CN102122194B - Hidden handle and interference mechanism and multicomputer management equipment using same - Google Patents

Abstract

The invention discloses a hidden handle and interference mechanism and multicomputer management equipment using the same. The interference mechanism comprises a handle, a rocker arm, a bolt and an elastic drive element, wherein the handle is provided with a door holder; the rocker arm is linked with the handle; the bolt is linked with the rocker arm and is provided with an elastic resetting element; and the elastic drive element is linked with the handle. When the door holder is buckled, the elastic drive element is in a tension state, and the bolt is positioned in an interference position; when the door holder is unbuckled, the elastic drive element is in a tension relieving state and drives the handle to drive the rocker arm so as to make the rocker arm drive the bolt, make the bolt separated from the interference position and make the elastic resetting element in the tension state; and the elastic drive element drives the handle to spring out.

Description

Built-in handle and interference mechanism and use its multi-computer management equipment

Technical field

The invention relates to handle and interference mechanism, built-in handle and the interference mechanism of espespecially a kind of handle and latch interlock and use its multi-computer management equipment.

Background technology

See also Fig. 1, be traditional multi-computer management equipment schematic perspective view.Multi-computer management equipment 1 comprises a frame 10, a slide rail 11, a KVM switch 92 and an operational module 2.KVM switch 92 is arranged at the rear end of frame 10, and slide rail 11 is arranged at the front end of frame 10.Operational module 2 comprises a Keysheet module and a display module, but the display module folding is on Keysheet module.Slide rail 11 is arranged between operational module 2 and the frame 10, with so that operational module 2 be displaced into frame 10 inside and outside.When wish was used multi-computer management equipment 2, namely the fixed handle 20 of holding operation module 2 was extracted operational module 2 out and can be used it along slide rail 11.But because fixed handle 20 protrudes from outside the operational module 2, and the pattern manufacturer of the cabinet outside the multi-computer management equipment 1 is various, (disclose among the figure) so that every a machine box door and when shutting, may not be certain can not produce with fixed handle 20 to interfere, that is machine box door can bump against fixed handle 20 in shutting machine box door can't be closed.

In addition, operational module 2 has latch (among the figure disclose) and frame 10 to fix usually in addition, but the releasing of locking needs in addition operation between its latch and the frame 10, and latch respectively has one to come and frame 10 fixings about normally, therefore need two hands to operate simultaneously, very inconvenience.Even, sometimes also can hurt user's hand.

Summary of the invention

The whence be therefore, the applicant is because the disappearance of conventional art, invents out the present invention's " built-in handle and interference mechanism and use its multi-computer management equipment ", in order to improve the disappearance of above-mentioned traditional means.

The object of the invention is to save the space, that is save the space that multi-computer management equipment is taken in, so that multi-computer management equipment is when taking in cabinet, its handle can not interfered with machine box door and machine box door can't be closed up.Purpose further in order to reach better mechanism effect, is used multi-computer management equipment and is made in its handle stretches out when user's wish, and the present invention is the interlock latch in passing, makes this module and cabinet releasing fixing state.

To achieve the above object, the invention provides a kind of built-in handle and interference mechanism, be arranged between one first object and the second object, this first object has one first opening and one second opening, this second object has one the 3rd opening, this second opening is corresponding to the 3rd opening, this built-in handle and interference mechanism comprise: the leader, be arranged at this first object, can via this first opening debouch this first object inside and outside, and can move around between a reception position and an ejected position, when this handle is positioned at this reception position, this handle is positioned within this first object, and when this handle was positioned at this ejected position, the partial structure of this handle protruded from outside this first object; One knocker is arranged within this first object, in order to fasten or to discharge this handle, so that handle is positioned at this reception position or this ejected position; One latch, be arranged within this first object, can via this second opening be displaced into this first object inside and outside, and can move around in a stowed position and an interference position, when this latch was positioned at this interference position, this latch protruded from this second opening and inserts the 3rd opening outward, interfere so that produce between this first object and this second object, when this latch was positioned at this stowed position, this latch was positioned within this first object, removed between this first object and this second object and interfered; And an interlinked mechanism, be arranged within this object, be coupled to movably between this handle and this latch.If when this handle moved to this ejected position by this reception position, this interlinked mechanism drove this latch and moves to this stowed position by this interference position; Otherwise, if when this handle moved to this reception position by this ejected position, this latch moved to this interference position by this stowed position.

Described first pair as if an operational module, this operational module more comprises a display module and a Keysheet module, and this handle is arranged in the interior or Keysheet module of display module.

Described interlinked mechanism is by a rocking arm, and its two ends articulate with handle and latch respectively, between the two ends then is one to be articulated in the rotating shaft of the first object, makes handle and latch interlock by rocking arm.

Described interlinked mechanism is an ejection oblique mechanism, and this handle has more an ejection piece, and latch then is connected with an incline structure, pushes incline structure and then latch is moved by this ejection piece.

For foregoing of the present invention can be become apparent, a preferred embodiment cited below particularly, and cooperation accompanying drawing are described in detail below:

Description of drawings

Fig. 1 is the application schematic diagram of traditional multi-computer management equipment;

Fig. 2 is the embodiment schematic diagram of multi-computer management equipment of the present invention;

Fig. 3 to Fig. 5 is the action schematic diagram of Fig. 2 embodiment;

Fig. 6 is another embodiment schematic diagram of multi-computer management equipment of the present invention;

Fig. 7 to Fig. 9 is the action schematic diagram of Fig. 6 embodiment;

Figure 10 is another embodiment schematic diagram of Fig. 6;

Figure 11 is the another embodiment schematic diagram of Fig. 6;

Figure 12 is the embodiment schematic diagram that the present invention has damper;

Figure 13 is that the present invention uses schematic diagram; And

Figure 14 is Another Application schematic diagram of the present invention.

[main element symbol description]

1,2a, 2b: multi-computer management equipment

10,90a: second object (frame)

10a: ejection face

11: slide rail 100: knocker

102: knocker pin 104: the knocker seat

2,3a, 3b: operational module 20: fixed handle

21,21a: display module

22,22a: Keysheet module

31: the first openings of 3: the first objects

4: handle assembly

40: handle 42a: the interlock rotating shaft

42b: protruding jacking block 44: chute

46: elastic drive element 48: toothrow

5: Rocker arm 50: rotating shaft

52: the second rotation sections, 51: the first rotation sections

52 ': cushion space (elongated slot)

6: the latch assembly

60: connect stalk 61: linked bump

62: latch 63: elasticity involution element

7: tilt linkage 70a: incline structure

70a1: top, slope 70a2: at the bottom of the slope

70b: hang plate 70c: tipper

71: guide groove

8: damper 80: damping device

82: damping moving part 90: Multicomputer-management device

91a: extension mechanism

92: KVM switch

Embodiment

See also Fig. 2, be the embodiment schematic diagram of multi-computer management equipment of the present invention.Wherein disclose leader's assembly 4, be fixed with leader 40, and have a knocker (push latch) 100, knocker 100 is hidden in the first object 3 handle 40 when fastening, that is by knocker 100 handle 40 is maintained in the first object 3, this moment, handle 40 namely was in reception position.Rocker arm 5 is to be articulated in the first object 3 by a rotating shaft 50, and handle assembly 4 also is provided with an interlock rotating shaft 42a, articulate with the first rotation section 51 of Rocker arm 5 so that Rocker arm 5 just as with handle 40 interlocks.Fig. 2 still discloses an elastic drive element 46, and the one end connects handle assembly 4, the other end then is connected in the first object 3, and makes when knocker 100 fastens, and this elastic drive element 46 is tense situation.In addition, and disclose a latch assembly 6 by the second rotation section 52 pivot joints of a linked bump 61 with the Rocker arm 5 of company's stalk 60, latch assembly 6 also utilizes an elasticity involution element 63 to make latch 62 protrude from the second opening 32, and be positioned at an interference position that is in outside the first object 3.In addition, handle assembly 4 also has a chute 44 and makes when handle 40 and keep direction stable when mobile.In addition, the handle 40 of Fig. 2 is to be positioned at the first opening 31.

See also Fig. 3 to Fig. 5, be the action schematic diagram of Fig. 2 embodiment.The operation of knocker 100 is just like existing knocker (push latch), at the first object 3 during in receiving state, the second opening 32 (please cooperate Fig. 2) is in the face of the 3rd opening 13, latch 62 is positioned at interference position and inserts the 3rd opening 13 of second object 10, second object 10 is a frame normally, handle 40 then is hidden in the first object 3, handle 40 is positioned at reception position, therefore when user's wish handle 40 taking-ups can also be removed the interference state of latch 62 simultaneously, namely with the direction squeeze grip 40 in the first object 3, so knocker 100 can be removed and fasten, this moment is because handle assembly 4 no longer is subject to the fastening of knocker 100, thereby make the former elastic drive element 46 that is in tense situation can discharge elastic potential energy, that is the releasing of the fastening of knocker 100 namely represents release handle 40, and handle 40 can be released to an ejected position (position that please cooperate the handle 40 of Fig. 4) by reception position, and elastic drive element 46 shown in Figure 3 is extension springs, that is when extended state, be in tension, when removing tense situation, be that elastic drive element 46 shortens length, make himself two ends close to each other, with Fig. 3 be exactly the pulling handle assembly 4, that is interlock handle 40 stretches out from the reception position in the first object 3, that is be exposed to outside the first opening 31 (seeing also Figure 13), and arrive at an ejected position (asking for an interview Fig. 4 the position of hand 40), drawing with Fig. 3, be exactly that handle 40 moves down because of elastic drive element 46, and interlock rotating shaft 42a promotes the first rotation section 51 of Rocker arm 5, Rocker arm 5 is rotated take turning axle 50 as the axle center, and make the second rotation section 52 spur the connecting rod 60 of latch assemblies 6, and and then make to contract in the latch 62 and make elasticity involution element 63 be tense situation, as with Fig. 4, elasticity involution element 63 is Compress Spring, can see that elasticity involution element 63 presents compressive state.And latch 62 via this second opening 32 be displaced into the first object 3 (operational module) inside and outside.Elastic drive element 46 continues running, until handle 40 has stretched out the upper length of estimating of design, latch 62 then self-interference position movement has arrived stowed position, can consult Fig. 4.In addition, with Fig. 3 to Fig. 4, the Rocker arm 5 that is positioned at the drawing left side is to rotate in a clockwise direction, and the Rocker arm 5 on drawing the right then is with counterclockwise direction rotation.

Please continue to consult Fig. 4, wherein visible knocker 100 more comprises a buckling base 104 and a fastening pin 102, and buckling base 104 is to be fixed in the first object 3 fastening pins 102 then to be fixed in handle assembly 4, and this moment, handle 40 namely was positioned at ejected position.In operation recited above, that is after handle 40 is inwardly pushed, knocker 100 can be pushed in the buckling base 104 and removes both fastenings because fasten pin 102, make elastic drive element 46 not be subject to knocker 100 restrictions and pull handle assembly 4, namely can be from buckling base 104 disengagings therefore fasten pin 102.Again, when wish handle 40 is regained the first object 3 when interior, the user then promotes handle 40 inwardly to make handle 40 to get back in the first object 3, in taking in fully, fastens and sells 102 and namely insert in the buckling base 104, and both namely finish fastening (please cooperate Fig. 5).When promoting handle 40, interlock rotating shaft 42a promotes the first rotation section 51 of Rocker arm 5 with the direction opposite with Fig. 3, Rocker arm 5 is rotated take turning axle 50 as the axle center, and namely the Rocker arm 5 on the drawing left side rotates in a counter-clockwise direction, and the Rocker arm 5 on drawing the right is then with clockwise direction rotation.Because the user has offseted the strength that pushes away in the handle 40 restoring force of elastic drive element 46, therefore elasticity involution element 63 namely pushes latch 62 and gets back to interference position, also make the second rotation section 52 of connecting rod 60 pulling Rocker arm 5s make the Rocker arm 5 rotation, the rotation of this Rocker arm 5 just can cooperate with the promotion of interlock rotating shaft 42a, when knocker 100 is got back to buckling state really, latch 62 is namely got back to the interference position of Fig. 3, and handle 40 also is accommodated in the reception position in the first object 3 really.

See also Fig. 5, when handle 40 take in finish after, in 3 pushed times frames of the first object 10, the left and right sides of frame 10 then has an ejection face 10a, when 3 pushed times frames 10 of the first object, latch 62 namely touches ejection face 10a and the ejection that is subjected to and to the 3 interior retractions of the first object, what this moment was related makes connecting rod 60 also mobile inwardly, in order not allow Rocker arm 5 be subject to the interference of latch 62 retractions, be provided with a cushion space 52 ' in the second rotation section 52, usually a linked bump 61 of connecting rod 60 is long groove shape, so that can move and be unlikely to interlock to Rocker arm 5 in cushion space 52 '.When the first object 3 is pushed into frame 10 when interior completely, latch 62 no longer is subject to the ejection of ejection face 10a and has got back to interference position, and latch 62 inserted the 3rd opening 13 on the frame 10, and the relative position of latch 62 and the 3rd opening 13 as shown in Figure 3.

See also Fig. 6, be another embodiment schematic diagram of multi-computer management equipment of the present invention.Wherein handle assembly 4 also has leader 40, a chute 44 in order to stablizing the movement of handle 40, and makes handle 40 be fixed in a reception position in the first object 3 by a knocker 100.Again, handle assembly 4 has a protruding jacking block 42b, contact with the incline structure 70a of a tilt linkage 7 one ends, incline structure 70a is to side, from interior forward extension from interior, that is extend forward according to the moving direction of handle 40 and in extensions forward simultaneously to the both sides extension of the first object 3, protruding jacking block 42b then with the surperficial butt towards the first object 3 both sides of incline structure 70a.Again, tilt linkage 7 still has a guide groove 71 keeping the horizontal rectilinear motion of tilt linkage 7, on the tilt linkage 7 with respect to incline structure 70a side then is connected with latch assembly 6, make latch 62 can with tilt linkage 7 interlocks.

Seeing also Fig. 7 to Fig. 9 is the action schematic diagram of Fig. 6 embodiment.Please consult first Fig. 7, when the user inwardly pushes handle 40 and knocker 100 is removed fasten, elastic drive element 46 is that pull handle assembly 4 makes handle 40 stretch out the first object 3, also make protruding jacking block 42b mobile to Fig. 7 below, and disclose according to Fig. 7 drawing, incline structure 70a has 70a2 at the bottom of slope top 70a1 and the slope, further with both relative positions, 70a2 is then to be the inboard of close handle assembly 4 and close the first object 3 near top, slope, the outside 70a1 of the first object 3 also near latch 62 at the bottom of the slope.Again, when knocker 100 is buckling state, protruding jacking block 42b connects with top, slope 70a1, therefore when elastic drive element 46 pull handle assemblies 4 and then when driving protruding jacking block 42b and pushing incline structure 70a downwards, protruding jacking block 42b namely moves along incline structure 70a, slide into 70a2 at the bottom of the slope from slope top 70a1, and because protruding jacking block 42b can't transverse shifting, tilt linkage 7 can't vertically move, and incline structure 70a from slope top 70a1 to the slope at the bottom of 70a2 extend from inside to outside, therefore when protruding jacking block 42b when incline structure 70a slides, can force tilt linkage 7 transverse shiftings, and and then interlock latch 62 interior retraction the first objects 3 in.

See also Fig. 8.Wherein, the effect of knocker 100 and knocker seat 104 and knocker pin 102 is just like aforementioned, therefore repeat no more.After handle 40 stretches out predetermined length fully, i.e. ejected position as shown in Figure 8,70a2 at the bottom of protruding jacking block 42b has left the slope top 70a1 of incline structure 70a top and arrived at the slope of incline structure 70a below, and the latch 62 of latch assembly 6 is also in the first object 3 of retraction and be positioned at stowed position, and 63 of elasticity involution this moment elements present tense situation.When wanting to pack up handle 40, the user pushes handle 40 in the first object 3, relatedly protruding jacking block 42b is moved up and does not push incline structure 70a and knocker seat 104 and knocker pin 102 are fastened again.Because the strength of user's ejection handle 40 has been offseted the elastic force of elastic drive element 46, stretched out the first object 3 and get back to interference position (seeing also Fig. 3) so that elasticity involution element 63 pushes latch 62, and elasticity involution element 63 can make incline structure 70a to the both sides translation of the first object 3 because incline structure 70a is not subject to the extruding of protruding jacking block 42b.When knocker 100 was returned to buckling state, the state that stretches out of latch 62 please refer to Fig. 7.

See also Fig. 9, when handle 40 take in finish after, in 3 pushed times frames of the first object 10, the left and right sides of frame 10 then has an ejection face 10a, when 3 pushed times frames 10 of the first object, latch 62 namely touches ejection face 10a and the ejection that is subjected to and to the 3 interior retractions of the first object, and this moment is related makes tilt linkage 7 transverse shiftings, because protruding jacking block 42b is positioned at the outside of incline structure 70a, so can not be subject to tilt linkage 7 to the impact that inside contracts.When the first object 3 is pushed into frame 10 when interior completely, latch 62 no longer is subject to the ejection of ejection face 10a and has got back to interference position, and its situation of stretching out can be with reference to shown in Figure 3.

Figure 10 is the schematic diagram of another variant of Fig. 6 embodiment.Wherein the pass of handle assembly 4 and handle 40 lies in this and repeats no more.Because it is very little that the incline structure 70a of Fig. 6 embodiment is actually the pass away contact area of itself and protruding jacking block 42b of a sheet, so that contact stress is very large, can accelerate both wearing and tearing, for this reason, the embodiment of Figure 10 holds up primary dip structure 70a and becomes a hang plate 70b, reduces contact stress with the contact area that strengthens itself and protruding jacking block 42b.In addition, still can further make action more smooth and easy by the protruding jacking block 42b of a roller (disclosing among the figure) replacement.

See also Figure 11, be the schematic diagram of the another variant of Fig. 6 embodiment.Wherein the pass of knocker 100, handle assembly 4 and handle 40 lies in this and repeats no more.Because the embodiment of Fig. 6 or Figure 10 is under permanent use, incline structure 70a, hang plate 70b both and protruding jacking block 42b may be forbidden in vertical direction or the relative position on plane, therefore, relative position for fear of incline structure 70a or hang plate 70b and protruding jacking block 42b is inaccurate, then provide a tipper 70c at the embodiment of Figure 11, what make that protruding jacking block 42b can be more firm produces relative motions with tilt linkage 7.If but push back frame 10 when interior when the first object 3 as shown in Figure 9, ejection face 10a can make the tipper 70c of Figure 11 inside contract, and may be pushed through protruding jacking block 42b, therefore the tipper 70c of Figure 11 has more a cushion space 52 ', be long groove shape and extend towards latch 62 with the direction of motion that is parallel to latch 62 and form, so that when tipper 70c was subject to latch 62 and inside contracts with the direction towards handle assembly 4 with the interlock of ejection face 10a (Fig. 9), cushion space 52 ' can hold protruding jacking block 42b and be unlikely to interlock to handle assembly 4.

See also Figure 12, it has the embodiment schematic diagram of damper for the present invention.Knocker 100 wherein, the pass of handle assembly 4 lie in this and repeat no more.Because elastic drive element 46 has suitable elastic force potential energy when tense situation, therefore when knocker 100 was removed fastening, elastic force potential energy can discharge at once, and handle 40 also can eject at once and hurt most probably the user.Therefore the present invention more arranges a damper 8 between handle assembly 4 and the first object 3, wherein damping device 80 is located at the first object 3 damping moving parts 82 and then is connected with handle assembly 4, and wherein damping moving part 82 is gears and handle assembly 4 has a toothrow 48 and 82 interlocks of damping moving part.When the elastic force potential energy of elastic drive element 46 discharges, toothrow 48 can promote 82 rotations of damping moving part, and because the function of damper 8 can make the rotation slowing of damping moving part 82 conversely, that is slow down the speed that handle 40 ejects by damping moving part 82, reduce the injured possibility of user.

See also Figure 13, be the application schematic diagram of a multi-computer management equipment of the present invention.Multi-computer management equipment 2a comprises a frame 90a (second object), an extension mechanism 91a, an operational module 3a (the first object) and a Multicomputer-management device 90.Multicomputer-management device 90 is arranged at the rear end of frame 90a, can be KVM switch.Operational module 3a comprises a display module 21 and a Keysheet module 22a, but display module 21 foldings are on Keysheet module 22a.Extension mechanism 91a is arranged between operational module 3a and the frame 90a, and is arranged at the front end of frame 90a, with so that operational module 3a can debouch outside the frame 90a.Operational module 3a also is electrically connected with Multicomputer-management device 90.Handle 40 is arranged at Keysheet module 22a and the first opening 31 of extension key disk module 22a already, and operational module 3a also extracts out along extension mechanism 91a in frame 90a fully, and can see the latch 62 that exposes.And multi-computer management equipment 2a also launches and be the state that can operate, and what multi-computer management equipment 2a used is the display module 21 of operational module 3a, so multi-computer management equipment 2a is a LCDKVM management equipment, i.e. liquid crystal display multi-computer management equipment.In addition, with the embodiment of Figure 13, built-in handle of the present invention and interference mechanism are the positions that is arranged at Keysheet module 22a, that is described first couple of Keysheet module 22a that likes operational module 3a.

See also Figure 14, be the application schematic diagram of another multi-computer management equipment of the present invention.Multi-computer management equipment 2b comprises a frame 90a (second object), an extension mechanism 91a, an operational module 3b (the first object) and a Multicomputer-management device 90.Multicomputer-management device 90 is arranged at the rear end of frame 90a, can be KVM switch.Operational module 3b comprises a display module 21a and a Keysheet module 22, but display module 21a folding is on Keysheet module 22.Extension mechanism 91a is arranged between operational module 3b and the frame 90a, and is arranged at the front end of frame 90a, with so that operational module 3a can debouch frame 90a inside and outside.Operational module 3b also is electrically connected with Multicomputer-management device 90.Handle 40 is arranged at display device 21a and stretches out already the first opening 31 (please cooperate Fig. 2) of display device 21a and operational module 3b also extracts out along extension mechanism 91a fully in frame 90a, and can see the latch 62 that exposes.And multi-computer management equipment 2b also launches and is the state that can operate, and that multi-computer management equipment 2b use is the display module 21a of an operational module 3b.In addition, with the embodiment of Figure 14, built-in handle of the present invention and interference mechanism are the positions that is arranged at display module 21a, that is described the first object display module 21a that also is operational module 3b.The benefit that built-in handle of the present invention and interference mechanism is arranged at display module 21a is, after the user extracts operational module 3b out gripping handle 40, can hold in passing handle 40 and display module 21a is launched, erects in order to use.

In sum, the present invention's " built-in handle and interference mechanism " is not only so that be hidden in the first object in order to the handle of extracting multi-computer management equipment out, and make machine box door can not bump against handle and can't close, stretching out or action that retraction is hidden handle more, the action of interfering or interfering with the releasing of latch gives combination, that is the action that from reception position move to ejected position of latch self-interference position movement to the action of stowed position and handle combined, the user can be only be reached simultaneously with simple action take out handle and remove lock-out state between the first object and the frame, for the use of convenient multi-computer management equipment, have greatest benefiting.

In sum, although the present invention discloses as above with a preferred embodiment, so it is not to limit the present invention.The persond having ordinary knowledge in the technical field of the present invention, without departing from the spirit and scope of the present invention, when doing various changes and retouching.Therefore, protection scope of the present invention is worked as with being as the criterion that claim was defined.

Claims (10)

1. a built-in handle and interference mechanism, be arranged between one first object and the second object, this first object has one first opening and one second opening, and this second object has one the 3rd opening, this second opening is corresponding to the 3rd opening, and this built-in handle and interference mechanism comprise:

The leader, be arranged at this first object, can via this first opening debouch this first object inside and outside, and can move around between a reception position and an ejected position, when this handle is positioned at this reception position, this handle is positioned within this first object, and when this handle was positioned at this ejected position, the partial structure of this handle protruded from outside this first object;

One knocker is arranged within this first object, in order to fasten or to discharge this handle, so that this handle is positioned at this reception position or this ejected position;

One latch, be arranged within this first object, can via this second opening be displaced into this first object inside and outside, and can move around in a stowed position and an interference position, when this latch was positioned at this interference position, this latch protruded from this second opening and inserts the 3rd opening outward, interfere so that produce between this first object and this second object, when this latch was positioned at this stowed position, this latch was positioned within this first object, removed between this first object and this second object and interfered; And

One interlinked mechanism is arranged within this first object, is coupled to movably between this handle and this latch;

Wherein, when this handle moved to this ejected position by this reception position, this interlinked mechanism drove this latch and moves to this stowed position by this interference position;

Wherein, when this handle moved to this reception position by this ejected position, this latch moved to this interference position by this stowed position.

2. built-in handle as claimed in claim 1 and interference mechanism is characterized in that:

One elastic drive element more is set between this first object and this handle, when this knocker discharges this handle, this elastic drive element namely drives this handle and moves to this ejected position by this reception position, this elastic drive element is an extension spring, and an end of this extension spring is arranged on this handle, the other end then is located in this first object, and when this handle was positioned at this reception position, this elastic drive element was nervous shape; And

One elasticity involution element more is set between this first object and this latch, and when this handle moved to this reception position by this ejected position, this elasticity involution element moved to this interference position with this latch by this stowed position.

3. built-in handle as claimed in claim 1 and interference mechanism is characterized in that, this interlinked mechanism more comprises:

One rocking arm and a rotating shaft;

Wherein, this rocking arm makes this handle and this latch interlock, and this rocking arm comprises:

One first rotation section articulates with this handle; And

One second rotation section articulates with this latch;

Wherein, this rotating shaft makes this interlinked mechanism be hubbed at this first object by this rotating shaft between this first rotation section and this second rotation section, and this latch more connects a connecting rod, this connecting rod then articulates with this second rotation section, and this latch namely indirectly articulates with this second rotation section by this connecting rod; Offer a cushion space on this rocking arm, articulate and a linked bump and this cushion space are set on this connecting rod, when this latch moved in this first object, this linked bump was mobile in this cushion space; And this cushion space is an elongated slot.

4. built-in handle as claimed in claim 1 and interference mechanism, it is characterized in that, this interlinked mechanism comprises a protruding jacking block and an incline structure, this protruding jacking block is arranged at this handle, this incline structure is connected with this latch and has top, a slope with at the bottom of the slope, this incline structure be with this handle from this reception position the direction to this ejected position extend and the side of oblique this first object, this incline structure and with this protruding jacking block butt; When this handle was positioned at this reception position, this protruding jacking block was positioned at top, this slope, and when handle moves to this ejected position by this reception position, this protruding jacking block push this incline structure and from this slope push up slide into this slope at the bottom of.

5. built-in handle as claimed in claim 1 and interference mechanism is characterized in that, this built-in handle and interference mechanism comprise that more a damper is arranged between this handle and this first object speed that ejects to slow down this handle in this first object; And

This knocker comprises that more a buckling base and fastens pin, is to be divided on this first object and this handle.

6. multi-computer management equipment comprises:

One operational module has one first opening and one second opening;

One frame has one the 3rd opening, and the 3rd opening surface is to this second opening; And

One built-in handle and interference mechanism are arranged between this operational module and this frame, and this built-in handle and interference mechanism comprise:

The leader, be arranged at this operational module, can via this first opening debouch this operational module inside and outside, and can move around between a reception position and an ejected position, when this handle is positioned at this reception position, this handle is positioned within this operational module, and when this handle was positioned at this ejected position, the partial structure of this handle protruded from outside this operational module;

One knocker is arranged within this operational module, in order to fasten or to discharge this handle, so that this handle is positioned at this reception position or this ejected position;

One latch, be arranged within this operational module, can via this second opening be displaced into this operational module inside and outside, and can move around in a stowed position and an interference position, when this latch was positioned at this interference position, this latch protruded from this second opening and inserts the 3rd opening outward, interfere so that produce between this operational module and this frame, when this latch was positioned at this stowed position, this latch was positioned within this operational module, removed between this operational module and this frame and interfered; And

One interlinked mechanism is arranged within this operational module, is coupled to movably between this handle and this latch;

Wherein, when this handle moved to this ejected position by this reception position, this interlinked mechanism drove this latch and moves to this stowed position by this interference position;

Wherein, when this handle moved to this reception position by this ejected position, this latch moved to this interference position by this stowed position.

7. multi-computer management equipment as claimed in claim 6, it is characterized in that, this multi-computer management equipment more comprises an extension mechanism, be arranged between this operational module and this frame, with so that this operational module be displaced into this frame inside and outside, this operational module more comprises a display module and a Keysheet module, and among this display module and this Keysheet module, selects one this built-in handle and interference mechanism are set.

8. multi-computer management equipment as claimed in claim 6 is characterized in that, this interlinked mechanism more comprises:

One first rotation section articulates with this handle;

One second rotation section articulates with this latch; And

One rotating shaft between this first rotation section and this second rotation section, makes this interlinked mechanism be hubbed at this operational module by this rotating shaft.

9. multi-computer management equipment as claimed in claim 6, it is characterized in that, this interlinked mechanism comprises a protruding jacking block and an incline structure, this protruding jacking block is arranged at this handle, this incline structure is connected with this latch and has top, a slope with at the bottom of the slope, this incline structure be with this handle from this reception position the direction to this ejected position extend and the side of oblique this operational module, this incline structure and with this protruding jacking block butt; When this handle was positioned at this reception position, this protruding jacking block was positioned at top, this slope, and when this handle moves to this ejected position by this reception position, this protruding jacking block push this incline structure and from this slope push up slide into this slope at the bottom of.

10. multi-computer management equipment as claimed in claim 7, it is characterized in that, this multi-computer management equipment more comprises a KVM switch, be arranged at the rear end of this frame, this operational module is arranged at the front end of this frame by this extension mechanism, and is electrically connected with this KVM switch.

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