CN206331331U - The bearing structure of pressure sensor in a kind of wearable device - Google Patents

Abstract

The utility model discloses a kind of bearing structure of pressure sensor in wearable device, including display screen, FPC, multiple pressure sensors and metal framework；Metal framework includes annular wall and U-shaped groove, and step is protected in one end of U-shaped groove provided with pressure sensor；FPC is arranged in U-shaped groove, and the upper surface of pressure sensor protects the upper surface of step high than pressure sensor；Metal framework presses to pressure sensor so that the mobile certain stroke of pressure sensor compression, so as to carry out precompressed detection to pressure sensor, to realize the testing calibration of pressure sensor；The degree of accuracy of calibration can be provided；Pressure sensor protection step can play a part of protecting pressure sensor.The bearing structure of pressure sensor can be moved by the compression of pressure sensor in wearable device of the present utility model, and the debugging and detection of Z-direction stress are carried out to wearable device, so as to enrich the man-machine interaction experience of wearable device.

Description

The bearing structure of pressure sensor in a kind of wearable device

Technical field

The utility model is related to wearable device technical field, relates in particular to pressure sensor in a kind of wearable device Bearing structure.

Background technology

By introducing pressure sensing technology in present Wearable device, man-machine interaction experience can be enriched, for example, is existed Originally can detect XY directions motion planar touch technically increase can detect Z-direction motion pressure sensing technology.Especially The smaller equipment surface of area is so touched in wrist-watch bracelet, the action being simply pressed downward can bring new action to refer to Order.

Existing wearable device is what is born on the lower surface of display screen plus a special sensor stand, display screen Pressure is passed on pressure sensor by sensor stand, and pressure sensor and sensor stand are all welded in the circuit board, line Road plate rigging position is that outer shell is fixed.Stroke that first will be certain to pressure sensor precompressed during work, so as to testing calibration； Due to the tolerance stack of wiring board and sensor stand, it is difficult to ensure that the precompressed stroke of pressure sensor can make full use of, increase The difficulty of debugging, calibration accuracy is low, it is possible to cause to detect the imperfect of data, the normal of influence wearable device is used.

The content of the invention

The purpose of this utility model is the bearing structure for providing pressure sensor in a kind of wearable device, existing to solve Wearable device in be difficult to pressure sensor carry out precompressed testing calibration, calibration accuracy is low, and pressure sensor rapid wear Bad defect.

Therefore, the utility model provides a kind of bearing structure of pressure sensor in wearable device, including it is display screen, soft Property wiring board and multiple pressure sensors, the multiple pressure sensor are welded on the FPC at equal intervals；Also wrap Metal framework is included, the metal framework includes annular wall, and the lower section of the annular wall is provided with U-shaped groove, the one of the U-shaped groove Step is protected provided with pressure sensor in end；The FPC is arranged in the U-shaped groove, the pressure sensor it is upper Protect the upper surface of step high than the pressure sensor in surface；The metal framework presses to the pressure sensor so that The pressure sensor is pressurized.

Compared with prior art, advantage of the present utility model and good effect are：The utility model discloses one kind wearing The bearing structure of pressure sensor in equipment, including display screen, FPC and multiple pressure sensors, the multiple pressure Sensor is welded on the FPC at equal intervals；Also include metal framework, the metal framework includes annular wall, described The lower section of annular wall is provided with U-shaped groove, and step is protected in one end of the U-shaped groove provided with pressure sensor；The flexible circuitry Plate is arranged in the U-shaped groove, and the upper surface of the pressure sensor protects the upper surface of step than the pressure sensor It is high；The metal framework presses to the pressure sensor so that the mobile certain stroke of pressure sensor compression, so that Precompressed detection can be carried out to pressure sensor, to realize the testing calibration of pressure sensor；The utility model passes through metal frame Frame carries out testing calibration to pressure sensor, rather than is manually calibrated, and can provide the degree of accuracy of calibration.Pressure sensing Protect the upper surface of step high than pressure sensor in the upper surface of device so that pressure sensor has compression stroke；Can be to pressure Force snesor is pressed so that pressure sensor, which is pressurized, to be moved, and the mobile stroke of pressure sensor compression is compression stroke. The bearing structure of pressure sensor can cause what existing wearable device was moved in XY directions in wearable device of the present utility model On the basis of planar touch screen technology, moved by the compression of pressure sensor, the debugging of Z-direction stress is carried out to wearable device And detection, so as to enrich the man-machine interaction experience of wearable device.Pressure sensor protection step can play protection pressure The effect of sensor, after display screen and pressure sensor, which are pressurized, is moved to compression stroke, display screen can be protected with pressure sensor Shield step is in contact, and pressure sensor protection step make it that display screen can not be continued to move to, and display screen can not continue to pass pressure Sensor is pressed, so as to play a part of protecting pressure sensor.

It is read in conjunction with the figure after embodiment of the present utility model, other features and advantage of the present utility model will become Obtain clearer.

Brief description of the drawings

Fig. 1 is the structural representation of the embodiment 1 of the bearing structure of pressure sensor in the utility model wearable device；

Fig. 2 is the structure decomposition figure of the embodiment 1 of the bearing structure of pressure sensor in the utility model wearable device；

Fig. 3 is the part-structure signal of the embodiment 1 of the bearing structure of pressure sensor in the utility model wearable device Figure；Fig. 4 is the bearing structure of pressure sensor in the utility model wearable device（Before pressure sensor is pressurized）Embodiment 1

Part-structure sectional view；

Fig. 5 is the bearing structure of pressure sensor in the utility model wearable device（After pressure sensor is pressurized）Implementation The part-structure sectional view of example 1；

Fig. 6 is the bearing structure of pressure sensor in the utility model wearable device（Before display screen support shell fragment is pressurized）'s It is real

Apply the part-structure sectional view of example 1；

Fig. 7 is the bearing structure of pressure sensor in the utility model wearable device（After display screen support shell fragment is pressurized）'s The part-structure sectional view of embodiment 1；

Fig. 8 is that the structure of the embodiment 2 of the bearing structure of pressure sensor in the utility model wearable device shows exploded view；

Fig. 9 is the bearing structure of pressure sensor in the utility model wearable device（Before pressure sensor is pressurized）Implementation Example 2

Part-structure sectional view；

Figure 10 is the bearing structure of pressure sensor in the utility model wearable device（After pressure sensor is pressurized）Reality Apply the part-structure sectional view of example 2；

Figure 11 is the bearing structure of pressure sensor in the utility model wearable device（Before pressure sensor is pressurized）Reality Apply example

3 part-structure sectional view；

Figure 12 is the bearing structure of pressure sensor in the utility model wearable device（After pressure sensor is pressurized）Reality Apply the part-structure sectional view of example 3；

In Fig. 1-Figure 12, reference and its corresponding component names are as follows：

1. metal framework；11. annular wall；12.U type grooves；13. pressure sensor protects step；14. display screen supports bullet Piece；15. display screen compressing tablet；16. block button hole；17. arc spring lamination；2. pressure sensor；3. FPC；4. display screen；5. Display screen protects eyeglass；6. ring cover；61. buckle is raised；7. ring packing foam.

Embodiment

Embodiment of the present utility model is described in detail below, it should be appreciated that described herein Embodiment is merely to illustrate and explained the utility model, is not limited to the utility model.

The bearing structure of pressure sensor includes display screen 4, FPC 3 and many in wearable device of the present utility model Individual pressure sensor 2, multiple pressure sensors 2 are welded on FPC 3 at equal intervals；Also include metal framework 1, metal frame Frame 1 includes annular wall 11, and the lower section of annular wall 11 is provided with U-shaped groove 12, and one end of U-shaped groove 12 is protected provided with pressure sensor Step 13；FPC 3 is arranged in U-shaped groove 12, and step 13 is protected in the upper surface of pressure sensor 2 than pressure sensor Upper surface it is high；Metal framework 1 presses to pressure sensor 2 so that pressure sensor 2 is pressurized.

Metal framework 1 of the present utility model can be pressed to pressure sensor 2 so that pressure sensor 2, which is pressurized, to be moved Dynamic certain stroke, so as to carry out precompressed detection to pressure sensor 2, to realize the testing calibration of pressure sensor 2；This Utility model carries out testing calibration by metal framework 1 to pressure sensor 2, rather than is manually calibrated, and can provide The degree of accuracy of calibration.

Protect the upper surface of step 13 high than pressure sensor in the upper surface of pressure sensor 2 so that pressure sensor 2 has There is compression stroke；Pressure sensor 2 can be pressed so that pressure sensor 2, which is pressurized, to be moved, and pressure sensor 2 is pressurized Mobile stroke is compression stroke.The bearing structure of pressure sensor can cause existing in wearable device of the present utility model Wearable device is moved, to wearing on the basis of the planar touch screen technology that XY directions are moved by the compression of pressure sensor 2 Equipment carries out the debugging and detection of Z-direction stress, so as to enrich the man-machine interaction experience of wearable device.

Pressure sensor protection step 13 can play a part of protecting pressure sensor 2, when display screen 4 and pressure sensing Device 2 is pressurized and is moved to after compression stroke, and display screen 4 can be in contact with pressure sensor protection step 13, pressure sensor protection Step 13 make it that display screen 4 can not be continued to move to, and display screen 4 can not continue to press to pressure sensor 2, so as to rise To the effect of protection pressure sensor 2.Pressure sensor protection step 13 of the present utility model is arc, pressure sensor protection The quantity of step 13 is 2, and one end of U-shaped groove 12 is symmetricly set at equal intervals.

Therefore, the metal framework 1 of the bearing structure of pressure sensor can be to pressure in wearable device of the present utility model Sensor 2 carries out precompressed testing calibration, can provide the degree of accuracy of calibration；Pressure sensor protection step 13 can play protection The effect of pressure sensor 2.The bearing structure of pressure sensor can pass through pressure sensing in wearable device of the present utility model The compression movement of device 2, the debugging and detection of Z-direction stress are carried out to wearable device, so as to enrich the man-machine of wearable device Interactive experience.

Also include multiple display screens and support shell fragment 14, display screen 4 is arranged on the top that multiple display screens support shell fragment 14.It is aobvious Display screen support shell fragment 14 has certain elasticity, and display screen 4 can be played a supporting role, and causes when being pressed to display screen 4 aobvious Display screen 4 being moved when or else continue to press to display screen 4 after certain stroke, and display screen 4 supports shell fragment 14 in display screen It can be resetted under elastic force effect, so that display screen 4 will not press to pressure sensor 2, it is ensured that only After display screen 4 is by ambient pressure, further pressure sensor 2 could be pressed, and then can be to pressure sensor 2 Play a protective role.

Eyeglass 5 is protected in the top of display screen 4 provided with display screen, and display screen protection eyeglass 5 is transparent glass sheet, display screen protection Eyeglass 5 can protect display screen 4 not frayed or scrape damage.

Metal framework 1 of the present utility model prepares shaping by the way of metal stamping, is conducive to the batch of metal framework 1 Production, and can be with the size, shape and structure of precise control metal framework 1, the formed precision of metal framework 1 is high, uniformity It is good, it is not necessary to structural adjustment to be carried out to metal framework 1, it is ensured that metal framework 1 is accurately pressed to pressure sensor 2, Error influence will not be produced on the precompressed stroke of pressure sensor 2, it is ensured that the testing calibration of pressure sensor 2 it is accurate Degree, can be with the compression stroke of precise control pressure sensor 2.

Embodiment 1

As shown in Fig. 1-Fig. 7, multiple display screen branch of the bearing structure of pressure sensor in the wearable device of the present embodiment Support shell fragment 14 is arranged in annular wall 11 and positioned at the top of U-shaped groove 12, display screen support shell fragment 14 and U-shaped groove at equal intervals 12 bottom has space.

Display screen support shell fragment 14 is the metal clips with ledge structure, and display screen support shell fragment 14 can be by being superimposed upon Two metal clips composition together, the one end for the metal clips that the metal clips of top is arranged below；The metal elastic of top The size of piece is less than the size of the metal clips of lower section, and the metal clips of top can be circular or square, the metal of lower section Shell fragment can be square.Fig. 6, Fig. 7 are respectively that display screen support shell fragment 14 is pressurized forward and backward structural representation, by Fig. 6 and Fig. 7 As can be seen that metal clips above is in contact with display screen 4, can be conducive to display screen support shell fragment 14 preferably with Display screen 4 is in contact and is pressurized, and makees so as to be conducive to display screen to support shell fragment 14 to play support to display screen 4 and reset With, and then be conducive to display screen to support shell fragment 14 to play a protective role pressure sensor 2.

The top of annular wall 11 is provided with multiple display screen compressing tablets 15 at equal intervals, and multiple display screen compressing tablets 15 are withheld in display screen Protect the top of eyeglass 5.When being assembled to the bearing structure of pressure sensor in the wearable device of the present embodiment, multiple displays Shield compressing tablet 15 and be in straight configuration, FPC 3, multiple pressure sensors 2, display screen 4 and display screen are protected into 5 groups of eyeglass After being attached in metal framework 1, with the mode of metal stamping by multiple bendings of display screen compressing tablet 5 so that multiple display screen compressing tablets 15 withhold display screen protect eyeglass 5 top, so as to by FPC 3, multiple pressure sensors 2, display screen 4, Display screen protects eyeglass 5 and the assembling of metal framework 1 to be fixed together；Moreover, pressure sensor in the wearable device of the present embodiment Bearing structure assembling mode and structure can make it that metal framework 1 presses to pressure sensor 2, multiple display screen pressures Piece 15 withholds the top that eyeglass 5 is protected in display screen so that multiple display screen compressing tablets 15 are applied to display screen protection eyeglass 5 Pressure, so as to be pressed to pressure sensor 2 so that the mobile certain stroke of the compression of pressure sensor 2, so as to right Pressure sensor 2 carries out precompressed detection, to realize the testing calibration of pressure sensor 2.Will be multiple by the way of metal stamping The bending of display screen compressing tablet 5, can be with the angle and distance of the multiple bendings of display screen compressing tablet 5 of precise control, it is ensured that display screen pressure Piece 5 will not produce error influence to the precompressed stroke of pressure sensor 2, it is ensured that the standard of the testing calibration of pressure sensor 2 Exactness.Preferably, the quantity of display screen compressing tablet 15 is 6.

Fig. 4, Fig. 5 are respectively that pressure sensor 2 is pressurized forward and backward structural representation, before compression, pressure sensor 2 Upper surface is higher than the upper surface of pressure sensor protection step 13, and difference in height is the shift motion of pressure sensor 2, such as Fig. 4 Shown in middle A；Start movement, after shift motion is moved to, the meeting of display screen 4 after display screen 4 and pressure sensor 2 are pressurized It is in contact with pressure sensor protection step 13, pressure sensor protection step 13 make it that display screen 4 can not be continued to move to, and shows Screen 4 can not continue to press to pressure sensor 2 so that pressure display unit 2 is no longer influenced by pressure effect, so as to play Protect the effect of pressure sensor 2.

Embodiment 2

As Figure 8-Figure 10, in the wearable device of the present embodiment the bearing structure of pressure sensor multiple display screen branch Support shell fragment 14 is arranged on FPC 3 at equal intervals, and display screen support shell fragment 14 is disposed adjacent with pressure sensor 2.

Display screen support shell fragment 14 can be elastic plastic block, and elastic force blob of viscose is flexible, can produce certain elastic shape Become；Display screen 4 is arranged on the top of elastic force blob of viscose, and elastic force blob of viscose can be produced elastic deformation by the pressure of display screen 4；When no longer When being pressed to display screen 4, display screen 4 can reset under the elastic force effect of elastic force blob of viscose, so that display screen 4 Pressure sensor 2 will not be pressed, it is ensured that only after display screen 4 is by ambient pressure, could be further to pressure Force snesor 2 is pressed, and then pressure sensor 2 can be played a protective role.The contact surface of display screen 4 and elastic force blob of viscose Product is big, so as to be conducive to display screen to support shell fragment 14 to play support and reset response to display screen 4, and then is conducive to display Screen support shell fragment 14 plays a protective role to pressure sensor 2.

Metal framework 1 also includes ring cover 6, and the inner side of ring cover 6 is provided with ring packing foam 7, and ring packing foam 7 can To play sealing waterproof action, it can prevent that extraneous water from being entered pressure in the wearable device of the present embodiment by ring cover 6 and passed Inside the bearing structure of sensor；Ring packing foam 7 and display screen protection eyeglass 5 are in contact, and can also play protection display screen The effect of eyeglass 5 is protected, prevents that display screen from protecting eyeglass 5 to be crushed.

Fig. 9, Figure 10 are respectively that pressure sensor 2 is pressurized forward and backward structural representation, before compression, pressure sensor 2 Upper surface is higher than the upper surface of pressure sensor protection step 13, and difference in height is the shift motion of pressure sensor 2, such as Fig. 9 Shown in middle B；Start movement, after shift motion is moved to, the meeting of display screen 4 after display screen 4 and pressure sensor 2 are pressurized It is in contact with pressure sensor protection step 13, pressure sensor protection step 13 make it that display screen 4 can not be continued to move to, and shows Screen 4 can not continue to press to pressure sensor 2 so that pressure display unit 2 is no longer influenced by pressure effect, so as to play Protect the effect of pressure sensor 2.

Ring cover 6 is arranged on the top of display screen protection eyeglass 5 and snapped connection with annular wall 11, on ring cover 6 at equal intervals Provided with multiple buckle projections 61, annular wall 11 is first-class to be interval with multiple block button holes 16, and multiple buckle projections 61 are buckled in respectively In multiple block button holes 16, so that ring cover 6 and annular wall 11 are snapped connection, can be in order in the wearable device of the present embodiment The assembly and disassembly of the bearing structure of pressure sensor.Bearing structure to pressure sensor in the wearable device of the present embodiment is entered During row assembling, FPC 3, multiple pressure sensors 2, display screen 4 and display screen protection eyeglass 5 are successively set on metal In framework 1, ring cover 6 is then arranged on the top of display screen protection eyeglass 5, and cause raised 61 buckles of buckle of ring cover 6 In the block button hole 16 of annular wall 11 so that ring cover 6 and annular wall 11 are connected, set so as to the wearing that completes the present embodiment The assembling of the bearing structure of standby middle pressure sensor.

As another preferred embodiment, ring cover 6 is first-class to be interval with multiple block button holes, first-class of annular wall 11 Every provided with multiple buckles projection, multiple buckles projections are buckled in multiple block button holes respectively, so that ring cover 6 and annular wall 11 snap connection.

The mode that ring cover 6 and annular wall 11 are snapped connection is not limited to above connected mode, and the art is general Mode is detachably connected, is no longer described in detail herein.

Embodiment 3

The bearing structure of pressure sensor is similar to Example 2 in the wearable device of the present embodiment but has difference, difference It is that the inner side of ring cover 6 is provided with U-shaped groove, FPC 3 and multiple pressure sensors 2 are arranged on the U-shaped of the inner side of ring cover 6 In groove, arc spring lamination 17 is provided with the U-shaped groove 12 of annular wall 11, arc spring lamination 17 is in contact with the lower section of display screen 4, shown There is a fixed gap between the lower section of display screen 4 and pressure sensor protection step 13, be the shift motion of pressure sensor 2.

As shown in Figure 11, Figure 12, respectively pressure sensor 2 is pressurized forward and backward structural representation, the lower section of display screen 4 There is a fixed gap between pressure sensor protection step 13, be the shift motion of pressure sensor 2, as shown in C in Figure 11； Pressure sensor 2 is in most compressed state before being pressurized, when being pressed to display screen protection eyeglass 5, pressure sensor 2 The pressure being subject to is tapered into, and pressure sensor 2 is moved down, and display screen protection eyeglass 5 and display screen 4 are moved down so that Arc spring lamination 17 is in compressive state；After display screen 4, which is moved down into, to be contacted with pressure sensor protection step 13, pressure is passed Sensor protection step 13 make it that display screen 4 can not continue to move down, and now no longer display screen protection eyeglass 5 is pressed, Display screen 4 can recover ortho states, the maximum compression that pressure sensor 2 is also returned to before being pressurized under the elastic force effect of arc spring lamination 17 State.

Above example is only illustrating the technical solution of the utility model, rather than is limited；Although with reference to before Embodiment is stated the utility model is described in detail, for the person of ordinary skill of the art, still can be right Technical scheme described in previous embodiment is modified, or carries out equivalent to which part technical characteristic；And these Modification or replace, do not make appropriate technical solution essence depart from the utility model technical scheme claimed spirit and Scope.

Claims (10)

1. the bearing structure of pressure sensor in a kind of wearable device, including display screen, FPC and multiple pressure sensings Device, the multiple pressure sensor is welded on the FPC at equal intervals；Characterized in that,

Also include metal framework, the metal framework includes annular wall, and the lower section of the annular wall is provided with U-shaped groove, described U-shaped Step is protected provided with pressure sensor in one end of groove；

The FPC is arranged in the U-shaped groove, and the upper surface of the pressure sensor is than the pressure sensor Protect the upper surface of step high；

The metal framework presses to the pressure sensor so that the pressure sensor is pressurized.

2. the bearing structure of pressure sensor in wearable device as claimed in claim 1, it is characterised in that

Also include multiple display screens and support shell fragment, the display screen is arranged on the top that the multiple display screen supports shell fragment.

3. the bearing structure of pressure sensor in wearable device as claimed in claim 2, it is characterised in that

Eyeglass is protected provided with display screen above the display screen, the display screen protection eyeglass is transparent glass sheet.

4. the bearing structure of pressure sensor in wearable device as claimed in claim 3, it is characterised in that

The multiple display screen support shell fragment is arranged in the annular wall and positioned at the top of the U-shaped groove at equal intervals.

5. the bearing structure of pressure sensor in wearable device as claimed in claim 4, it is characterised in that

The display screen support shell fragment is the metal clips with ledge structure.

6. the bearing structure of pressure sensor in wearable device as claimed in claim 5, it is characterised in that

The top of the annular wall is provided with multiple display screen compressing tablets at equal intervals, and the multiple display screen compressing tablet is withheld in the display The top of screen protection protecting lens.

7. the bearing structure of pressure sensor in wearable device as claimed in claim 3, it is characterised in that

The multiple display screen support shell fragment is arranged on the FPC at equal intervals.

8. the bearing structure of pressure sensor in wearable device as claimed in claim 7, it is characterised in that

The display screen support shell fragment is elastic force blob of viscose.

9. the bearing structure of pressure sensor in wearable device as claimed in claim 7, it is characterised in that

The metal framework also includes ring cover, and the inner side of the ring cover is provided with ring packing foam, and the ring cover is set Snap connection above display screen protection eyeglass and with the annular wall.

10. the bearing structure of pressure sensor in wearable device as claimed in claim 1, it is characterised in that

The metal framework punch forming.