CN104833978A - Terminal for range finding with rotatable laser angle - Google Patents

Abstract

The present invention provides a terminal for range finding with a rotatable laser angle. The terminal comprises a terminal housing, an overturning block and a laser sensor; wherein the laser sensor is arranged at the front end face of the overturning block, at least one rotating shaft is arranged between the overturning block and the terminal housing in a rotatable connection way; the terminal housing is provided with a circuit board therein; and the laser sensor is connected with the circuit board through the rotating shaft. The terminal of the present invention can achieve multi-angle rotation of the laser sensor, so that a user can emit lasers in multiple directions at the same position for performing multi-sample-point range finding for the same or different set objects, thereby improving user experience.

Description

A kind of terminal of rotating laser angle ranging

Technical field

The present invention relates to the field of terminal technology for finding range, specifically relating to a kind of terminal of rotating laser angle ranging.

Background technology

The method that measuring distance is conventional has gage range finding, tacheometric survey, parallax method measurement and electromagnetic distance measurement etc., along with the development of science and technology, especially the instrument used with electromagnetic distance measurement method is easy to carry about with one, simple to operate and range finding speed is fast, wherein more more accurate with the result of laser ranging.

In prior art, for the ease of the measurement of domestic consumer, as measured oneself house, laser ranging function is on mobile terminals integrated, the mobile terminal with distance measurement function is easy to carry, improves Consumer's Experience.If patent announcement number is CN203385858U, name is called that the patent document of " mobile terminal with distance measurement function " discloses a kind of mobile terminal with distance measurement function, it comprises processor, generating laser, laser pickoff, timer, and wherein generating laser sends laser beam for the control accepting processor to target setting; Laser pickoff is used for the laser beam of receiving target reflection; Timer is for calculating by Laser emission to the time receiving laser, and by this result feedback to processor, processor obtains the distance with target setting according to gate time, and namely this mobile terminal can realize measuring the horizontal range between mobile terminal and target setting.

But in prior art, generating laser and laser pickoff are positioned at the fixed position of mobile terminal, for the position or the direction that need user to walk about when needing to measure the target setting of diverse location or measure the height of target setting or width to adjust mobile terminal, this uses this mobile terminal with laser ranging function to bring inconvenience to people.

Summary of the invention

The problem that the present invention mainly solves is to provide a kind of terminal of rotating laser angle ranging, can realize the multi-faceted laser angle that rotates freely and find range, and improves Consumer's Experience.

For solving the problems of the technologies described above, a technical scheme provided by the invention is: the terminal providing a kind of rotating laser angle ranging.It comprises:

Terminal shell, flipping block and laser sensor;

Wherein, this laser sensor is arranged on the front end face of this flipping block, is provided with the turning axle be rotationally connected between this flipping block and this terminal shell;

Circuit board is provided with in this terminal shell;

This laser sensor is connected with this circuit board by this turning axle.

Wherein, this terminal shell edge is provided with a breach, this flipping block is arranged in this breach, this breach comprises the first side wall being positioned at side and the second sidewall being positioned at bottom, this turning axle comprises the first rotating shaft being arranged at this flipping block side, this the first side wall is provided with the first groove, makes this first rotating shaft insert this first groove and rotate this laser sensor is rotated before and after this terminal shell;

This laser sensor comprises the first line; This circuit board comprises the first electrode; This first electrode is located in this first groove; The first through hole is provided with in this first rotating shaft;

This first line is by this first through hole and this first Electrode connection.

Wherein, this first groove upwards extends to form slide rail along this first side wall, makes this slide rail be open state on this first side wall top;

This turning axle also comprises the second rotating shaft be arranged on this second sidewall; This flipping block also comprises the first buckle or the first helicitic texture that are positioned at bottom surface; This second rotating shaft top also comprises the second buckle or the second helicitic texture;

This first buckle or the first helicitic texture and this second buckle or the second helicitic texture removably connect;

This laser sensor also comprises the second line; This circuit board also comprises the second electrode; This second electrode is located in this second buckle or the second helicitic texture; The second through hole is provided with in this second rotating shaft;

This second line is electrically connected with this second electrode replaceable by this second through hole;

This second sidewall also arranges the second groove, when this second rotating shaft be connected with this flipping block, this second rotating shaft inserts this second groove and moves up and this first rotating shaft is moved up until when departing from this slide rail along this slide rail, this second rotating shaft rotated in this second groove make this laser sensor relatively to overturn about this terminal shell;

Wherein this first line and this second line are identical lines;

This first electrode and this second electrode are identical electrodes.

Wherein be provided with support column in this second groove, make this second rotating shaft be fixed by this support column and rotate;

This second rotating shaft is or/and the length of this second groove is more than or equal to the length of this flipping block side.

Wherein, this flipping block is also provided with gyroscope and accelerator;

Wherein, this gyroscope comprises the 3rd line and the 4th line; This accelerator comprises the 5th line and the 6th line; This circuit board also comprises the 3rd electrode, the 4th electrode, the 5th electrode and the 6th electrode;

3rd electrode and the 5th electrode are located in this first groove, and arrange with this first electrode insulation; 4th electrode and the 6th electrode are located in this second buckle or the second helicitic texture, and arrange with this second electrode insulation;

3rd line and the 3rd Electrode connection or the 4th line and the 4th Electrode connection, for detecting the anglec of rotation of this laser sensor;

5th line and the 5th Electrode connection or the 6th line and the 6th Electrode connection, for detecting the displacement of this laser sensor;

3rd line and the 4th line, the 5th line and the 6th line are lines identical respectively;

3rd electrode and the 4th electrode, the 5th electrode and the 6th electrode are electrodes identical respectively.

Wherein this laser sensor comprises laser emission element, laser pick-off unit and timing unit;

This timing unit comprises first end, the second end and the 3rd end;

The first end of this timing unit connects this laser emission element, and this timing unit second end connects this laser pick-off unit;

3rd end of this timing unit is electrically connected with this first line or this second line.

Wherein, this first line and this first Electrode connection and this second line are alternately be electrically connected with this second Electrode connection.

Wherein, the 3rd line and the 3rd Electrode connection and the 4th line are alternately be electrically connected with the 4th Electrode connection;

5th line and the 5th Electrode connection and the 6th line are alternately be electrically connected with the 6th Electrode connection.

Wherein this terminal is mobile phone, panel computer, palm learning machine or its auxiliary device;

This terminal is desktop computer, notebook computer or stadimeter.

The invention has the beneficial effects as follows: the situation being different from prior art, laser sensor is arranged on a flipping block by the present invention, and the turning axle be rotationally connected will be provided with between this flipping block and terminal shell, and laser sensor is connected with the circuit board of this terminal shell inside by this turning axle, the multi-angle rotary of laser sensor can be realized, make user realize multi-direction Emission Lasers at same position to carry out carrying out multiple sample spot range finding to same or different set target, improve Consumer's Experience.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the Facad structure schematic diagram of terminal first embodiment provided by the invention;

Fig. 2 is the structure schematic diagram of terminal second embodiment provided by the invention;

Fig. 3 is the structure schematic diagram of a specific embodiment in Fig. 2;

Fig. 4 is the structure schematic diagram of terminal provided by the invention 3rd embodiment;

Fig. 5 is circuit connection structure schematic diagram in Fig. 4.

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in further detail.Refer in particular to

Go out, following examples only for illustration of the present invention, but do not limit scope of the present invention.Same, following examples are only section Example of the present invention and not all embodiments, and those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of protection of the invention.

Refer to Fig. 1, terminal first embodiment of rotating laser angle ranging provided by the invention.As shown in Figure 1, the terminal 10 of this rotating laser angle ranging, comprising:

Terminal shell 11, flipping block 12, laser sensor 13 and turning axle 14;

Wherein, this laser sensor 13 is arranged on the front end face 121 of this flipping block 12, is provided with this turning axle 14 be rotationally connected between this flipping block 12 and this terminal shell 11; In Fig. 1, this turning axle is arranged to overturn before and after this flipping block this terminal shell relative by example, and in other embodiments, this turning axle optional overturns about being arranged so that this flipping block this terminal shell relative.

Circuit board 15 (not shown in figure 1) is provided with in this terminal shell 11;

This laser sensor 13 is connected with this circuit board 15 by this turning axle 14.

Wherein, this terminal 10 selects mobile terminal or fixed terminal, and applicable mobile terminal is selected from but is not limited to mobile phone, flat board, palm learning machine or its auxiliary device etc. that are convenient for carrying; The fixed terminal be applicable to is selected from desktop computer, notebook computer or stadimeter etc.

Wherein flipping block 12 has spatial structure, as having similar rectangular structure to terminal 10, has the bottom surface that front end face 121, rear end face, the side on both sides, upper surface and lower surface are formed.In other embodiments, this flipping block 12 optional has the spatial structure that other are not rectangular parallelepipeds.

Wherein, laser sensor 13 is for laser ranging, specifically Emission Lasers to target setting and receive this target setting reflection fraction of laser light, detecting this Emission Lasers to receiving time of reflects laser simultaneously, utilizing the half of the product of the light velocity and this time as this target setting and this terminal 10 or the distance with this laser sensor 13.

Be different from the situation of prior art, laser sensor is arranged on a flipping block by present embodiment, the turning axle be rotationally connected is provided with between this flipping block and terminal shell, and this laser sensor is connected with the circuit board of this terminal shell inside by this turning axle, the multi-angle rotary of laser sensor can be realized, make user realize multi-direction multi-angle Emission Lasers at same position to find range, improve Consumer's Experience.

Refer to Fig. 2, terminal second embodiment of rotating laser angle ranging provided by the invention.As shown in Figure 2, the terminal 20 of this rotating laser angle ranging, comprising:

Terminal shell 21, flipping block 22, laser sensor 23 and turning axle 24;

Wherein, this laser sensor 23 is arranged on the front end face 221 of this flipping block 22, is provided with this turning axle 24 be rotationally connected between this flipping block 22 and this terminal shell 21;

Circuit board 25 (not shown in Fig. 2) is provided with in this terminal shell 21;

This laser sensor 23 is connected with this circuit board 25 by this turning axle 24;

Wherein, this terminal shell 21 edge is provided with a breach 212, this flipping block 22 is arranged in this breach 212, this breach 212 comprises the first side wall 213 being positioned at side and the second sidewall 214 being positioned at bottom, this turning axle 24 comprises the first rotating shaft 241 being arranged at this flipping block 22 side, this the first side wall 213 is provided with the first groove 2131 (not shown in Fig. 2), makes this first rotating shaft 241 insert this first groove 2131 and rotate this laser sensor 23 is rotated before and after this terminal shell 21;

This laser sensor 23 comprises the first line 231 (not shown in Fig. 2); This circuit board 25 comprises the first electrode 251 (not shown in Fig. 2); This first electrode 251 is located in this first groove 2131; The first through hole 2411 (not shown in Fig. 2) is provided with in this first rotating shaft 241;

This first line 231 is connected with this first electrode 251 by this first through hole 2411.

Wherein, this terminal 20 is identical terminals with the terminal 10 in above-mentioned first embodiment, repeats no more herein.

Wherein, the edge of this terminal shell 21 is provided with a breach 212, this breach 212 optional is positioned in the middle of the upper end of this terminal shell 21, and as shown in Figure 2, this turning axle 24 comprises two the first rotating shafts 241 and is inserted in respectively in the first groove 2131 of two the first side walls 213 in left and right of this terminal shell 21.Optional further, this turning axle 24 comprises first rotating shaft 241 and is inserted in the first groove on the corresponding the first side wall of this terminal shell 21.

In other embodiments, as shown in Figure 3, this has the terminal 30 of rotating laser angle, it comprises terminal shell 31, flipping block 32, laser sensor 33 and turning axle 34, with the terminal shell 11 in above-mentioned first embodiment, flipping block 12, laser sensor 13 and turning axle 14 have phase same-action, wherein this terminal shell 31 edge is provided with a breach 312, optionally be positioned at the upper end right hand edge of this terminal shell 31 as this breach 312, namely this terminal shell 31 has a first side wall 313 and the second sidewall 314, this turning axle 34 comprises first rotating shaft 341, rotate in its first groove 3131 (not shown in Fig. 3) being inserted on the first side wall 313, laser sensor 33 is rotated before and after this terminal shell 31.

Optionally, in other embodiments, the first rotating shaft is set in the bottom surface of flipping block, this second sidewall arranges the first groove, for this first rotating shaft being inserted the first groove in the second sidewall and rotating, this laser sensor is overturn about this terminal shell relatively.Further, corresponding above-mentioned second embodiment, arranges the first electrode of circuit board for connecting the first line of laser sensor in the first groove on the second sidewall.

Be different from prior art, the situation of the first embodiment, laser sensor is arranged on a flipping block by present embodiment, this flipping block is positioned at the breach at this terminal shell edge, and by being provided with the first rotating shaft be rotationally connected between this terminal shell and flipping block, the sidewall specifically this first rotating shaft being inserted this breach is as realized being rotationally connected in the first groove of the second sidewall of the first side wall of side or bottom, be provided with the first electrode of circuit board terminal in this first groove for being electrically connected with the first line of this laser sensor by the through hole in this first rotating shaft simultaneously, the multi-angle continuous rotation of laser sensor this terminal shell back and forth or left and right relative can be realized, make user realize the different end points of multi-faceted Emission Lasers to the target setting of diverse location or same target setting at same position to find range, improve Consumer's Experience.

Refer to Fig. 4, terminal the 3rd embodiment of rotating laser angle ranging provided by the invention.As shown in Figure 4, the terminal 40 of this rotating laser angle ranging, comprising:

Terminal shell 41, flipping block 42, laser sensor 43 and turning axle 44;

Wherein, this laser sensor 43 is arranged on the front end face 421 of this flipping block 42, is provided with this turning axle 44 be rotationally connected between this flipping block 42 and this terminal shell 41;

Circuit board 45 (not shown in Fig. 4) is provided with in this terminal shell 41;

This laser sensor 43 is connected with this circuit board 45 by this turning axle 44;

Wherein, this terminal shell 41 edge is provided with a breach 412, this flipping block 42 is arranged in this breach 412, this breach 412 comprises the first side wall 413 being positioned at side and the second sidewall 414 being positioned at bottom, this turning axle 44 comprises the first rotating shaft 441 being arranged at this flipping block 42 side, this the first side wall 413 is provided with the first groove 4131 (not shown in Fig. 4), makes this first rotating shaft 441 insert this first groove 4131 and rotate this laser sensor 43 is rotated before and after this terminal shell 41;

This laser sensor 43 comprises the first line 431 (not shown in Fig. 4); This circuit board 45 comprises the first electrode 451 (not shown in Fig. 4); This first electrode 451 is located in this first groove 4131; The first through hole 4411 (not shown in Fig. 4) is provided with in this first rotating shaft 441;

This first line 431 is connected with this first electrode 451 by this first through hole 4411;

Wherein, this first groove 4131 upwards extends to form slide rail (not shown in Fig. 4) along this first side wall 413, makes this slide rail be open state on this first side wall 413 top;

This turning axle 44 also comprises the second rotating shaft 442 be arranged on this second sidewall 414; This flipping block 42 also comprises the first buckle or the first helicitic texture (Fig. 4 is not shown) that are arranged in bottom surface; This second rotating shaft 442 top also comprises the second buckle or the second helicitic texture (not shown in Fig. 4);

This first buckle or the first helicitic texture and this second buckle or the second helicitic texture removably connect;

This laser sensor also comprises the second line 432 (not shown in Fig. 4); This circuit board also comprises the second electrode 452 (not shown in Fig. 4); This second electrode 452 is located in this second buckle or the second helicitic texture; The second through hole 4421 (not shown in Fig. 4) is provided with in this second rotating shaft 442;

This second line 432 is detachably electrically connected with this second electrode 452 by this second through hole 4421;

This second sidewall 414 is also arranged the second groove 4141 (not shown in Fig. 4), when this second rotating shaft 442 be connected with this flipping block 42, this second rotating shaft 442 inserts this second groove 4141 and moves up and this first rotating shaft 441 is moved up until when departing from this slide rail along this slide rail, this second rotating shaft 442 is rotated in this second groove 4141 and makes relative this terminal shell about 41 upset of this laser sensor 42;

Wherein this first line 431 and this second line 432 are identical lines;

This first electrode 451 and this second electrode 452 are identical electrodes.

Wherein the first line and this first Electrode connection and the second line are alternately be electrically connected with the second Electrode connection.

Wherein the concrete structure of first, second buckle can be cantilever hooks buckle, annular buckle and U-shaped buckle.Further alternative, the contact point that this first and second buckle or first and second helicitic texture are mechanically connected at it is set to metal construction, respectively as the second line and the second electrode, for also realizing detachable electrical connection when realizing MECHANICAL REMOVABLE and connecting simultaneously.

At other embodiments, optional first rotating shaft is arranged on the first side wall, and the first groove is arranged at the side of flipping block, and the first groove upwards extends to form slide rail, is open state on the top of flipping block side.

Wherein be provided with support column (not shown in Fig. 4) in this second groove, make this second rotating shaft be fixed by this support column and rotate; This second rotating shaft is or/and the length of this second groove is more than or equal to the length of this flipping block side.

In other embodiments, can be selected in this second groove and be provided with drive motor and driven the gear set be connected by this drive motor, this gear set is connected with the second rotating shaft 442, make this drive motor rotate this gear set so that realize this second rotating shaft 442 move up and down or and the rotation of fixed position; This second rotating shaft is or/and the length of this second groove is more than or equal to the length of this flipping block side.

Further, this flipping block 42 is also provided with gyroscope 46 (not shown in Fig. 4) and accelerator 47 (not shown in Fig. 4);

Wherein, this gyroscope 46 comprises the 3rd line 461 and the 4th line 462 (not shown in Fig. 4); This accelerator 47 comprises the 5th line 471 and the 6th line 472 (not shown in Fig. 4); This circuit board 45 also comprises the 3rd electrode 453, the 4th electrode 454, the 5th electrode 455 and the 6th electrode 456 (not shown in Fig. 4);

3rd electrode 453 and the 5th electrode 455 are located in this first groove 4131, and insulate with this first electrode 451 and arrange; 4th electrode 454 and the 6th electrode 456 are located in this second buckle or the second helicitic texture, and insulate with this second electrode 452 and arrange;

3rd line 461 is connected with the 3rd electrode 453 or the 4th line 462 is connected with the 4th electrode 454, for detecting the anglec of rotation of this laser sensor;

5th line 471 is connected with the 5th electrode 455 or the 6th line 472 is connected with the 6th electrode 456, for detecting the displacement of this laser sensor;

3rd line and the 4th line, the 5th line and the 6th line are lines identical respectively;

3rd electrode and the 4th electrode, the 5th electrode and the 6th electrode are electrodes identical respectively.

Further, this laser sensor 43 also comprises laser emission element 433, laser pick-off unit 434 and timing unit 435;

This timing unit comprises first end, the second end and the 3rd end;

The first end of this timing unit 435 connects this laser emission element 433, and this timing unit 435 second end connects this laser pick-off unit 434;

3rd end of this timing unit 435 is connected with this first line 431 or this second line 432.

Wherein, the 3rd line 461 be connected with the 3rd electrode 453 and the 4th line 462 to be connected with the 4th electrode 454 be alternately be electrically connected;

5th line 471 is connected with the 5th electrode 455 and the 6th line 472 to be connected with the 6th electrode 456 be alternately be electrically connected.

Please refer to Fig. 5, Fig. 5 is circuit connection diagram in present embodiment.

As shown in Figure 5, wherein laser sensor 43, gyroscope 46 and accelerator 47 are electrically connected with the first end of circuit board 45, the second end and the 3rd end respectively.Concrete, the first line 431 of laser sensor is connected with the first electrode 451 of the first end of circuit board 45 or the second line 452 is connected with the second electrode 452 of first end; 3rd line 461 of gyroscope 46 is connected with the 3rd electrode 453 of the second end of circuit board 45 or the 4th line 462 is connected with the 4th electrode 454 of the second end; 5th line 471 of accelerometer 47 is connected with the 5th electrode 455 of the 3rd end of circuit board 45 or the 6th line 472 is connected with the 6th electrode 456 of the 3rd end.

Wherein this terminal 40 is the mobile terminals such as mobile phone, panel computer, palm learning machine or its auxiliary device; Or optional be desktop computer, notebook computer or stadimeter etc. be not easy to the fixed terminal that moves and carry.

Wherein a specific embodiment of this terminal 40 is, this terminal 40 is specifically as mobile phone, first measure and any horizontal range in target setting, rotate again and realize Laser emission and receiving angle change as front and back rotate this flipping block, then this laser another end points to this target setting is launched, as peak, monitor orientation (position and the direction) change of now flipping block, utilize the information such as orientation angles to calculate and obtain this another end points as the distance of peak, and then obtain the height of this target setting; Further alternative, then rotate as this flipping block of left rotation and right rotation realizes Laser emission and receiving angle change, then launch the another end points of this laser to this target setting, as Far Left end points, utilize the information such as orientation angles to calculate and obtain this another end points as the distance of Far Left end points; And then obtain the width information of this target setting.Namely the terminal of present embodiment can be implemented in same position place, and walking about without the need to user just to complete the horizontal range of target setting and this terminal, and the width of this target setting self is or/and information such as height.

Be different from the situation of prior art, the first embodiment and the second embodiment, laser sensor is arranged on a flipping block of terminal by present embodiment, this flipping block is positioned at the breach at this terminal shell edge, and by being provided with the first rotating shaft and the second rotating shaft that are rotationally connected between this terminal shell and flipping block, realize being rotationally connected in the first groove specifically this first rotating shaft being inserted the first side wall of this breach side, this laser sensor is rotated before and after this terminal shell, this first groove upwards extends to form slide rail along this first side wall, second sidewall of this breach bottom arranges the second rotating shaft, this second rotating shaft and this flipping block bottom are removably connected, if the second rotating shaft is connected with this flipping block, and move up and make this first rotating shaft move up until when departing from this slide rail along this slide rail, this second axis of rotation overturns about making laser sensor this terminal shell relative, arrange when laser sensor line overturns in back and forth or left and right with circuit board terminal simultaneously and can alternately be electrically connected, can realize before and after laser sensor this terminal shell relative or/and the multi-angle continuous overturning of left and right, make user realize the different end points of multi-faceted Emission Lasers to the target setting of diverse location or same target setting at same position to find range, and then the horizontal range obtained between this terminal and target setting, the width of this target setting self is or/and elevation information, improve Consumer's Experience.

The foregoing is only some embodiments of the present invention; not thereby limit the scope of the invention; every utilize instructions of the present invention and accompanying drawing content to do equivalent device or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a terminal for rotating laser angle ranging, is characterized in that, comprising:

Terminal shell, flipping block and laser sensor;

Wherein, described laser sensor is arranged on the front end face of described flipping block, is provided with the turning axle be rotationally connected between described flipping block and described terminal shell;

Circuit board is provided with in described terminal shell;

Described laser sensor is connected with described circuit board by described turning axle.

2. terminal according to claim 1, is characterized in that,

Described terminal shell edge is provided with a breach, described flipping block is arranged in described breach, described breach comprises the first side wall being positioned at side and the second sidewall being positioned at bottom, described turning axle comprises the first rotating shaft being arranged at described flipping block side, described the first side wall is provided with the first groove, makes described first rotating shaft insert described first groove and rotate and described laser sensor is rotated before and after described terminal shell;

Described laser sensor comprises the first line; Described circuit board comprises the first electrode; Described first electrode is located in described first groove; The first through hole is provided with in described first rotating shaft;

Described first line is by described first through hole and described first Electrode connection.

3. terminal according to claim 2, is characterized in that,

Described first groove upwards extends to form slide rail along described the first side wall, makes described slide rail be open state on described the first side wall top;

Described turning axle also comprises the second rotating shaft be arranged on described second sidewall; Described flipping block also comprises the first buckle or the first helicitic texture that are positioned at bottom surface; Described second rotating shaft top also comprises the second buckle or the second helicitic texture;

Described first buckle or the first helicitic texture and described second buckle or the second helicitic texture removably connect;

Described laser sensor also comprises the second line; Described circuit board also comprises the second electrode; Described second electrode is located in described second buckle or the second helicitic texture; The second through hole is provided with in described second rotating shaft;

Described second line is electrically connected with described second electrode replaceable by described second through hole;

Described second sidewall also arranges the second groove, when described second rotating shaft be connected with described flipping block, described second rotating shaft inserts described second groove and moves up and described first rotating shaft is moved up until when departing from described slide rail along described slide rail, overturn about described second rotating shaft being rotated in described second groove make the relatively described terminal shell of described laser sensor;

Wherein said first line and described second line are identical lines;

Described first electrode and described second electrode are identical electrodes.

4. terminal according to claim 3, is characterized in that,

Be provided with support column in described second groove, make described second rotating shaft be fixed by described support column and rotate;

Described second rotating shaft is or/and the length of described second groove is more than or equal to the length of described flipping block side.

5. terminal according to claim 4, is characterized in that,

Described flipping block is also provided with gyroscope and accelerator;

Wherein, described gyroscope comprises the 3rd line and the 4th line; Described accelerator comprises the 5th line and the 6th line; Described circuit board also comprises the 3rd electrode, the 4th electrode, the 5th electrode and the 6th electrode;

Described 3rd electrode and the 5th electrode are located in described first groove, and arrange with described first electrode insulation; Described 4th electrode and the 6th electrode are located in described second buckle or the second helicitic texture, and arrange with described second electrode insulation;

Described 3rd line and described 3rd Electrode connection or described 4th line and described 4th Electrode connection, for detecting the anglec of rotation of described laser sensor;

Described 5th line and described 5th Electrode connection or described 6th line and described 6th Electrode connection, for detecting the displacement of described laser sensor;

Described 3rd line and described 4th line, described 5th line and described 6th line are lines identical respectively;

Described 3rd electrode and described 4th electrode, described 5th electrode and described 6th electrode are electrodes identical respectively.

6. the terminal according to claim 3 to 5 any one, is characterized in that,

Described laser sensor comprises laser emission element, laser pick-off unit and timing unit;

Described timing unit comprises first end, the second end and the 3rd end;

The first end of described timing unit connects described laser emission element, and described timing unit second end connects described laser pick-off unit;

3rd end of described timing unit is electrically connected with described first line or described second line.

7. the terminal according to claim 3 to 5 any one, is characterized in that,

Described first line and described first Electrode connection and described second line are alternately be electrically connected with described second Electrode connection.

8. terminal according to claim 5, is characterized in that,

Described 3rd line and described 3rd Electrode connection and described 4th line are alternately be electrically connected with described 4th Electrode connection;

Described 5th line and described 5th Electrode connection and described 6th line are alternately be electrically connected with described 6th Electrode connection.

9. the terminal according to claim 3 to 5 any one, is characterized in that,

Described terminal is mobile phone, panel computer, palm learning machine or its auxiliary device.

10. the terminal according to claim 3 to 5 any one, is characterized in that,

Described terminal is desktop computer, notebook computer or stadimeter.