CN104093286A - Link mechanism and electronic device - Google Patents

Abstract

The invention provides a link mechanism and an electronic device, for selectively shielding or exposing a first opening of a housing. The link mechanism comprises a first shielding structure, a rotation disc and a first spring, wherein the first shielding structure is movably arranged on the housing and is provided with a first driving part and a first shielding part; the rotation disc is rotationally arranged on the housing, the outer rim of the rotation disc abuts against the first driving part and is provided with a first positioning part, and when the first positioning part does not abut against the first driving part, the first driving part drives the first shielding part to move from a first position to a second position; and the first spring is connected with the housing and the first shielding structure, when the first positioning part abuts against the first driving part, the first spring provides an elastic force to enable the first shielding part to move to the first position from the second position, and the movement of the first shielding part enables the first shielding part to selectively cover or expose the first opening.

Description

Interlinked mechanism and electronic installation

Technical field

The present invention is about a kind of interlinked mechanism and electronic installation thereof, espespecially a kind of interlinked mechanism and electronic installation that is used for optionally covering or exposing the opening of shell.

Background technology

Along with the progress of electronics technology, electronic installation (as panel computer etc.) has been widely used in daily life and has had high Portability so that user can carry.But, in the time that electronic installation is exposed in external environment, the chance that dust in external environment or liquid (as rainwater etc.) enter electronic installation inside via the opening of electronic installation (as heat radiation air port etc.) will increase significantly, add and do not have suitable means for screening optionally to cover above-mentioned opening, the inner member that therefore electronic installation easily occurs tend is because of laying dust or touch the situation of liquid Damage by Short Circuit.

Summary of the invention

The object of the present invention is to provide a kind of interlinked mechanism and electronic installation that is used for optionally covering or exposing the opening of shell, to solve the above problems.

First aspect, the invention provides a kind of interlinked mechanism, is used for optionally covering or exposing the first opening of shell, and this interlinked mechanism comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, rotatably be arranged on this shell and the outer rim of this rotating disk and the mutual butt of this first drive division, the outer rim of this rotating disk arranges the first location division, when this first location division and this first drive division be not when butt, this first drive division drives this first shielding portion to move to the second place by primary importance; And

The first spring, be connected in this shell and this first masking structure, in the time of this first location division and this first drive division butt, this first spring provides elastic force to make this first shielding portion move to this primary importance by this second place, wherein, the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

Preferably, this first location division is detent, this first drive division has the first driving chip, this first shielding portion comprises drive rod and multiple blade that covers, this first driving chip is arranged at a side of this drive rod and is connected to the outer rim of this rotating disk, each covers blade and is positioned on this first opening and is articulated in respectively this shell and this drive rod, in the time of this this first location division of the first driving chip butt of this first Spring driving, this first driving chip drives this drive rod to move to cover position to make the plurality ofly to cover blade pivot then cover this first opening, when this turntable rotation is to this first driving chip and this first location division not when butt, this rotating disk promotes this first driving chip and exposes position to drive this drive rod to move to, cover blade pivot so that the plurality of and go to the position of exposing this first opening.

Preferably, this first drive division separately has bending guid arm, this bending guid arm extends to form and has an oblique guide groove from this first driving chip, this drive rod is arranged in this oblique guide groove movably, when this rotating disk is in the time that this shell rotates, this first driving chip drives this drive rod to move to this along this oblique guide groove via this bending guid arm and covers position maybe this exposes position.

Preferably, this shell has the second opening, and this first opening and this second opening lay respectively at the both sides of this rotating disk, and this interlinked mechanism separately comprises:

The second masking structure, be arranged at movably on this shell and there is the second drive division and the second shielding portion, this second shielding portion is used for optionally covering or exposes this second opening, the outer rim of this rotating disk arranges the second location division, the mutual butt of outer rim of this second drive division and this rotating disk, in the time of this second location division and this second drive division butt, this second drive division drives this second shielding portion to move to the 4th position by the 3rd position; And

The second spring, be connected in this shell and this second masking structure, when this second location division and this second drive division be not when butt, this second spring provides elastic force to make this second shielding portion move to the 3rd position by the 4th position, wherein, the movement of this second shielding portion optionally covers this second shielding portion or exposes this second opening.

Preferably, this rotating disk comprises base, rotary disk basement, and handle, this base is arranged on this shell, this rotary disk basement is arranged at this base rotationally, and this handle pivot is connected to this rotary disk basement to be used for driving this rotary disk basement with respect to this base rotation, and this shell is supported in the one end that is placed in plane and this handle when this shell, when this plane of other end butt, this first shielding portion exposes this first opening.

Preferably, this first location division is detent, wherein the outer rim of this rotating disk separately arranges at least one and adjusts groove, the indent degree of depth of this at least one adjustment groove is less than the indent degree of depth of this first location division, this at least one adjustment groove is connected to this first drive division, to make this first shielding portion partly cover this first opening along with the movement of this first drive division.

Second aspect, the invention provides a kind of interlinked mechanism, is used for optionally covering or exposing the first opening of shell, and this interlinked mechanism comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, is rotatably arranged on this shell, the outer rim of this rotating disk and the mutual butt of this first drive division, and the outer rim of this rotating disk arranges the first location division; And

The first spring, be connected in this shell and this first masking structure, when this first location division and this first drive division be not when butt, this first spring provides elastic force to make this first shielding portion move to the second place by primary importance, in the time of this first location division and this first drive division butt, this first drive division drives this first shielding portion to move to this primary importance by this second place, and the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

The third aspect, the invention provides a kind of electronic installation, comprises:

Heat-sink unit;

Shell, is covered on this heat-sink unit and has the first opening, and this heat-sink unit can be by optionally inlet air or the air-out of this first opening; And

Interlinked mechanism, comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, rotatably be arranged on this shell, the outer rim of this rotating disk and the mutual butt of this first drive division, the outer rim setting of this rotating disk has at least one first location division, when this first location division and this first drive division be not when butt, this first drive division drives this first shielding portion to move to the second place by primary importance; And

The first spring, be connected in this shell and this first masking structure, in the time of this first location division and this first drive division butt, this first spring provides elastic force to make this first shielding portion move to this primary importance by this second place, wherein, the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

Preferably, this first location division is detent, this first drive division has the first driving chip, this first shielding portion comprises drive rod and multiple blade that covers, this first driving chip is arranged at a side of this drive rod and is connected to the outer rim of this rotating disk, each covers blade and is positioned on this first opening and is articulated in respectively this shell and this drive rod, in the time of this this first location division of the first driving chip butt of this first Spring driving, this first driving chip drives this drive rod to move to cover position to make the plurality ofly to cover blade pivot then cover this first opening, when this turntable rotation is to this first driving chip and this first location division not when butt, this rotating disk promotes this first driving chip and exposes position to drive this drive rod to move to, cover blade pivot so that the plurality of and go to the position of exposing this first opening.

Preferably, this shell is protection valve jacket, and this electronic installation has shell on the back, and air port is formed on this shell on the back, and this protection valve jacket is removably sheathed on this shell on the back, and this first opening is aimed at this air port.

In sum, compared to prior art, the present invention utilizes masking structure to produce butt whether design along with the rotation of rotating disk with the location division of rotating disk, so that masking structure optionally covers or exposes the opening of shell, using the heat-sink unit that reaches electronic installation can utilize the opening exposing to dispel the heat and electronic installation can utilize masking structure to cover opening to produce the object of water proof and dust proof effect, thus, the present invention can effectively solve in prior art mentioned in the time that electronic installation is exposed in external environment because of laying dust or touch the problem of liquid Damage by Short Circuit, thereby promote further electronic installation convenience and fail safe in actual use.

Brief description of the drawings

The top view that Fig. 1 is the electronic installation that proposes according to one embodiment of the invention;

Fig. 2 is the first masking structure, the rotating disk of the interlinked mechanism of Fig. 1, and the part enlarged diagram of the first spring;

Fig. 3 is rotating disk, second masking structure of the interlinked mechanism of Fig. 1, and the part enlarged diagram of the second spring;

Fig. 4 is that Fig. 1 multiple are covered blade and exposed the top view that the first opening and the second shielding portion expose the second opening;

Fig. 5 is that the first drive division of Fig. 1 drives multiple enlarged diagrams that cover blade pivotable;

Fig. 6 is that the electronic installation of Fig. 4 is placed end view in the plane;

The top view that Fig. 7 is the electronic installation that proposes according to another embodiment of the present invention;

The part front view that the first driving chip that Fig. 8 is the first masking structure of proposing according to another embodiment of the present invention coincides on the rotary disk basement of rotating disk;

Fig. 9 is the first driving chip of the first masking structure of Fig. 8 and the part end view of the first location division butt of rotary disk basement.

Embodiment

For making that object of the present invention, structure, feature and function thereof are had to further understanding, hereby coordinate embodiment to be described in detail as follows.

Refer to Fig. 1, its top view that is the electronic installation 10 that proposes according to one embodiment of the invention, electronic installation 10 can be common electronic equipment, as panel computer, notebook computer etc., as shown in Figure 1, electronic installation 10 comprises heat-sink unit 12, shell 14 and interlinked mechanism 16, and wherein, in Fig. 1, heat-sink unit 12 all shows with dotted line with shell 14.Heat-sink unit 12 can be the common heat abstractor in electronic equipment that is applied to, and as the combination of fan and fin, its associated description is common in prior art, therefore repeat no more in this.Shell 14 is covered on heat-sink unit 12 and has the first opening 18 and second opening 20 of the both sides that lay respectively at shell 14, using permission heat-sink unit 12 can be by the first opening 18 and optionally inlet air or the air-out of the second opening 20, in more detail, in this embodiment, shell 14 can be preferably the shell on the back of electronic installation 10, to be used for accommodating heat-sink unit 12, and the first opening 18 and the second opening 20 are respectively the first air port and the second air port that are formed on shell on the back, using the heat radiation air intake vent as heat-sink unit 12 or air outlet and bring into play radiating effect, but not limit by this, for instance, in another embodiment, shell 14 can be protection valve jacket, be used on the shell on the back of accommodating heat-sink unit 12 to be removably sheathed on electronic installation 10, and the first opening 18 and the second opening 20 are aimed at respectively the first air port and the second air port on the shell on the back that is formed on electronic installation 10, using the heat radiation air port as heat-sink unit 12 or air outlet and bring into play radiating effect.

As for the mechanism design aspect of interlinked mechanism 16, refer to Fig. 1, Fig. 2 and Fig. 3, Fig. 2 is the part enlarged diagram of the first masking structure 22, rotating disk 24 and first spring 26 of the interlinked mechanism 16 of Fig. 1, the part enlarged diagram of rotating disk 24, the second masking structure 28 and second spring 30 of the interlinked mechanism 16 that Fig. 3 is Fig. 1.As shown in Figure 1 to Figure 3, interlinked mechanism 16 comprises the first masking structure 22, rotating disk 24, the first spring 26, the second masking structure 28 and the second spring 30.As shown in Figure 1 and Figure 2, the first masking structure 22 is arranged at movably on shell 14 and has the first drive division 32 and the first shielding portion 34, in this embodiment, the first drive division 32 can have the first driving chip 36 and bending guid arm 38, bending guid arm 38 can extend to form and have an oblique guide groove 40 from the first driving chip 36, the first shielding portion 34 comprises drive rod 42 and multiple blade 44 that covers, drive rod 42 is arranged in oblique guide groove 40 movably, and each covers blade 44 and is positioned on the first opening 18 and is articulated in respectively shell 14 and drive rod 42.

Rotating disk 24 comprises base 46, rotary disk basement 48 and handle 50.In actual applications, base 46 can adopt the mode (as clamping or screw locking mode etc.) disassembling from shell 14 to be arranged on shell 14, but not limit by this, can change yet and adopt other common combinations, as one-body molded or stickup fixed form etc.Rotary disk basement 48 is rotatably arranged on base 46, the first location division 52 is set the outer rim of rotary disk basement 48 and the second location division 54 (shows two the second location divisions 54 in Fig. 1, but not limit by this), wherein the first location division 52 and the second location division 54 can be preferably detent, but not limit by this.The outer rim of rotary disk basement 48 can with the mutual butt of the first driving chip 36 of the first drive division 32.Handle 50 can be articulated in rotary disk basement 48 to be used for driving rotary disk basement 48 to rotate with respect to base 46.The first spring 26 is connected in shell 14 and the first masking structure 22 (as being connected in the bending guid arm 38 of the first masking structure 22 as shown in Fig. 1 and Fig. 2, but not limit by this), in order to provide elastic force to make the first driving chip 36 of the first drive division 32 and the first location division 52 butts of rotary disk basement 48, so that the first drive division 32 drives the first shielding portion 34 to cover the first opening 18; Wherein, when the first spring 26 provides elastic force to make the first shielding portion 34 move to primary importance by the second place, the first shielding portion 34 covers the first opening 18.

Next, as shown in Figure 1 and Figure 3, the second masking structure 28 is arranged at movably on shell 14 and has the second drive division 56 and the second shielding portion 58, in this embodiment, the second drive division 56 comprises at least one second driving chip 60 and (in Fig. 1 and Fig. 3, shows two the second driving chips 60, but not limit by this) to be connected to the outer rim of rotary disk basement 48 and to be used for and the second optionally butt of location division 54, the second shielding portion 58 can be and covers sheet and translation in diverse location, is used for optionally covering or exposes the second opening 20.The second spring 30 is connected in shell 14 and the second masking structure 28 (as being connected in the second driving chip 60 as shown in Fig. 1 and Fig. 3, but not limit by this), in order to provide elastic force to make the second driving chip 60 of the second drive division 56 and the second location division 54 butts of rotary disk basement 48, so that the second drive division 56 drives the second shielding portion 58 to cover the second opening 20; Wherein, when the second drive division 56 drives the second shielding portion 58 to move to the 4th position by the 3rd position, the second shielding portion 58 covers the second opening 20.

Be described in detail for the operation of interlinked mechanism 16 below, refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, Fig. 4 is that Fig. 1 multiple are covered blade 44 and exposed the top view that the first opening 18 and the second shielding portion 58 expose the second opening 20, and the first drive division 32 that Fig. 5 is Fig. 1 drives multiple enlarged diagrams that cover blade 44 pivotables.For instance, for example, in the time of the state of electronic installation 10 in needs heat radiations (when central processing unit the lower time of high-speed computation pattern in execution highly energy-consuming formula), user can relative rotary disk basement 48 pivotables of pulling handle 50, and then grip handle 50 to drive rotary disk basement 48 to rotate to position as shown in Figure 4, so that the first driving chip 36 and the first location division 52 and the second driving chip 60 and the second not butt of location division 54 from position as shown in Figure 1.In said process, due to the outer rim of rotary disk basement 48 respectively with the first driving chip 36 of the first drive division 32 and the mutual butt of the second driving chip 60 of the second drive division 56, therefore, rotate to making the first driving chip 36 and the first location division 52 at rotary disk basement 48, and not (as shown in Figure 4) after butt of the second driving chip 60 and the second location division 54, rotary disk basement 48 can promote the first driving chip 36 drive multiple cover blade 44 expose the first opening 18 and promote the second driving chip 60 drive the second shielding portion 58 to expose the second opening 20, so that heat-sink unit 12 can be by optionally inlet air or the air-out and reach radiating effect of the first opening 18 and the second opening 20, that is make the second opening 20 expose or cover multiple blades 44 that cover in the rotation of diverse location.

In more detail, aspect the interlock of the first masking structure 22, by Fig. 1, Fig. 2, Fig. 4 and Fig. 5 are known, at rotary disk basement 48 from position Rotate 180 degree as shown in Figure 1 to the first location division 52 as shown in Figure 4 and the first driving chip 36 not the position of butt, rotary disk basement 48 can promote the first driving chip 36 and outwards move to position as shown in Figure 5 (now from position as shown in Figure 2 with respect to rotary disk basement 48, the first spring 26 is in compressive state), in this simultaneously, along with the movement of the first driving chip 36, the drive rod 42 being arranged in the oblique guide groove 40 on bending guid arm 38 can be moved upward to the position of exposing as shown in Figure 5 from the position that covers as shown in Figure 2 along oblique guide groove 40, use and drive multiple blades 44 that cover to be switched to from covering the position of the first opening 18 position that the first opening 18 is exposed, thereby the first opening 18 that heat-sink unit 12 can be utilized expose dispels the heat.In addition, aspect the interlock of the second masking structure 28, by Fig. 1, Fig. 3 and Fig. 4 are known, at rotary disk basement 48 from position Rotate 180 degree as shown in Figure 1 to the second location division 54 as shown in Figure 4 and the second driving chip 60 not when butt, rotary disk basement 48 can promote the second driving chip 60 and outwards move to position as shown in Figure 4 (now from position as shown in Figure 3 with respect to rotary disk basement 48, the second spring 30 is in compressive state), in this simultaneously, along with the movement of the second driving chip 60, the second shielding portion 58 can move to the position that the second opening 20 is exposed from covering the position of the second opening 20 with respect to shell 14, thereby the second opening 20 that heat-sink unit 12 can be utilized expose dispels the heat, for instance, refer to Fig. 6, its electronic installation 10 that is Fig. 4 is placed on the end view in plane P, from Fig. 4 and Fig. 6, now electronic installation 10 can be placed in plane P, the back side of one end supporting outer 14 of handle 50, the other end can abutment plane P, thus, the heat that electronic installation 10 produces at operating state can be dispelled the heat by the first opening 18 or the second opening 20.

On the other hand, when electronic installation 10 for example, in needing the lower time of situation (while operation under electronic installation 10 has the environment of liquid out of doors or around) of water proof and dust proof, user can grip handle 50 to drive rotary disk basement 48 to rotate to position as shown in Figure 1 from position as shown in Figure 4, in this process, the elastic force that the first spring 26 and the second spring 30 provide can drive respectively the first driving chip 36 and the first location division 52 butts and the second driving chip 60 and the second location division 54 butts.That is to say, rotary disk basement 48 is from position Rotate 180 degree as shown in Figure 4 to position as shown in Figure 1, the elastic force that the first spring 26 in compressive state as shown in Figure 5 provides can promote the first driving chip 36 and move inwardly into position as shown in Figure 2 from position as shown in Figure 5 with respect to rotary disk basement 48, and the elastic force that provides of the second spring 30 in compressive state as shown in Figure 4 can promote the second driving chip 60 and moves inwardly into position as shown in Figure 3 from position as shown in Figure 4 with respect to rotary disk basement 48.In this simultaneously, along with the movement of the first driving chip 36, drive rod 42 can be moved downward to the position that covers as shown in Figure 2 from the position of exposing as shown in Figure 5 along oblique guide groove 40, use and drive multiple blades 44 that cover to be switched to from the position that the first opening 18 is exposed the position that covers the first opening 18, and along with the movement of the second driving chip 60, the second shielding portion 58 also can be with respect to shell 14 from the position translation that makes the second opening 20 and expose to the position that covers the second opening 20.Thus, the first opening 18 on shell 14 and the second opening 20 can be respectively covered blade 44 and the second shielding portion 58 covers by multiple, thus the effect of performance water proof and dust proof.

Should be noted, above-mentioned the first masking structure and the configuration of the second masking structure on shell can be not limited to above-described embodiment, for instance, the present invention can adopt interlinked mechanism only to dispose the first masking structure to be arranged on the position of corresponding the first opening, configure respectively the first masking structure on the position of corresponding the first opening and the second opening, dispose the second masking structure to be arranged on the position of corresponding the second opening, or configure respectively the second masking structure in the locational design of corresponding the first opening and the second opening, as for adopting which kind of configuration, it is looked closely the practical application request of electronic installation of the present invention and determines.

In addition, the present invention can adopt the design that can partly expose opening further, with reach user can be according to the actual radiating requirements of electronic installation and segmented adjust the effect of exposing degree of opening.For instance, refer to Fig. 7, its top view that is the electronic installation 10 ' that proposes according to another embodiment of the present invention, in this embodiment described element person identical with the element number described in above-described embodiment, represent that it has similar function or structure, repeats no more in this.As shown in Figure 7, electronic installation 10 ' comprises heat-sink unit 12, shell 14, and interlinked mechanism 16 ', interlinked mechanism 16 ' comprises the first masking structure 22, the first spring 26, the second masking structure 28, the second spring 30, and rotating disk 24 ', rotating disk 24 ' comprises base 46, handle 50, and rotary disk basement 48 '.In this embodiment, rotary disk basement 48 ' has the first location division 52, the second location division 54, and at least one adjustment groove 53 (shows one in Fig. 7, but not limit by this), the indent degree of depth of adjusting groove 53 is less than the indent degree of depth of the first location division 52, adjust the first driving chip 36 that groove 53 is used for being sticked in the first drive division 32, that is to say, in the time that rotary disk basement 48 ' rotation to the first driving chip 36 that makes the first drive division 32 is aimed at the position of adjusting groove 53, the elastic force that the first spring 26 provides can promote the first driving chip 36 and be sticked in adjustment groove 53, now, owing to adjusting the indent degree of depth of groove 53 and be less than the indent degree of depth of the first location division 52, therefore the first driving chip 36 only can drive multiple blade 44 parts of covering to cover the first opening 18 and cannot cover the first opening 18 completely, thereby reach the object that part is exposed the first opening 18.The design that above-mentioned part is exposed opening also can be applicable on the second masking structure, and its relevant interlock design can be analogized with reference to above-described embodiment, repeats no more in this.

In addition, the interlock design of the first masking structure can be not limited to above-described embodiment, it also can adopt the first driving chip directly to drive the design of the drive rod of the first shielding portion, refer to Fig. 8 and Fig. 9, the part front view that the first driving chip 36 ' that Fig. 8 is the first masking structure 22 ' of proposing according to another embodiment of the present invention coincides on the rotary disk basement 48 of rotating disk 24, Fig. 9 is the first driving chip 36 ' of the first masking structure 22 ' and the part end view of the first location division 52 butts of rotary disk basement 48 of Fig. 8, described element person identical with the element number described in above-described embodiment in this embodiment, represent that it has similar function or structure, repeat no more in this.As shown in FIG. 8 and 9, the first masking structure 22 ' have the first driving chip 36 ' and the first shielding portion 34, the first driving chips 36 ' be connected to the first shielding portion 34 drive rod 42 and can along with the rotation of rotary disk basement 48 optionally coincide on rotary disk basement 48 or with the first location division 52 butts.In more detail, move up because rotary disk basement 48 can promote the first driving chip 36 ' in the time that rotation to the first driving chip 36 ' as shown in Figure 8 coincides position on rotary disk basement 48, the drive rod 42 that is therefore directly connected in the first driving chip 36 ' can drive multiple blades 44 that cover to be switched to the position of exposing the first opening 18 along with the first moving up of driving chip 36 '.On the other hand, move down because rotary disk basement 48 can make the first driving chip 36 ' be sticked in the first location division 52 in rotation during to the position of the first driving chip 36 ' as shown in Figure 9 and the first location division 52 butts of rotary disk basement 48, the drive rod 42 that is therefore directly connected in the first driving chip 36 ' can drive along with the first moving down of driving chip 36 ' multiple blades 44 that cover to be switched to and to cover the position that the first opening 18 exposes.

It is worth mentioning that; the design that the present invention is used for driving masking structure to cover or exposes the opening on shell can be not limited to above-described embodiment; in other words; as long as the design whether the structure butt utilizing between the location division of rotary disk basement and the drive division of masking structure optionally covered or exposed the opening on shell with driving masking structure, it all belongs to protection scope of the present invention.For instance, in another embodiment, the first drive division of the first masking structure can be butt slab construction, the first location division on rotating disk can be outer male structure, by this, when turntable rotation is during to the first drive division butt of the first location division on rotating disk and the first masking structure, the first location division can promote the first shielding portion that the first drive division drives the first masking structure and expose the first opening (also can change the design that covers the first opening on shell into) on shell, and when turntable rotation to the first location division and the first drive division be not when the position of butt, the mutual butt of outer rim that the first spring of interlinked mechanism can provide elastic force to make the first drive division and rotating disk and driving the first shielding portion cover the first opening (also can change the design of exposing the first opening on shell into), change as for its detailed description and other relevant derived structures, it can be analogized with reference to above-described embodiment, therefore repeat no more in this.

Compared to prior art, the present invention utilizes masking structure to produce butt whether design along with the rotation of rotating disk with the location division of rotating disk, so that masking structure optionally covers or exposes the opening of shell, using the heat-sink unit that reaches electronic installation can utilize the opening exposing to dispel the heat and electronic installation can utilize masking structure to cover opening to produce the object of water proof and dust proof effect, thus, the present invention can effectively solve in prior art mentioned in the time that electronic installation is exposed in external environment because of laying dust or touch the problem of liquid Damage by Short Circuit, thereby promote further electronic installation convenience and fail safe in actual use.

The present invention is described by above-mentioned related embodiment, but above-described embodiment is only for implementing example of the present invention.Must be pointed out that, the embodiment having disclosed does not limit the scope of the invention.On the contrary, the change done without departing from the spirit and scope of the present invention and retouching, all belong to scope of patent protection of the present invention.

Claims (10)

1. an interlinked mechanism, is used for optionally covering or exposing the first opening of shell, it is characterized in that, this interlinked mechanism comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, rotatably be arranged on this shell and the outer rim of this rotating disk and the mutual butt of this first drive division, the outer rim of this rotating disk arranges the first location division, when this first location division and this first drive division be not when butt, this first drive division drives this first shielding portion to move to the second place by primary importance; And

The first spring, be connected in this shell and this first masking structure, in the time of this first location division and this first drive division butt, this first spring provides elastic force to make this first shielding portion move to this primary importance by this second place, wherein, the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

2. interlinked mechanism as claimed in claim 1, it is characterized in that, this first location division is detent, this first drive division has the first driving chip, this first shielding portion comprises drive rod and multiple blade that covers, this first driving chip is arranged at a side of this drive rod and is connected to the outer rim of this rotating disk, each covers blade and is positioned on this first opening and is articulated in respectively this shell and this drive rod, in the time of this this first location division of the first driving chip butt of this first Spring driving, this first driving chip drives this drive rod to move to cover position to make the plurality ofly to cover blade pivot then cover this first opening, when this turntable rotation is to this first driving chip and this first location division not when butt, this rotating disk promotes this first driving chip and exposes position to drive this drive rod to move to, cover blade pivot so that the plurality of and go to the position of exposing this first opening.

3. interlinked mechanism as claimed in claim 2, it is characterized in that, this first drive division separately has bending guid arm, this bending guid arm extends to form and has an oblique guide groove from this first driving chip, this drive rod is arranged in this oblique guide groove movably, when this rotating disk is in the time that this shell rotates, this first driving chip drives this drive rod to move to this along this oblique guide groove via this bending guid arm and covers position maybe this exposes position.

4. interlinked mechanism as claimed in claim 1, is characterized in that, this shell has the second opening, and this first opening and this second opening lay respectively at the both sides of this rotating disk, and this interlinked mechanism separately comprises:

The second masking structure, be arranged at movably on this shell and there is the second drive division and the second shielding portion, this second shielding portion is used for optionally covering or exposes this second opening, the outer rim of this rotating disk arranges the second location division, the mutual butt of outer rim of this second drive division and this rotating disk, in the time of this second location division and this second drive division butt, this second drive division drives this second shielding portion to move to the 4th position by the 3rd position; And

The second spring, be connected in this shell and this second masking structure, when this second location division and this second drive division be not when butt, this second spring provides elastic force to make this second shielding portion move to the 3rd position by the 4th position, wherein, the movement of this second shielding portion optionally covers this second shielding portion or exposes this second opening.

5. interlinked mechanism as claimed in claim 1, it is characterized in that, this rotating disk comprises base, rotary disk basement, and handle, this base is arranged on this shell, and this rotary disk basement is arranged at this base rotationally, and this handle pivot is connected to this rotary disk basement to be used for driving this rotary disk basement with respect to this base rotation, in the time that this shell and this plane of other end butt are supported in one end that this shell is placed in plane and this handle, this first shielding portion exposes this first opening.

6. interlinked mechanism as claimed in claim 1, it is characterized in that, this first location division is detent, wherein the outer rim of this rotating disk separately arranges at least one and adjusts groove, the indent degree of depth of this at least one adjustment groove is less than the indent degree of depth of this first location division, this at least one adjustment groove is connected to this first drive division, to make this first shielding portion partly cover this first opening along with the movement of this first drive division.

7. an interlinked mechanism, is used for optionally covering or exposing the first opening of shell, it is characterized in that, this interlinked mechanism comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, is rotatably arranged on this shell, the outer rim of this rotating disk and the mutual butt of this first drive division, and the outer rim of this rotating disk arranges the first location division; And

The first spring, be connected in this shell and this first masking structure, when this first location division and this first drive division be not when butt, this first spring provides elastic force to make this first shielding portion move to the second place by primary importance, in the time of this first location division and this first drive division butt, this first drive division drives this first shielding portion to move to this primary importance by this second place, and the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

8. an electronic installation, is characterized in that, comprises:

Heat-sink unit;

Shell, is covered on this heat-sink unit and has the first opening, and this heat-sink unit can be by optionally inlet air or the air-out of this first opening; And

Interlinked mechanism, comprises:

The first masking structure, is arranged at movably on this shell and has the first drive division and the first shielding portion;

Rotating disk, rotatably be arranged on this shell, the outer rim of this rotating disk and the mutual butt of this first drive division, the outer rim setting of this rotating disk has at least one first location division, when this first location division and this first drive division be not when butt, this first drive division drives this first shielding portion to move to the second place by primary importance; And

The first spring, be connected in this shell and this first masking structure, in the time of this first location division and this first drive division butt, this first spring provides elastic force to make this first shielding portion move to this primary importance by this second place, wherein, the movement of this first shielding portion optionally covers this first shielding portion or exposes this first opening.

9. electronic installation as claimed in claim 8, it is characterized in that, this first location division is detent, this first drive division has the first driving chip, this first shielding portion comprises drive rod and multiple blade that covers, this first driving chip is arranged at a side of this drive rod and is connected to the outer rim of this rotating disk, each covers blade and is positioned on this first opening and is articulated in respectively this shell and this drive rod, in the time of this this first location division of the first driving chip butt of this first Spring driving, this first driving chip drives this drive rod to move to cover position to make the plurality ofly to cover blade pivot then cover this first opening, when this turntable rotation is to this first driving chip and this first location division not when butt, this rotating disk promotes this first driving chip and exposes position to drive this drive rod to move to, cover blade pivot so that the plurality of and go to the position of exposing this first opening.

10. electronic installation as claimed in claim 8, is characterized in that, this shell is protection valve jacket, and this electronic installation has shell on the back, and air port is formed on this shell on the back, and this protection valve jacket is removably sheathed on this shell on the back, and this first opening is aimed at this air port.