CN1427602A - Wearable electronic device - Google Patents

Abstract

A wearable electronic device is provided which can prevent the main body of the device from making swinging movement relative to its rigid band portion. The wearable electronic device is provided with: an electronic device main body; a rigid band allowing the electronic device main body to be worn on a neck-like portion; a pivotal coupling mechanism for coupling the rigid band to a casing of the electronic device main body for pivoting movement in two directions between a closed position for surrounding the neck-like portion and an open position for allowing detachment thereof from the neck-like portion, in cooperation with the casing of the electronic device main body. The pivotal coupling mechanism includes an elastic biasing member biasing the rigid band from the closed position toward the open position, and a locking mechanism for open position which locks the rigid band in the open position when the rigid band is in the open position.

Description

Wearable electronic device

Technical field

The present invention relates to a kind of wearable electronic device of wearing on positions such as wrist.

Background technology

The example of wearable electronic device comprises mobile electronic device, for example wrist-watch, calculator and communication device, and they are made up of electronic circuit and are miniaturized, thereby can be with on wrist.Each of these electronic devices all is made of an element and an installed part that constitutes main body, and the element of described formation main body is used to carry out the function of this wearable electronic device itself, and described installed part allows that this device is installed on the wrist.

Aforesaid wearable electronic device, applicant of the present invention had invented can be according to the thickness adjusted belt length of user's wrist and the wearable electronic device of anchor clamps angle.The applicant is formerly disclosing these inventions among patent application No.2000-398981 and the 2000-400162.

Disclosed wearable electronic device all is a kind of like this wearable electronic device in each of these applications, and it comprises: be used for the hinge of this device fixing body of ON/OFF, this hinge is made up of first hinge member and second hinge member; First hole that on first hinge member, forms; Second hole that on second hinge member, forms; And latch, one of them of latch is inserted in first hole, and another is inserted in second hole.The user selects a hole from the hole with different in width, and pin is fit into wherein, thereby installed part can be regulated its form according to his/her wrist thickness.

Figure 11 A and 11B are the installed part of this wearable electronic device and the side cross-sectional, view and the front view of hinge fraction, specifically construct example in order to the explanation one.Figure 11 A is the side cross-sectional, view of expression electronic device integral body, and Figure 11 B is the front view of expression hinge fraction.Wearable electronic device 120 shown in Figure 11 A is made up of main body 121 and two anchor clamps 122,123.The anchor clamps 122 that occur at this figure left-hand side are depicted as and are in closed condition, and the anchor clamps 123 of side are depicted as and are in open mode leftward.Main body 121 and anchor clamps 122,123 interconnect by hinge.In hinge member 124 on anchor clamps 122 and 123 1 ends and 125 the surface, radially form a plurality of holes 126 and 127, thereby align along the direction of hinge pivotal axis.

In each hinge member 128 and 129 relative with hole 126 and 127, form hole 130, its width progressively changes on the direction that rotatablely moves of hinge.Hinge on a left side and right side is operated according to same mechanism.The latch 132 that is promoted by spring inserts in the hole 126 that is arranged on one of them hinge.In case anchor clamps 122 beginning pivoting actions that is to say, in case hinge member 124 beginning pivoting actions, pivoting action is just also carried out in hole 126.So when hole 126 arrived the position of faces aperture 130, latch 132 was near relative opening 130, thereby inserted wherein, described hole 130 is formed in the hinge member 128 relative with hole 126.Hinge member 124 that like this, just is integral mutually combining and anchor clamps 122 are fix in position reliably.

Shown in Figure 11 B, right thereby hinge member 124 and 128 interconnects as rotatablely moving by spring lever 133 and mounting screw 134.Spring lever 133 passes disc spring 135, and the jut 136,137 that is arranged on spring lever 133 both sides is used to the hinge member 124 and 128 near combination respectively.Thereby hinge member 124 and 128 is opened the direction upper offset of anchor clamps through being everlasting.

Yet, in the electronic device of above-mentioned proposition, when rigid strip is shown in an open position, and the user at his/her hand (for example, carry out under the situation of input operation when having rigid strip left hand), the finger of for example using another hand (for example right hand) presses down etc. with respect to input operation part (for example being arranged on button or key swich in the rigid strip), just has following worry: the main body of electronic device is because incidental vibration of input operation or impact and swing with respect to rigid strip.As a result, probably the demonstration of electronic device just becomes and is difficult to observe, because for example, when carrying out input operation, display part (for example display part that forms on the shell of electronic device main body) will produce oscillating motion.

Figure 12 is the enlarged drawing that is illustrated in the hole that forms in the hinge member of main body one end.As mentioned above, form and arrange a plurality of abutting apertures 130 along the direction of pivotal axis, thereby on the direction that rotatablely moves of hinge, have stepping width.In the figure, abutting aperture 130 usefulness solid lines are represented, and one of them three hole 126 that are inserted with latch 132 dots.In this way, one of hole 126 is selected to insert latch 132.Because hinge member is pushed opening direction, thereby latch 132 abuts against on the sidewall of abutting aperture 130, thus the degree that the decision anchor clamps are opened.

Figure 13 A and 13B are side cross-sectional, view, are used to illustrate how the width in hole influences the degree that anchor clamps are opened.Figure 13 A is a side cross-sectional, view, is used to illustrate that latch abuts against the state on the sidewall in little width hole, and Figure 13 B is a side cross-sectional, view, is used to illustrate that latch abuts against the state on the sidewall in big width hole.Can be clear that from the comparison between two figure when the hole with big width was selected to insert latch therein, hinge member 124 formed less pivoting action angle θ with respect to horizontal level ₂, thereby allow that anchor clamps are installed on the people of thick wrist.On the contrary, latch is inserted in the hole that has the people of thin wrist can select to have little width.Notice that the pivoting action angle is θ in the example shown in Figure 13 A ₁, the differential seat angle that obtains between two examples is Δ θ=θ ₁-θ ₂By taking hinge simply apart, can easily carry out the selection in hole, described hole is used for receiving therein the latch that passes spring.

As mentioned above, according to these inventions disclosed formerly, by the fixing body of wrist dress formula electronic device, from a plurality of holes, select to be used for inserting therein the hole of latch, thereby the fixed position of anchor clamps can be adjusted near the mode of the wall part with stepped configuration according to latch.Therefore, anchor clamps can remain on determined only position according to user's wrist thickness.Yet, must the dismounting hinge because carry out this adjustment, thereby these inventions are suffered from and are needed additional effort to carry out the shortcoming of this dismounting.And, but the numerical limitations in the hole that provided is provided the energy of adjustment.When wrist dress formula electronic device was only used by a people, behind its original start, the recanalization subsequently of anchor clamps fixed position almost was unnecessary; Yet, when shared this device of several people, need to carry out continually the position adjustments of these anchor clamps, thereby cause dismantling the increase of burden.

Summary of the invention

The present invention makes in view of the above problems, thereby its objective is a kind of wearable electronic device is provided, and wherein this device main body can be suppressed with respect to the oscillating motion of its rigid strip position.

Another object of the present invention provides a kind of mechanism, and it allows according to the thickness of user's wrist and executing location adjustment easily, and need not dismantle hinge fraction, and it also allows to adjust the position of anchor clamps in mode continuous, the non-stage.

In order to achieve the above object, according to the present invention, a kind of wearable electronic device is provided, it is provided with the electronic device main body, allow to install the rigid strip of electronic device, and be used for rigid strip is connected to bindiny mechanism on the electronic device main body, wherein this bindiny mechanism comprises: the elastomer that is used for opening at it rigid strip of flexibly setovering on direction; And locking mechanism, when rigid strip is in it and opens or closes the position, be used for rigid strip is locked to the electronic device main body, thereby suppress the oscillating motion of rigid strip with respect to the electronic device main body.

Wearable electronic device according to the present invention is provided with " locking mechanism when rigid strip is in it and opens or closes the position, is used for rigid strip is locked to the electronic device main body, thereby suppresses the oscillating motion of rigid strip with respect to the electronic device main body ".Therefore, when the rigid strip band the user his/her one on hand (for example, left hand) time, and when rigid strip is shown in an open position and user when carrying out for example input operation, for example use the finger etc. of another hand to press down with respect to input operation part (for example being arranged on button or key swich in the rigid strip) etc., even subsidiary vibration or the impact of input operation is applied on the rigid strip, locking mechanism can be used to also prevent that the electronic device main body from producing oscillating motion with respect to rigid strip under vibration or percussion.As a result, for example, during input operation, the worry that the display part of electronic device main body will produce the irregular fluctuation motion has reduced, thereby has guaranteed to be easy at any time observe the demonstration of electronic device.

According to wearable electronic device according to the present invention, locking mechanism can be any suitable locking mechanism, when rigid strip being arranged on when opening or closing the position, its be used to limit between rigid strip and this device main body owing to for example incidental vibration of the input operation on key input part produces irregular vibration.Generally speaking, this locking mechanism comprises: engaging pin, and it is arranged on one of electronic device main body and rigid strip, thereby can flexibly protrude from it; And an engagement recessed portion, form on its in electronic device main body and rigid strip another, thereby when rigid strip is in it and opens or closes the position, the engaging pin installation and be locked on wherein.

In this case, even the incidental impact of vibration (for example produce during the input operation on the key swich) expands on the electronic device main body from rigid strip, by engaging pin being installed or is locked together in the engagement recessed portion, also can suppress or end irregular fluctuation motion or the generation of vibration of electronic device main body basically with respect to rigid strip.

On the other hand, in the ordinary construction according to wearable electronic device of the present invention, the tip portion of stop pin has a circular structure, and the peripheral wall portion of sealed recessed portion is made of elastomeric material.

In this case, when on a direction, big a little power being applied on the rigid strip, thereby rigid strip when open position moves to off-position, the peripheral wall of the engagement recessed portion of being made up of elastomeric material is because the effect of the round tip portion of engaging pin and being out of shape in such a way, thereby be consistent with the shape of tip portion, and releasing between the inclined surface of peripheral wall portion that the power that acts on the direction of engaging pin is applied to inclined surface that the circle by the tip portion of engaging pin obtains and elastically-deformable engagement recessed portion, thereby the engaging pin that elasticity is protruded shrinks under the elastic force effect, to shift out from the engagement recessed portion.

Subsequently, because the engagement recessed portion is not applied to resistance on it, thereby rigid strip can easily swing with respect to the electronic device main body, thereby reaches its off-position.The tip portion of engaging pin can have a taper, rather than circular structure.Can use polyurethane resin for example or silicones as the elastomeric material that forms engagement recessed portion peripheral wall, use other any elastomeric material although can substitute.In this case, except that the gradient of the elasticity of the material that forms the engagement recessed portion and engaging pin inclined surface, the thickness of engaging pin, this pin are installed to the degree of engagement recessed portion etc. also can carry out suitable selection as required.

Note, under the situation that the peripheral wall portion of engagement recessed portion is made up of elastomeric material, when elastomeric resilient ground rigid strip during from closed position to open position, even the peripheral wall of the pressured repeatedly engagement recessed portion of engaging pin, also do not have the worry that produces the damage consequence substantially, thereby the durability of this device can maintain a high level.

In wearable electronic device according to the present invention, this bindiny mechanism preferably includes: be used for the locking mechanism of off-position, when rigid strip was in its off-position, this locking mechanism was locked to rigid strip on the electronic device main body; And the lock releasing mechanism that is used for off-position, its remove by the locking mechanism that is used for off-position to rigid strip apply sealed.Here, the locking mechanism that is used for off-position generally comprises: engaging pin, and it is arranged on the rigid strip, thereby can flexibly protrude from it; And the engagement recessed portion that is used for off-position, it forms in the electronic device main body.Be set at engaging pin under the situation of rigid strip, the engaging pin that is used for the locking mechanism of off-position is the twice of engaging pin that is used for the locking mechanism of open position.

Further, according to the ordinary construction of wearable electronic device of the present invention, rigid strip is provided with button, key swich, and perhaps other this type of input unit, and be provided with the display part in the electronic device main body.Yet, also may be like this as a kind of configuration that needs once in a while: button wherein, key swich, perhaps other this type of input unit is arranged in the electronic device main body, and the display part is arranged in the rigid strip.

Further, a rigid strip can be arranged on the arbitrary distolateral of wearable electronic device main body.In this case, as long as one of rigid strip is pressed above-mentioned structure, another just can be constructed by any way.In addition, in some cases, rigid strip can be provided with by different way, thereby only such rigid strip is arranged on the only distolateral of electronic device main body.

According to wearable electronic device of the present invention, in order to reach aforesaid purpose, this locking mechanism is characterised in that: comprise a governor motion, by regulating the sealed angle of engaging pin with respect to the engagement recessed portion, it is used to regulate the off-position of rigid strip.Therefore, by above-mentioned governor motion suitable angle is set, this device can be suitable for various wrist thickness.

Description of drawings

In following accompanying drawing:

Figure 1A-1C represents the view of wearable electronic device according to the preferred embodiment of the invention, wherein Figure 1A is the plane graph of this electronic device, situation when the rigid strip that is used to explain electronic device is shown in an open position, Figure 1B is the part side sectional view of Figure 1A, Fig. 1 C is the part side sectional view under the situation in the closed position of the electronic device rigid strip shown in Figure 1A, is similar to Figure 1B;

Fig. 2 A and 2B are enlarged drawings, are used for the pivotally connected mechanism of the electronic device shown in the key diagram 1A-1C, and wherein Fig. 2 A is used to explain that rigid strip is shown in an open position the amplification profile of situation; Fig. 2 B is the amplification profile that is used to explain rigid strip situation in the closed position;

Fig. 3 is the enlarged drawing that is used for the inner surface side of the pivotally connected mechanism of electronic device shown in the key-drawing 1A-1C;

Fig. 4 A and 4B are the views of the modification embodiment of the pivotally connected mechanism of electronic device shown in the key diagram 1A-1C, wherein Fig. 4 A is the part side sectional view, be used to illustrate the example of forming by elastomeric material around the wall part of engagement recessed portion, Fig. 4 B is the part side sectional view, is used to illustrate that engaging pin is arranged on the example on the main body side;

Fig. 5 A and 5B are the views that the hinge fraction of explanation wrist dress of the present invention formula electronic device is compared with the hinge fraction of prior art, and wherein Fig. 5 A is the perspective view according to the hinge fraction of prior art, and Fig. 5 B is the perspective view according to hinge fraction of the present invention;

Fig. 6 A and 6B are the profiles of hinge fraction, and wherein Fig. 6 A is the view that the hinge fraction locked state is removed in expression, and Fig. 6 B is the Status view that the hinge fraction location is carried out in expression;

Fig. 7 A and 7B are the views of explanation hinge opening degree, and wherein Fig. 7 A is the profile of the hinge fraction on a side, and Fig. 7 B is the end view of expression wrist dress formula electronic device integral body;

Fig. 8 is the decomposition diagram of hinge fraction according to an embodiment of the invention;

Fig. 9 is the decomposition diagram of hinge fraction according to another embodiment of the present invention;

Figure 10 illustrates the center hinge parts in another embodiment of the present invention and the opposite flank of column, the diagrammatic representation center hinge parts on right side wherein, the diagrammatic representation column in left side;

Figure 11 A and 11B explanation are according to the wrist dress formula electronic device of prior art, and wherein Figure 11 A is the end view of this device integral body of expression, and Figure 11 B is the plane graph of its hinge fraction;

Figure 12 is the view that is used to explain according to the position adjusting mechanism of prior art; And

Figure 13 A and 13B are used for illustrating how the prior art hole width influences the side cross-sectional view of anchor clamps aperture.

Embodiment

Shown in Figure 1A-1C, wrist dress formula electronic device 1 as wearable electronic device comprises electronic device main body 10 and rigid strip part 20 and 30, rigid strip part 20 and 30 is connected respectively to the end 12 and 13 of the shell 11 of electronic device main body 10, thereby they can pivot around pivot center axes A and B.

Electronic device main body 10 comprises, for example, circuit main part 14 and display panel part 15, described circuit main part 14 be as electronic device, for example table, phone or calculator, and described display panel part 15 is as the display part of this device.

At least rigid strip part 20 and 30 one of them (band portion 20 in the example shown in Figure 1A-1C) have input indicating section 21, for example button or key swich, it is used to import data and provides the index signal that is used to indicate operation, for example the control that the circuit main part 14 of electronic device main body 10 is carried out.Have at electronic device 1 under the situation of portable phone function for example, the sound collection hole that formation is connected with microphone in the marginal portion of rigid strip part 20 etc. form the sound that is connected with loud speaker and send hole etc. in the marginal portion of rigid strip part 30.Do not consider the expection application of this electronic device 1, wearable electronic device 1 is constructed like this, makes the partial function of electronic device 1 can be arranged in band portion 20 and 30.Therefore, band portion 20 is made up of relative harder material basically with 30 shell, thereby makes band portion 20 and 30 be rigidity substantially.Certainly, band portion 20 and 30 shell also can be made up of flexibility or elastomeric material partly.

By as the pivotally connected 40A of mechanism of corresponding swing bindiny mechanism and 40B (when referring to when overall or when as broad as long between the two, they are represented together by reference number " 40 ", and not subsidiary symbol " A " and " B "), rigid strip part 20 and 30 is connected respectively to the end 12 and 13 that electronic device main body 10 combines with them.Rigid strip part 20 is used for rotatablely moving on direction A1 between its open position P1 (referring to Figure 1A and 1B) and its off-position P2 (referring to Fig. 1 C) and A2 by the end 12 that the pivotally connected 40A of mechanism is connected to electronic device main body 10.Rigid strip part 30 is used for rotatablely moving on direction B1 between its open position P1 (referring to Figure 1A and 1B) and its off-position P2 (referring to Fig. 1 C) and B2 by the end 13 that the pivotally connected 40B of mechanism is connected to electronic device main body 10.

Shown in Fig. 1 C, when rigid strip part 20 and 30 was in their off-position P2, rigid strip 20 and 30 was installed on the wrist part E of user's arm, thereby centered on wrist part E with electronic device main body 10.On the other hand, shown in Figure 1B, when rigid strip part 20 and 30 was in their open position P1, electronic device 1 can be untied from wrist part E.Although in the example shown in Figure 1B and 1C, rigid strip part 20 and 30 has essentially identical structure, and rigid strip part 20 can have different structures with 30, so that in rigid strip part 20 and 30 one longer than another.Because pivotally connected 40A of mechanism and 40B construct in an identical manner, thereby the pivotally connected 40A of mechanism as pivotally connected mechanism 40 will be described hereinafter.

As shown in Figure 3, this pivotally connected mechanism 40 comprises: connect convexconcave part 41, it forms in the leading section 21 of rigid strip part 20; Connect convexconcave part 42, it forms in the connection end 12 of the shell 11 of electronic device main body 10, thereby has with respect to connecting convexconcave part 41 basic complementary structures; Middle pivot 43; Be used for pivotally connecting a pair of connection convexconcave part 41 and 42, so that allow rigid strip part 20 to make pivoting action (A1 and A2) with respect to the shell 11 of electronic device main body 10 around the axis A between open position P1 and the off-position P2 around axis A; As elastomeric disc spring 44, be used on rigid strip part 20, applying bias force, this masterpiece is used in to be opened on the direction A1, thereby rigid strip part 20 is setovered towards open position P1 with respect to the shell 11 of electronic device main body 10.Pivotally connected mechanism 40 constitutes hinge fraction, is used for supporting by this way rigid strip part 20: rigid strip part 20 can be made pivoting action with respect to electronic device main body 10 around central axis A on direction A1 and A2.As long as can make rigid strip part 20 towards open position P1 biasing, the particular configuration of pivotally connected mechanism 40 just without limits.Disc spring 44 is installed around pivot 43, and respectively its two ends 44a and 44b place be locked to electronic device main body 10 and rigid strip part 20 in conjunction with end 12 and 21 on.Notice that except disc spring 44, the spring of other kind is leaf spring or torsion spring for example, or the elastic device of other kind for example rubber also can be used for applying bias force.In Fig. 3, symbol 43a represents axis body, for example sells, and it is used for by determining pivot center line A in conjunction with pivot 43.

Shown in Fig. 2 A and 2B, the connection convexconcave part 42 of rigid strip part 20 comprises cylinder projection 45.Cylindrical protrusion part 45 inwardly is formed with hole 47 in its footpath, and there is opening in this hole 47 on periphery surface 46.Be provided with engaging pin 48 and compression spring 49 in hole 47, described engaging pin 48 is as the stop pin of the locking mechanism of aperture position, and described compression spring 49 is used in the direction D1 of radial outward biases pin 48.

Shown in Fig. 2 A and 2B, comprise at the connection convexconcave part 42 of shell 11 sides of electronic device main body 10: the cylindrical recessed portion 50 of part, it has the cylindrical inner rim face 51 of part, is used to receive the cylindrical protrusion part 45 that connects convexconcave part 42.In the cylindrical inner rim face 51 of the part of the cylindrical recessed portion 50 of part, be formed with engagement recessed portion 52, it is as the sealed recessed portion of locking mechanism, when rigid strip 20 is shown in an open position P1, the end of engaging pin 48 is protruded and is installed in the engagement recessed portion 52, the bias force that described engaging pin 48 is accepted from disc spring 49, this masterpiece is used on the direction of radial outward.

Therefore, shown in Figure 1B and 2A, when rigid strip 20 was shown in an open position P1, the tip of engaging pin 48 was installed in the engagement recessed portion 52 of the cylindrical inner rim face 51 of part that connects convexconcave part 42, and described connection convexconcave part 42 forms in the shell 11 of electronic device main body 10.Thereby, between the shell 11 of rigid strip 20 and electronic device main body 10, do the time spent even on direction A1 and A2, cause the power that rotatablely moves around pivot axis, also can keep rigid strip 20 at open position P1.The result, even in this case, for example since key-input operation (with respect to the input indicating section 21 of rigid strip part 20, for example key swich is carried out) irregular oscillation of generation or impact is transmitted on the electronic device main body 10 from rigid strip 20, and also almost not have worry like this: the shell 11 of electronic device main body 10 is with respect to 20 swings of rigid strip part or the instability that becomes.

Shown in Fig. 4 A, the connection convexconcave part 42 that forms in the shell 11 for electronic device main body 10, its peripheral wall portion 53 comprises engagement recessed portion 52, and this peripheral wall portion 53 is made up of the material that for example has higher elasticity, for example polyurethane resin or silicones.As a result, even be pressed over repeatedly on the wall surface of recessed portion 52 when engaging pin 48, worry cracked or damage is minimized, described cracked or damage is that the wall surface at mate 52 takes place.

Shown in Figure 1B and 2A, in the cylindrical protrusion part 45 of rigid strip part 20, for, for example allow at the pressured projection 12b of recessed portion 45a that its proximal part forms (forming in the end 12a on the protecgulum side at the shell 11 of electronic device main body 10), thereby recessed portion 45a and projection 12b are constructed to and have complementary shape.In this case, shown in Figure 1B and 2A, when rigid strip part 20 is shown in an open position P1, also can be supported in rigid strip part 20 on the projection 12b of the end 12a on the protecgulum side of shell 11 of electronic device main body 10.Here, can also carry out a kind of like this setting: wherein, when rigid strip part 20 is shown in an open position P1, keep the gap between recessed portion 45a and the projection 12b.

Shown in the imaginary line 54a among Fig. 2 A, the wall surface 54 of recessed portion 52 can be constructed to such an extent that tilt a little, and the female part 52 is extended on direction A2.Under the sort of situation, when the swing that is produced on direction A2 by impacting a little of for example knocking that key swich 21 causes because of response when the shell 11 of electronic device main body 10 or other motion are suppressed, and ought big a little power be applied on the rigid strip part 20, so that it is when the last generation of direction A2 (promptly being used for being provided with at off-position P2 the direction of rigid strip part 20) rotatablely moves, the round tip portion 48a of engaging pin 48 is caused moving along wall surface 54a, thereby the engaging pin in the hole 47 48 is pushed inward on the D2 direction, thereby allows rigid strip part 20 to move to off-position P2 from open position P1 on direction A2.

Noting, shown in Fig. 4 B, be not that bore portion 47, compression spring 49 and engaging pin 48 are set in the connection convexconcave part 41 of rigid strip part 20, but these can be arranged in the connection convexconcave part 42 of electronic device main body 10.Under the sort of situation, shown in Fig. 4 B, be not that engagement recessed portion 52 is set in the connection convexconcave part 42 of electronic device main body 10, but it can be arranged in the connection convexconcave part 41 of rigid strip part 20.

And, the length (being the width of hinge fraction) that locking mechanism occupies along the direction of axis A may be relatively large situation under, the engaging pin 48 that constitutes locking mechanism can be relative and be meshing with each other with engagement recessed portion 52, for example be in end face perpendicular to axis A, rather than relative and be meshing with each other in connecting convexconcave part 41 and 42 peripheral surface 46 and 51.

Shown in Fig. 2 B, connection convexconcave part 42 on shell 11 sides of electronic device main body 10 further is provided with another recessed portion 55, when rigid strip part 20 P2 in the closed position, the end of the engaging pin 48 in the connection convexconcave part 41 of rigid strip part 20 is engaged with.The recessed portion 55 of this inside connects each other by the recessed portion 57 of minor diameter through hole 56 with the front surface side.The head 61 of button 60 is positioned at the recessed portion 57 on the front surface end, and described button 60 has the bottom part 62 that extends to anti-end recessed portion 55.The major diameter bottom part 62 of button 60 is locked on the wall surface 58 of small diameter bore part 56, thereby is installed in the recessed portion 55.In this example, engaging pin 48 and inner recessed portion 55 constitute the locking mechanism of off-position, and button 60 constitutes the lock releasing mechanism of off-position.Notice that button 60 can also be by biasings such as compression springs on the F1 direction.

Shown in Fig. 1 C and 2B, when rigid strip part 20 P2 in the closed position, the tip of the engaging pin 48 in the connection convexconcave part 41 of rigid strip part 20 is installed in the recessed portion 55, the female part 55 forms in the peripheral surface 51 of the connection convexconcave part 42 of the shell 11 of electronic device main body 10, thereby suppresses rotatablely moving of rigid strip part 20 on direction A1 and A2.Note, shown in Fig. 1 C and 2B, in the cylindrical protrusion part 45 of rigid strip part 20, for example, the projection 12d that forms in the end 12c on recessed portion 45b that its portions of proximal forms and the anti-lid side at the shell 11 of electronic device main body 10 forms complementary shape, thereby recessed portion 45 can match with projection 12d.In this case, shown in Fig. 1 C and 2B, when rigid strip part 20 P2 in the closed position, also can be supported in rigid strip part 20 on the projection 12d of the end 12c on the anti-lid side of shell 11 of electronic device main body 10.Here, can also adopt such configuration: wherein, when rigid strip part 20 P2 in the closed position, keep the gap between recessed portion 45b and the projection 12d.

When the situation of rigid strip part 20 P2 in the closed position of electronic device 1, when on the F2 direction, promoting button 60, the engaging pin 48 of rigid strip part 20 is promoted by the major diameter bottom 62 of button 60 on the D2 direction and shrinks, and described D2 direction is radially inner direction.When engaging pin 48 shrank on the D2 direction, rigid strip part 20 was subjected to the bias force from disc spring 44, make it in the A1 direction towards open position P1 biasing, thereby rigid strip part 20 is rotated in the A1 direction with respect to the shell 11 of electronic device main body 10.When engaging pin 48 was retracted to the position that is equivalent to peripheral surface 46 under the effect of spring 44, it was in the rotation of A1 direction and reach open position P1.During this pivoting action, the tip portion of engaging pin 48 produces sliding motion along peripheral surface 46.

In non-stage continuation mode, different-thickness according to wrist between user people and the people, the installing mechanism that has regulatory function that adopts in the wrist dress formula electronic device of the present invention is designed to the mechanism that alignment jig is closed degree, thereby electronic device is maintained its only position.Thereby, this mechanism adopts the conventional apparatus shown in Fig. 5 A (to insert in the hole that forms in the hinge member 124 by making sealed pin 132, hinge member 124 and another hinge member 128 directly are meshing with each other), but adopted a kind of like this setting, wherein, shown in Fig. 5 B, parts 110 make up separately, thereby insert between a hinge member 124 and another hinge member 128, and in the hole that forms in engaging pin 48 insertion parts 110, thereby allow the relative angle of parts 110 and a hinge member 124 to change continuously, thereby can be in the non-stage, under the continuous mode, adjust the position relation between a hinge 124 and another hinge 128.And, in order to allow to carry out the adjustment of this position relation, and need not take hinge apart, the present invention adopts a mechanism, thus, is inserted into parts between two hinge members and has angle by extraneous regulating and controlling.

Fig. 6 A and 6B are the enlarged drawings in the interior hole that forms of hinge member on the main body side.Fig. 6 A is a side cross-sectional view, the state that the expression hinge is not fixed, and Fig. 6 B is a side cross-sectional view, the state that the expression hinge is fixed.As shown in Figure 6A, when anchor clamps 122 were shown in an open position, because the obstacle of relative hinge member 128, engaging pin 48 rested in the hole 126.In Fig. 6 B, engaging pin 48 is installed in the holes 130 that form in the hinge member 128 on main body 121 1 sides, and the power of opening anchor clamps 122 by unshowned disc spring being used to of producing causes engaging pin 48 to be pressed over the sidewall in hole 130, thereby above being fixed to.By this mode, anchor clamps 122 are positioned its closed condition.

Push-off pin 138 is as a whole with button 139, so that be in vertical motion, thereby pushes back the engaging pin 48 that is installed in the hole 130 (131).In this state, when pressing the button 139, so that when overcoming the power that spring applies, engaging pin is inwardly shifted onto in the hole 126, sealed being disengaged between hole 130 and the engaging pin 48, and anchor clamps 122 are owing to the effect of the power that spring coil applies is picked up, thereby acquisition state as shown in Figure 6A, thereby allow electronic device to untie from wrist.As shown in Figure 6A, when taking to electronic device on the wrist, can cause that the hinge 122 (123) that is in open mode rotates under the effect of disc spring power, thereby because the effect of elastic force, engaging pin slides on the surface in conjunction with hinge 128 (129), insert wherein then position with final arrival hole 130 (131), thereby reach the state shown in Fig. 6 B.The state that above-mentioned state and electronic device are worn is corresponding.

Notice that hinged anchor clamps number can be one also can be two.And the end that is preferably in push-off pin 138 is provided with the dull and stereotyped P of a big cross-sectional area.And, when button 139 is setovered outside this device main body, thereby when turning back to its home position, easily it is pushed.As mentioned above, according to the wrist dress formula electronic device of this embodiment of the invention, the installation between engaging pin and the hole is removed by button, so that anchor clamps are caused its open mode, thereby wrist dress formula electronic device can be untied from wrist easily.

Mechanism as regulating the hinge opening degree the present invention includes: column wherein is inserted with engaging pin, and is inserted between the hinge member and the hinge member on the chuck side on the main body side of common composition hinge; Be used for from the mechanism of adjusting column in outside with respect to the anglec of rotation of one of them hinge member.In engaging pin is installed in another hinge member, form in conjunction with installing hole in the time, column is regulated by above-mentioned governor motion with respect to the anglec of rotation of a hinge member, to be suitable for wrist thickness.The column anglec of rotation is regulated in permission from the outside mechanism comprises: the cam groove that forms in column; Sliding part is equipped with the pin that meshes with cam groove in it, this sliding part is fixed, thereby can't rotate, and then can not slide on the direction with respect to a hinge member; One screw, its head is exposed to the outer surface of hinge, and allows sliding part to carry out position adjustments in such a way, that is: sliding part can be on a direction forward/backward motion.Here, column is by pin and utilize cam to come displacement rotatably, so that by the position of above-mentioned screw at a direction adjusted sliding part, thereby on the basis of this swing offset, can implement coupling in a continuous manner at various wrist thickness.

Regulate the degree that hinge is opened in the manner described above.Now, explain the degree that hinge is opened by the mode of Fig. 7 A and 7B.Fig. 7 A is the amplification cross-sectional view of the hinge fraction on the side.Fig. 7 B is the cross-sectional view of explanation wrist dress formula electronic device integral body.These figure show three kinds of installment states respectively: corresponding to the situation of this device band on thin wrist, intermediate gauge wrist and thick wrist, although this installment state can change continuously according to rotatablely moving of column in practice.Can carry out angular adjustment in mode continuous, non-stage, and further, this adjusting can be carried out, thereby can highly freely carry out angular adjustment at the hinge place on these device both sides.As mentioned above,, regulate the anglec of rotation of column, can change the fixed position of described band by making the sliding part forward/backward motion according to the installation main body of the wrist of present embodiment dress formula electronic device.As a result, for given wrist thickness, this band can maintain only position.

And, according to the present invention, when being installed to wrist dress formula electronic device on the wrist, described band is by sealed between the hole that is provided with in the hinge and the engaging pin and fix in position, and the user can be pressed to anchor clamps his/her wrist and need not consider installation site or state simply.And, if this device is provided with two anchor clamps, in each anchor clamps of can packing into such as the microphone of portable phone and loud speaker.Be provided with according to this, based on the similitude between the distance between length that centers on wrist and ear mouth, can adorn the formula electronic device by a kind of like this wrist of construction: this electronic device can use with being installed on ear and the face on the wrist by wearing.

Fig. 8 is a decomposition diagram, the hinge fraction between expression main body 121 and the anchor clamps 122.Column 110 is arranged between the hinge member 128 and the hinge member 124 on anchor clamps 122 sides on main body 121 sides.The amplification cross-sectional view that arrow is represented from figure can clearly be seen that, forms a column, a solid portion is arranged in that one is distolateral.At solid portion, radially form porosely 126 at it, be inserted with engaging pin 48 in this hole 126, at the center, end, it axially is formed with screw hole.The distolateral formation of another of column is constructed like this: the slotted hole 111 that is used as the hollow of cam groove forms on the both sides of its sidewall with symmetrical manner.Sliding part 112 is installed in this hollow space.Sliding part 112 has through hole at the one end, be used for inserting the pin 113 that meshes with slotted hole 111 therein, and this sliding part 112 has the rectangle flat cross section at the other end.Its center, end axially on be formed with screw hole with adjustment screw 115 screw-threaded engagement.

Pin 113 is inserted in the above-mentioned through hole, the two ends of this pin and the engagement of above-mentioned slotted hole, thereby constitute cam mechanism.At the assembly process of this device, the outside of column 110 is coated with cover 114, in case the shotpin landing.Cover 114 has a notch, forms in the mode to engaging pin 48 non-obstruction.Hinge member 124 on anchor clamps 122 sides is made up of parts that are positioned at its center and the parts that are positioned at its two ends.The parts that are positioned at its center have a square hole 124a, and this square hole 124a has rectangular cross section, and the flat part 112a of sliding part is installed in this square hole.Installation between described two parts can be any suitable installation form, with permission sliding part sliding motion in the axial direction, and then prevents that it from centering on its rotation.Thereby it is rectangular that shape of cross section needs not to be, and can be Any shape, except the axle circle.

Hinge member 128 on main body side is made up of two hinge parts that are arranged on its left and right sides.As for the assembling of this hinge part, described two hinge parts are arranged between above-mentioned three hinge members 124 on the chuck side in the broach mode.Be provided with hinge spring 135 in the hinge member on the left-hand side 128 in the drawings, it is opening promotion main body 121 and anchor clamps 122 on the direction.The mechanism that adopts in this mechanism and the traditional devices shown in Figure 11 is identical.Between the center hinge parts 124 on hinge member on the right side 128 and the chuck side, when cover 114 covers on the column 110, sliding part 112 is installed and is inserted in the above-mentioned column 110.At this moment, each parts connects like this, and the flat part 112a of sliding part is installed in the rectangle square hole 124a, and this square hole 124a forms in center hinge parts 124.Adjustment screw 115 is passed axis hole from the left end of hinge member 124, and impels the end and the slide mass 113 interior central screw hole screw-threaded engagement that form of described screw.So, guard ring 117 inserts and is installed in the circumferential groove part from the space between the hinge member, this circumferential groove partly is arranged in its of adjustment screw 115 and does not form in the base portion of thread groove, thus make adjustment screw 115 be positioned in hinge member 124 axially on, and then prevented its landing.Screw 116 passes the central screw hole from the right-hand member side of hinge member 124, and the screw hole screw-threaded engagement that is directed to and forms at column 110 right-hand members.

Under above-mentioned assembled state, rotation adjustment screw 115 so that sliding part 112 according to rotation amount in axially forward/backward displacement, the rotation of described sliding part 112 is confined, but its axial displacement allows.The direction of this displacement depends on thread groove and direction of rotation.When sliding part 112 displacements, the pin 113 that embeds wherein also is subjected to displacement, thereby makes column 110 swing offset under the effect of cam mechanism, and described pin 113 passes slotted hole 111 and column 110 engagements.Engaging pin 48 passes the elastomeric material that is arranged on its end and inserts in the hole 126 that forms in the column 110.Engaging pin 48 depends on the swing offset of this column 110 with respect to the anglec of rotation of hinge member 124.When being with from the open position rolling clamp 122 shown in Fig. 6 A on wrist so that it overcomes the elastic force of hinge spring 135 on the direction, engaging pin 48 is caused slip on the surface of hinge member 128, thereby finally arrive the position in hole 130, then under the effect of elastic force, insert in this hole 130, thereby reach the position shown in Fig. 6 B.The position relation between hole 130 and the engaging pin 48 is depended in anchor clamps 122 sealed positions, forms in the hinge member of described hole 130 on main body side, and described engaging pin is inserted in the above-mentioned column 110.In the present invention, column 110 is set to parts: it is inserted between the hinge member 128 and the hinge member 124 on anchor clamps 122 sides on main body 121 1 sides, by using above-mentioned adjusting pin, the angle with respect to these hinge members of its formation can be regulated, thereby coupling can be reasonably carried out with respect to user's wrist thickness.And this adjusting can easily be carried out from the outside, and needn't take this device part apart, or like parts.

Next will explain another embodiment of the present invention, wherein adjustment screw 115 is passed the center hinge parts 124 on the chuck side, sliding part 112 with the direction of axial quadrature on slide displacement, column 110 is utilized the cam mechanism swing offset.Fig. 9 is a decomposition diagram, the hinge member between expression main body 121 and the anchor clamps 122.In the figure, being inserted in hinge member 128 on main body 121 1 sides and the parts between the hinge member 124 on anchor clamps 122 1 sides is column 110.Amplification cross-sectional view from figure shown in the arrow can clearly be seen that the hole 126 of wherein inserting engaging pin 48 is formed on column 110 1 distolateral footpaths and makes progress, and screw forms in its axial center, end.As the elongated slot 111 of cam path ' be formed on column 110 another distolateral surfaces by the mode shown in the end view of Figure 10 right-hand side.

Further, shown in the end view of Figure 10 left-hand side, in the surface of the center hinge parts 124 on anchor clamps one side that contacts with column 110, be formed with elongated slot 124a, it has rectangle cross section and through hole, described through hole extends to elongated slot 124a from the outer surface of hinge member, and adjustment screw 115 is inserted wherein.Sliding part 112 with rectangle cross section is installed in this elongated slot 124a, thereby can be along its longitudinal sliding motion.Kernel of section place at sliding part 112 is formed with a through hole, and this through hole vertically is formed with thread groove along it, embeds in its one ends, side with the pin 113 of above-mentioned elongated slot 111 ' engagement.The shape of cross section of elongated slot 124a and sliding part 112 needs not to be rectangular, and can be any suitable permission sliding part 112 shape of sliding motion diametrically.

The identical point of this embodiment of the present invention and previous embodiment is: the hinge member 128 on the main body side is formed by being arranged on its two hinge parts right and left side; As for the assembling of this hinge part, described two hinge parts are arranged between above-mentioned three hinge members 124 of chuck side in the broach mode; And be: hinge spring 135 is arranged in the hinge member 128 on this figure right-hand side, is used for promoting main body 121 and anchor clamps 122 on the direction opening.Above-mentioned sliding part 112 is installed in the elongated slot 124a with rectangle cross section, and adjustment screw 115 is passed elongated slot 124a from the outer surface of hinge member 124, thus the central screw hole screw-threaded engagement that forms in the end of guiding screw and the slide mass 112.Then, guard ring 117 is inserted into the top wall surface of elongated slot 124a, and be installed in the circumferential groove part, this circumferential groove partly is arranged in the base portion of adjustment screw 115, in described adjustment screw 115, do not form thread groove, thereby the footpath that adjustment screw 115 is positioned at center hinge parts 124 upwards, and then prevented its landing.In this state, between the center hinge parts 124 that column 110 is inserted on left side hinge member 128 and the chuck side.At this moment, each assembly connects like this, make the pin 113 of sliding part 112 be installed in the elongated slot 111 of above-mentioned column 110 ' in.Screw 116 passes the screw screw-threaded engagement of center screw and the formation of column 110 right-hand members from the right-hand member side of hinge member 124.

In above-mentioned installment state, rotation adjustment screw 115, to impel sliding part 112 according to the displacement of rotation amount forward/backward, the displacement diametrically of described sliding part 112 allows.This displacement and its direction depend on thread groove and direction of rotation.When sliding part 112 displacements, the pin 113 that embeds wherein also is subjected to displacement, thereby column 110 is rotated and displacement under the effect of cam mechanism, and described pin 113 passes elongated slot 111 ' mesh with column 110.Engaging pin 48 passes the elastomeric material that is arranged on its end and inserts in the hole 126 that forms in the column 110.Engaging pin 48 depends on the swing offset of this column 110 with respect to the anglec of rotation of hinge member 124.The identical point of this embodiment and previous embodiment is: this swing offset is used to carry out the location adjusting of anchor clamps.

The installing mechanism of locating regulatory function that has that adopts in the wrist dress formula electronic device of the present invention is designed to from the outside with respect to the anglec of rotation of an assembly of one of them hinge adjusting, embed in this assembly latch is arranged, and between the hinge member and the hinge member on the chuck side on the insertion main body side, these two hinge members are formed hinge jointly.Can be clear that from foregoing example, can adopt multiple Implementation Modes, to realize this mechanism as ad hoc fashion.In the aforementioned embodiment, adopted a kind of like this mechanism, wherein the rotation of adjustment screw is converted into straight-line displacement, then utilizes cam mechanism this straight-line displacement to be converted to the swing offset of column; Yet the present invention is not limited thereto, and it can also adopt gear mechanism.As long as allow to control from the outside and can make column respond this control and be rotated displacement, any suitable mechanism can adopt.

According to wearable electronic device of the present invention, when rigid strip is shown in an open position, and when the user holds rigid strip with his/her hand (for example left hand) during executable operations, for example use another hand (for example right hand) input operation part (for example being arranged on button or key swich in the rigid strip) to be pushed etc., even subsidiary vibration or the impact of input operation is applied on the rigid strip, locking mechanism is enough to also prevent that the electronic device main body from producing oscillating motion with respect to rigid strip under vibration or percussion.As a result, when carrying out for example input operation, the worry that the display part of electronic device main body will produce the irregular fluctuation motion has reduced, thereby at any time can both easily observe the demonstration of electronic device.

Comprise according to the installing mechanism that adopts in the wrist dress formula electronic device of the present invention: the column that wherein is inserted with engaging pin with location regulatory function, and between the hinge member and the hinge member on the chuck side on this column insertion main body side, these two hinge members are formed hinge jointly: and the mechanism that is used for regulating with respect to one of them hinge member from the outside column anglec of rotation.When engaging pin was installed and is locked on the installing hole that forms in another hinge member, above-mentioned governor motion was regulated its angle, thereby allowed to mate at different wrist thickness.Therefore, this adjusting can be carried out with non-stage, continuous mode, thereby all provides optimum adjustment at any time, and need not consider the thickness of user's wrist.And this adjusting can easily be carried out, and the trouble of not taking this device part apart.

Mechanism as allowing to regulate from the outside column anglec of rotation can adopt the mechanism that is made up of following parts: the cam groove that forms in the column; It is embedded in the sliding part of the pin that meshes with cam groove, and sliding part is retained as with respect to a hinge member and endwisely slips, but can not rotatablely move; And screw, its head passes the end of hinge and is exposed, and its to be used for adjustment slide in place, make it perhaps adopt the mechanism that forms by following parts: the cam groove that forms in the column in axial forward/backward motion; It is embedded in the sliding part of the pin that meshes with cam groove, thereby sliding part is mounted and can radially slides motion with respect to a hinge member; And screw, its head is exposed to the outer surface of above-mentioned hinge member, and its to be used for adjustment slide in place, thereby sliding part can be in forward/backward motion radially.In these mechanisms each all has the easy structure as governor motion, and this adjusting can be carried out by simple control with non-stage, continuous mode, for example rotate adjustment screw, thereby allow to carry out optimal adjustment at any time and the thickness that need not consider user's wrist.

Claims (10)

1. wearable electronic device comprises:

The electronic device main body;

Allow the rigid strip that described electronic device is installed; And

Be used for described rigid strip is connected to bindiny mechanism on the described electronic device main body,

Wherein said bindiny mechanism has:

Be used for opening the elastomer of the described rigid strip of flexibly setovering on the direction at it; And

Locking mechanism when described rigid strip is in when opening or closing the position, is used for described rigid strip is locked to described electronic device main body, thereby suppresses the oscillating motion of described rigid strip with respect to described electronic device main body.

2. wearable electronic device according to claim 1, wherein locking mechanism comprises:

Engaging pin, it is set on one of described electronic device main body and described rigid strip, thereby can flexibly protrude from it; And

The engagement recessed portion, it is formed on in described electronic device main body and the described rigid strip another, thereby is in when opening or closing the position when described rigid strip, and described engaging pin is mounted and is locked on wherein.

3. wearable electronic device according to claim 2, wherein:

The tip portion of described engaging pin has a circular structure, and

The peripheral wall portion of described engagement recessed portion is made of elastomeric material.

4. wearable electronic device according to claim 1, wherein bindiny mechanism comprises:

The locking mechanism that is used for off-position, when described rigid strip was in its off-position, this locking mechanism was locked to described rigid strip on the described electronic device main body; And

The lock releasing mechanism that is used for off-position, it removes the described sealed of the described rigid strip that produced by the described locking mechanism that is used for off-position.

5. wearable electronic device according to claim 4, the described locking mechanism that wherein is used for off-position comprises:

Engaging pin, it is set on the described rigid strip, thereby can flexibly protrude from it; And

The engagement recessed portion, it is formed on the described electronic device main body, thus when described rigid strip was in its off-position, the described tip portion of described engaging pin was mounted and is locked on wherein.

6. wearable electronic device according to claim 5, the described lock releasing mechanism that wherein is used for off-position comprises a pushing mechanism, is used for promoting described engaging pin from the outside, this engaging pin is installed also and is locked together in the described engagement recessed portion.

7. wearable electronic device according to claim 2, wherein said locking mechanism comprises a governor motion, is used for regulating the described off-position of described rigid strip with respect to the sealed angle of described engagement recessed portion by regulating described engaging pin.

8. wearable electronic device according to claim 7, wherein said governor motion comprises:

Be provided with the column of described engaging pin; And

Adjustment screw, itself and described column mesh, and can impel described column rotation.

9. wearable electronic device according to claim 7, wherein said governor motion comprises:

Be provided with the column of described engaging pin, and this column there is a column part; And

Described column part has a slotted hole at the one side surface, and this slotted hole partly penetrates into the interior periphery part from its outer periphery;

Sliding part, it has the projection with described slotted hole engagement, and is inserted into the described column part of described column; And

Adjustment screw, itself and described sliding part mesh, and can impel described sliding part rotation,

Wherein said sliding part is rotated by described adjustment screw, so that allow described projection sliding motion in described slotted hole, thereby regulates the sealed angle of described engaging pin with respect to described engagement recessed portion.

10. wearable electronic device according to claim 7, wherein said governor motion comprises:

Be provided with the column of described engaging pin, and column is formed with a slotted hole on one end;

Sliding part, it has the projection with described slotted hole engagement, and the sliding motion that can make progress in the footpath of described column; And

Adjustment screw, itself and described sliding part mesh, and can impel described sliding part to produce rectilinear motion,

Moving linearly so that allow described projection to make sliding motion in described slotted hole, thereby is regulated the sealed angle of described engaging pin with respect to described engagement recessed portion to wherein said sliding part by described adjustment screw.

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