CN102256465A - Hand-held electronic device - Google Patents

Abstract

The invention discloses a hand-held electronic device. The hand-held electronic device comprises a first machine body with an operating interface, and a sliding mechanism and a second machine body, wherein the sliding mechanism comprises a first sliding component, a second sliding component fixed on the second machine body, and two elastic components; the first sliding component is fixed on the first machine body and is provided with two sliding rails; the second sliding component is arranged on the first sliding component in a slidable manner and is provided with two sliding chutes; each elastic component is provided with a fixed end and a sliding end; the two fixed ends are fixed on the first sliding component; the two sliding ends are arranged on the two sliding rails in a slidable manner and in the two sliding slots respectively; the second sliding component slides relative to the first sliding component and drives the sliding ends to slide along the sliding rails and drives the second machine body to cover the operating interface, partially expose the operating interface or completely expose the operating interface; and the sliding ends are positioned at specific positions of the sliding rails through elastic force of the elastic components so as to position the second machine body.

Description

Hand-hold electronic device

Technical field

The present invention relates to a kind of electronic installation, and particularly relate to a kind of hand-hold electronic device.

Background technology

In information society now, human dependence for hand-hold electronic device increases gradually.Such as mobile phone, PDA(Personal Digital Assistant) etc. are seen everywhere arround life, so these hand-hold electronic devices and the existing inseparable relation of modern's daily life.Along with the continuous evolution of electronics technology, tool hommization, functional good hand-hold electronic device are also constantly weeded out the old and bring forth the new.With the mobile phone is example, common on the market mobile phone pattern has a variety of at present, except operation interface and display screen are positioned at the clamshell phone that conplane stand hand-set, operation interface and display screen can amount to relatively, but have more the cover-slide-type handset of operation interface and display screen slide relative.Clamshell phone and cover-slide-type handset have advantages such as the less and display screen of volume is bigger compared to stand hand-set.

With cover-slide-type handset, but it generally includes the main body and the display module of slide relative, and operation interface and display screen then are disposed at main body and display module respectively.Display screen is positioned at being exposed away from a side of main body of display module, watches for the user, and operation interface then is positioned at the side towards display module of main body, covers and be suitable for being shown module.The user can promote the relative main body slip of display module and operation interface is exposed out, to carry out the operation of mobile phone.Generally speaking, display module is designed to be suitable state that is located in the overlapping operation interface or the state that exposes operation interface fully.If display module can be designed to be suitable and be located in the partly state at overlapping operation interface, and allows the user can carry out the operation of partial function under this state, then can promote cover-slide-type handset in operational flexibility ratio.

Summary of the invention

The object of the present invention is to provide a kind of hand-hold electronic device, it has more flexibility ratio in operation.

For reaching above-mentioned purpose, the present invention proposes a kind of hand-hold electronic device, comprises the first housing, slide mechanism and the second housing.The first housing has operation interface.Slide mechanism comprises first sliding part, second sliding part and two elastic components.First sliding part is fixed in the first housing and has two slide rails.Second sliding part is slidedly arranged on first sliding part and has two chutes.Each elastic component has stiff end and sliding end, and wherein two stiff ends are fixed in first sliding part, and two sliding ends are slidedly arranged on two slide rails respectively and are slidedly arranged on two chutes respectively.Second sliding part slides into primary importance, the second place or the 3rd position on first sliding part, slides into first anchor point, second anchor point or the 3rd anchor point on the corresponding slide rail and drive each sliding end.Each sliding end is located in first anchor point, second anchor point or the 3rd anchor point by the elastic force of the elastic component of compressed correspondence.The second housing is fixed in second sliding part, and wherein second sliding part slides into the second place from primary importance, slides and partly exposes operation interface with the relative first housing of the second housing that drives the overlapping operation interface.Second sliding part slides into the 3rd position from the second place, to drive the relative first housing slip of the second housing and to expose operation interface fully.

In one embodiment of this invention, the distance between the above-mentioned stiff end and second anchor point is greater than the distance between the stiff end and first anchor point, and the distance between the stiff end and second anchor point is greater than the distance between stiff end and the 3rd anchor point.

In one embodiment of this invention, each above-mentioned chute has the first relative end and second end, and relative first sliding part of second sliding part slides and drives first end to being positioned at first anchor point or the 3rd anchor point, or drives second end to being positioned at second anchor point.

In one embodiment of this invention, the second above-mentioned sliding part is slidedly arranged on first sliding part along a direction, and two chutes are along extending perpendicular to the axis of described direction in fact on second sliding part, and two first ends are between two second ends.

In one embodiment of this invention, each above-mentioned slide rail comprises first track and second track.First track is connected between first anchor point and second anchor point, and wherein each sliding end slides into second anchor point along first track from first anchor point.Second track is connected between second anchor point and the 3rd anchor point, and wherein each sliding end slides into the 3rd anchor point along second track from second anchor point.

In one embodiment of this invention, each above-mentioned slide rail more comprises the 3rd track, be connected between first anchor point and the 3rd anchor point, wherein second sliding part slides into primary importance from the 3rd position, slide into first anchor point along the 3rd track from the 3rd anchor point to drive each sliding end, and drive the relative first housing slip of the second housing and the overlapping operation interface.

In one embodiment of this invention, above-mentioned slide mechanism is capped between the first housing and the second housing.

In one embodiment of this invention, above-mentioned operation interface comprises first key area and second key area, the second housing partly exposes operation interface exposing first key area, and the second housing exposes operation interface fully to expose first key area and second key area.

In one embodiment of this invention, the above-mentioned second housing has the viewing area away from the surface of the first housing.

Based on above-mentioned, the sliding end of elastic component of the present invention can be located in first anchor point, second anchor point or the 3rd anchor point in the slide rail by the elastic force of compressed elastic component, second sliding part is positioned primary importance, the second place or the 3rd position on first sliding part, make the second housing can be located in the state at overlapping operation interface, partly expose the state of operation interface or expose the state of operation interface fully.Thus, the user can change the second housing in described three kinds of states according to operational demand, so that hand-hold electronic device has more flexibility ratio in operation.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended accompanying drawing to be described in detail below.

Description of drawings

Fig. 1 is the stereogram of the hand-hold electronic device of one embodiment of the invention;

Fig. 2 is the schematic side view of the hand-hold electronic device of Fig. 1;

Fig. 3 is the vertical view of the slide mechanism of Fig. 2;

Fig. 4 A and Fig. 4 B are the start flow chart of the slide mechanism of Fig. 3;

Fig. 5 A and Fig. 5 B are the start flow chart of the hand-hold electronic device of Fig. 1.

The main element symbol description

100: hand-hold electronic device

110: the first housing

112: operation interface

112a: first key area

112b: second key area

120: the second housing

122: the viewing area

130: slide mechanism

132: the first sliding parts

132a: slide rail

134: the second sliding parts

134a: chute

136: elastic component

136a: stiff end

136b: sliding end

D: direction

E1: first end

E2: second end

L1: primary importance

L2: the second place

L3: the 3rd position

P1: first anchor point

P2: second anchor point

P3: the 3rd anchor point

T1: first track

T2: second track

T3: the 3rd track

Embodiment

Fig. 1 is the stereogram of the hand-hold electronic device of one embodiment of the invention.Fig. 2 is the schematic side view of the hand-hold electronic device of Fig. 1.Please refer to Fig. 1 and Fig. 2, the hand-hold electronic device 100 of present embodiment for example is a cover-slide-type handset, and hand-hold electronic device 100 comprises the first housing 100, slide mechanism 120 and the second housing 130.The first housing 110 has operation interface 112, and the user can operate by 112 pairs of hand-hold electronic devices 100 of operation interface.Slide mechanism 130 comprises first sliding part 132 and second sliding part 134, first sliding part 132 is fixed in the first housing 110, second sliding part 134 is fixed in the second housing 120, the second sliding parts 134 and is slidedly arranged on first sliding part 132 and drives the relative first housings 110 of the second housing 120 with the slip by relative first sliding part 132 and slide.

Fig. 3 is the vertical view of the slide mechanism of Fig. 2.Please also refer to Fig. 3, specifically, slide mechanism 130 comprises that more two elastic components, 136, the first sliding parts 132 have two slide rail 132a, and second sliding part 134 has two chute 134a.Each elastic component 136 has stiff end 136a and sliding end 136b, and wherein two stiff end 136a are fixed in first sliding part, 132, two sliding end 136b and are slidedly arranged on two slide rail 132a respectively and are slidedly arranged on two chute 134a respectively.Each sliding end 136b can be along with the slip of second sliding part 134 on first sliding part 132, slided and drive in the slide rail 132a of correspondence and chute 134a.Below further specify the flowing mode of doing of hand-hold electronic device 100 by diagram.

Fig. 4 A and Fig. 4 B are the start flow chart of the slide mechanism of Fig. 3.By above-mentioned configuration mode, second sliding part 134 is primary importance L1 (as shown in Figure 3), second place L2 (shown in Fig. 4 A) or the 3rd position L3 (shown in Fig. 4 B) to first sliding part 132 slidably, slides into the first anchor point P1 (as shown in Figure 3), the second anchor point P2 (shown in Fig. 4 A) or the 3rd anchor point P3 (shown in Fig. 4 B) on the corresponding slide rail 132a and drive each sliding end 136b.

It should be noted that each elastic component 136 is configured to continue to be compressed, anticipate promptly that no matter slide mechanism 130 is the states that are in Fig. 3, Fig. 4 A or Fig. 4 B, each elastic component 136 all is to be in compressed state.Thus, each sliding end 136b is located in the first anchor point P1 (as shown in Figure 3), the second anchor point P2 (shown in Fig. 4 A) or the 3rd anchor point P3 (shown in Fig. 4 B) in the elastic force of elastic component 136 that can be by compressed correspondence in the above-mentioned sliding process, and then makes second sliding part 134 be located in primary importance L1 (as shown in Figure 3), second place L2 (shown in Fig. 4 A) or the 3rd position L3 (shown in Fig. 4 B) on first sliding part 132.

Fig. 5 A and Fig. 5 B are the start flow chart of the hand-hold electronic device of Fig. 1.Because first sliding part 132 and second sliding part 134 are individually fixed in the first housing 110 and the second housing 120, therefore when second sliding part 134 when primary importance P1 shown in Figure 3 slides into second place P2 shown in Fig. 4 A, can drive the second housing 120 and slide into the state that partly exposes operation interface 112 shown in Fig. 5 A from the state at overlapping operation interface 112 (being shown in Fig. 2) shown in Figure 2.When second sliding part 134 when the second place P2 shown in Fig. 4 A slides into the 3rd position P3 shown in Fig. 4 B, can drive the second housing 120 and slide into the state that exposes operation interface 112 fully shown in Fig. 5 B from the state that partly exposes operation interface 112 shown in Fig. 5 A.Because second sliding part 134 can be located in primary importance L1 (as shown in Figure 3), second place L2 (shown in Fig. 4 A) or the 3rd position L3 (shown in Fig. 4 B) on first sliding part 132 as mentioned above, the second housing 120 that therefore is fixed in second sliding part 134 can be located in state shown in Fig. 1, Fig. 5 A or Fig. 5 B.

Please refer to Fig. 5 A and Fig. 5 B, the operation interface 112 of present embodiment for example comprises the first key area 112a and the second key area 112b.As user when only desire is operated the first key area 112a, can promote state shown in the second housing 120 to Fig. 5 A, make the second housing 120 only expose the first key area 112a.When user's desire is operated the first key area 112a and the second key area 112b, can promote state shown in the second housing 120 to Fig. 5 B, make the second housing 120 expose the first key area 112a and the second key area 112b.In other words, the user can change the second housing 120 in above-mentioned three kinds of states (respectively shown in Fig. 1, Fig. 5 A and Fig. 5 B) according to operational demand, so that hand-hold electronic device 100 has more flexibility ratio in operation.

In the present embodiment, distance between the stiff end 136a of elastic component 136 and the second anchor point P2 roughly is designed to greater than the distance between the stiff end 136a and the first anchor point P1, and the distance between the stiff end 136a and the second anchor point P2 is designed to greater than the distance between stiff end 136a and the 3rd anchor point P3.Thus, when sliding end 136b is positioned at the first anchor point P1 (as shown in Figure 3), the second anchor point P2 (shown in Fig. 4 A) and the 3rd anchor point P3 (shown in Fig. 4 B), elastic component 136 has the first elasticity potential energy respectively because of being compressed, the second elasticity potential energy and the 3rd elasticity potential energy, and the described second elasticity potential energy can be less than the first elasticity potential energy and the 3rd elasticity potential energy.Thus, in the time of can making sliding end 136b be positioned at the second anchor point P2 is to be in stable status, and can under the situation of non-user's expection, not move toward the first anchor point P1 or the 3rd anchor point P1 because of the slight elastic force of rocking mat elastic component 136, so that the second housing 120 can stably be fixed in state shown in Fig. 5 A.

Please refer to Fig. 3, specifically, each chute 134a of present embodiment has the first relative end E1 and the second end E2, second sliding part 134 is slidedly arranged on first sliding part 132 along direction D, two chute 134a are along extending perpendicular to the axis of direction D in fact on second sliding part 134, and two first end E1 are between two second end E2.The slip of second sliding part, 134 relative first sliding parts 132 can drive the first end E1 to being positioned at the first anchor point P1 (as shown in Figure 3) or the 3rd anchor point P3 (shown in Fig. 4 B), or drives the second end E2 to being positioned at the second anchor point P2 (shown in Fig. 4 A).Contraposition relation by above-mentioned slide rail 132a and chute 134a can make slide mechanism 130 in start successfully between the state shown in Fig. 3, Fig. 4 A and Fig. 4 B.

More specifically, in the present embodiment, each slide rail 132a is made up of the first track T1, the second track T2 and the 3rd track T3.The first track T1 is connected between the first anchor point P1 and the second anchor point P2, and the second track T2 is connected between the second anchor point P2 and the 3rd anchor point P3, and the 3rd track T3 is connected between the first anchor point P1 and the 3rd anchor point P3.Sliding end 136b is suitable for sliding into the second anchor point P2 along the first track T1 from the first anchor point P1, and make the second housing 120 slide into state shown in Fig. 5 A from state shown in Figure 1, and sliding end 136b is suitable for sliding into the 3rd anchor point P3 along the second track T2 from the second anchor point P2, and make the second housing 120 slide into state shown in Fig. 5 B from state shown in Fig. 5 A, sliding end 136b also is suitable for sliding into the first anchor point P1 along the 3rd track T3 from the 3rd anchor point P3, and makes the second housing 120 slide into state shown in Figure 1 from state shown in Fig. 5 B.

The slide mechanism 130 of present embodiment is capped between the first housing 110 and the second housing 120 and does not expose, to keep the attractive in appearance of hand-hold electronic device appearance.In addition, the second housing 120 has viewing area 122 away from the surface of the first housing 110.Viewing area 122 for example has touch controllable function, as user when only desire is operated hand-hold electronic device 100 by the touch controllable function of viewing area 122, can make the second housing 120 be in the Figure 1 and Figure 2 state and overlapping operation interface 112.

In sum, the sliding end of elastic component of the present invention can be located in first anchor point, second anchor point or the 3rd anchor point in the slide rail by the elastic force of compressed elastic component, second sliding part is positioned primary importance, the second place or the 3rd position on first sliding part, make the second housing can be located in the state at overlapping operation interface, partly expose the state of operation interface or expose the state of operation interface fully.Thus, the user can change the second housing in described three kinds of states according to operational demand, so that hand-hold electronic device has more flexibility ratio in operation.In addition, slide mechanism can be configured to be covered by the first housing and the second housing and do not expose, to keep the attractive in appearance of hand-hold electronic device appearance.

Though disclosed the present invention in conjunction with above embodiment; yet it is not in order to limit the present invention; be familiar with this operator in the technical field under any; without departing from the spirit and scope of the present invention; can do a little change and retouching, thus protection scope of the present invention should with enclose claim was defined is as the criterion.

Claims (9)

1. hand-hold electronic device comprises:

The first housing has an operation interface;

Slide mechanism comprises:

First sliding part is fixed in this first housing and has two slide rails;

Second sliding part is slidedly arranged on this first sliding part and has two chutes;

Two elastic components, respectively this elastic component has stiff end and sliding end, wherein this two stiff end is fixed in this first sliding part, this two sliding end is slidedly arranged on this two slide rail respectively and is slidedly arranged on this two chute respectively, this second sliding part slides into the primary importance on this first sliding part, one second place or one the 3rd position, slide into one first anchor point on this corresponding slide rail and drive this sliding end respectively, one second anchor point or one the 3rd anchor point, respectively this sliding end is located in this first anchor point by the elastic force of compressed elastic component that should correspondence, this second anchor point or the 3rd anchor point; And

The second housing, be fixed in this second sliding part, wherein this second sliding part slides into this second place from this primary importance, to drive the relative first housing slip of this second housing that covers this operation interface and partly to expose this operation interface, this second sliding part slides into the 3rd position from this second place, to drive relative this first housing slip of this second housing and to expose this operation interface fully.

2. hand-hold electronic device as claimed in claim 1, wherein the distance between this stiff end and this second anchor point is greater than the distance between this stiff end and this first anchor point, and the distance between this stiff end and this second anchor point is greater than the distance between this stiff end and the 3rd anchor point.

3. hand-hold electronic device as claimed in claim 1, wherein respectively this chute has one first relative end and one second end, this second sliding part relatively this first sliding part slides and drives this first end to being positioned at this first anchor point or the 3rd anchor point, or drives this second end to being positioned at this second anchor point.

4. hand-hold electronic device as claimed in claim 3, wherein this second sliding part is slidedly arranged on this first sliding part along a direction, this two chute is along extending perpendicular to an axis of this direction in fact on this second sliding part, and this two first end is between this two second end.

5. hand-hold electronic device as claimed in claim 1, wherein respectively this slide rail comprises:

First track is connected between this first anchor point and this second anchor point, and wherein respectively this sliding end slides into this second anchor point along this first track from this first anchor point; And

Second track is connected between this second anchor point and the 3rd anchor point, and wherein respectively this sliding end slides into the 3rd anchor point along this second track from this second anchor point.

6. hand-hold electronic device as claimed in claim 5, wherein respectively this slide rail also comprises:

The 3rd track, be connected between this first anchor point and the 3rd anchor point, wherein this second sliding part slides into this primary importance from the 3rd position, this sliding end slides into this first anchor point along the 3rd track from the 3rd anchor point to drive respectively, and drives relative this first housing slip of this second housing and cover this operation interface.

7. hand-hold electronic device as claimed in claim 1, wherein this slide mechanism is capped between this first housing and this second housing.

8. hand-hold electronic device as claimed in claim 1, wherein this operation interface comprises first key area and second key area, this second housing partly exposes this operation interface exposing this first key area, and this second housing exposes this operation interface fully to expose this first key area and this second key area.

9. hand-hold electronic device as claimed in claim 1, wherein this second housing has the viewing area away from the surface of this first housing.

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