CN105675283A - Separation detector - Google Patents

Abstract

The invention discloses a separation detector for detecting keycaps of a keyboard, the detector comprises a pedestal, a movable support and a detecting element, when the keyboard is arranged on the pedestal, at least a row of the keycaps of the keyboard is arranged along a first direction, the pedestal comprises a first end and an opposite second end along the first direction, the movable support can move relative to the pedestal from the first end to the second end along the first direction, when the movable support moves from the first end to the second end along the first direction, the detecting element contacts with a plurality of to-be-detected elements of one row of the to-be-detected elements in sequence and presses against the contacted to-be-detected elements, when an actual binding force between the keycaps and the main body is less than the drawing force, the to-be-detected elements separate the main body, that is, one row of keycaps complete the one-time detection, so that the detection is convenient and quick.

Description

Come off detector

Technical field

The present invention describes one and comes off detector, the detector that comes off of espespecially a kind of keycap for detecting keyboard.

Background technology

In general, keycap can fall off because of situations such as assembly failure and adhesion deficiencies, can be stable with keyboard after being contained on keyboard in order to ensure keycap set combine, to prevent in use procedure or in transportation, keycap departs from, need every keycap is carried out pulling capacity test, namely checking one by one in conjunction with situation every keycap is needed, thus ensureing the quality of keyboard.

But, every sheet keypad exists a lot of keycap, operator's naked eyes or manual operation not easily find in conjunction with bad keycap, accordingly, it would be desirable to each keycap is carried out mechanization test. In traditional keycap mechanization test process, it is usually and a keycap is detected every time, but because of the keycap number of conventional monolithic keyboard many up to 104, thus this kind of detection mode, although the strict demand to quality of client and consumer can be met, but production efficiency can be affected, and then affect yield, cause being extremely difficult to the yield that factory exceeds the time limit.

Therefore, it is necessary to provide a kind of new detector that comes off, to overcome drawbacks described above.

Summary of the invention

It is an object of the invention to provide one to come off detector, both can guarantee that the quality of keyboard, and do not affected again yield.

For reaching above-mentioned purpose, the present invention provides one to come off detector, and for detecting the pulling capacity of the element to be detected of device to be detected, this device to be detected has body and at least a line element to be detected being arranged on this body, and this detector that comes off comprises:

Base, for placing this device to be detected, when this device to be detected is positioned on this base, this at least a line element to be detected arrange in the first direction, and this base has the first relative end on this first direction and the second end, this first direction is parallel to the plane at this body place;

Traversing carriage, is arranged at above this base, and can move along this first direction relative to this base;

Testing element, is arranged on this traversing carriage, and this testing element in order to provide the power in second direction to this element to be detected, and wherein, this second direction is the direction that this element to be detected departs from this body;

Wherein, when this traversing carriage moves to this second end along this first direction from this first end, this testing element moves to this second end along this first direction from this first end, and in moving process, this testing element sequentially contacts and supports, with the element multiple to be detected of wherein a line element to be detected, the element to be detected contacted, to apply pulling capacity in this second direction on this element to be detected contacted, when the actual adhesion of this element to be detected contacted and this body is less than this pulling capacity, this element to be detected contacted departs from this body.

It is also preferred that the left this traversing carriage along third direction across this pedestal, wherein, this third direction is perpendicular to this first direction and is parallel to the plane at this body place.

Preferably, this device to be detected includes multirow element to be detected, arrange along this third direction between this each row element to be detected, this detector that comes off includes multiple testing element, the plurality of testing element is along this third direction spread configuration on this traversing carriage, and each testing element has gap and configures corresponding to this multirow element to be detected.

It is also preferred that the left when this traversing carriage moves to this second end along this first direction from this first end, every a line element to be detected contacts with a testing element respectively.

Preferably, this device to be detected includes multirow element to be detected, this traversing carriage includes the first traversing carriage and the second traversing carriage, this first traversing carriage along third direction across this pedestal, and this first traversing carriage is provided with multiple testing element, each testing element has gap and configures corresponding to this multirow element to be detected, this second traversing carriage along this third direction across this pedestal, and this second traversing carriage is provided with multiple testing element, multiple testing elements on this second traversing carriage arrange along this third direction, each testing element has gap and configures corresponding to this multirow element to be detected, when this traversing carriage moves to this second end along this first direction from this first end, each testing element on this first traversing carriage contacts with a line element to be detected respectively, each testing element on this second traversing carriage contacts with a line element to be detected respectively, wherein, this third direction is perpendicular to this first direction, and it is parallel to the plane at this body place.

It is also preferred that the left the number of the testing element on this first traversing carriage is equal to the line number of this element to be detected, the number of the testing element on this second traversing carriage is equal to the line number of this element to be detected.

Preferably, this first traversing carriage and this second traversing carriage arrange along this first direction, and between this first traversing carriage and this second traversing carriage, there is the first preset pitch, so that the multiple test sheets on this first traversing carriage are non-interference with the multiple test sheets on this second traversing carriage, when the element to be detected with the first of this device to be detected of the testing element on this first traversing carriage contacts, testing element on this second traversing carriage element to be detected with the second of this device to be detected contacts, this second element to be detected relatively this first element to be detected is near this first end, this first element to be detected and this second element to be detected arrange along this first direction and are positioned at same a line.

Preferably, each element to be detected has the first relative side and the second side, each testing element on this first traversing carriage is supported mutually with this first side of this element to be detected respectively, each testing element on this second traversing carriage is supported mutually with this second side of this element to be detected respectively, arbitrary testing element on synchronization, this first traversing carriage is contacted with different two element to be detected with the arbitrary testing element on this second traversing carriage.

Preferably, when this traversing carriage moves along this first direction, planar tilt first predetermined angle at this body place relatively of the testing element on this first traversing carriage, testing element on this second traversing carriage is relative to planar tilt second predetermined angle at this device place to be detected, to provide the pulling capacity in this second direction to this element to be detected, wherein, this first predetermined angle and this second predetermined angle are between 0 degree to 90 degree.

It is also preferred that the left this first predetermined angle and this second predetermined angle are 45 degree.

Is connected it is also preferred that the left this testing element and this traversing carriage are fixing, and this testing element and this element sliding contact to be detected; Or, this testing element is flexibly connected with this traversing carriage, and this testing element rolls fixed contact with this element to be detected.

It is also preferred that the left this element to be detected has lobe, when this testing element and this element to be detected contacts, this testing element is between this lobe and this body and supports this lobe, to provide the pulling capacity in this second direction to this element to be detected; Or, between this element to be detected and this body, there is the first gap, when this testing element and this element to be detected contacts, this testing element is positioned at this first gap and this testing element supports this element to be detected, to provide the pulling capacity in this second direction to this element to be detected.

It is also preferred that the left this testing element is lamellar, cylindric, club or round needle shape.

It is also preferred that the left also include driving device, in order to drive this traversing carriage to move.

Preferably, also include sensing device and processing module, this processing module is coupled to this sensing device and this sensing device, this sensing device is used for sensing this device to be detected, when this device to be detected departs from this base, this sensing device sends the first signal to this processing module, and this processing module controls this driving device according to this first signal and drives this traversing carriage to return this first end; When this processing module receives secondary signal, this processing module controls this driving device according to this secondary signal and drives this traversing carriage to move to this second end from this first end.

It is also preferred that the left this device to be detected is keyboard, this element to be detected is keycap.

Compared with prior art, the present invention puies forward one and comes off detector, for detecting the keycap of keyboard, comprise base, traversing carriage and testing element, when keyboard is positioned on this base, at least one this first direction of line unit shade arrangement of this keyboard, this base has the first relative end along this first direction and the second end, and this traversing carriage can move to this second end from this first end in the first direction relative to this base, when this traversing carriage moves to this second end in the first direction from this first end, this testing element sequentially contacts with multiple keycaps of wherein a line keycap and supports the keycap contacted, to apply pulling capacity in this second direction on this keycap contacted, when the actual adhesion of this keycap and this body is less than this pulling capacity, this element to be detected departs from this body. that is, the traversing carriage of the present invention is from this first end once moving to this second end, can detect this line unit cap on keyboard, convenient, fast, ensure keyboard quality at the same time it can also be improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the working state schematic representation of the detector 100 that comes off of the embodiment of the present invention.

Fig. 2 is the detector 100 that comes off of embodiment of the present invention partial structurtes schematic diagram when working.

Fig. 3 is the working state schematic representation of the detector 100 that comes off of another embodiment of the present invention.

Fig. 4 is the working state schematic representation of the detector 100 that comes off of another embodiment of the present invention.

Fig. 5 is the partial structurtes schematic diagram of the second traversing carriage 122 of detector 100 of coming off in Fig. 4.

Fig. 6 be Fig. 4 comes off detector 100 the second traversing carriage 122 on the partial structurtes schematic diagram of testing element test keycap.

Fig. 7 is that the present invention comes off the function block schematic diagram of detector 100.

Detailed description of the invention

For making the purpose of the present invention, structure, feature and function thereof are had further understanding, hereby embodiment is coordinated to describe in detail as follows.

Shown in seeing figures.1.and.2, disclose the present invention and come off the structural representation of detector 100. Fig. 1 is the working state schematic representation of the detector 100 that comes off of the embodiment of the present invention, and Fig. 2 is the detector 100 that comes off of embodiment of the present invention partial structurtes schematic diagram when working. The present invention comes off detector 100 for detecting the pulling capacity of the element to be detected of device to be detected, in the present embodiment, this device to be detected is keyboard 10, this element to be detected is keycap 101, but it is not limited, what the detector 100 that comes off can also be used for detecting other element and its body is firmly combined with degree, is specifically determined according to practical situation by designer, does not repeat them here. Wherein, keyboard 10 has body 102 and at least one line unit cap 101 being arranged on body 102, and each row keycap at least includes two keycaps 101 being disposed adjacent. The present invention detector 100 that comes off includes base 11, traversing carriage 12 and at least one testing element 13, and wherein at least one testing element 13 of traversing carriage 12 and this is connected; The number of testing element 13 can be one can also be multiple, by designer's designed, designed according to actual needs, can not limit at this. In addition, it is necessary to illustrate, the location layout between number and the testing element of testing element can correspond to the layout between multirow keycap 101. Below the concrete function of each assembly of the detector 100 that comes off is described. It addition, for purposes of illustration only, specific justice has X-axis perpendicular to one another between two, Y-axis and Z axis, wherein X-axis, Y-axis limit the plane at body 102 place jointly, and X-axis corresponds to the orientation of each row keycap, and Z axis is the direction being perpendicular to body 102.

Base 11 is for holding keyboard 10, when keyboard 10 is positioned on base 11, at least one line unit cap 101 (being X-direction in the present embodiment) in the first direction arranges, and base 11 has the first relative end 111 and the second end 112 on this first direction. Preferably, base 11 has accommodation space 113, accommodation space 113 is for accommodating and sensing positioning keyboard 10, and the mating shapes of the shape of accommodation space 113 and keyboard 10, with sensing positioning keyboard 10, be easy to the detection of the keycap 101 to keyboard 10, with avoid in detection process because of keyboard 10 be moved cause come off detector or keyboard is damaged. Certainly, base 11 can also be designed with location division, and this location coordinates with keyboard 10, with the position of sensing positioning keyboard 10, is specifically determined according to practical situation by designer, does not repeat them here. It is also preferred that the left base 11 has a breach, it is simple to keyboard 10 is positioned over position corresponding on base 11 by user.

Traversing carriage 12 is arranged at above base 11, and can move linearly along this first direction by respect thereto 11. Further, traversing carriage 12, but is not limited along third direction (this Y direction) across pedestal 11.

At least one testing element 13 is arranged on traversing carriage 12, at least one testing element 13 in order to provide the power in second direction to keycap 101, wherein, this second direction is the direction that keycap 101 departs from body 102, for instance this second direction is this Z-direction in Fig. 1. for a testing element in the present embodiment. when test, as shown in Figure 1, first keyboard 10 is positioned on base 11, when keyboard 10 is positioned on base, at least one line unit cap 101 arranges along this first direction, then traversing carriage 12 is moved along this first direction, keycap 101 is detected, when traversing carriage 12 moves to the second end 112 along this first direction from the first end 111, testing element 13 moves to the second end 112 along this first direction from the first end 111, and in moving process, each keycap 101 of a line keycap 101 sequentially contacts with testing element 13, and testing element 13 supports the keycap 101 of correspondence when contact, to apply pulling capacity in second direction on keycap 101. when the actual adhesion of the keycap 101 contacted and body 102 is less than this pulling capacity, keycap 101 departs from body 102, i.e. underproof keycap 101 directly comes off from body 102, and operator very easily just can find in conjunction with bad keycap 101, when the actual adhesion of keycap 101 and body 102 is be more than or equal to this pulling capacity, keycap 101 maintains and is incorporated into body 102, and the keycap 101 that namely bond strength is qualified will not come off from body 102, is still combined with body 102, it was shown that is qualified keycap 101. in the present invention, because of traversing carriage 12 from the first end 111 move to the second end 112 time, each keycap 101 of each line unit cap 101 can sequentially contact with testing element 13, and testing element 13 applies the pulling capacity in this second direction on keycap when contact, therefore, traversing carriage 12 once moves, from the first end 111 to the second end 112, this line unit cap 101 that can detect keyboard 10, convenient, fast. wherein, this pulling capacity is the second preset value or is positioned at the second preset range, wherein, this second preset value or this second preset range can the bond strengths of keycap required by the specification of this area, or for the bond strength more than the keycap required by the specification of this area, specifically determined according to practical situation by designer, do not repeat them here. preferably, testing element 13 can move along third direction (this Y direction) on traversing carriage 12 or traversing carriage 12 can move along third direction, to adjust the relative position relation of keycap 101 and testing element 13, make testing element 13 corresponding with the position of the keycap 101 of other row, and then when traversing carriage moves to the second end 112 from the first end 111 again, the keycap 101 of other row is detected by testing element 13, so, when keyboard 10 has multirow keycap 101, traversing carriage repeats when the first end 111 moves to the second end 112 for more than 12 time, the detection to this multirow keycap 101 can be completed, such as keyboard 10 has 6 line unit caps 101, so traversing carriage 12 repeats to move to the second end 112 from the first end 111 for 6 times and can complete the detection to 6 line unit caps 101. certainly, can also by adjusting the relative position relation of keycap and testing element 13 along this third direction mobile keyboard 10 or base 11, the keycap 101 making other row is corresponding with testing element 13, is specifically determined according to practical situation by designer, does not repeat them here.

In other embodiments, as shown in Figure 3, keyboard 10 includes multirow keycap 101, the detector 100 that comes off includes multiple testing element 13, multiple testing elements 13 arrange along this third direction, each testing element 13 has gap and is configured in the testing element 13 being arranged on traversing carriage 12, the keycap 101 on keyboard 10 be detected corresponding to multirow keycap 101, and in the present embodiment, this third direction is this Y direction. When traversing carriage 12 moves to the second end 112 along this first direction from the first end 111, each line unit cap 101 contacts with a testing element 13 respectively, therefore, traversing carriage 12 once moves, from the first end 111 to the second end 112, all keycaps 101 that can detect keyboard 10, namely justifying keycap is disposable completes detection, convenient, fast, ensure keyboard quality at the same time it can also be improve production efficiency. As shown in Figure 3, keyboard 10 has 6 line unit caps 101, traversing carriage 12 is provided with 6 testing elements 13,6 testing elements arrange along this third direction, between each testing element, there is interval, interval configures corresponding between 6 line unit caps 101, and when traversing carriage 12 moves to the second end 112 from the first end 111 (X-direction) in the first direction, a testing element 13 is responsible for test a line keycap 101.

In another its embodiment, as shown in Figure 4 and Figure 5, traversing carriage 12 includes the first traversing carriage 121 and the second traversing carriage 122, preferably, first traversing carriage 121 and the second traversing carriage 122 arrange along this first direction, first traversing carriage 121 across pedestal 11, and is provided with multiple testing element 13 along this third direction on the first traversing carriage 121, each testing element 13 has gap and configures corresponding to multirow keycap 101, second traversing carriage 122 along this third direction across pedestal 11, and second be provided with multiple testing element 13 on traversing carriage 122, multiple testing elements 13 on second traversing carriage 122 arrange along this third direction, and each testing element 13 has gap and configures corresponding to multirow keycap 101. when traversing carriage 12 moves to the second end 112 along this first direction from the first end 111, each testing element 13 on first traversing carriage 121 contacts with a line keycap 101 respectively, and each testing element 13 on the second traversing carriage 122 contacts with a line keycap 101 respectively. in the present embodiment, the number of the testing element 13 on the first traversing carriage 121 is equal to the line number of keycap 101, it is all such as 6, the number of the testing element 13 on the second traversing carriage 122 is equal to the line number of keycap 101, it is all such as 6, namely, corresponding two testing elements 13 of each row keycap 101, these two testing elements 13 lay respectively on the first traversing carriage 121 and the second traversing carriage 122, namely when traversing carriage 12 moves to the second end 112 along this first direction from the first end 111, each keycap 101 on keyboard 10 is first detected one time by each testing element 13 on the first traversing carriage 121, then each keycap 101 on this keyboard 10 is detected one time by each testing element 13 on the second traversing carriage 122, each keycap 101 on this keyboard 10 can be subject to twice drawing successively, ensure the reliability of detection further.

Certainly, in other embodiments, the number sum of the testing element 13 in the number of the testing element 13 on the first traversing carriage 121 and the second traversing carriage 122 is equal to the line number of keycap 101, and first the testing element 13 on traversing carriage 121 and the testing element 13 on the second traversing carriage 122 be staggered, specifically determined according to practical situation by designer. Testing element 13 on available first traversing carriage 121 detects wherein a few line unit caps, uses the testing element 13 on the second traversing carriage 122 to detect remaining a few line unit cap, specifically can be set according to demand by designer, be not limited.

Further, first traversing carriage 121 and the second traversing carriage 122 arrange along this first direction, and first have the first preset pitch between traversing carriage 121 and the second traversing carriage 122, so that the multiple testing elements 13 on the first traversing carriage 121 and the multiple testing elements 13 on the second traversing carriage 122 are non-interference, when the testing element 13 on the first traversing carriage 121 contacts with the first keycap, testing element 13 on second traversing carriage 122 contacts with the second keycap, wherein, this second keycap relatively this first keycap is near the first end 111, first keycap and second connects keycap and is positioned at same a line and arranges in the first direction.

Further, as shown in Figure 4 and Figure 6, each keycap 101 has the first relative side 1011 and the second side 1012, each testing element 13 on first traversing carriage 121 is supported with the first side 1011 phase of keycap 101 respectively, and each testing element 13 on the second traversing carriage 122 is supported with the second side 1012 phase of keycap 101 respectively. In the present embodiment, owing to the number of the testing element 13 on the first traversing carriage 121 is equal to the line number of keycap 101, the number of the testing element 13 on the second traversing carriage 122 is equal to the line number of keycap 101, therefore, this first side 1011 of each keycap 101 and this second side 1012 can be subject to supporting of testing element 13 successively, and namely the present invention detecting device 100 that comes off can support each keycap 101 from relative both sides, therefore, further increase the requirement of detection, more ensure that the quality of keyboard 10. It is further to note that, for the convenience detected and accuracy, in synchronization, arbitrary testing element on this first traversing carriage is contacted with different two element to be detected with the arbitrary testing element on this second traversing carriage, in other words, each element to be detected can not contact with two testing elements simultaneously, to avoid the pulling capacity suffered by reality higher than examination criteria, causes detection error.

Further, as shown in Figures 4 to 6, when traversing carriage 12 moves along this first direction, the plane (plane at this X-axis and this Y-axis place) at relative keyboard 10 place of testing element 13 on the first traversing carriage 121 tilts the first predetermined angle, planar tilt second predetermined angle at relative keyboard 10 place of testing element 13 on the second traversing carriage 122, to provide the pulling capacity in this second direction to keycap, wherein, this first predetermined angle and this second predetermined angle less than 90 degree be more than or equal to 0 degree. Such as, this first predetermined angle and this second predetermined angle are all 45 degree, but are not limited.

Further, as shown in Figure 2 and Figure 6, there is between keycap 101 and body 102 first gap 103, when testing element 13 contacts with keycap 101, testing element 13 is positioned at the first gap 103 and supports keycap 101, to provide the pulling capacity in this second direction to keycap 101. Certainly, in other embodiments, keycap 101 has the lobe extended to fourth direction, the such as keycap of chocolate keyboard, when testing element 13 contacts with keycap 101, testing element 13 between this lobe and body 102 and testing element 13 support this lobe, to provide the pulling capacity in this second direction to keycap 101, wherein, this fourth direction is parallel to body 102 place plane.

In the present embodiment, testing element 13 can be lamellar, cylindric, club or round needle shape, is specifically determined according to practical situation by designer, does not repeat them here.

Further, testing element 13 and traversing carriage 12 is fixing to be connected, and testing element 13 and keycap 101 sliding contact. or, testing element 13 is flexibly connected with traversing carriage 12, and testing element 13 rolls fixed contact with keycap 101, such as, testing element 13 is circular, match with its rotating shaft in its home position, testing element 13 is rotated around its center of circle, or, testing element 13 can be bar-like, and can rotate around its axle center, its position contacting keycap 101 is made constantly to change, when testing element 13 rolls fixed contact with keycap 101, frictional force suffered by testing element 13 is force of rolling friction, therefore the frictional force suffered by testing element 13 is less and friction area is bigger, greatly reduce the abrasion of testing element, extend the service life of testing element, reduce cost, it has been greatly reduced the replacement frequency of testing element 13 simultaneously, also the labor intensity of staff is reduced, but it is not limited, specifically determined according to practical situation by designer, do not repeat them here.

In practical application, as it is shown in fig. 7, also include driving device 14, in order to drive traversing carriage 12 to move.

Further, as shown in Figure 7, also include sensing device 15 and processing module 16, processing module 16 is coupled to sensing device 15 and driving device 14, and sensing device 15 is used for sensing keyboard 10, when keyboard 10 departs from base 11, sensing device 15 sends the first signal to processing module 16, processing module 16 controls driving device 14 according to this first signal and drives traversing carriage 12 to return the first end 111, namely returns initial position, is ready to start the detection of a new round; When processing module 16 receives secondary signal, processing module 16 controls driving device 14 according to this secondary signal and drives traversing carriage 12 to move to the second end 112 from the first end 111, namely starts to detect the keycap 101 of keyboard 10. Namely, the present invention is automation equipment, have only to user keyboard 10 is put into base 11 and sends this secondary signal, keyboard 10 can be detected by the detector 100 that comes off voluntarily, after detection, if user perusal is without keycap from dropping, namely can determine whether that the bond strength of each keycap 101 on keyboard 10 and body 102 meets the requirements, also illustrate that this keyboard 10 is up-to-standard. Wherein, this secondary signal is to be pressed by the button that starts coming off on detector 100 or produced after touch-control, or, this people's signal is to be produced by remote controller, or the option generation that this secondary signal is come off on the display on detector 100 by user point, specifically determined according to practical situation by designer, do not repeat them here. ,

Further, the detector 100 that comes off is provided with slide rail 17, is used for guiding traversing carriage 12 and moves along this first direction between the first end 111 and the second end 112, but be not limited, specifically determined according to practical situation by designer. It is also preferred that the left slide rail 17 is arranged at the relative both sides of pedestal 11, matches with two ends relative with traversing carriage 12 respectively, but be not limited.

Further, testing element 13 is made of plastics, but is not limited, and testing element 13 can also by meeting testing requirement, and other wear-resisting material is made, and is specifically determined according to practical situation by designer, does not repeat them here.

To sum up, the present invention provides one to come off detector, for detecting the keycap of keyboard, comprise base, traversing carriage testing element, when keyboard is positioned on this base, at least one this first direction of line unit shade arrangement of this keyboard, this base has the first relative end along this first direction and the second end, and this traversing carriage can move to this second end from this first end in the first direction relative to this base, when this traversing carriage moves to this second end in the first direction from this first end, this testing element sequentially contacts with multiple keycaps of wherein a line keycap and supports the keycap contacted, to apply pulling capacity in this second direction on this keycap contacted, when the actual adhesion of this keycap and this body is less than this pulling capacity, this element to be detected departs from this body. that is, the traversing carriage of the present invention is from this first end once moving to this second end, can detect this line unit cap on keyboard, convenient, fast, ensure keyboard quality at the same time it can also be improve production efficiency.

The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only the example implementing the present invention. It must be noted that, the embodiment disclosed is not limiting as the scope of the present invention. On the contrary, the change made without departing from the spirit and scope of the present invention and retouching, all belong to the scope of patent protection of the present invention.

Claims (16)

1. come off a detector, and for detecting the pulling capacity of the element to be detected of device to be detected, this device to be detected has body and at least a line element to be detected being arranged on this body, it is characterised in that this detector that comes off comprises:

Base, for placing this device to be detected, when this device to be detected is positioned on this base, this at least a line element to be detected arrange in the first direction, and this base has the first relative end on this first direction and the second end, this first direction is parallel to the plane at this body place;

Traversing carriage, is arranged at above this base, and can move along this first direction relative to this base;

Testing element, is arranged on this traversing carriage, and this testing element in order to provide the pulling capacity in second direction to this element to be detected, and wherein, this second direction is the direction that this element to be detected departs from this body;

Wherein, when this traversing carriage moves to this second end along this first direction from this first end, this testing element moves to this second end along this first direction from this first end, and in moving process, this testing element sequentially contacts and supports, with the element multiple to be detected of wherein a line element to be detected, the element to be detected contacted, to apply pulling capacity in this second direction on this element to be detected contacted, when the actual adhesion of this element to be detected contacted and this body is less than this pulling capacity, this element to be detected contacted departs from this body.

2. come off detector as claimed in claim 1, it is characterised in that this traversing carriage is along third direction across this pedestal, and wherein, this third direction is perpendicular to this first direction and is parallel to the plane at this body place.

3. come off detector as claimed in claim 2, it is characterized in that, this device to be detected includes multirow element to be detected, arrange along this third direction between each row element to be detected, this detector that comes off includes multiple testing element, the plurality of testing element is along this third direction spread configuration on this traversing carriage, and each testing element has gap and configures corresponding to this multirow element to be detected.

4. come off detector as claimed in claim 3, it is characterised in that when this traversing carriage moves to this second end along this first direction from this first end, every a line element to be detected contacts with a testing element respectively.

5. come off detector as claimed in claim 1, it is characterized in that, this device to be detected includes multirow element to be detected, this traversing carriage includes the first traversing carriage and the second traversing carriage, this first traversing carriage along third direction across this pedestal, and this first traversing carriage is provided with multiple testing element, each testing element has gap and configures corresponding to this multirow element to be detected, this second traversing carriage along this third direction across this pedestal, and this second traversing carriage is provided with multiple testing element, multiple testing elements on this second traversing carriage arrange along this third direction, each testing element has gap and configures corresponding to this multirow element to be detected, when this traversing carriage moves to this second end along this first direction from this first end, each testing element on this first traversing carriage contacts with a line element to be detected respectively, each testing element on this second traversing carriage contacts with a line element to be detected respectively, wherein, this third direction is perpendicular to this first direction, and it is parallel to the plane at this body place.

6. come off detector as claimed in claim 5, it is characterised in that the number of the testing element on this first traversing carriage is equal to the line number of this element to be detected, and the number of the testing element on this second traversing carriage is equal to the line number of this element to be detected.

7. come off detector as claimed in claim 5, it is characterized in that, this first traversing carriage and this second traversing carriage arrange along this first direction, and between this first traversing carriage and this second traversing carriage, there is the first preset pitch, so that the multiple test sheets on this first traversing carriage are non-interference with the multiple test sheets on this second traversing carriage, when the element to be detected with the first of this device to be detected of the testing element on this first traversing carriage contacts, testing element on this second traversing carriage element to be detected with the second of this device to be detected contacts, this second element to be detected relatively this first element to be detected is near this first end, this first element to be detected and this second element to be detected arrange along this first direction and are positioned at same a line.

8. come off detector as claimed in claim 5, it is characterized in that, each element to be detected has the first relative side and the second side, each testing element on this first traversing carriage is supported mutually with this first side of element to be detected respectively, each testing element on this second traversing carriage is supported mutually with this second side of element to be detected respectively, arbitrary testing element on synchronization, this first traversing carriage is contacted with different two element to be detected with the arbitrary testing element on this second traversing carriage.

9. come off detector as claimed in claim 5, it is characterized in that, when this traversing carriage moves along this first direction, planar tilt first predetermined angle at this body place relatively of the testing element on this first traversing carriage, testing element on this second traversing carriage is relative to planar tilt second predetermined angle at this device place to be detected, to provide the pulling capacity in this second direction to this element to be detected, wherein, this first predetermined angle and this second predetermined angle are between 0 degree to 90 degree.

10. come off detector as claimed in claim 9, it is characterised in that this first predetermined angle and this second predetermined angle are 45 degree.

The detector 11. come off as claimed in claim 1, it is characterised in that this testing element and this traversing carriage are fixing to be connected, and this testing element and this element sliding contact to be detected; Or, this testing element is flexibly connected with this traversing carriage, and this testing element rolls fixed contact with this element to be detected.

The detector 12. come off as claimed in claim 1, it is characterized in that, this element to be detected has lobe, when this testing element and this element to be detected contacts, this testing element is between this lobe and this body and supports this lobe, to provide the pulling capacity in this second direction to this element to be detected; Or, between this element to be detected and this body, there is the first gap, when this testing element and this element to be detected contacts, this testing element is positioned at this first gap and this testing element supports this element to be detected, to provide the pulling capacity in this second direction to this element to be detected.

The detector 13. come off as claimed in claim 1, it is characterised in that this testing element is lamellar, cylindric, club or round needle shape.

The detector 14. come off as claimed in claim 1, it is characterised in that also include driving device, in order to drive this traversing carriage to move.

The detector 15. come off as claimed in claim 14, it is characterized in that, also include sensing device and processing module, this processing module is coupled to this sensing device and this sensing device, this sensing device is used for sensing this device to be detected, when this device to be detected departs from this base, this sensing device sends the first signal to this processing module, and this processing module controls this driving device according to this first signal and drives this traversing carriage to return this first end; When this processing module receives secondary signal, this processing module controls this driving device according to this secondary signal and drives this traversing carriage to move to this second end from this first end.

16. the detector that comes off as described in any one of claim 1-15, it is characterised in that this device to be detected is keyboard, this element to be detected is keycap.