CN203259920U - Information processing device - Google Patents

Abstract

The utility model provides an information processing device. The information processing device can reduce slippage of a displaying part. The information processing device (1) comprises a main body part (2), the displaying part (3), and an inputting mechanism (20) which is arranged in the main body part (2). The displaying part (3) is borne on the main body part (2) in a sliding and rotating mode. The inputting mechanism (20) is provided with a first inputting part (21) and a second inputting part (22). The second inputting part (22) is arranged on an inputting face (21a) of the first inputting part (21) and is borne by the main body part (2) or the first inputting part (21) so that the second inputting part can slide in the direction opposite to the displaying part (3).

Description

Signal conditioning package

Technical field

The utility model relates to the signal conditioning package of the input part that possesses display part with touch input face and be made of touch-tone keyboard etc.

Background technology

In recent years, as an example of signal conditioning package, propose to have portable Tablet PC.Tablet PC possesses the display part with touch input face.In addition, when the long article of input, compare with the mode that touches picture, utilize the touch-tone input part of keyboard to be easy to input.Therefore, expectation possesses touch display part and the signal conditioning package of the input part that is made of touch-tone keyboard.

As the conventional example of the signal conditioning package that possesses the input part that consisted of by keyboard and touch display part, the signal conditioning package that for example exists patent documentation 1 to put down in writing.Put down in writing the technology that possesses main part with keyboard and touch display part at patent documentation 1.

Display part is supported as sliding and rotate by main part.When not using keyboard, the shown section of the input face of keyboard covers.And, when using keyboard to use, by making the display part sliding input face of keyboard is exposed.

In addition, in recent years, along with the maximization of display part, in order to improve operability, keyboard also maximizes.

Patent documentation 1: TOHKEMY 2009-230244 communique

Yet in the signal conditioning package that patent documentation 1 is put down in writing, if keyboard maximizes, when the input face that makes keyboard exposes, when hiding the input face of keyboard, the slippage of display part increases.As a result, in the signal conditioning package that patent documentation 1 is put down in writing, there is the such unfavorable condition of operability step-down when display part is moved.

The utility model content

Point in view of the above problems, the purpose of present technique is to provide the signal conditioning package of the slippage that can reduce display part.

Signal conditioning package of the present utility model possesses main part, display part and input mechanism.Display part is laminated in main part, and is supported on main part in the mode that can slide and rotate.Input mechanism is arranged at main part.And input mechanism has the first input part and the second input part.The first input part is disposed at main part.And then the second input part is disposed at the top of the input face of the first input part, and is supported as sliding towards the direction opposite with display part by main part or the first input part.

According to signal conditioning package of the present utility model, by input mechanism being cut apart and laminated configuration, can reduce the slippage of the display part when input face is exposed, thereby can realize the raising of operability.And, the occupied zone of input mechanism that can reduce main part.As a result, can increase the space that disposes the parts such as connector, socket in the side surface part of main part, can dispose efficiently input mechanism parts in addition at main part.

Description of drawings

Fig. 1 is the stereographic map that the first embodiment example of signal conditioning package of the present utility model is shown.

Fig. 2 is the vertical view that the first embodiment example of signal conditioning package of the present utility model is shown.

Fig. 3 is the side view that the first embodiment example of signal conditioning package of the present utility model is shown.

Fig. 4 is the front view that the first embodiment example of signal conditioning package of the present utility model is shown.

Fig. 5 is that display part and input mechanism that the first embodiment example that makes signal conditioning package of the present utility model is shown slide, and makes the stereographic map of the state after display part rotates.

Fig. 6 is the stereographic map of observing signal conditioning package shown in Figure 5 from opposition side.

Fig. 7 illustrates the display part of the first embodiment that makes signal conditioning package of the present utility model and the stereographic map of the state after the input mechanism slip.

Fig. 8 is the stereographic map of observing signal conditioning package shown in Figure 7 from the mounting surface side.

Fig. 9 is the cut-open view after signal conditioning package shown in Figure 7 is dissectd along the T2-T2 cutting line.

Figure 10 is the cut-open view that only makes the state after display part slides that the first embodiment example of signal conditioning package of the present utility model is shown.

Figure 11 is the stereographic map that only makes the state after display part rotates that the first embodiment example of signal conditioning package of the present utility model is shown.

Figure 12 is the cut-open view after signal conditioning package shown in Figure 5 is dissectd along the T1-T1 cutting line.

Figure 13 is the stereographic map that the second embodiment of signal conditioning package of the present utility model is shown.

Figure 14 is the stereographic map that the second embodiment of signal conditioning package of the present utility model is shown.

Figure 15 is the vertical view that the 3rd embodiment of signal conditioning package of the present utility model is shown.

Label declaration:

1,50,70 ... signal conditioning package; 2 ... main part; 2a ... interarea section; 2b ... side surface part; 2c ... face portion; 2d ... back part; 2e ... mounting is facial; 3 ... display part; 5A ... the first linkage; 5B ... the second linkage; 10 ... display screen; 10a ... display surface; 11 ... front panel; 12 ... backplate; 14A ... the first sliding tray; 14B ... the second sliding tray; 16 ... engaging protrusion; 18 ... flexible wiring substrate; 19 ... cover; 20,60 ... input mechanism; 21,61 ... the first input part; 21a ... input face; 21b ... the first guide surface; 22,62 ... the second input part; 22a ... input face; 22b ... the second guide surface; 22c ... the back side; 23,63 ... the 3rd input part; 23a ... input face; 23b ... the second guide surface; 25 ... touch input part; 26 ... the first guiding piece support; 27 ... the second guiding piece support; 28 ... the first guiding piece; 29 ... the second guiding piece; 31 ... rotation axis; 32 ... hinge part; 33 ... slide; 33a ... connecting hole; 34 ... rotatable lamella; 35A ... the first housing recess; 35B ... the second housing recess; 64 ... touch-screen; 71A ... the first link gear (display part link gear, input part link gear); 71B ... the second link gear (display part link gear, input part link gear); 72 ... the first linkage piece; 73 ... the second linkage piece (the first input part linkage piece); 74 ... the 3rd linkage piece (the second input part linkage piece); 75 ... the first linkage gear (linkage gear); 76 ... the second linkage gear (input part linkage gear); 77 ... counter gear.

Embodiment

Below, with reference to Fig. 1～Figure 15 the embodiment of signal conditioning package of the present utility model is described.In addition, parts general in each figure are marked with identical label.And signal conditioning package of the present utility model and liquid crystal display are not limited to following mode.

In addition, describe in the following order.

1. the first embodiment is routine

1-1. the structure example of signal conditioning package

1-2. the action case of signal conditioning package

2. the second embodiment is routine

3. the 3rd embodiment is routine

1. the first embodiment is routine

1-1. the structure example of signal conditioning package

At first, with reference to Fig. 1～Figure 12 the structure example of the related signal conditioning package of the first embodiment example (below, be called " this example ") is described.

Fig. 1 is the stereographic map that signal conditioning package is shown, and Fig. 2 is the vertical view that signal conditioning package is shown, and Fig. 3 is the side view that signal conditioning package is shown.Fig. 4 is the front view that signal conditioning package is shown.Fig. 5 and Fig. 6 are the stereographic maps that the state after the display part that makes signal conditioning package rotates is shown.

In this example, the routine example that is suitable for portable Tablet PC as signal conditioning package is described.As shown in Figure 1, signal conditioning package 1 has main part 2 and display part 3.As shown in Figures 3 and 4, main part 2 and display part 3 constitute can overlap the to each other stacked.Display part 3 is laminated in the top of main part 2, and main part 2 links (with reference to Fig. 5 and Fig. 6) by linkage 5A described later, 5B in the mode that can slide and rotate with display part 3.That is, display part 3 is supported on main part 2 in the mode that can change attitude.

As shown in Figure 2, display part 3 forms flat roughly rectangular-shaped.And then this display part 3 has: display screen 10; Front panel 11, the display surface 10a of display screen 10 exposes 11 at this front panel 11; And the backplate 12(of opposition side that is arranged at front panel 11 is with reference to Fig. 3).

As display screen 10 such as liquid crystal display, OLED display, surface field display etc. are shown for example.And, in the inboard of display screen 10, although and not shown, the wiring substrate of the control device of take in as required the backlight that carried towards the rear side of display screen 10 irradiation light, the picture of display screen 10 being controlled etc.And then, constitute and can show various information, image etc. at display screen 10.

And the test section that display screen 10 for example has the electrostatic capacitance mode is test section, operates to carry out the input of literal and figure etc. by the indication of carrying out via human body (finger).That is, this display screen 10 has the effect as touch input part.

Front panel 11 forms and is roughly rectangular tabular.And plate 11 is provided with roughly OBL peristome 13 of opening one-tenth in front.In addition, display screen 10 is fixed in this front panel 11 via not shown frame parts.And then, be installed in the display surface 10a of display screen 10 of inside of peristome 13 of this front panel 11 towards this peristome 13.

As shown in Figure 6, backplate 12 forms and is roughly rectangular tabular.This backplate 12 is disposed at the opposition side of the display surface 10a of display screen 10, and the back side of front panel 11 and display screen 10 is all covered.Plate 12 overleaf, and the interval that separates regulation along the long side direction of backplate 12 is formed with two sliding tray 14A, 14B.

The first sliding tray 14A is formed at a side of the long side direction of backplate 12, and the second sliding tray 14B is formed at the opposite side of the long side direction of backplate 12.The first sliding tray 14A and the second sliding tray 14B respectively the substantial middle section from a side of the short side direction of backplate 12 to short side direction arrange continuously.The first sliding tray 14A and the second sliding tray 14B are the recess of the 11 sides depression from backplate 12 towards front panel.

And, as shown in Figure 3, be provided with engaging protrusion 16 at an end of the first sliding tray 14A and short side direction the second sliding tray 14B, backplate 12.Engaging protrusion 16 is formed in the first sliding tray 14A and the second sliding tray 14B, gives prominence to the short side direction almost parallel from the end of the first sliding tray 14A and the second sliding tray 14B towards the other end and backplate 12.A part that consists of the hinge part 32 of the linkage 5A, the 5B that are arranged at main part 2 is sticked in this first sliding tray 14A and the second sliding tray 14B in the mode that can slide.Thus, display part 3 slides along the first sliding tray 14A and the second sliding tray 14B.

In addition, as shown in Figure 6, a side of the short side direction of plate 12 is provided with flexible wiring substrate 18, cover 19 overleaf.Flexible wiring substrate 18 and cover 19 are disposed at the first sliding tray 14A of backplate 12 and the substantial middle between the second sliding tray 14B.Cover 19 is installed on backplate 12 in the mode that can rotate.When display part 3 was rotated towards the direction of leaving from main part 2, this cover 19 covered flexible wiring substrate 18.Flexible wiring substrate 18 is electrically connected with main part 2 and display part 3.

［ main part ］

Such as Fig. 1, Fig. 3 and shown in Figure 4, main part 2 forms flat roughly rectangular-shaped.Be built-in with control part in the inside of this main part 2 and by HDD(Hard disk drive, hard disk drive) or Flash SDD(Flash solid state drive, flash memory type hard disk) etc. the memory storage that consists of etc.Control part forms by microcomputer, resistance, capacitor or other electronic equipment etc. that carry regulation at wiring substrate.In addition, be built-in with cell apparatus at this main part 2.

And main part 2 has roughly the OBL interarea 2a of section, two side surface part 2b, 2b, face portion 2c, back part 2d and loads facial 2e.Two side surface part 2b, 2b generally perpendicularly arrange from the 2a of interarea section continuously at the two ends of the long side direction of the 2a of interarea section.Face portion 2c is disposed at an end of the short side direction of the 2a of interarea section.Back part 2d and face portion 2c are opposed, and are disposed at the other end of the short side direction of the 2a of interarea section.And, load facial 2e and the 2a of interarea section is opposed.And then display part 3 is laminated in main part 2 with the 2a of interarea section and backplate 12 mutual opposed modes.

［ input mechanism ］

As shown in Figure 5, the side at the short side direction of the 2a of interarea section is provided with input mechanism 20.The keyboard of input mechanism 20 for being consisted of by a plurality of buttons.As shown in Figures 3 and 4, this input mechanism 20 is with all shown section 3 coverings of the 2a of interarea section.Input mechanism 20 is disposed between two side surface part 2b, the 2b.This input mechanism 20 has the first input part 21, the second input part 22 and the 3rd input part 23.

The first input part 21 is arranged at the 2a of interarea section of main part 2.And as shown in Figure 4, the first input part 21, the second input part 22 and the 3rd input part 23 overlap the to each other respectively stacked.That is, the second input part 22 is configured in the top of the input face 21a of the first input part 21, and the 3rd input part 23 is configured in the top of the input face 22a of the second input part 22.That is, the input face 21a of the back side 22c of the opposition side that is positioned at input face 22a of the second input part 22 and the first input part 21 is opposed, and the input face 22a of the back side 23c of the opposition side that is positioned at input face 23a of the 3rd input part 23 and the second input part 22 is opposed.And then the first input part 21 is covered by the second input part 22, and the second input part 22 is covered by the 3rd input part 23.

Fig. 7 and Fig. 8 illustrate the stereographic map that makes the state after display part 3 and input mechanism 20 slide, and Fig. 9 is the cut-open view along T2-T2 line shown in Figure 7.

Such as Fig. 7～shown in Figure 9, the first input part 21 has: the input face 21a that disposes a plurality of buttons; And the first guide surface 21b that is provided with the first guiding piece support 26.The first guide surface 21b is disposed at the face portion 2c side of the 2a of interarea section, and input face 21a is formed on the position of the substantial middle of the short side direction from the first guide surface 21b to the 2a of interarea section.Be provided with the first guiding piece support 26 at the first guide surface 21b, this first guiding piece support 26 supports the second input part 22 for moving.

The second input part 22 forms roughly oblong-shaped.The second input part 22 and the first input part 21 have equally: the input face 22a that disposes a plurality of buttons; And the second guide surface 22b.And, be provided with two the first guiding pieces 28,28 at the back side 22c with input face 22a opposition side of the second input part 22.

The first guiding piece 28,28 is disposed at the both sides of long side direction of the second input part 22 of back side 22c.And the first guiding piece 28,28 short side directions along the second input part 22 of back side 22c extend.This first guiding piece 28,28 is sticked in the first guiding piece support 26 of the first input part 21 in the mode that can slide.Therefore, the second input part 22 is supported as moving along the short side direction of main part 2 by the first input part 21.

And the input face 22a of the second input part 22 is formed at a side of the short side direction of the second input part 22, and the second guide surface 22b is formed at the opposite side of the short side direction of the second input part 22.Be provided with the second guiding piece support 27 at the second guide surface 22b, this second guiding piece support 27 supports the 3rd input part 23 for moving.

The 3rd input part 23 and the second input part 22 form roughly oblong-shaped equally.The 3rd input part 23 has the input face 23a that is provided with a plurality of buttons and touch input part 25.And, be provided with two the second guiding pieces 29,29 at the back side 23c of the opposition side of the input face 23a of the 3rd input part 23.

The second guiding piece 29,29 is disposed at the both sides of long side direction of the 3rd input part 23 of back side 23c.The second guiding piece 29,29 short side directions along the 3rd input part 23 of back side 23c extend.This second guiding piece 29,29 is sticked in the second guiding piece support 27 of the second input part 22 in the mode that can slide.Therefore, the 3rd input part is supported as moving along the short side direction of main part 2 by two input parts 22.

Like this, by input mechanism 20 being divided into three input parts 21,22,23 and laminated configuration, can reduce input mechanism 20 occupied zone in main part 2.Thus, the space of Configuration Control Board, memory storage, cell apparatus increases, efficiently arrangement components.In addition, by the space increase of Configuration Control Board, memory storage, cell apparatus, the area of radiator portion is that so-called area of dissipation increases, and can improve the cooling effect of control part, memory storage, cell apparatus.

In addition, in this example, the example that input mechanism 20 is divided into three is described, but be not limited thereto, input mechanism 20 can be divided into two or be divided into more than four.

［ linkage ］

And, as shown in Figure 6, in the substantial middle of the short side direction of the 2a of interarea section and near input mechanism 20, be provided with two linkage 5A, 5B.The first linkage 5A is disposed at a side of the long side direction of the 2a of interarea section, and the second linkage 5B is disposed at the opposite side of the long side direction of the 2a of interarea section.And the first linkage 5A is arranged at the position corresponding with the first sliding tray 14A of display part 3, and the second linkage 5B is arranged at the position corresponding with the second sliding tray 14B.

The first linkage 5A and the second linkage 5B have symmetrical structure, therefore, at this first linkage 5A are described.Such as Fig. 3 and shown in Figure 9, the first linkage 5A has rotation axis 31 and hinge part 32.Hinge part 32 has slide 33 and rotatable lamella 34, forms roughly L word shape.At rotatable lamella 34 rotation axis 31 is installed.And then hinge part 32 is supported on main part 2 via rotation axis 31 in the mode that can rotate.

Slide 33 is sticked in the first sliding tray 14A in the mode that can slide.And the slide 33 of the second linkage 5B is sticked in the second sliding tray 14B in the mode that can slide.And, be provided with connecting hole 33a at slide 33.Leading section towards slide 33 forms connecting hole 33a from position that slide 33 is connected with rotatable lamella 34.

The engaging protrusion 16 that is arranged at the first sliding tray 14A embeds this connecting hole 33a.And the engaging protrusion 16 that is arranged at the second sliding tray 14B embeds the connecting hole 33a of the second linkage 5B.Thus, display part 3 is sticked in the first linkage 5A and the second linkage 5B in the mode that can rotate.

And, be formed with two housing recess 35A, 35B at the 2a of interarea section.The first housing recess 35A is formed at the position that disposes the first linkage 5A of the 2a of interarea section, and the second housing recess 35B is formed at the position that disposes the second linkage 5B of the 2a of interarea section.The first housing recess 35A and the second housing recess 35B are the recesses that caves in into respectively the shape corresponding with the hinge part 32 of the hinge part 32 of the first linkage 5A and the second linkage 5B.

Under connecting hole 33a and state before engaging protrusion 16 engages, the hinge part 32 of the first linkage 5A is incorporated in the first housing recess 35A, and the hinge part 32 of the second linkage 5B is incorporated in the second housing recess 35B.Thus, can prevent the thickness thickening of signal conditioning package 1 integral body when making display part 3 and main part 2 overlapping.

And, as shown in Figure 3, be provided with the splicing ear 9 that is connected for external device (ED)s such as external disk drive, USB flash memory at side surface part 2b.Splicing ear 9 is disposed at the back part 2d side of side surface part 2b in the mode of the input mechanism 20 of avoiding being arranged at main part 2.

In addition, as mentioned above, owing to can reduce input mechanism 20 occupied zone in main part 2, therefore, the position that can dispose splicing ear 9 among the side surface part 2b increases.Thus, the length on thickness direction of main part 2 can not increase, and can increase in the space of long parts in the thickness direction configuration of main part 2.

In addition, thus to be provided with the foot part 37 that contacts support body section 2 with the mounting surface of desk etc. with the facial 2e of mounting that the interarea section opposed mode of 2a disposes.Foot part 37 be disposed at main part 2 short side direction with input mechanism 20 opposition sides.Therefore, according to this routine signal conditioning package 1, when main part 2 being loaded in desk etc., tilt in the lower mode of input mechanism 20 sides.And, even if pull out the second input part 22 and the 3rd input part 23 of input mechanism 20, also tilt in the lower mode of the 3rd input part 23 sides.Thus, be easy to utilize input mechanism 20 operation of typewriting.

1-2. the action case of signal conditioning package

Next, with reference to Fig. 1～Figure 12 the action case of signal conditioning package 1 with said structure is described.

Figure 10 illustrates the cut-open view that makes the state after display part 3 slides.Figure 11 be illustrate display part 3 is slided and rotate after the stereographic map of state.Figure 12 is the cut-open view along T1-T1 line shown in Figure 5.

Herein, as shown in Figure 1, each input face 21a, the 22a, the 23a that display part 3 are laminated in main part 2 and input mechanism 20 are called original state by the state that display part 3 covers.At first, as shown in figure 10, display part 3 and display surface 10a are slided abreast with respect to main part 2.At this moment, display part 3 is by slide 33 supporting of linkage 5A, 5B, and the short side direction along the first sliding tray 14A and the second sliding tray 14B towards main part 2 moves.Thus, the input face 23a of the 3rd input part 23 exposes.

And, because input mechanism 20 is divided into three and make it stacked, therefore can reduce the slippage of display part 3, can realize the raising of operability.

In existing signal conditioning package, because the slippage of display part is more, therefore, in order to make display part without smooth sliding reelingly, need to improve the design accuracy of slide mechanism herein.Relative therewith, according to this routine signal conditioning package 1, because the slippage of display part 3 is less, even if therefore reduce the design accuracy of the slide mechanism of sliding tray 14A, 14B, slide 33, also can make reelingly smooth sliding of display part 3 nothings.

When display part 3 was slided, the engaging protrusion 16 that is arranged at sliding tray 14A, 14B embedded the connecting hole 33a of the slide 33 that is arranged at linkage 5A, 5B.Thus, display part 3 is linked to main part 2 via linkage 5A, 5B in the mode that can rotate.

Therefore, as shown in figure 11, under the state that can expose at the input face 23a of the 3rd input part 23 that only makes input mechanism 20, display part 3 is rotated towards the direction that the 2a of interarea section from main part 2 leaves.Under this state shown in Figure 11, can utilize touch input part 25 operation that is arranged at the 3rd input part 23 to be shown in the mouse pointer etc. of display part 3.

Next, such as Fig. 7～shown in Figure 9, the 3rd input part 23 and second input part 22 of input mechanism 20 are pulled out.Particularly, control the 3rd input part 23, pull out towards the direction that deviates from from face portion 2c along the short side direction of main part 2.And then, the second guiding piece 29,29 the second guiding piece support 27 supportings by the second input part 22, the 3rd input part 23 slides at the second guide surface 22b of the second input part 22.Thus, the input face 22a of the second input part 22 exposes.

When further pulling out the 3rd input part 23, the second input part 22 slides at the first guide surface 21b of the first input part 21.Thus, the input face 21a of the first input part 21 exposes.That is, three input parts 21 of formation input mechanism 20,22,23 all input face 21a, 22a, 23a expose, and can utilize input mechanism 20 to carry out the key input.

Next, such as Fig. 5 and shown in Figure 12, display part 3 is rotated towards the direction that the 2a of interarea section from main part 2 leaves via linkage 5A, 5B.In addition, for display part 3, can be from the overlapping state of main part 2, freely adjust its inclination angle to being in the direction of leaving with the 2a of interarea section roughly in 90 ° the scope of angle.

And as shown in Figure 6, when display part 3 was rotated, cover 19 also rotated.The flexible wiring substrate 18 that thus, can utilize cover 19 protections that main part 2 is electrically connected with display part 3.And, rotating by making display part 3, the 2a of interarea section of main part 2 exposes.Thus, can improve the control part that is built in main part 2, the radiating effect of cell apparatus.

In addition, by carrying out above-mentioned step with reverse order, can make signal conditioning package 1 return original state from Fig. 5 and state shown in Figure 1.

And, can be provided with the sensor section of the slip that detects input mechanism 20.That is, when utilizing sensor section to detect the situation that input mechanism 20 is drawn out, control part switches to the user interface that is applicable to utilize the button input that input mechanism 20 carries out from the user interface of the touch input that is applicable to utilize display part 3 and carries out.Thus, by making automatically interface switching of input mechanism 2 slips, can save the time of switching.

In this example, the slide mechanism that display part 3, the second input part 22 and the 3rd input part 23 are slided all is arranged at rear side.Thus, can shorten the main part 2 of signal conditioning package 1 short side direction, be the length of Width.

In addition, the slide mechanism that display part 3, the second input part 22 and the 3rd input part 23 are slided can be arranged at separately side surface part.Slide mechanism is being arranged in the situation of side surface part, can shortening the length of thickness direction of the main part 2 of signal conditioning package 1.

2. the second embodiment is routine

Next, with reference to Figure 13 and Figure 14 the related signal conditioning package 50 of the second embodiment example is described.

Figure 13 is illustrated in the stereographic map that only makes the state after display part 3 slides in the related signal conditioning package 50 of the second embodiment example, and Figure 14 is the stereographic map that the related signal conditioning package 50 of the second embodiment example is shown.

The difference of the signal conditioning package 1 that the signal conditioning package 50 that this second embodiment example is related and the first embodiment example are related is input mechanism.Therefore,, input mechanism is described, to being marked with same numeral and omitting repeat specification with the general part of the related signal conditioning package of the first embodiment 1 herein.

Such as Figure 13 and shown in Figure 14, the input mechanism 60 of this signal conditioning package 50 has the first input part 61, the second input part 62 and the 3rd input part 63.The first input part 61, the second input part 62 and the 3rd input part 63 are overlapped and stacked.And then the second input part 62 is supported on the first input part 61, the three input parts 63 in the mode that can move and is supported on the second input part 62 in the mode that can move.

As shown in figure 14, the first input part 61 and the second input part 62 are so-called keyboard for the button input part.Be formed with opening at the input face 63a of the 3rd input part 63 and become roughly rectangular peristome 63b.And, have the second display part that is touch-screen 64 at the 3rd input part 63.The display surface of this touch-screen 64 is towards peristome 63b.

And as shown in figure 14, after pulling out input mechanism 60, touch-screen 64 shows various information, image etc.The test section that this touch-screen 64 for example has the electrostatic capacitance mode is test section, and constituting can be by input characters and figure etc. via the indication operation of human body (finger).Therefore, when display part 3 is slided, can show the input picture identical with the first input part 61 and the second input part 62 at touch-screen 64.

Other structure is identical with the routine related signal conditioning package 1 of the first above-mentioned embodiment, and therefore description thereof is omitted.The signal conditioning package 50 that utilization has a this structure also can access effect and the effect same with the related signal conditioning package of the first above-mentioned embodiment example 1.

And, in the related input mechanism 60 of this second embodiment example, the example that the 3rd input part 63 is formed touch input part is illustrated, but is not limited thereto.For example, also can constitute the first input part 61 or the second input part 62 are formed touch input part, perhaps also the first input part 61, the second input part 62 and the 3rd input part 63 all can be formed touch input part.

3. the 3rd embodiment is routine

Next, with reference to Figure 15 the related signal conditioning package 70 of the 3rd embodiment example is described.

Figure 15 is the vertical view that the related signal conditioning package 70 of the 3rd embodiment example is shown.

The related signal conditioning package 70 of the 3rd embodiment example is by the device that the mobile link gear of display part 3 and input mechanism 20 interlocks is obtained is set at the related signal conditioning package 1 of the first embodiment example.Therefore, link gear is described, to being marked with same numeral and omitting repeat specification with the general part of the related signal conditioning package of the first embodiment example 1 herein.

As shown in figure 15, signal conditioning package 70 has: main part 2; Be arranged at the input mechanism 20 of main part 2; Display part 3; And two link gear 71A, 71B.The first link gear 71A is disposed at a side of the long side direction of main part 2, and the second link gear 71B is disposed at the opposite side of the long side direction of main part 2.Because the first link gear 71A and the second link gear 71B have respectively identical structure, therefore the first link gear 71A is described herein.

The first link gear 71A has the first linkage piece 72, the second linkage piece 73, the 3rd linkage piece 74, the first linkage gear 75, the second linkage gear 76 and counter gear 77.The first linkage gear 75, the second linkage gear 76 and counter gear 77 are installed on main part 2 in the mode that can rotate respectively.

In addition, the second linkage piece 73 has the effect as the first input part linkage piece of input part link gear, and the 3rd linkage piece 74 has the effect as the second input part linkage piece of input part link gear.And the second linkage gear 76 has the effect as the input part linkage gear of input part link gear.

The first linkage piece 72 is installed on display part 3, and is mobile with display part 3.In the first linkage piece 72, be formed with tooth along its long side direction.And then, this first linkage piece 72 and 75 engagements of the first linkage gear.When the first linkage piece 72 moves, 75 rotations of the first linkage gear.And, the first linkage gear 75 and 73 engagements of the second linkage piece.

The second linkage piece 73 clips the first linkage gear 75 and the first linkage piece 72 arranged opposite.The second linkage piece 73 is installed on the second input part 22 of input mechanism 20.Therefore, the second input part 22 is mobile with the second linkage piece 73.The second linkage piece 73 and the second linkage gear 76 engagements that are arranged at main part 2.The second linkage gear 76 and counter gear 77 engagements.And then counter gear 77 is with meshing with the 3rd input part 23 the 3rd mobile linkage pieces 74.

Next, the action case of the related signal conditioning package 70 of the 3rd embodiment example described.

At first, when display part 3 was slided with respect to main part 2, the first linkage piece 72 that is arranged at display part 3 was slided with display part 3.Slide by the first linkage piece 72, with the first linkage gear 75 rotations of the first linkage piece 72 engagements.And then the revolving force of the first linkage gear 75 is passed to the second linkage piece 73, thereby the second linkage piece 73 moves.Move by the second linkage piece 73, the second input part 22 slides, slides towards the direction opposite with display part 3.

And the movement of disposing the second linkage gear 76 and counter gear 77, the second linkage pieces 73 between the second linkage piece 73 and the 3rd linkage piece 74 is passed to the second linkage gear 76 and counter gear 77.Thus, the second linkage gear 76 and mutually in the opposite direction rotation of counter gear 77.That is, the sense of rotation of the second linkage gear 76 is inverted by counter gear 77.And then the revolving force of counter gear 77 is passed to the 3rd linkage piece 74, thereby the 3rd linkage piece 74 moves.Move by the 3rd linkage piece 74, the 3rd input part 23 slides towards the direction identical with the glide direction of the second input part 22.

Like this, the second input part 22 of input mechanism 20 and the 3rd input part 23 are slided in linkage with display part 3.The operation that thus, the input face of input mechanism 20 is exposed.

And two link gear 71A, 71B have the effect that makes the display part link gear that display part 3 and input mechanism 20 relatively move and make the second input part 22 these two mechanisms of input part link gear that move in linkage with the 3rd input part 23.In addition, the input part link gear that the second input part 22 and the 3rd input part 23 are moved in linkage can only be set also, the display part link gear that display part 3 and input mechanism 20 are relatively moved perhaps also can only be set.

Other structure is identical with the routine related signal conditioning package 1 of the first above-mentioned embodiment, and therefore description thereof is omitted.Utilization has the signal conditioning package 70 of this structure, also can access effect and the effect identical with the related signal conditioning package of above-mentioned the first embodiment example 1.

In addition, in the 3rd embodiment related link gear 71A, 71B, the example that utilizes gear is illustrated, still, the link gear as display part and input part are moved in linkage is not limited thereto.For example can adopt following mechanism as link gear.

At first, arrange towards the direction of leaving from the face portion 2c of main part 2 force application parts such as the impact damper of the second input part 22 of input mechanism 20 and the 3rd input part 23 application of forces, volute springs; And the locking component of the movement of restriction the second input part 22 and the 3rd input part 23.And then, will work as the releasing parts of removing the restriction of the locking component that is arranged on the second input part 22 and the 3rd input part 23 when display part 3 is slided and be arranged at display part 3.Thus, when display part 3 is slided, remove the restriction of locking component, can the second input part and the 3rd input part 23 be released by the acting force of force application part.

And, as another example of link gear, replace linkage piece and linkage gear, link display part 3, the second input part 22 and the 3rd input part 23 via pulley and band.And then, can with the band rotation movement of display part 3 be passed to the second input part 22 and the 3rd input part 23 by making pulley.

In addition, the link gear as display part and input part are moved in linkage is not limited to above-mentioned mechanism, can adopt other various mechanisms.

In addition, the utility model also can adopt structure as described below.

(1) a kind of signal conditioning package is characterized in that,

Described signal conditioning package possesses:

Main part;

Display part, this display part is laminated in described main part, and is supported on described main part in the mode that can slide and rotate; And

Input mechanism, this input mechanism is arranged at described main part,

Described input mechanism has:

The first input part, this first input part is disposed at described main part; And

The second input part, this second input part disposes in the mode of the input face that covers described the first input part, and by described main part or the supporting of described the first input part for sliding towards the direction opposite with described display part.

(2) signal conditioning package of putting down in writing according to (1) is characterized in that,

Described main part forms flat roughly rectangular-shaped, and has the interarea section that is provided with described input mechanism,

Described display part is so that the opposed mode of backplate and described interarea section that is positioned at the front panel opposition side that is provided with display surface is laminated in described main part, and covers described interarea section and described input mechanism.

(3) signal conditioning package of putting down in writing according to (1) or (2) is characterized in that,

Described the second input part has: the input face of inputting; And the back side that is positioned at the opposition side of described input face,

The described back side of described the second input part and the described input face of described the first input part are opposed.

(4) signal conditioning package of putting down in writing according to (3) is characterized in that,

The described back side at described the second input part is provided with guiding piece,

The one side that is provided with described input face at described the first input part is provided with the guiding piece support, and this guiding piece support engages in the mode that can slide with described guide member, and this guiding piece support supports described the second input part for moving.

(5) according to each signal conditioning package of putting down in writing in (1)～(4), it is characterized in that,

Described signal conditioning package is provided with the display part link gear, and this display part link gear makes the slip interlock of sliding and described second input part of described display part, and described display part is moved towards different directions mutually from described the second input part.

(6) signal conditioning package of putting down in writing according to (5) is characterized in that,

When described display part during with respect to described main part sliding, described display part link gear makes described the second input part slide with respect to described main part or described the first input part, perhaps, when described the second input part slided with respect to described main part or described the first input part, described display part link gear made described display part with respect to described main part sliding.

(7) signal conditioning package of putting down in writing according to (5) or (6) is characterized in that,

Described display part link gear has:

The first linkage piece, this first linkage piece is installed on described display part;

Linkage gear, this linkage gear is arranged at described main part, and meshes with described the first linkage piece; And

The second linkage piece, this second linkage piece and the engagement of described linkage gear, and be installed on described the second input part.

(8) signal conditioning package of putting down in writing according to (5) or (6) is characterized in that,

Described display part link gear has:

Force application part, this force application part is to the described second input part application of force;

Locking component, this locking component limits the movement of described the second input part; And

Remove parts, these releasing parts are arranged at described display part, and remove the locking of described locking component when described display part moves.

(9) according to each signal conditioning package of putting down in writing in (1)～(8), it is characterized in that,

Described input mechanism has the 3rd input part, the 3rd input part disposes in the mode of the input face that covers described the second input part, and by described main part or the supporting of described the second input part for sliding towards the direction identical with the glide direction of described the second input part.

(10) signal conditioning package of putting down in writing according to (9) is characterized in that,

Described signal conditioning package is provided with the input part link gear, when the input part of the either party in described the second input part or described the 3rd input part moved, this input part link gear made remaining the opposing party's input part mobile in linkage towards the direction identical with the moving direction of the input part that moves.

(11) signal conditioning package of putting down in writing according to (10) is characterized in that,

Described input part link gear has:

The first input part linkage piece, this first input part linkage piece is installed on described the second input part;

The input part linkage gear, this input part linkage gear is arranged at described main part, and meshes with described input part linkage piece;

Counter gear, this counter gear and the engagement of described input part linkage gear, and towards the direction rotation opposite with the sense of rotation of described input part linkage gear; And

The second input part linkage piece, this second input part linkage piece and the engagement of described counter gear, and be installed on described the 3rd input part.

(12) according to each signal conditioning package of putting down in writing in (1)～(11), it is characterized in that,

Side in described the first input part and described the second input part is the keyboard-type input part,

Remaining the opposing party in described the first input part and described the second input part is touch input part.

(13) according to each signal conditioning package of putting down in writing in (1)～(12), it is characterized in that,

Described signal conditioning package is provided with the sensor section of the movement that detects described the second input part.

(14) signal conditioning package of putting down in writing according to (13) is characterized in that,

Described signal conditioning package has control part, and when described sensor section detected described the second input part mobile, this control part switched the user interface that is shown in described display part.

(15) according to each signal conditioning package of putting down in writing in (1)～(14), it is characterized in that,

Be provided with the sliding tray of the movement of the described display surface of supporting in the one side with the display surface opposition side of described display part,

Be provided with the linkage that engages with described sliding tray at described main part.

More than, comprise that action effect is illustrated the embodiment example of signal conditioning package of the present utility model.Yet signal conditioning package of the present utility model is not limited to above-mentioned embodiment example, can implement various distortion in the scope of the purport that does not exceed the utility model that claim puts down in writing.

In above-mentioned embodiment example, the example that is applicable to plate home computer as signal conditioning package is illustrated, but is not limited thereto.As signal conditioning package, so long as having the device of touch display part and button input part, such as notebook type home computer, mobile phone terminal etc. get final product, can be applicable to other various signal conditioning packages.

Claims (15)

1. a signal conditioning package is characterized in that,

Described signal conditioning package possesses:

Main part;

Display part, this display part is laminated in described main part, and is supported on described main part in the mode that can slide and rotate; And

Input mechanism, this input mechanism is arranged at described main part,

Described input mechanism has:

The first input part, this first input part is disposed at described main part; And

The second input part, this second input part disposes in the mode of the input face that covers described the first input part, and by described main part or the supporting of described the first input part for sliding towards the direction opposite with described display part.

2. signal conditioning package according to claim 1 is characterized in that,

Described main part forms flat roughly rectangular-shaped, and has the interarea section that is provided with described input mechanism,

Described display part is so that the opposed mode of backplate and described interarea section that is positioned at the front panel opposition side that is provided with display surface is laminated in described main part, and covers described interarea section and described input mechanism.

3. signal conditioning package according to claim 2 is characterized in that,

Described the second input part has: the input face of inputting; And the back side that is positioned at the opposition side of described input face,

The described back side of described the second input part and the described input face of described the first input part are opposed.

4. signal conditioning package according to claim 3 is characterized in that,

The described back side at described the second input part is provided with guiding piece,

The one side that is provided with described input face at described the first input part is provided with the guiding piece support, and this guiding piece support engages in the mode that can slide with described guide member, and this guiding piece support supports described the second input part for moving.

5. signal conditioning package according to claim 1 is characterized in that,

Described signal conditioning package is provided with the display part link gear, and this display part link gear makes the slip interlock of sliding and described second input part of described display part, and described display part is moved towards different directions mutually from described the second input part.

6. signal conditioning package according to claim 5 is characterized in that,

When described display part during with respect to described main part sliding, described display part link gear makes described the second input part slide with respect to described main part or described the first input part, perhaps, when described the second input part slided with respect to described main part or described the first input part, described display part link gear made described display part with respect to described main part sliding.

7. signal conditioning package according to claim 6 is characterized in that,

Described display part link gear has:

The first linkage piece, this first linkage piece is installed on described display part;

Linkage gear, this linkage gear is arranged at described main part, and meshes with described the first linkage piece; And

The second linkage piece, this second linkage piece and the engagement of described linkage gear, and be installed on described the second input part.

8. signal conditioning package according to claim 6 is characterized in that,

Described display part link gear has:

Force application part, this force application part is to the described second input part application of force;

Locking component, this locking component limits the movement of described the second input part; And

Remove parts, these releasing parts are arranged at described display part, and remove the locking of described locking component when described display part moves.

9. signal conditioning package according to claim 1 is characterized in that,

Described input mechanism has the 3rd input part, the 3rd input part disposes in the mode of the input face that covers described the second input part, and by described main part or the supporting of described the second input part for sliding towards the direction identical with the glide direction of described the second input part.

10. signal conditioning package according to claim 9 is characterized in that,

Described signal conditioning package is provided with the input part link gear, when the input part of the either party in described the second input part or described the 3rd input part moved, this input part link gear made remaining the opposing party's input part mobile in linkage towards the direction identical with the moving direction of the input part that moves.

11. signal conditioning package according to claim 10 is characterized in that,

Described input part link gear has:

The first input part linkage piece, this first input part linkage piece is installed on described the second input part;

The input part linkage gear, this input part linkage gear is arranged at described main part, and meshes with described input part linkage piece;

Counter gear, this counter gear and the engagement of described input part linkage gear, and towards the direction rotation opposite with the sense of rotation of described input part linkage gear; And

The second input part linkage piece, this second input part linkage piece and the engagement of described counter gear, and be installed on described the 3rd input part.

12. signal conditioning package according to claim 1 is characterized in that,

Side in described the first input part and described the second input part is the keyboard-type input part,

Remaining the opposing party in described the first input part and described the second input part is touch input part.

13. signal conditioning package according to claim 1 is characterized in that,

Described signal conditioning package is provided with the sensor section of the movement that detects described the second input part.

14. signal conditioning package according to claim 13 is characterized in that,

Described signal conditioning package has control part, and when described sensor section detected described the second input part mobile, this control part switched the user interface that is shown in described display part.

15. signal conditioning package according to claim 1 is characterized in that,

Be provided with the sliding tray of the movement of the described display surface of supporting in the one side with the display surface opposition side of described display part,

Be provided with the linkage that engages with described sliding tray at described main part.

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