CN205893690U - Clothes treatment device - Google Patents

Abstract

The utility model discloses a clothes treatment device, the utility model discloses a clothes treatment device includes: the body is equipped with the clothing and puts in the mouth to and the door, be used for the switching the mouth is put in to the clothing, the door includes: the door closure is used for forming the outward appearance of door is equipped with light transmission region and cladding light transmission region's not light transmission region, display module, dispose in on the back of door closure, be used for through light transmission region exports the visual information to and touch sensor, attached in the back of door closure, it is right to be used for detecting light transmission region's touch input, touch sensor is formed with the alignment mark light transmission region is not formed with the utilization the guide of alignment mark the guidance mark note of touch sensor's attached position. The messenger can be realized by the touch -sensitive screen in the time can seeing inside window portion of the clothing portion of holding and be arranged in showing the display part of the information of clothes treatment device processing in the door constitution the display part.

Description

Device for clothing processing

Technical field

This utility model is related to be provided with the device for clothing processing of the door of the medicated clothing dispensing port for being opened and closed body.

Background technology

Device for clothing processing include for wash medicated clothing device, for drying the device of medicated clothing, clothing can be carried out simultaneously The washing of thing and the device of drying.In device for clothing processing, the washing of medicated clothing is to be removed by the effect of water and detergent The stroke of the spot sticking in washings, the drying of medicated clothing is to be removed by the hot air supply device located at device for clothing processing The stroke of the moisture containing in medicated clothing.

General device for clothing processing includes: body, forms profile and is provided with medicated clothing dispensing port；Clothing located at body interior Thing receiving portion；Driver element, constitutes the cylinder of medicated clothing receiving portion for rotation；For being opened and closed the door of medicated clothing dispensing port；And, control Unit processed, the related visual information of the stroke for displaying to the user that to process in device for clothing processing, and input the behaviour of user Make.

In such general device for clothing processing, door designed to be used execution opening and closing medicated clothing dispensing port, and can See the intrinsic function of the inside of medicated clothing receiving portion.And, control unit is usually provided in body, in unlatching/closing mode etc. Presetting stroke is simply just shown, and is provided with multiple buttons or knob for operating it.

Two differentiation of door as above and control unit are an impediment to the succinct outward appearance of device for clothing processing, thus leading to Input between device for clothing processing and user and output interface can only stay in low level mode.

In this regard, continuous development makes control unit be located at door, and realize the research of control unit with touch-sensitive display.With this Related technology is also disclosed in Korean Patent Laid the 10-2011-0130089th (2011.12.05. is open) and Korea S Open Application Publication the 10-2015-0006264th (2015.01.16. is open).But, including described open Application Publication Formerly do not disclose the alignment being related between door closure described later and touch sensor and touch sensor and display mould in patent yet The technology contents of the alignment between block.

In order to realize touch screen in door, the transmission region in door closure is needed respectively accordingly to configure touch sensor and display Module.Particularly, in the structure that touch sensor and display apparatus module are separately constructed and are attached at after door closure, touch Sensor needs to be attached at the correct position of door closure, just can ensure that the reliability of touch screen.

As described above, in order to realize touch screen, the alignment between door closure and touch sensor and touch sensor and display The alignment of intermodule is even more important.And wherein, if it is considered that packaging technology, the alignment between door closure and touch sensor then may be used To say the operation being to need at first to carry out.

Utility model content

A purpose of the present utility model is to provide the alignment structures between a kind of door and touch sensor and touch sensor Alignment structures and between display apparatus module, make when the form portion being configured to see in door within medicated clothing receiving portion and are used for showing During the display part of information processing in device for clothing processing, described display part can be realized by touch screen.

Another object of the present utility model is to provide a kind of structure, makes cannot see for by touch sensing from portion outdoors Device is attached at the structure of the presetting position of door closure.

A further object of the present utility model is to provide a kind of touch sensing being labeled with for the structure alignd with door closure Device.

In order to realize the purpose of this utility model as above, this utility model provides a kind of device for clothing processing, its Including: body, it is provided with medicated clothing dispensing port, Yi Jimen, for being opened and closed described medicated clothing dispensing port；Described door includes: door closure, for shape Become the outward appearance of described door, the light tight region being provided with transmission region and coating described transmission region, display apparatus module, it is configured at institute State after door closure, for visual information is exported by described transmission region, and touch sensor, it is attached at described door closure Below, the touch input to described transmission region for detection；Be formed with alignment mark in described touch sensor, described not Transmission region is formed with the guide mark of the sticking position guiding described touch sensor using described alignment mark.

In the state of described touch sensor is attached at after described door closure, described alignment mark is configured to overlap In described guide mark.

Described guide mark mays include: light tight portion, and transmittance section, is formed to coat described light tight portion, is used for Divide described light tight portion and described light tight region；It is attached at after described door closure before described touch sensor Under state, described alignment mark can be configured to be overlapped in described light tight portion.

Described alignment mark can be formed by the color of the series different from described light tight portion.

Described door can also include: the shading member of opaqueness, is attached at described door before described touch sensor In the state of after lid, described shading member is attached at after described touch sensor and covers described guide mark.

Described shading member can be formed by the color of the color identical series with described light tight region.

Described guide mark can be to be configured at least the three of described transmission region periphery separated from each other.

Described alignment mark can be formed at the corner parts of described touch sensor.

Described touch sensor mays include: base portion, is formed by translucent material；Touch patterns portion, in described base portion On patterned with presetting pattern, for the touch input to described door closure for the detection；And labeling section, it is formed at described In base portion, for forming described alignment mark.

Described labeling section can be formed by with described touch patterns portion identical material, and carries out electricity with described touch patterns portion Separate.

Described touch sensor may also include that signal transmission portion, is electrically connected and forms letter with described touch patterns portion Number bang path；Described labeling section is formed by with described signal transmission portion identical material.

Described door closure mays include: lid main body, is formed by translucent material；And shielding layer, it is configured to cover described lid After main body, and form described light tight region.

Described transmission region can be the part being not configured with described shielding layer.

Meanwhile, this utility model provide a kind of manufacture located at device for clothing processing door method, comprising: by The step that the one side of the door closure that translucent material is formed forms the light tight region of cladding transmission region, and in described door closure The step simultaneously attaching the touch sensor of the touch input to described transmission region for detection；Attach described touch sensor Step include: make the alignment mark of described touch sensor be set to be overlapped in the guide mark being formed at described light tight region Step in note.

The described alignment mark making described touch sensor is set to be overlapped in the guiding being formed at described light tight region Step in labelling mays include: and is configured to make described alignment mark positioned at the printing opacity of described guide mark by described touch sensor Step in portion；And the position of the described touch sensor of regulation, so that described alignment mark is formed at described transmittance section Step in interior light tight portion.

Manufacture in the method for the door of device for clothing processing described, in the described step attaching described touch sensor Afterwards, can also include: attach the shading member of opaqueness in described touch sensor, and make it cover described guide mark Step.

Described manufacture in the method for the door of device for clothing processing, described attach described shading member step it Afterwards, can also include: the step configuring display apparatus module and making it cover described lightproof area.

Manufacture in the method for the door of device for clothing processing described, in the described step forming described light tight region Afterwards, can also include: the step of the state described door closure being pressed and being morphed into bend.

According to this utility model, not corresponding with the second transmission region in touch sensor it is formed in part with the mark that aligns Note, is formed with, guiding for guide the sticking position of touch sensor corresponding with alignment mark in the light tight region of door Labelling is such that it is able to more accurately realize the alignment of the touch sensor to door closure.

And, doorframe install guide by respectively corresponding with first and second corner of door closure with cambered the Second protuberance of one protuberance and rectilinear configuration is constituted, and when door closure is assembled in doorframe, the second corner and second projects Portion becomes the benchmark of set location of can aliging.That is, when making the second corner and the second protuberance accordingly configure, door closure is by position Positive position on doorframe is such that it is able to make first and second transmission region of door closure and first and second peristome pair of doorframe Should be configured on ground.As described above, by the positive position making door closure be located on doorframe, the touch being capable of being attached at door closure passes Sensor and be incorporated into doorframe display apparatus module between alignment.

In this utility model, when guide mark is made up of transmittance section and light tight portion, light tight portion can by with impermeable The color of light region identical series is formed.Or, when guide mark is only made up of transmittance section, alignment mark can by with impermeable The color of light region identical series is formed.In described structure, shading member is configured to cover the transmittance section of guide mark. Thus, the structure of the presetting position for touch sensor being attached at door closure cannot be seen from portion outdoors.

When being formed by wire-mesh screen (metal mesh) structure when the touch patterns portion of touch sensor although labeling section by Constitute with touch patterns portion identical metallicses, but can be configured to carry out electrically separated with touch patterns portion and cannot detect tactile Touch the dummy portions of input.Described structure can form touch patterns portion and labeling section using single metallicses, therefore has Succinct Rotating fields, and can make labeling section with touch patterns portion identical technique on realize.

Or, when touch sensor is made up of the touch patterns portion based on ito etc. and signal transmission portion, touch sensor Can have following two kind structure.

First, labeling section is formed by with signal transmission portion identical material, and constitutes with being electrically separated from each other.In this situation Under, labeling section can with signal transmission portion identical technique on realize, rather than real with the technique of signal transmission portion independence Existing.

Or, labeling section also can be made up of the material different from signal transmission portion, and realizes in different technique.Here In the case of, can be produced by the simple technique of formation labeling section on the touch sensor of manufacture and being formed with alignment mark The touch sensor of note.

Brief description

Fig. 1 is the axonometric chart of the device for clothing processing illustrating an embodiment of the present utility model.

Fig. 2 a be illustrate the door shown in Fig. 1 with first time rotated and opened medicated clothing dispensing port state concept map.

Fig. 2 b is that door is with the concept map of second state of rotation in the state of shown in Fig. 2 a.

Fig. 3 is the exploded perspective view of the door shown in Fig. 1.

Fig. 4 is the front view of the door shown in Fig. 1.

Fig. 5 is the rearview of the door closure shown in Fig. 3.

Fig. 6 is the profile being showing along the first embodiment of door closure that the line a-a ' shown in Fig. 5 obtains.

Fig. 7 is the enlarged drawing of the b part shown in Fig. 5.

Fig. 8 is the profile being showing along the second embodiment of door closure that the line a-a ' shown in Fig. 5 obtains.

Fig. 9 is the profile being showing along the 3rd embodiment of door closure that the line a-a ' shown in Fig. 5 obtains.

Figure 10 be illustrate the c shown in from Fig. 5 partly isolate the concept map of door closure and touch sensor.

Figure 11 is the enlarged drawing of the c part shown in Fig. 5.

Figure 12 be illustrate the alignment for the door closure shown in Figure 11 and touch sensor the first embodiment of structure general Read figure.

Figure 13 be illustrate the alignment for the door closure shown in Figure 11 and touch sensor the second embodiment of structure general Read figure.

Figure 14 is the front view of the touch sensor shown in Figure 11.

Figure 15 is the profile being showing along the first embodiment of touch sensor that the line d-d ' shown in Figure 14 obtains.

Figure 16 is the profile being showing along the second embodiment of touch sensor that the line d-d ' shown in Figure 14 obtains.

Figure 17 is the flow chart of the associated methods for the door closure shown in Figure 11 and touch sensor are described.

Figure 18 is the flow process being used for the detailed step that explanation attaches touch sensor in door closure in the structure shown in Figure 12 Figure.

Figure 19 is the profile that the line e-e ' shown in along Fig. 4 obtains.

Figure 20 be illustrate the f shown in from Fig. 4 partly isolate the concept map of door closure and doorframe.

Specific embodiment

Hereinafter, referring to the drawings the device for clothing processing related to this utility model is described in detail.

Unless explicitly indicated that implication separately in context, the expression way of odd number should include the expression way of plural number.

Even mutually different embodiment, structural detail same or analogous with aforesaid embodiment by identical for imparting, Similar reference, and save the explanation that it is repeated.

And, during this utility model embodiments of the disclosure is illustrated, if it is determined that for related The technological thought illustrating the embodiment disclosed in the present specification that can cause confusion of known technology, then be omitted from detailed to it Explanation.

Appended accompanying drawing, merely to embodiment disclosed in the present specification easy to understand, should not be limited by appended accompanying drawing Determine the technological thought disclosed in this utility model, but should cover included in thought of the present utility model and technical scope Had altered, equipollent or even substitute.

Fig. 1 is the axonometric chart of the device for clothing processing 1 illustrating an embodiment of the present utility model, and Fig. 2 a and Fig. 2 b are to illustrate Door 10 shown in Fig. 1 respectively with rotated for the first time and for the second time and opened medicated clothing dispensing port 20a state concept map.

With reference to this accompanying drawing, device for clothing processing 1 includes body 20 and door 10.

Body 20 constitutes the profile of device for clothing processing 1, and is provided with the medicated clothing dispensing port 20a for throwing in medicated clothing.This reality Apply the front face in the body 20 of hexahedral shape shown in example and be formed with medicated clothing dispensing port 20a.

It is provided with the medicated clothing receiving portion accommodating washings by medicated clothing dispensing port 20a in the inside of body 20.

As one, when device for clothing processing 1 of the present utility model is made up of the device of the drying for washings, clothing Thing receiving portion can be made up of the rotatably cylinder 40 located at the inside of body 20.

As another example, when device for clothing processing 1 of the present utility model is by washing and the baking that can execute washings simultaneously When dry device is constituted, medicated clothing receiving portion can by located at the inside of body 20 and store washings washing tub (not shown) and with Rotatably internal and cylinder 40 that accommodate washings is constituted located at described washing tub.

It is provided with the driver element (not shown) for rotary drum 40 in body 20.Driver element may include and drives for producing The motor of power and using described driving force come the conveyer belt of rotary drum 40.

Can be taken off in body 20 and incorporation way is provided with the detergent supply unit (not shown) of drawer type.For covering The lid 21 of lid detergent supply unit can be constituted in the way of rotating towards above-below direction.

Power key 22 can be provided with body 20, for opening/closing the power supply of device for clothing processing 1.When display described later When portion 12 is made up of touch screen, can be by the touch input of described touch screen 12 be opened/is closed with the electricity of device for clothing processing 1 Source.In the case, power key 22 need not be provided with and can achieve more succinct outward appearance.

Door 10 is constituted in mode relatively-movable to body 20, thus being opened and closed medicated clothing dispensing port 20a.As illustrated, door 10 can be using hinge-unit 30 rotatably to arrange to body 20.

Body 20 can be provided with and be recessed from outside inward-facing side, and is internally provided with the door receiving portion of medicated clothing dispensing port 20a 20b.In the state of door 10 is closed, door 10 is contained in receiving portion 20b, the exterior face marginal portion of door 10 can be configured to and The exterior face of body 20 adjacent thereto constitutes identical plane.

It is contained in the structure of receiving portion 20b in door 10 as above, when door 10 is open in order to prevent door 10 quilt Body 20 blocks, and hinge-unit 30 can have double hinge structure, and it has mutually different two rotary shaft.In this situation Under, as shown in Fig. 2 a and Fig. 2 b, using the first time rotation of some rotary shaft, make door 10 after door receiving portion 20b is separated, Using second rotation of another rotary shaft, door 10 is made to be rotated.

It is provided with the structure of hinge-unit 30 in the side of door 10, be provided with for door 10 is fixing in the opposite side of door 10 Release the locking device of fixation in body 20 or from body 20.Locking device can be made up of pressing type structure, makes to work as door 10 When opposite side presses one time, door 10 is locked, then when pressing one time, door 10 is unlocked.

It is provided with form portion 11 and display part 12 in door 10.

In the state of door 10 is closed, form portion 11 and medicated clothing dispensing port 20a accordingly configure such that it is able to see medicated clothing Inside receiving portion.Thus, user can confirm the state of the medicated clothing of receiving in medicated clothing receiving portion by form portion 11.

Display part 12 is used for showing the information processing in (output) device for clothing processing 1.For example, display part 12 can show clothing In thing processing meanss 1 drive stroke (washing, dehydration, drying stroke etc.) execution image information, or with such execution The corresponding user interface of image information (user interface, ui), graphic user interface (graphic user Interface, gui) information.

Hereinafter, the detailed construction of opposite house 10 illustrates.

Fig. 3 is the exploded perspective view of the door 10 shown in Fig. 1, and Fig. 4 is the front view of the door 10 shown in Fig. 1.

With reference to Fig. 3 and Fig. 4, door 10 includes: doorframe 110, door and window 120, display apparatus module 130 and door closure 140.As front institute State, in door 10, the hinge-unit 30 for being combined with body 20 is installed, and eliminates hinge-unit 30 in this accompanying drawing.

There is door 10 to be formed as circular shown in the present embodiment (to include circular, ellipse or carry cambered at least partially Rounded form) shape.But, this utility model is not limited to this.Door 10 also can polygon (rectangle, hexagon etc.).

Doorframe 110 is rotatably incorporated into body 20, for this reason, hinge-unit 30 respectively with doorframe 110 and body 20 combine.

As illustrated, doorframe 110 may include housing 111 and inside casing 112.Housing 111 and inside casing 112 can be by synthetic resin materials Material (for example, abs material, pc material etc.) is formed.

As reference, described structure is referred to as the reason housing 111 and inside casing 112 and is, in the state of door 10 is closed When only observing doorframe 110 itself, housing 111 is towards the outside of body 20, and inside casing 112 is towards the inside of body 20.Also can be no Such differentiation need to be carried out, and housing 111 and inside casing 112 are referred to as first and second frame.

Doorframe 110 includes: the first peristome 110a, in the state of door 10 is closed, facing with medicated clothing dispensing port 20a； Second peristome 111b is corresponding with the display apparatus module 130 being installed on inside.Due to being provided with door and window in the first peristome 110a 120, also the first peristome 110a can be referred to as door and window hole, due to being provided with display apparatus module 130 in the second peristome 111b, Second peristome 111b can be referred to as display hole.Second peristome 111b can be located on the first peristome 110a.

After first peristome 110a mays include: the front side opening 111a being formed at housing 111 and is formed inside casing 112 Square side opening 112a.Second peristome 111b is formed at housing 111.The rear side opening 112a of inside casing 112 can be formed with Interconnecting part 112b, display apparatus module 130 can be installed on inside doorframe 110 using described interconnecting part 112b.

Door and window 120 is to be arranged in correspondence with doorframe 110 with the first peristome 110a.Door and window 120 is by translucent material (glass Glass, synthetic resin material etc.) formed, and corresponding with medicated clothing dispensing port 20a in the state of door 10 is closed.

It is internally provided with display apparatus module 130 in doorframe 110.Display apparatus module 130 and the second peristome 111b are accordingly Configured, located at display 132 output and related the regarding of information processing in device for clothing processing 1 of display apparatus module 130 Feel information.

Meanwhile, doorframe 110 can be provided with can make the flexible printed wiring board of touch sensor 160 (161, Flexible printed circuit board:fpcb) the fpcb hole 111c that passes through.In the second peristome shown in this accompanying drawing The side of 111b is provided with fpcb hole 111c.

It is combined with the door closure 140 of the outward appearance for forming door 10 in doorframe 110.Door closure 140 can be by the glass with light transmission Glass material or synthetic resin material are formed.

Door closure 140 includes: light tight region 143；In light tight region 143, corresponding with the first peristome 110a One transmission region 141；And second transmission region 142 corresponding with the second peristome 111b.Wherein, transmission region represents makes light At least a portion transmission such that it is able to see the region of opposition side or even inside.Therefore, transmission region is including semi-opaque region The concept in domain.

First and second transmission region 141,142 is mutually divided by light tight region 143.Shown in the present embodiment: door Frame 110 and door closure 140 are formed by round-shaped, thus corresponding with circular door 10, and in order to represent examining of integration to user Aesthetic feeling, makes first and second transmission region 141,142 circular in shape.Wherein, circular inclusion circular, ellipse or at least Part is with cambered rounded form.

As reference, above-mentioned structure circular in shape, it prompts only as an embodiment, and this utility model is simultaneously It is not limited to this.For example, first and second transmission region 141,142 than circular, also can be by polygon (rectangle, hexagonal Shape etc.) and other different geometric shapes formed.

Door closure 140 is formed as being in the form of bending at least a portion.For example, using the bending section shape of bending, can The first cap of bending section both sides and the second cap is made to be formed with being angled with respect to each other.Wherein, the first cap and the second cap Be formed as flat form.In order to corresponding with such door closure 140, it is in bending at least partially that doorframe 110 may be alternatively formed to it Form.

Shown in the present embodiment, the first transmission region 141 is formed in the range of the first cap and bending section, the second printing opacity Region 142 is formed at the second cap.

In addition, the second transmission region 142 is formed with the size less than the second peristome 111b, make to be incorporated in door closure 140 In the state of doorframe 110, it is configured to be overlapped in the second peristome 111b.Wherein, overlapping (overlap) represent be Overlap on the thickness direction of described door 10.Using described configuration, the profile for forming the second peristome 111b is impermeable Light region 143 is covered and cannot be seen.

And, in the second peristome 111b, display apparatus module 130 is installed, the second transmission region 142 can be configured to attach most importance to It is laminated in the display 132 of display apparatus module 130.Using described configuration, only expose for exporting visual information to outside Display 132, other structures thing (for example, installing frame 131) then because light tight region 143 is without exposing to outside, thus It is capable of the outward appearance of more succinct door 10.

Meanwhile, there is boundary because in design in the marginal area (that is, frame (bezel) region) of display 132, in fact The region not exporting visual information is equivalent on matter.When marginal area is configured in the second transmission region 142, display 132 The visual information of middle output will constitute the picture less than the second transmission region 142.In the case, user feels to export vision The picture of information is less than reality.

In order to solve such problem, can be configured to, make not exporting the marginal portion of visual information in display 132 by not Transmission region 143 covers.Using described configuration, in display 132, the visual information of output will be constituted and the second transmission region 142 Fully picture corresponding (filling up).In the case, user can feel that the picture exporting visual information is bigger than reality, by This, by increasing capacitance it is possible to increase the input degree to described picture for the user.

As illustrated, the second peristome 111b can be formed by with the corresponding rectangle form of display apparatus module 130 of rectangle, the Two transmission regions 142 are formed by the rounded form being configured to be overlapped in the second peristome 111b.That is, the second transmission region 142 are configured to a part of overlapping with display apparatus module 130, and light tight region 143 is configured to overlay masking display mould Another part of block 130.Using described structure, only by exporting vision with the circular corresponding part of the second transmission region 142 Information is such that it is able to provide a user with the display part 12 of circle.

Circular display is typically high than display 132 price of widely used rectangle, its form is difficult alignment accurate True set location is it is thus possible to the situation of assembly failure can continually be occurred.But, using described structure, can use In the case of there is less expensive expense and the display 132 of the rectangle in correct position can be assembled, provide a user with and seen As circular display part 12.

Because the second transmission region 142 is coated by light tight region 143, from display 132 not with the second transmission region The visual information of 142 corresponding part outputs will not be seen by the user.In view of such situation, in display 132 not Corresponding with the second transmission region 142 partly can not export visual information.

As one, with the corresponding part output of the second transmission region 142 and device for clothing processing 1 in display 132 In the state of the related visual information of the information of middle process, not with the corresponding partly exportable cladding of the second transmission region 142 The gabarit image of described visual information.Described gabarit image as not with the corresponding part of the second transmission region 142, it can be by spy The color (for example, black) of fixed series is filled.

As another example, with the corresponding part output of the second transmission region 142 and device for clothing processing in display 132 In the state of the visual information of information correlation processing in 1, can not be closed with the corresponding part of the second transmission region 142.That is, Not only not do not export visual information in display apparatus module 130 with the corresponding part of the second transmission region 142, but also do not export Gabarit image.In this example, because the part only making display 132 is driven, it is driven with the entirety of display 132 Precedent compare, be capable of the efficient driving of display 132, thus obtaining power savings.

Fig. 5 is the rearview of the door closure 140 shown in Fig. 3.

The display part 12 being formed in door closure 140 can constitute mutual Rotating fields with touch sensor 160, or forms one therewith Body formula is such that it is able to realize touch screen 12.Such touch screen 12 is except being used as providing between device for clothing processing 1 and user The user input portion of inputting interface beyond, may also provide the output interface between device for clothing processing 1 and user.For example, use Selection and the touch changing the user that can utilize on display part 12 in the action pattern executing washing, dehydration, drying stroke etc. Input (or touch) to realize.

In order to detect the touch input to door closure 140, it is provided with touch sensor 160 in door 10.

Touch sensor 160 utilizes resistive film mode, capacitive way, infrared mode, ultrasound wave mode, magnetic approach etc. At least one in multiple touch manners is detecting the touch input applying to display part (or touch screen, 12).

As one, touch sensor 160 can be by the pressure applying on the specific part of touch screen 12 or specific part The change of the electric capacity occurring etc. is converted to electrical input signal.Touch sensor 160 can detect that and applies touch to touch screen 12 Touch the pressure the etc. when position that subject touches on touch sensor 160, area, touch.Wherein, touch subject be to Described touch sensor 160 applies the object touching, for example, its can be finger, pointer or writing pencil (stylus pen), Indicator etc..

As described above, when there are the touch input to touch sensor 160, transmitting corresponding letter to controller Number.After controller is processed to this signal, corresponding signal is sent to control unit (not shown).Thus, control unit can Learn which region of display part 12 is touched.Wherein, controller can be the structure mutually independent with control unit, or permissible It is control unit itself.

In addition, control unit according to the mutually different control of the species execution of the touch subject touching touch screen 12 or can be held Row identical controls.Can be decided whether according to tactile according to the operating state of device for clothing processing 1 or executory application program The species touching subject executes mutually different control or execution identical control.

Touch sensor 160 can detect that short (or rapping (tap)) to touch screen 12 touches (short touch), length Touch (long touch), multiple point touching (multi touch), drag touch (drag touch), flick touch (flick Touch), pinch into touch (pinch-in touch), pinch out touch (pinch-out touch), touch and draw touch (swype Touch), hovering touches the touch of various ways such as (hovering touch).

Touch sensor 160 can detect the touch input to the detection zone including the second transmission region 142.

Touch sensor 160 is exemplified after door closure 140 to cover the second transmission region 142 and bag in the present embodiment Cover the structure that the mode of a part for light tight region 143 for the second transmission region 142 is attached.Using described structure, touch The detection zone of sensor 160, in addition to the second transmission region 142, also includes coating the light tight of the second transmission region 142 The part in region 143.Therefore, it is possible to provide the part utilizing the light tight region 143 coating the second transmission region 142 Multiple ui or gui.

In described structure, touch sensor 160 can be formed by the touch film morphology being provided with touch patterns, and is configured at Between door closure 140 and display apparatus module 130.Touch thin film to be made up of transparent conducting film, can as described touch thin film Using known ito thin film (indium-tin oxide film), cnt thin film (carbon nano tube film) etc..

Touch thin film to be made up of one or two layer.As one, touching the mode that thin film is made up of two layers In the case of (gff (glass-film-film)), touch thin film and can be attached at after door closure 140 or be attached at display mould On block 130.As another example, in the case of touching the mode (g1f (glass-film)) that thin film is made up of a layer, touch Thin film can be attached at after door closure 140 and form one with door closure 140.

Touch sensor 160 also can arrange extra touch thin film, but by metal wire directly after door closure 140 The form of surface pattern forms (g2:glass only)).

Or, touch sensor 160 can be formed as one with the display 132 located at display apparatus module 130.For example, touch Touch sensor 160 and be configured in (on-cell) on the substrate of display 132, or the inside (in-cell) located at display 132.

In addition, the display part 12 of device for clothing processing 1 controls its driving by control unit.That is, control unit controls display mould The output of the unlatching/closing, visual information or image of block 130, and control the unlatching/closing of touch sensor 160.

Wherein, control unit can in the detection zone of touch sensor 160 not with the corresponding region of the second transmission region 142 Touch detection activation whether be controlled.For example, can distinguish in the detection zone to touch sensor 160 not with second The corresponding region of transmission region 142 needs to carry out touching the state detecting and does not need the state carrying out touching detection, is being not required to In the state of carrying out touching detection, the touch detection to described not corresponding region can not be activated.Using described control, can The mistake during touch input of minimizing user, and obtain power savings.

Fig. 6 is the profile being showing along the first embodiment of door closure 140 that the line a-a ' shown in Fig. 5 obtains.

With reference to Fig. 6, door closure 140 includes lid main body 140a and shielding layer 140b.

Lid main body 140a is formed by translucent material.Lid main body 140a can be by the glass material of light transmission or synthetic resin material Material is formed.Lid main body 140a is formed as being in the form of bending at least partially at it.

Shielding layer 140b is configured to cover the one side of lid main body 140a, and forms light tight region 143.Shielding layer 140b The above or below of lid main body 140a can be formed at.

Shown in the present embodiment after lid main body 140a printing ink form the situation of shielding layer 140b.Described ink The pigment with the color (for example, black, white, blueness etc.) of particular series can be comprised in water.As formation shielding layer 140b Method, can be using silk screen printing (using the mesh screen that formed by silk, nylon, terylene (tetron), stainless steel material etc.), glue Multiple printing processes such as version printing (offset print), trans-printing.

As illustrated, being not configured with shielding layer 140b in first and second transmission region 141,142.I other words, first and Second transmission region 141,142 is that shielded layer 140b does not cover, but as light transmission lid main body 140a stay transparent Part.

Shielding layer 140b coats first and second transmission region 141,142, and first and second transmission region 141,142 is by hiding Cover the light tight region 143 that layer 140b formed mutually to be divided.

With after corresponding lid main body 140a of the second transmission region 142 attach touch sensor 160.Touch sensor 160 are configured to fully cover the second transmission region 142, thus the touch input to the second transmission region 142 for the detection.Touch Sensor 160 is formed as the size bigger than the second transmission region 142, and now, touch sensor 160 can cover for limiting A part of the shielding layer 140b of the second transmission region 142.

In addition, utilizing described structure, will in turn configure in the front of the display 132 located at display apparatus module 130 The touch sensor 160 of photosensitiveness and lid main body 140a of light transmission.

Fig. 7 is the enlarged drawing of the b part shown in Fig. 5.

With reference to Fig. 7, the shielding layer 140b being used for limiting the first transmission region 141 in door closure 140 can be formed, the closer to First its transparency of transmission region 141 gradually changes.

For example, the light tight region 143 of the first transmission region 141 periphery can be configured to, the closer to the first transmission region 141 its gradually become transparent.For this reason, shielding layer 140b can comprise to be formed at multiple grazing points of the first transmission region 141 periphery 140b ', the plurality of grazing point 140b ' can be formed, the closer to its density step-down of the first transmission region 141.

By such halftoning (halftone) method, the first the critical of transmission region 141 is made to thicken, thus Visually can naturally be transitioned into the first transmission region 141 from light tight region 143.

On the other hand, the second transmission region 142 and coat its light tight region 143 can based on light tight region 143 with The form of critical line clearly makes a distinction.

Fig. 8 is the profile being showing along the second embodiment of door closure 140 that the line a-a ' shown in Fig. 5 obtains.

From after lid main body 140a print shielding layer 140b aforementioned first embodiment unlike, in the present embodiment The thin film 2140b for forming light tight region 2143 can be attached after lid main body 2140a.

As illustrated, thin film 2140b includes: light tight portion 2140b3 corresponding with light tight region 2143；Saturating with first The corresponding first transmittance section 2140b1 in light region 2141；And with corresponding second transmittance section of the second transmission region 2142 2140b2.Light tight portion 2140b3 coats first and second transmittance section 2140b1,2140b2, first and second transmittance section 2140b1,2140b2 are mutually divided by light tight portion 2140b3.

Wherein, part corresponding with light tight portion 2140b3 is used as making door closure 2140 become opaque shielding layer, from And form light tight region 2143.Part corresponding with first and second transmittance section 2140b1,2140b2 and the lid master of light transmission Body 2140a together forms first and second transmission region 2141,2142 respectively.

That is, different from aforesaid first embodiment, first and second transmission region 2141,2142 is based on will be used as thin film First and second transmittance section 2140b1,2140b2 of the transparent part of 2140b are respectively arranged at lid main body 2140a of light transmission To be formed.

Touch sensor 2160 is attached after thin film 2140b corresponding with the second transmittance section 2140b2.Touch sensing Device 2160 is configured to fully cover the second transmission region 2142, thus detection is defeated to the touch of the second transmission region 2142 Enter.Touch sensor 2160 is formed as the size bigger than the second transmission region 2142, and now, touch sensor 2160 can cover Cover a part of the light tight portion 2140b3 for limiting the second transmittance section 2140b2.

In addition, utilizing described structure, in turn configure printing opacity in the front of the display 132 located at display apparatus module 130 The touch sensor 2160 of property, the second transmittance section 2140b2 of thin film 2140b and lid main body 2140a of light transmission.

Fig. 9 is the profile being showing along the 3rd embodiment of door closure 140 that the line a-a ' shown in Fig. 5 obtains.

With aforesaid second embodiment identical, can attach for being formed after lid main body 3140a in the present embodiment The thin film 3140b of shielding layer 3140b.As illustrated, thin film 3140b includes: light tight portion corresponding with light tight region 3143 3140b3；With the corresponding first hole 3140b1 of the first transmission region 3141；And with the second transmission region 3142 corresponding second Hole 3140b2.Light tight portion 3140b3 is formed to coat first and second hole 3140b1,3140b2, first and second hole 3140b1,3140b2 are mutually divided by light tight portion 3140b3.

Wherein, part corresponding with light tight portion 3140b3 is used as making door closure 3140 become opaque shielding layer, from And form light tight region 3143.It is formed in part with first and corresponding with first and second transmission region 3141,3142 Two hole 3140b1,3140b2, thus not configuring thin film 3140b, and give over to lid main body 3140a for light transmission.

With after corresponding lid main body 3140a of the second transmission region 3142 attach touch sensor 3160.Touch and pass Sensor 3160 is configured to fully cover the second transmission region 3142, thus detection is defeated to the touch of the second transmission region 3142 Enter.Touch sensor 3160 is formed as the size bigger than the second transmission region 3142, and now, touch sensor 3160 can cover Cover a part of the light tight portion 3140b3 for limiting the second hole 3140b2.

In addition, utilizing described structure, in turn configure printing opacity in the front of the display 132 located at display apparatus module 130 The touch sensor 3160 of property and lid main body 3140a of light transmission.Compared with this Rotating fields described in Fig. 6 above, only hiding Exist on the thickness covering layer 140b, 3140b and slightly distinguish, it is considered as substantially the same.

Rotating fields described in such Fig. 6 and Fig. 9, compared with the Rotating fields described in Fig. 8, have such advantages as.

First, touch sensor 160,3160 is attached directly to lid main body 140a, 3140a of light transmission, and therefore, user feels The touch sensitivity being subject to can improve.And, different from the Rotating fields described in Fig. 8, it is not provided with thin film in front of display 132 The second transmittance section 2140b2 of 2140b, therefore, it is possible to clearly provide the visual information of output in display 132.

In addition, as the side in described Fig. 8 and door closure illustrated in fig. 9 2140,3140 adhered film 2140b, 3140b Method, can adopt in-mould injection (in-mold injection) various ways such as mode, transfer modes.

In-mould injection mode is available mode in the case that door closure 2140,3140 is formed by synthetic resin material, It is thin film 2140b, 3140b in mould, be together injection molding and integrally formed mode with door closure 2140,3140.Turn India side formula be by thermal transfer crimp the door closure 2140 of glass or synthetic resin material, 3140 adhered film 2140b, The mode of 3140b.

In addition, in order to realize touch screen 12 in door 10, needing respectively correspondingly in the second transmission region 142 of door closure 140 Configuration touch sensor 160 and display apparatus module 130.Particularly, touch sensor 160 not located at display apparatus module 130, Touch sensor 160 and display apparatus module 130 are separately constructed and are attached in door closure 140 structure below, touch sensing Device 160 needs to be attached at the tram of door closure 140, just can ensure that the reliability of touch screen 12.

Alignment accordingly, with respect to the second transmission region 142 and the touch sensor 160 of display apparatus module 130 is especially heavy Will.Wherein, on packaging technology, touch sensor 160 needs to be attached at the presetting position of door closure 140, could with subsequent The display apparatus module 130 of assembling realizes alignment.

Hereinafter, say with respect to the integrated structure of the touch sensor 160 of door closure 140 in view of such situation Bright.

Figure 10 be illustrate the c shown in from Fig. 5 partly isolate door closure 140 and the concept map of touch sensor 160, Figure 11 It is the enlarged drawing of the c part shown in Fig. 5.

With reference to Figure 10 and Figure 11, it is formed with alignment mark 163 (align mark) in touch sensor 160, in door closure 140 It is formed with the guide mark 144 of the sticking position guiding touch sensor 160 using alignment mark 163.Alignment mark 163 He Guide mark 144 become can align with respect to door closure 140 touch sensor 160 sticking position benchmark.

Touch sensor 160, also can be by circular (circular, ellipse in addition to polygon (rectangle, hexagon etc.) Deng) formed.But it is contemplated that touch sensor 160 is the structure for being realized display part 12 by touch screen 12, touch sensing It is in form corresponding with display apparatus module 130 that device 160 is preferably formed into.Exemplify in this accompanying drawing touch sensor 160 have with The corresponding rectangle form of display apparatus module 130 of rectangle.

Touch sensor 160 has the size bigger than the second transmission region 142 and is formed at door closure such that it is able to cover 140 the second transmission region 142.Thus, a part for touch sensor 160 is configured to cover the second transmission region 142, separately A part is configured to cover the light tight region 143 of the second transmission region 142 periphery.It is being configured to cover light tight region Described another part of 143 touch sensor 160 is formed with alignment mark 163, and described alignment mark 163 is constituted with respect to door The attaching datum mark of the touch sensor 160 of lid 140.

Alignment mark 163 can be provided with multiple, and be configured at separated from each other touch sensor 160 at least three at.When right When neat labelling 163 includes the first alignment mark 163a, the second alignment mark 163b and the 3rd alignment mark 163c, for connecting the The first virtual alignment line 164 ' of one alignment mark 163a and the second alignment mark 163b can align mark with for being connected first The second virtual alignment line 164 of note 163a and the 3rd alignment mark 163c " is constituted with intersecting.

Alignment mark 163 can be formed at the not corner parts with the corresponding touch sensor 160 of the second transmission region 142. Each corner parts that first to the 3rd alignment mark 163a, 163b, 163c is located at touch sensor 160 are exemplified in Figure 10, the The situation that one alignment line 164 ' and the second alignment line 164 " is configured mutual vertically.

Guide mark 144 is formed at the light tight region 143 of door closure 140, in order in light tight region 143 to regard Make a distinction in feel, it may include transmittance section 144 '.Guide mark 144 can be respectively formed in the second transmission region 142 periphery Many places.

Guide mark 144 is arranged in correspondence with alignment mark 163.Guide mark 144 can be provided with multiple, and separated from each other It is configured at at least the three of door closure 140.When guide mark 144 include the first guide mark 144a, the second guide mark 144b and During three guide marks 144c, for connecting the first virtual guiding of the first guide mark 144a and the second guide mark 144b Line 145 ' can be with virtual the second leading line 145 for being connected the first guide mark 144a and the 3rd guide mark 144c " phase Constitute across.

Using such structure, can more accurately realize the alignment of the touch sensor 160 to door closure 140, equally The alignment of the touch sensor 160 to the display apparatus module 130 being subsequently assembled can more accurately be realized.As a result, can Guarantee the reliability of touch screen 12.

Guide mark 144 is formed at the light tight region 143 of cladding the second transmission region 142.First is exemplified in Figure 10 To the 3rd guide mark 144a, 144b, 144c be located at the second transmission region 142 periphery light tight region 143, the first leading line 145 ' and second leading line 145 " configured mutual vertically.

Mark when respectively correspondingly configuring the first to the 3rd alignment in the first to the 3rd guide mark 144a, 144b, 144c During note 163a, 163b, 163c, touch sensor 160 is in the state aligning with door closure 140.Attach in touch sensor 160 In the state of after the door closure 140, alignment mark 163 is configured to be overlapped in guide mark 144.

Further, since guide mark 144 has for the transmittance section visually to make a distinction in light tight region 143 144 ', even if touch sensor 160 is in the state being attached at door closure 140, at least a portion of transmittance section 144 ' is not hidden yet Cover, thus the part being looked at as user visually to make a distinction.And this can become to the succinct outward appearance generation realizing door The factor of impact.

In order to solve such problem, in the state of being attached at after door closure 140 before touch sensor 160, The shading member 180 of opaqueness is attached at after touch sensor 160 and covers guide mark 144.Shading member 180 is excellent Choosing is formed by the color of the color identical series with light tight region 143.Shading member 180 can have thin film or plate-shaped State.

As described above, shading member 180 covers the transmittance section 144 ' of guide mark 144, so that user is difficult to identify Guide mark 144.

Hereinafter, the alignment structures of the door closure 140 to the form based on guide mark 144 and touch sensor 160 are said Bright.

Figure 12 is the first enforcement of the structure illustrating the alignment for the door closure 140 shown in Figure 11 and touch sensor 160 The concept map of example.

With reference to Figure 12, guide mark 144 includes the light tight portion 144 in transmittance section 144 ' and transmittance section 144 ' ".

Transmittance section 144 ' is formed to coat light tight portion 144 ", thus dividing light tight region 143 and light tight region 143.That is, form transmittance section 144 ' in light tight region 143, and form light tight portion 144 in transmittance section 144 ' ".

Be completely coated with light tight portion 144 in transmittance section 144 ' shown in this accompanying drawing " closed loop form.But, this enforcement Example is not limited to this.Transmittance section 144 ' also can in coat light tight portion 144 " a part open loop form.

Form light tight portion 144 " material can be constituted by with the material identical material forming light tight region 143.And And, light tight portion 144 " and light tight region 143 can by identical series (for example, black) color be formed.

The part being formed except transmittance section 144 ' can be the quilt when forming light tight region 143.As one, printing opacity Portion 144 ' is light-proof material (reference and the aforesaid masking printed after door closure 140 for forming light tight region 143 The related explanation (Fig. 6) of layer 140b) when by except part, it can be the part of lid main body 140a only leaving light transmission.

As described above, when guide mark 144 is by the light tight portion 144 in transmittance section 144 ' and transmittance section 144 ' " when constituting, Guide mark 144 is made to be identified as differentiable structure in light tight region 143 using transmittance section 144 ', simultaneously in printing opacity It is formed with light tight portion 144 in portion 144 ' " such that it is able to reduce the identification probability to guide mark 144 for the user.

When alignment mark 163 is configured at light tight portion 144 " in when, touch sensor 160 is in and is aligned with door closure 140 State.That is, in the state of being attached at after door closure 140 before touch sensor 160, alignment mark 163 is configured For being overlapped in light tight portion 144 " in.

Alignment mark 163 can by with light tight portion 144 " color of different series formed.Based on this, can easily identify Go out and be overlapped in light tight portion 144 " in alignment mark 163, thus improving the convenience on packaging technology.

In addition, in the state of touch sensor 160 is attached at door closure 140, the shading member 180 of opaqueness is attached at After touch sensor 160 and cover the transmittance section 144 ' of guide mark 144.Shading member 180 can be formed printing opacity Portion 144 ' and light tight portion 144 " all covers, or is formed closed loop form corresponding with transmittance section 144 '.

Figure 13 is the second enforcement of the structure illustrating the alignment for the door closure 140 shown in Figure 11 and touch sensor 160 The concept map of example.

With reference to Figure 13, guide mark 4144 is made up of the transmittance section 4144 ' entirety mutually distinguished with light tight region 4143.

The part being formed except transmittance section 4144 ' can be the quilt when forming light tight region 4143.As one, thoroughly Light portion 4144 ' be print after door closure 4140 for form light tight region 4143 light-proof material (with reference to aforementioned The related explanation (Fig. 6) of shielding layer 140b) when by except part, it can be lid main body 140a only leaving light transmission Part.

When alignment mark 4163 is configured in transmittance section 4144 ', touch sensor 4160 is in relative with door closure 4140 Neat state.That is, in the state of being attached at after door closure 4140 before touch sensor 4160, alignment mark 4163 quilt It is configured to be overlapped in transmittance section 4144 '.

Because guide mark 4144 is made up of transmittance section 4144 ' entirety, it is right in transmittance section 4144 ' to be configured to be overlapped in Neat labelling 4163 will be exposed to outside by the door closure 4140 of light transmission.In such a configuration, for making user be difficult to identify Alignment mark 4163, alignment mark 4163 can be formed by the color with light tight region 4143 identical series.

As described above, when guide mark 4144 is made up of transmittance section 4144 ' entirety, and also include light tight portion 4144 " Aforesaid first embodiment compare, the size of guide mark 4144 can be reduced.And, due to will be overlapping for alignment mark 4163 Alignd in transmittance section 4144 ', be overlapped in light tight portion 4144 with by alignment mark 4163 " in alignd first real Apply example to compare, have the advantages that easily to be alignd.

In addition, in the state of touch sensor 4160 is attached at door closure 4140, the shading member 4180 of opaqueness pastes Invest after touch sensor 160 and cover the transmittance section 4144 ' of guide mark 4144.

Hereinafter, the detailed construction of the touch sensor 160 related to alignment mark 163 is illustrated.

Figure 14 is the front view of the touch sensor 160 shown in Figure 11.

With reference to Figure 14, touch sensor 160 is provided with the detection zone 160 ' of the touch input for detection to door closure 140, Second transmission region 142 is located at the position being overlapped in described detection zone 160 '.

Further, in order to detect the touch input of the light tight region 143 to the second transmission region 142 periphery, inspection Survey region 160 ' can be configured to also be overlapped in described light tight region 143.In described structure, one of detection zone 160 ' Divide and be overlapped in the second transmission region 142, another part is overlapped in the light tight region 143 of the second transmission region 142 periphery.

Alignment mark 163 located at touch sensor 160 can be located at the part being formed without detection zone 160 '.This accompanying drawing Shown in alignment mark 163 located at touch sensor 160 corner parts.

It is provided with as transmitting the input letter detecting in touch sensor 160 to controller in touch sensor 160 Number circuit flexible printed wiring board 161 (flexible printed circuit board:fpcb).Flexible printer circuit Plate 161 can have the form extending from the side of touch sensor thin film 162.

Hereinafter, the Rotating fields of touch sensor 160 are illustrated.

Figure 15 is the section being showing along the first embodiment of touch sensor 160 that the line d-d ' shown in Figure 14 obtains Figure.

With reference to Figure 15, touch sensor 160 includes: base portion 162a, touch patterns portion 162b and labeling section 162c.

Base portion 162a forms the profile of touch sensor 160, and is formed by Ins. ulative material.Base portion 162a is by printing opacity Property material formed so that in display apparatus module 130 output visual information transmission.

The touch patterns portion 162b of the detection zone 160 ' constituting touch input is formed with base portion 162a.Touching figure In case portion 162b, for making hardware constitute grid (grid) shape, it can be respectively along first direction (x-axis) and second direction (y-axis) extends, can be using silver-colored ag, copper cu, golden au etc. as described hardware.

The metallicses constituting touch patterns portion 162b are formed compared with unfertile land (nanoscale) with live width t1, t2.Thus, touch figure Case portion 162b is configured to user and cannot with the naked eye identify, thus not to the visual information structure exporting from display apparatus module 130 Become interference.

The metallicses extending respectively along first direction and second direction are insulated in overlapped part.For this reason, Insulating barrier (not shown) can be plugged in overlapped part.

Touch patterns portion 162b can either directly or indirectly (by extra signal transmission portion) and flexible printed wiring board 161 are electrically connected.

Labeling section 162c constituting alignment mark 163 (163a, 163b) is formed with base portion 162a.Labeling section 162c by Formed with touch patterns portion 162b identical material, and constitute with being electrically separated from each other.

In order to realize such structure, labeling section 162c can with touch patterns portion 162b identical technique on realize, and It is not to realize in the technique independent with it.For example, it is deposited on the metal in base portion 162a via mask, etch process etc. Material can be divided into touch patterns portion 162b and labeling section 162c, now, labeling section 162c can by etched part 162d become with The electrically separated structure of touch patterns portion 162b.

That is, labeling section 162c is understood as being constituted by with touch patterns portion 162b identical metallicses, but with touch Touch the dummy portions that drafting department 162b is electrically isolated and cannot detect touch input.Using described structure, labeling section 162c exists It is configured in base portion 162a constitute identical layer position with touch patterns portion 162b.

Labeling section 162c is patterned with the area with regulation, with the hardware constituting touch patterns portion 162b not With, it with the naked eye can be identified by user.Labeling section 162c has opaqueness, as it was previously stated, its can by with light tight portion 144 " different series color constitute (situation of the first embodiment related to Figure 12), or by with light tight region 4143 phase The color of same series constitutes (situation of the second embodiment related to Figure 13).

Described structure can form touch patterns portion 162b and labeling section 162c with single metallicses, therefore has realization letter The advantage of clean Rotating fields.And, utilize the metallicses of relative moderate in described structure, have an advantage in that, can replace comprising There is the ito transparency electrode of the indium of the dilute metal of the high price being referred to as terres rares.

Figure 16 is the section being showing along the second embodiment of touch sensor 5160 that the line d-d ' shown in Figure 14 obtains Figure.

With reference to Figure 16, touch sensor 5160 includes: base portion 5162a, touch patterns portion 5162b, signal transmission portion 5162e and labeling section 5162c.

Base portion 5162a forms the profile of touch sensor 5160, and is formed by Ins. ulative material.Base portion 5162a by Translucent material is formed, so that the visual information transmission exporting in display apparatus module 5130.

The touch patterns portion 5162b of detection zone 5160' constituting touch input is formed with base portion 5162a.Touch Drafting department 5162b can by indium tin oxide (indium-tin oxide, ito), CNT (carbon nano tube, ) etc. cnt transmitance conductive film deposits to be realized in the form of base portion 5162a.

Touch patterns portion 5162b may include and extends and constitute inspection respectively along first direction (x-axis) and second direction (y-axis) Survey first and second patterned layer of passage.In this accompanying drawing, in order to touch patterns portion 5162b and signal transmission portion are easily described Annexation between 5162e, to conceptually illustrate touch patterns layer.

It is connected with signal transmission portion 5162e, signal transmission portion 5162e and flexible printer circuit in touch patterns portion 5162b Plate 5161 is connected.That is, touch patterns portion 5162b and flexible printed wiring board 5161 are electrically connected by signal transmission portion 5162e Connect, thus transmitting the touch input signal detecting in touch patterns portion 5162b.Signal transmission portion 5162e is by colored substance quality structure Become, but do not expose to outside because being covered by the light tight region 5143 of door closure 5140.

Labeling section 5162c constituting alignment mark 5163a, 5163b is formed with base portion 5162a.Labeling section 5162c with Touch patterns portion 5162b and signal transmission portion 5162e carries out electrically separated.Labeling section 5162c carries out figure with the area with regulation Case, different from touch patterns portion 5162b, it with the naked eye can be identified by user.

Labeling section 5162c has opaqueness, as it was previously stated, its can by with light tight portion 144 " different series color structure Become (situation of the first embodiment related to Figure 12), or be made up of the color with light tight region 4143 identical series (situation of the second embodiment related to Figure 13).

Labeling section 5162c can be formed by with signal transmission portion 5162e identical material, and constitutes with being electrically separated from each other.For Realize such structure, labeling section 5162c can with signal transmission portion 5162e identical technique on realize, rather than with Realize in its independent technique.For example, the metallicses being deposited in base portion 5162a via mask, etch process etc. can It is divided into signal transmission portion 5162e and labeling section 5162c, now, labeling section 5162c can be become and letter by etched part 5162d Number electrically separated structure of transfer part 5162e.

Or, labeling section 5162c also can be made up of the material different from signal transmission portion 5162e, and in other techniques Realize.In the case, have an advantage in that, by the letter of labeling section 5162c is formed on the touch sensor 5160 of manufacture Single technique, can produce the touch sensor 5160 being formed with alignment mark 5163a, 5163b.

Hereinafter, the manufacture method of the door closure 140 being combined with touch sensor 160 is illustrated.

Figure 17 is the flow chart of the associated methods for the door closure 140 shown in Figure 11 and touch sensor 160 are described, Figure 18 It is the flow chart being used for the detailed step that explanation attaches touch sensor 160 in door closure 140 in the structure shown in Figure 12.

With reference to Figure 17, in order to manufacture door closure 140, the one side in the door closure 140 being formed by translucent material first forms bag Cover the light tight region 143 (step s10) of the second transmission region 142.As it was previously stated, in order to form the second printing opacity in door closure 140 Region 142 and light tight region 143, can print light-proof material in the one side of door closure 140, or attaching is formed with light tight portion 144 " thin film.

Then, the one side in door closure 140 attaches the touch sensing of the touch input for detection to the second transmission region 142 Device 160 (step s30).The step attaching touch sensor 160 includes: so that the alignment mark 163 of touch sensor 160 is set to It is overlapped in the step in the guide mark 144 being formed at light tight region 143.

Related to this, can come through the step of following sectionalization in the first embodiment related to aforesaid Figure 12 Alignment mark 163 is aligned in guide mark 144.

With reference to Figure 18, first, configuration touch sensor 160 so that alignment mark 163 is located at the transmittance section of guide mark 144 In 144 ' (step s31).Subsequently, adjust the position of touch sensor 160, so that alignment mark 163 is formed at transmittance section In light tight portion 144 in 144 ' " (step s32).Now, the position of fine adjustments touch sensor 160, so that aforesaid One to the 3rd alignment mark 163a, 163b, 163c respectively be located at the first to the 3rd guide mark 144a, 144b, 144c impermeable In light portion 144 ".

Alignment as above can be confirmed with the naked eye or even using equipment by user and be adjusted touch sensor 160 Position is realizing, or available equipment is completely automatically realized.

The shading member of opaqueness after door closure 140 attaches touch sensor 160, is attached in touch sensor 160 180 to cover guide mark 144 (step s40).Additionally, configuration display apparatus module 130 is to cover the second transmission region of door 142, thus completing touch screen 12.

In addition, door closure 140 can be formed to be in the form of bending at least partially at it.For this reason, forming light tight area After the step in domain 143, and before door closure 140 attaches the step of touch sensor 160, can be added with and door closure 140 is entered The step (step s20) of the form that row presses and is morphed into bending.

Figure 19 is the profile that the line e-e ' shown in along Fig. 4 obtains.

With reference to Figure 19, door closure 140 is combined with doorframe 110.As it was previously stated, doorframe 110 may include housing 111 and inside casing 112.

Housing 111 attaches door closure 140 before it.Inside casing 112 is combined side after housing 111.Housing 111 He Combination between inside casing 112 can be realized using bolt combination, grab combination, adhesive bond etc..

The structure that housing 111 shown in this accompanying drawing and inside casing 112 are be combined with each other using adhesive bond.Specifically, exist Inside casing 112 projects and is formed with reference to muscle 112d, is formed with for accommodating the muscle appearance combining muscle 112d in projecting behind of housing 111 Receive portion 111e, be filled with bonding component 172 in muscle receiving portion 111e.

In addition, during combination when between housing 111 and inside casing 112, the outer peripheral portion of inside casing 112 can be before housing 111 Project and form and formed installation guide 112c.The periphery installing guide 112c along housing 111 extends shape with closed loop form Become, thus internally forming the space for accommodating door closure 140.

Guide 112c is installed can be configured to cover the side of door closure 140, installs and can advise above guide 112c Fixed highly prominent formed, thus with form identical plane above adjacent door closure 140.Using described structure, can reduce Jump between guide 112c and door closure 140 is installed, thus realizing more succinct outward appearance.

Figure 20 be illustrate the f shown in from Fig. 4 partly isolate door closure 140 and the concept map of doorframe 110.

In general, when assembling has the part (for example, apex portion, depressed part grade) of special shape, this portion It is divided into the benchmark of set location of can aliging and easily assembled.But, such as the present embodiment door closure 140 by round-shaped In the case of formation, because corner parts are in cambered form, it is not easy to as set location of can aliging in assembling Part.Particularly, in the case of this utility model, if door closure 140 fails the correct position being incorporated on doorframe 110, Then can occur first and second transmission region 141,142 of door closure 140 and first and second peristome 110a of doorframe 110, The not corresponding problem of 111b.

In order to solve described problem, as shown in figure 20, door closure 140 is provided with and can set as aliging when being assembled with doorframe 110 The part of the benchmark of seated position.

Specifically, door closure 140 is included with the cambered ground of rounded form band the first corner 140 ' of being formed and with straight line Form connects the second corner 140 of described first corner 140 ' both sides ".That is, door closure 140 has one part with linear It is round-shaped that state is cut.

Aforesaid installation guide 112c includes: corresponding with the first corner 140 ' with cambered extend first Protuberance 112c '；And, with the second corner 140 " corresponding the second protuberance 112c with rectilinear configuration extension ".

In described structure, the second corner 140 " and the second protuberance 112c " become between door closure 140 and doorframe 110 Assembling when can align the benchmark of set location.That is, when the second corner 140 " with the second protuberance 112c " accordingly configure When, door closure 140 by the positive position on doorframe 110 so that first and second transmission region 141,142 of door closure 140 with First and second peristome 110a, 111b of doorframe 110 accordingly configure.

And, the positive position being located on doorframe 110 by door closure 140, is capable of being attached at the touch sensing of door closure 140 Device 160 and be incorporated into doorframe 110 display apparatus module 130 between alignment.Thereby, it is possible to guarantee the reliability of touch screen 12.

Second protuberance 112c " can be located at the optional position of doorframe 110, and but, going out for making user be difficult identification 10 is in Cut is round-shaped, the second protuberance 112c " it is preferably formed in the downside of doorframe 110.

In addition, together with reference to Figure 19 above, door closure 140 can be incorporated into doorframe 110 using the sealant 171 of liquid.? The sealant filling slot 111d being previously formed filling sealing agent 171 of housing 111.

Sealant filling slot 111d may include sealant painting part 111d ' and sealant trap portion 111d ".

Sealant painting part 111d ' is the part for filling sealing agent 171, its be respectively coated by the first peristome 110a and Second peristome 111b.

It is provided with for trapping respectively to the interior outside of sealant painting part 111d ' in the both sides of sealant painting part 111d ' The sealant trap portion 111d of the sealant 171 flowing out ".Sealant trap portion 111d " can be with sealant painting part 111d ' point The state opening predetermined distance abreast extends formation along sealant painting part 111d '.Sealant trap portion 111d " can have ratio The narrow width of sealant painting part 111d '.

In sealant painting part 111d ' and sealant trap portion 111d " between can specify that and highly prominent be formed with boss 111f.Described boss 111f corresponding with before housing 111 can highly project and be formed, and in the case, boss 111f uses As the bearing-surface supporting door closure 140.

Using described structure, during door closure 140 is incorporated into housing 111, even if being filled in sealant painting part The sealant 171 of 111d ' leaks, and the sealant trap portion 111d that be respectively arranged on interior outside can be utilized " trap the close of leakage Envelope agent 171.The problem reducing thereby, it is possible to the exterior quality that the leakage preventing sealant 171 causes.

And, utilize described structure, sealant painting part 111d ' can be made as far as possible near the marginal portion of housing 111 Configured.Non-bonding part thereby, it is possible to make the marginal portion of corresponding door closure 140 reaches minimum, thus improving Bond strength, and it is effectively prevented impurity by the gap entrance between door closure 140 and housing 111.

Claims (13)

1. a kind of device for clothing processing is it is characterised in that include:

Body, is provided with medicated clothing dispensing port, and

Door, for being opened and closed described medicated clothing dispensing port；

Described door includes:

Door closure, for forming the outward appearance of described door, is provided with transmission region and the light tight region of the described transmission region of cladding,

Display apparatus module, is configured at after described door closure, for visual information is exported by described transmission region, and

Touch sensor, is attached at after described door closure, for the touch input to described transmission region for the detection；

It is formed with alignment mark in described touch sensor, be formed with using the guiding of described alignment mark in described light tight region The guide mark of the sticking position of described touch sensor.

2. device for clothing processing according to claim 1 is it is characterised in that be attached at described door in described touch sensor In the state of after lid, described alignment mark is configured to be overlapped in described guide mark.

3. device for clothing processing according to claim 2 is it is characterised in that described guide mark includes:

Light tight portion, and

Transmittance section, is formed to coat described light tight portion, for dividing described light tight portion and described light tight region；

In the state of being attached at after described door closure before described touch sensor, described alignment mark is configured to attach most importance to It is laminated in described light tight portion.

4. device for clothing processing according to claim 3 it is characterised in that described alignment mark by with described light tight portion The color of different series is formed.

5. device for clothing processing according to claim 1 is it is characterised in that described door also includes:

The shading member of opaqueness, in the state of being attached at after described door closure before described touch sensor, institute State shading member to be attached at after described touch sensor and cover described guide mark.

6. device for clothing processing according to claim 5 it is characterised in that described shading member by with described light tight area The color of the color identical series in domain is formed.

7. device for clothing processing according to claim 1 is it is characterised in that described guide mark is in described transmission region week At least the three of side sentence and are configured separated from each other.

8. device for clothing processing according to claim 1 is it is characterised in that described alignment mark is formed at described touch biography The corner parts of sensor.

9. device for clothing processing according to claim 1 is it is characterised in that described touch sensor includes:

Base portion, has light transmission；

Touch patterns portion, is patterned with presetting pattern in described base portion, for detection, described door closure is touched Touch input；And

Labeling section, is formed in described base portion, for forming described alignment mark.

10. device for clothing processing according to claim 9 it is characterised in that described labeling section by with described touch patterns Portion's identical material is formed, and with described touch patterns portion carry out electrically separated.

11. device for clothing processing according to claim 9 are it is characterised in that described touch sensor also includes:

Signal transmission portion, is electrically connected and forms signaling path with described touch patterns portion；

Described labeling section is formed by with described signal transmission portion identical material.

12. device for clothing processing according to claim 1 are it is characterised in that described door closure includes:

Lid main body, has light transmission；And

Shielding layer, is configured to cover after described lid main body, and forms described light tight region.

13. device for clothing processing according to claim 12 it is characterised in that described transmission region be not configured with described The part of shielding layer.