 is connected in the first assembly 71, the first mobile units 52 drives the second mobile unit 54 and drives the first assembly 71 to make translation motion M411.After displacement DS1 completes, the first mobile unit 52 can be made the displacement DS2 replied, and wherein the direction of displacement DS2 is the direction in contrast to this displacement DS1, and displacement DS2 can not drive the first assembly 61 and 71.

The first mobile unit 52 comprises press section 521, two

inclined plane parts

5221 and 5222, and wherein directed force F 11 acts on press section 521.The second structural unit 50 can more comprise two

rollers

531 and 541, and

roller

531 and 541 is coupling respectively in the second

mobile unit

53 and 54, and

roller

531 and 541 sleeves to respectively inclined plane part 5222 and 5221.Angle between inclined plane part 5222 and translation motion M211 is acute angle, and the angle between inclined plane part 5221 and translation motion M411 is acute angle.

Refer to Fig. 4, it is for the schematic diagram of turning gear that first embodiment of the invention is carried 211.As shown in the figure, turning gear 211 comprises reference component 31, the first structural unit 60 and shaft connection unit 341.The second side 6B by shaft connection unit 341, the first structural units 60 is coupled to reference component 31 rotationally, and shaft connection unit 341 is used to make the first structural unit 60 to rotate around reference component 31 with a default torsion.

In one embodiment, the first structural unit 60 comprises first module 601 and the second unit 602 that is fixed in first module 601, and first module 601 comprises the first assembly 61, limit assembly 62, the second assembly 63, moving assembly 65 and contained structure 6011.The first assembly 61 has first end 6122.Restrain structure 6011 and restrain the first assembly 61 and limit assembly 62.When the first assembly 61 starts, the first end of the first assembly 61 6122 drives rotate R21 lock the first assembly 61 and remove and fasten with reference component 31 of limit assemblies 62; That is the start of the first assembly 61 makes the first assembly 61 be locked in the latched position LK1 of the first structural unit 60, and make the first assembly 61 remove and fasten with reference component 31; The first structural unit 60 is around reference component 31 R02 that rotates.The moving assembly 65 of first module 601 is in order to drive the first assembly 61 starts.

In one embodiment, reference component 31 comprises a plurality of fastening hole 31A1 and salient point 31B1; With respect to shaft connection unit 341, a plurality of fastening hole 31A1 are corresponding to a plurality of different angles.The turning gear 211 utilization R02 that rotatablely moves can be fastened on the first assembly 61 one of them of a plurality of fastening hole 31A1; That is a plurality of fastening hole 31A1 are in order to fasten the first assembly 61 on the R02 different angles that rotatablely move.In one embodiment, as the first structural unit 60 R02 that rotates, the second assembly 63 is through salient point 31B1 and start causes the first assembly 61 to break away from the latched position LK1 of the first structural units 60; That is salient point 31B1 promotes the second assembly 63 and unlocks.

Refer to Fig. 5 (a), Fig. 5 (b) and Fig. 5 (c), it is respectively the schematic diagram of first configuration the 221, second configuration the 222 and the 3rd configuration 223 of first module that first embodiment of the invention is carried 601.As shown in the figure, the first configuration 221 shows that the first assembly 61 and reference component 31 are at buckling state, the second configuration 222 shows the lock-out state LK1 that the first assembly 61 and reference component 31 fasten in releasing, and the 3rd configuration 223 shows the state that the first assembly 61 and reference component 31 are disengaged at this lock-out state.First module 601 comprises the first assembly 61, limit assembly 62, the second assembly 63, moving assembly 65 and contained structure 6011.Restrain structure 6011 and comprise erection seat 64, the first spring 66, the second spring 67, and contained structure 6011 is restrained the first assembly 61, limit assembly 62 and the second assembly 63.In one embodiment, the first assembly 61 and the second assembly 63 are disposed on same plane, and the direction of the first assembly 61 starts is parallel with the direction of the second assembly 63 starts, and are vertical with the direction of the R21 that rotatablely moves.

In one embodiment, the first assembly 61 comprises first component 611 and the second component 612 that is fixed in first component 611.First component 611 is through the perforation 6411 and 6412 of erection seat 64, and second component 612 is positioned at the outside of erection seat 64 or the outside 601A of contained structure 6011.First component 611 comprises end 6111, end 6112 and contained section 6113.Second component 612 comprises end 6121, first end 6122, connecting portion 6123 and end 6124.The end 6112 of the first assembly 61 is connected with the end 6121 of the first assembly 61.The end 6111 of the first assembly 61 is in order to be fastened on one of them of a plurality of fastening hole 3IA1.Moving assembly 65 is fastened on the end 6124 of the first assembly 61, and makes translation motion M211 in order to drive the first assembly 61.The connecting portion 6123 of the first assembly 61, in order to be connected in the second mobile unit 53 of the second structural unit 50, is made translation motion M211 so that directed force F 11 drives the first assembly 61.That is the first assembly 61 can be driven by moving assembly 65 or directed force F 11.When the first assembly 61 is made translation motion M211, the first end of the first assembly 61 6122 drives limit assemblies 62 R21 that rotates.

The first end 661 of the first spring 66 is restrained by the contained section 6113 of the first assembly 61, and the second end 662 of the first spring 66 is restrained by erection seat 64.When the first assembly 61 is made translation motion M211 and while the first assembly 61 and reference component 31 being removed fastens and make the first assembly 61 to be locked in the latched position LK1 of the first structural unit 60, the first spring 66 by the first assembly 61 with erection seat 64 compressions or stretch (as be to compress in Fig. 5 (b)) there is the first potential energy.

Limit assembly 62 comprises the first connecting portion 621, the 3rd connecting portion 622, the second connecting portion 623, the second end 624 and the 3rd end 625.The first connecting portion 621 of limit assembly 62 is coupled to erection seat 64 rotationally, for example, in the mode of being coupling, connects.Be coupled to the second assembly 63 the second connecting portion 623 linkages of limit assembly 62.When the first assembly 61 is locked in latched position LK1 with reference component 31 releasing fastenings and the first assembly 61, the second end 624 of limit assembly 62 props up erection seat 64 to maintain locking.The 3rd end 625 of limit assembly 62 in order to the first end 6122 of block the first assembly 61 so that the first assembly 61 is locked in the latched position LK1 of the first structural unit 60.In one embodiment, the second end 624 of limit assembly 62 and the 3rd end 625 lay respectively at the both sides of limit assembly 62, and the first connecting portion 621, the 3rd connecting portion 622 and second connecting portion 623 of limit assembly 62 are between the second end 624 and the 3rd end 625.

The first end 671 of the second spring 67 is restrained by the 3rd connecting portion 622 of limit assembly 62, and the second end 672 of the second spring 67 is restrained by erection seat 64.When the translation motion M211 of the first assembly 61 drive limit assembly 62 rotates R21, the limited assembly 62 of the second spring 67 is with erection seat 64 compressions, stretching or reverse (as be to reverse in Fig. 5 (a)).The second spring 67 can be a torsionspring 67A, and the 67A3 of pipe section of this torsionspring 67A more is socketed on erection seat 64.The second assembly 63 of first module 601 is through the perforation 6431 and 6432 of erection seat 64, and the second assembly 63 has 631Yu end, end 632; Translation motion M223 is made in order to the salient point 31B1 that responds reference component 31 in the end 631 of the second assembly 63; Be coupled to the second connecting portion 623 of limit assembly 62 end 632 linkages of the second assembly 63.

In Fig. 5 (a), the first end of the first assembly 61 6122 drives the 3rd end 625 of limit assemblies 62 and makes limit assembly 62 make the first rotatablely move R21 and make the second assembly 63 make translation motion M221.When the first end 6122 of the first assembly 61 surpasses can drive the limit of limit assembly 62 the 3rd end 625 time, by restraining the effect of structure 6011, the first end 6122 of the first assembly 61 fastens mutually with the 3rd end 625 of limit assembly 62, fasten and the first assembly 61 and reference component 31 are removed, and make the first assembly 61 be locked in the latched position LK1 of the first structural unit 60.In Fig. 5 (b), the state that the first assembly 61 is locked in the latched position LK1 of the first structural unit 60 is shown.

Under the state fastened mutually in the first end 6122 of the first assembly 61 and limit assembly 62 the 3rd end 625, the first structural unit 60 is around reference component 31 R02 that rotates.In the R02 that rotatablely moves, the first end 631 of the second assembly 63 responds the salient point 31B1 of reference components 31 and makes the translation motion M223 as shown in Fig. 5 (c), the translation motion M223 of the second assembly 63 drives limit assembly 62 R23 that rotates, cause the first end 6122 of the first assembly 61 to break away from and fasten with limit assembly 62 the 3rd end 625, and make the first assembly 61 break away from the latched position LK1 of the first structural unit 60, so that lock-out state is disengaged.When this lock-out state is disengaged, the restoring force of the first spring 66 makes the first assembly 61 make translation motion M214.

Refer to Fig. 6, it is proposed the combination with turning gear 20 for second embodiment of the invention and configures 91 schematic diagram.As shown in the figure, combination configuration 91 comprises turning gear 20 and key board unit 81.One side 8111 of key board unit 81 is fixed in two the first

structural units

60,70 and the second structural unit 50.

Refer to Fig. 7, it is the schematic diagram that third embodiment of the invention is put forward the computer switch module 92 with turning gear 20.As shown in the figure, computer switch module 92 comprises body 82, switching device shifter 83, key board unit 81 and turning gear 2A.Switching device shifter 83 is placed in body 82, and turning gear 2A is arranged between key board unit 81 and body 82.Turning gear 2A can be turning gear 20 or turning gear 211, and by turning gear 2A, key board unit 81 changes the stop position of key board unit 81 around body 82 rotations.In Fig. 7, the press section 521 of the first mobile unit 52 of the second structural unit 50 is exposed to the front of key board unit 81, and the pushing part of the moving assembly 65 of the first structural unit 60 is exposed to the back side of key board unit 81.The first mobile unit 52 is applied that power F11 drives or moving assembly 65 is driven and makes turning gear 2A to be locked in to remove to fasten, and under this is removed and fastens, and key board unit 81 is done one and rotatablely moved R03 and change the stop position of key board unit 81.

The characteristics of the present embodiment comprise as follows:

1. only need one hand to press the first mobile unit 52 or promote moving assembly 65 once to remove fastening, then with one hand upset key board unit 81, can change the stop position of key board unit 81.That is, in the process of upset key board unit 81, do not need always according to removing locked key, therefore, the complexity of operation reduces, and, due to the exposed structure that does not protrude from usage space, the security in use obviously increases.

2. in the rotary course of upset key board unit 81, automatically the lock-out state releasing is made to mechanism's involution of turning gear 2A.

3. each side of turning gear 2A both sides can have structure, fasten the first assembly and reference component carry out to fasten, to remove, lock the first assembly in the latched position of the first structural unit and make the go out of lock function of position of the first assembly, therefore, can promote degree of stability, bearing capacity and the reliability of key board unit 81 operations.

In sum, turning gear of the present invention and multi-computer switcher module with this turning gear can reach the effect that summary of the invention sets really.Only, as described above is only preferred embodiment of the present invention, such as is familiar with the personage of skill of the present invention, and the equivalence of doing according to spirit of the present invention in whence is modified or changed, and all should be covered by following claim.

Claims

1. a turning gear, is characterized in that, comprising:

One reference component; And

One first structural unit, this first structural unit comprises one first assembly and a limit assembly, wherein this first assembly has a first end;

Wherein when this first assembly start, this first end drives this limit assembly work one first and rotatablely moves, so that this first assembly is locked in a latched position of this first structural unit, and make this first assembly and this reference component remove fastening, this first structural unit is done one second around this reference component and is rotatablely moved, and restrains structure and restrains the first assembly and limit assembly.

2. turning gear as claimed in claim 1, is characterized in that, this reference component comprises a plurality of fastening holes, in order to fasten this first assembly, in this, second rotatablely moves on different angles.

3. turning gear as claimed in claim 1, is characterized in that, this first structural unit more comprises one second assembly, is coupled to this limit assembly linkage, and this second assembly and this limit assembly all are bound to one and restrain structure.

4. turning gear as claimed in claim 3, is characterized in that, this reference component comprises a salient point, does this when this first structural unit and second rotatablely move, and this salient point promotes this second assembly and unlocks.

5. turning gear as claimed in claim 3, is characterized in that, this limit assembly comprises:

One first connecting portion, be coupled to this contained structure rotationally;

One second connecting portion is coupled to this second assembly linkage;

One the second end, in order to prop up this contained structure to maintain locking; And

One the 3rd end, in order to this first end of block with the locking.

6. turning gear as claimed in claim 3, is characterized in that, it more comprises:

One first spring, an end is restrained by this first assembly, and the other end is restrained by this contained structure; And

One second spring, an end is restrained by this limit assembly, and the other end is restrained by this contained structure.

7. turning gear as claimed in claim 1, it is characterized in that, more comprise one second structural unit, this second structural unit responds an acting force, and driving this first assembly to do one first translation motion, the direction of this acting force is vertical with the direction of this first translation motion.

8. turning gear as claimed in claim 7, is characterized in that, this second structural unit comprises:

One first mobile unit, this acting force drives this first mobile unit and does one first displacement, and wherein the direction of this first displacement is perpendicular to the direction of this first translation motion; And

One second mobile unit, connect this first assembly, and this first displacement drives this second mobile unit and drives this first assembly to do this first translation motion.

9. turning gear as claimed in claim 7, it is characterized in that, this second structural unit more comprises a roller and one first mobile unit, and this first mobile unit comprises an inclined plane part, and this roller sleeves to this inclined plane part, wherein between this inclined plane part and this first translation motion, angle is acute angle.

10. turning gear as claimed in claim 1, is characterized in that, this first structural unit more comprises a moving assembly, and this moving assembly is in order to drive this first assembly start.

11. a multi-computer switcher module, is characterized in that, comprising:

One body;

One switching device shifter, be placed in this body;

One key board unit; And

One turning gear, be arranged between this key board unit and this body, and this turning gear comprises a reference component and one first structural unit, and wherein this first structural unit comprises one first assembly and a limit assembly, and this first assembly has a first end:

Wherein when this first assembly start one first translation motion, this first end drives this limit assembly work one first and rotatablely moves, so that this first assembly is locked in a latched position of this first structural unit, and make this first assembly and this reference component remove fastening, this first structural unit is done one second around this reference component and is rotatablely moved, and restrains structure and restrains the first assembly and limit assembly.

12. the multi-computer switcher module as claim 11, it is characterized in that, this first structural unit more comprises one second assembly, is coupled to this limit assembly linkage, this second assembly and this limit assembly all are bound to one and restrain structure, wherein should restrain structure and more comprise: