CN107039798A - Camera model test jack - Google Patents

Abstract

The invention discloses a kind of camera model test jack.The camera model test jack includes：Bottom plate, the bottom plate has the interface block being connected with main circuit board, and is configured to camera model being supported on its top；And cover plate, the cover plate is configured to open or close the top of the bottom plate, and including connection pin block attached thereto and sub-circuit board, the connection pin block is connected to the connector of the camera model.The cover plate has insertion block, and the insertion block is configured to, when the cover plate closes the top of the bottom plate, make the electric contact of the Pogo pins and the sub-circuit board of the interface block be electrically connected to each other.According to the present invention it is possible to provide a kind of camera model test jack, even if pin and electric contact that the camera model test jack is configured to interface block repeat to contact each other in test process, it is also possible to prevent to need to change sub-circuit board due to electrical contact wear.

Description

Camera model test jack

Technical field

The present invention relates to a kind of camera model test jack, even if a kind of more particularly to pin and electricity for being configured to interface block Contact repeats to contact each other in test process, is also possible to prevent the camera for needing to change sub-circuit board due to electrical contact wear Module testing socket.

Background technology

After each component completes assembling, the camera model of portable phone tested, be to check in module It is no to there is exception, for example open short-circuit (OS) test, colour developing test and test pixel.When evaluating camera model performance, from figure Picture sensor receives signal with the characteristic of evaluation image sensor, and passes through the electronics device for providing and being actually equipped with camera model Part identical operation signal and power perform inspection, so that it is determined that with the presence or absence of abnormal in camera model.

As shown in figure 1, in the inspection, camera model 1 is being inserted into test jack 1000, and camera model 1 Test is performed after terminal connection in the pin and the connection pin block 1210 of test jack that are formed in a part 3.

Test jack 1000 is configured to open/closable structure.When testing camera model 1, test jack is opened 1000 so that camera model 1 is supported on the module booting part 1110 set in test jack 1000, then off test Socket 1000 is so that the pin of the part 3 is interconnected with being connected the terminal of pin block 1210.

As shown in figure 1, test jack 1000 is manufactured into this form：The cover plate 1200 installed above for having sub-circuit board SB can Rotatably it is connected with bottom plate 1100, the bottom plate 1100 is connected with main circuit board (not shown).In main circuit board and sub-circuit board In the state of SB is electrically connected to each other, camera model 1 is tested in test jack 1000.When rotation cover 1200 is with closing During test jack 1000, because the electricity formed on the pin of interface block 1120 and sub-circuit board SB that are electrically connected with main circuit board is touched Point is physically contacted, therefore main circuit board and sub-circuit board SB are electrically connected to each other.

But, there is problem in above-mentioned traditional test socket 1000：Repeating to play opening/closing test jack 1000 with to camera During module 1 is tested, the pin of interface block 1120 is physically contacted with the electric contact formed on sub-circuit board SB, quickly Abrasion.Therefore, coating will come off from sub-circuit board SB electric contact in five (5) days, it is therefore necessary to change sub-circuit board SB.

The content of the invention

It is an object of the present invention to provide a kind of camera model test jack, the camera model test jack is configured to i.e. Make the pin and electric contact of interface block repeat to contact each other in test process, be also possible to prevent to need due to electrical contact wear Change sub-circuit board.

It is a further object to provide a kind of camera model test jack, wherein connecting pin block (connection pin block) is connected along linear direction with connector, and the connection pin block is towards under the connector The length of drop is fully guaranteed, and thus prevents from damaging the connection pin block.

A further object of the present invention is to provide a kind of camera model test jack, and the camera model test jack is configured to Connection pin block can freely be adjusted towards the length of connector linear decline.

Above-mentioned purpose is realized by the camera model test jack according to the present invention.The camera model test jack bag Include：Bottom plate, the bottom plate has the interface block being connected with main circuit board, and is configured to camera model being supported on the top of the bottom plate Portion；And cover plate, the cover plate is configured to open or close the top of the bottom plate, and including the company above the cover plate Pin block and sub-circuit board are connect, the connection pin block is connected to the connector of the camera model.The cover plate has insertion Block, the insertion block is configured to, when the cover plate closes the top of the bottom plate, make the pogo pins (pogo of the interface block Pin) electric contact with the sub-circuit board is electrically connected to each other.

The insertion block may include：Multiple connection pins, one end of each connection pin and the sub-circuit board The contact, and the other end contacts with the pogo pins；First block part, first block part connects with the cover plate Connect, and be included in multiple first patchholes formed in first block part, therefore the side insertion institute of the connection pin State the first patchhole；And second block part, second block part is connected with first block part, and is included in second block part Multiple second patchholes of middle formation, therefore the opposite side of the connection pin inserts second patchhole.

Each connection pin can have the bonding part radially extended formed on part therebetween, and can be in institute The 3rd patchhole of formation in the first block part or second block part is stated, therefore the 3rd patchhole is inserted in the bonding part In.

The camera model test jack may also include the guiding for being formed as vertically being moved on the bottom plate Plate, the cover plate is rotationally attached to the guide plate.Described in being promoted after the cover plate rotates to the guide plate During cover plate, the cover plate and the guide plate can linear declines together, thus the connection pin block and the connector line Property connection.

The camera model test jack may also include：The multiple compression bullets inserted between the bottom plate and the guide plate Spring.

Any one in the guide plate and the bottom plate may include it is being formed thereon, towards the guide plate and Multiple guide rods of the other of described bottom plate extension, and the other of the guide plate and the bottom plate may include The multiple slots wherein formed, therefore the guide rod inserts the slot to move in the vertical direction respectively.

The cover plate may include to be rotatably formed at the first hook above the cover plate, and the bottom plate may include at the bottom The second hook that plate is formed above, therefore when the connection pin block is with the connector linearly connected, first hook Clasp joint is linked up with to described second, and the camera model test jack may also include releasing unit, releasing unit configuration To discharge the clasp joint between first hook and second hook.

First hook may include the projection formed on first hook, and the releasing unit may include cruelly The button being exposed, the sliding block extended from the button towards the projection, and be configured to extrude the cunning towards the button The compression spring of block.When user promotes the button, the sliding block can be linked up with along first hook and described second is discharged Between the direction of clasp joint promote the projection.

The camera model test jack may also include compression unit, and the compression unit is rotationally attached to the bottom Plate, and be configured to promote the cover plate, therefore the compression spring during guide plate linear decline towards the guide plate Compression ratio is equal to each other.

The compression unit may include the body and contact by user's rotation process, the contact from the body to The cover plate projection, and be configured to promote the cover plate when the body rotates to the bottom plate.

The contact may be configured with the wheel being rotatably attached with the body.

Each slot can be formed with step, and each guide rod may include and consolidating that the guide plate is connected The adjustment portion for determining portion and being tightened onto on the fixed part and being engaged with the step.When the adjustment portion and the fixed part are relative When rotating relative to one another, the length of the guide plate linear decline is conditioned.

According to the present invention, the cover plate has insertion block, when the cover plate closes the top of the bottom plate, the insertion Block electrically connects the pogo pins of the interface block and the electric contact of the sub-circuit board.It is, therefore, possible to provide a kind of camera model Test jack, even if pin and electric contact that the camera model test jack is configured to interface block are repeated each other in test process Contact, is also possible to prevent to need to change sub-circuit board due to electrical contact wear.

In addition, when promoting the cover plate after being rotated in the cover plate to the guide plate, the cover plate and described lead It is thus described to connect pin block and the connector linearly connected to plate together linear decline.It is, therefore, possible to provide a kind of camera Module testing socket, wherein the length that the connection pin block declines towards the connector is fully guaranteed, thus prevents stopping loss The bad connection pin block.

It is furthermore possible to also provide a kind of camera model test jack, the camera model test jack is configured to by relative rotation Turn the adjustment portion and the fixed part to adjust the length of the guide plate linear decline, so as to freely adjust connection pin block Towards the length of connector linear decline.

Brief description of the drawings

Pass through the specific descriptions below with reference to the accompanying drawings done, above-mentioned and other objects, features and advantages meeting of the invention Become apparent from, in the drawings：

Fig. 1 is the perspective view of traditional camera module testing socket；

Fig. 2 and Fig. 3 are perspective views, respectively illustrate and are inserted according to the camera model test of the first embodiment of the invention Seat；

Fig. 4 is the decomposition diagram of the insertion block of camera model test jack shown in Fig. 2；

Fig. 5 A and Fig. 5 B are the partial cross section views of camera model test jack shown in Fig. 2；

Fig. 6 and Fig. 7 are perspective views, respectively illustrate and are inserted according to the test of the camera model of second of embodiment of the invention Seat；

Fig. 8 to Figure 10 is side view, it is shown that the use state of camera model test jack shown in Fig. 6；

Figure 11 to Figure 13 is cross-sectional view, it is shown that the use state of camera model test jack shown in Fig. 6；

Figure 14 to Figure 16 is side view, it is shown that according to the camera model test jack of the third embodiment of the invention Use state；

Figure 17 A and Figure 17 B are the partial cross section views of camera model test jack shown in Fig. 6；And

Figure 18 A and Figure 18 B are the partial cross section views of the camera model test jack according to the 4th kind of embodiment of the invention.

Embodiment

Below, the illustrative embodiments of the present invention are described in detail refer to the attached drawing.In the description of the invention, In order that subject of the present invention is clear, the description to known function or structure is omitted.

Even if the camera model test jack of the present invention be configured to the pin and electric contact of interface block in test process that This repeats to contact, and is also possible to prevent to need to change sub-circuit board due to electrical contact wear.

In addition, the camera model test jack of the present invention is configured so that connection pin block connects along linear direction and connector Connect, and connect the length that pin block declines towards connector and be fully guaranteed, thus prevent from damaging the connection pin block.

In addition, the camera model test jack of the present invention is configured to freely adjust connection pin block towards connector linear decline Length.

Fig. 1 is the perspective view of traditional camera module testing socket.Fig. 2 and Fig. 3 are perspective views, are respectively illustrated according to this hair The camera model test jack of the first bright embodiment.Fig. 4 is the decomposition of the insertion block of camera model test jack shown in Fig. 2 Perspective view.Fig. 5 A and Fig. 5 B are the partial cross section views of camera model test jack shown in Fig. 2.Fig. 6 and Fig. 7 are perspective views, point The camera model test jack according to second of embodiment of the invention is not shown.Fig. 8 to Figure 10 is side view, it is shown that figure The use state of camera model test jack shown in 6.Figure 11 to Figure 13 is cross-sectional view, it is shown that camera model shown in Fig. 6 is surveyed Try the use state of socket.Figure 14 to Figure 16 is side view, it is shown that according to the camera model of the third embodiment of the invention The use state of test jack.Figure 17 A and Figure 17 B are the partial cross section views of camera model test jack shown in Fig. 6.Figure 18 A It is the partial cross section view of the camera model test jack according to the 4th kind of embodiment of the invention with Figure 18 B.

As shown in Figures 2 and 3, it is configured to i.e. according to the test jack 10 of camera model 1 of the first embodiment of the invention Make the Pogo pins 123 of interface block 120 and sub-circuit board SB electric contact repeat to contact each other, be also possible to prevent due to electric contact Wear and tear and need to change sub-circuit board SB, and be configured to include bottom plate 100 and cover plate 300.

Hereinafter, to promote to understand, upper and lower part is described respectively for state shown with reference to the accompanying drawings.On lid In the description of plate 300, the separation of upper and lower part is defined based on the closed mode shown in Fig. 2.

As shown in figure 3, bottom plate 100 is configured to camera model 1 being supported on above it, and be formed as rectangular parallel facade The shape of body block.Module targeting part 110 and interface block 120 are arranged on the top surface of bottom plate 100.

Module targeting part 110 is configured to support camera model 1 wherein, and along lens unit 2 and connector 3 Periphery formed step, with increase height, so as to prevent camera model 1 from being moved under by holding state.

Such as Fig. 3, shown in Fig. 5 A and Fig. 5 B, interface block 120 is configured to main circuit board MB electric contact being connected to sub-circuit Plate SB electric contact, and including upper mass 121, bottom piece 122 and Pogo pins 123.

Upper mass 121 and bottom piece 122 are configured to immovably fix Pogo pins 123, and are fixed by bolt B To bottom plate 100.Main circuit board MB is arranged on the lower end of bottom plate 100.

Although unspecified, main circuit board MB is fixed between the bottom surface of bottom plate 100 and pedestal S.Pedestal S is formed Framework is to allow test jack 20 to be loaded onto in check device.Pogo pins 123 be in the related art it is known, herein not Repeat again.

As fig. 5 a and fig. 5b, bottom piece 122 is formed with the side insertion of the first receiving hole 122h, Pogo pin 123 The first receiving hole 122h, the opposite side insertion that upper mass 121 is formed with the second receiving hole 121h, Pogo pin 123 is described Second receiving hole 121h.When bottom piece 122 and upper mass 121 are interconnected, Pogo pins 123 insert the first receiving hole respectively In 122h and the second receiving hole 121h.

In the state of in insertion the first receiving hole 122h and the second receiving hole 121h, one end of Pogo pins 123 and master Circuit board MB is contacted, and the other end of Pogo pins 123 is projected upwards by the second receiving hole 121h of upper mass 121.

As shown in Figures 2 and 3, cover plate 300 is configured to open or close the top of bottom plate 100, in one embodiment, Cover plate 300 is rotationally attached to bottom plate 100.

On the bottom surface of cover plate 300 (that is, on the surface in face of bottom plate 100), it is configured to promote the camera lens of camera model 1 The camera lens pushing block 320 of unit 2 is installed together with being connected pin block 310, the connection pin block 310 and camera model 1 Connector 3 is connected.It is known in the related art to connect pin block 310 and camera lens pushing block 320, be will not be repeated here.

In addition, sub-circuit board SB and insertion block 330 are arranged on cover plate 300.As shown in Figure 3 and Figure 4, insertion block 330 is matched somebody with somebody The contact for being set to the Pogo pins 123 and sub-circuit board SB that make interface block 120 when cover plate 300 closes the top of bottom plate 100 is mutual It is electrically connected, and including the first block part 332, the second block part 333 and connection pin 331.

As shown in Fig. 4, Fig. 5 A and Fig. 5 B, the first block part 332 is configured to immovably be fixedly connected with the second block part 333 Pin 331.First block part 332 is connected by bolt B with cover plate 300, and the second block part 333 is connected by bolt B with the first block part 332 Connect.

As shown in Figure 3 and Figure 4, the first block part 332 is formed as plate shape, to cover sub-circuit board SB bottom surface.Sub-circuit board SB is formed with multiple holes, and bolt B (the first block part 332 is connected to cover plate 300 by it) is inserted in the hole.

As shown in Figure 4 and Figure 5, the first block part 332 is formed with the first patchhole 332h, the side insertion of connection pin 331 The first patchhole 332h, the second block part 333 is formed with the second patchhole 333h, the opposite side insertion institute of connection pin 331 State the second patchhole 333h.When the first block part 332 and the second block part 333 are interconnected, connection pin 331 inserts first respectively The first patchhole 332h and the second patchhole 333h between the block part 333 of block part 332 and second.

As shown in Figure 5A, in the state of insertion the first patchhole 332h and the second patchhole 333h, connection pin 331 One end is contacted with sub-circuit board SB, and the other end is projected into outside by the second patchhole 333h of the second block part 333.

On the core of connection pin 331, the bonding part G radially extended is formed, and in the first block part 332 In (or second block part 333), the 3rd patchhole 330h is formed, hook portion G inserts the 3rd patchhole 330h.Hook portion G is in close contact in the 3rd patchhole 330h with the top surface of the second block part 333, therefore one end of connection pin 331 is retained as The state contacted with sub-circuit board SB.

As shown in figure 3, cover plate 300 and bottom plate 100 are interconnected with relative by pin (hereinafter referred to " cancelling 301 ") Rotation.Rotated relative to bottom plate 100 in the state of about 90 degree, cover plate 300 is engaged with bottom plate 100, is no longer further rotated. Torque spring 302 is fixed in cancelling 301.Cover plate 300 is inclined along the direction elasticity away from bottom plate 100 by torque spring 302 Put.

As shown in figure 3, being formed between cover plate 300 and bottom plate 100 in the state of about 90 degree of angles, the quilt of camera model 1 It is supported in module targeting part 110.

When since user towards bottom plate 100 state shown in Fig. 3 promote the end of cover plate 300 when, cover plate 300 closes bottom plate 100 top, as shown in Fig. 2 in this state, connection pin block 310 is connected to the connector 3 of camera model 1.

Fig. 5 A describe the state that cover plate 300 is rotated to be the neighbouring top of bottom plate 100, and it is complete that Fig. 5 B describe cover plate 300 Close interface block 120 and the cross-sectional view of insertion block 330 in the state of the top of bottom plate 100.

As shown in Figure 5A, the end of pogo pins 123 is retained as projecting upwards (until test jack from interface block 120 10 completely close) state, and as shown in Figure 5 B, when cover plate 300 completely closes 100 top of bottom plate, pogo pins 123 End is connected the lower end extruding of pin 331, so as to be electrically connected to each other.

As fig. 5 a and fig. 5b, no matter whether test jack 10 opens or closes, one end of connection pin 331 is all protected The state for holding to contact with sub-circuit board SB is (because hook portion G is retained as in the 3rd patchhole 333h and the second block part The state that 333 top surface is in close contact).As shown in Figure 5 B, when main circuit board MB and sub-circuit board SB are electrically connected to each other, connection Pin 331 is absorbed due to produced impact is physically contacted with Pogo pins 123, so as to prevent on sub-circuit board SB electric contacts Abrasion.

As shown in Figures 2 and 3, cover plate 300 is formed with the first hook H1, and bottom plate 100 is formed with rotating lever L, the rotation Lever L-shaped is into there is the second hook H2.

Rotating lever L is rotationally attached to bottom plate 100 by pin (hereinafter referred to " lever pin P ").Torque spring (not shown) is assemblied on lever pin P, and the second hook H2 receives revolving force, to be connect along by torque spring with the first hook H1 The direction of conjunction rotates.

As shown in Fig. 2 when cover plate 300 closes the top of bottom plate 100, the first hook H1 and the second hook H2 are engaged with each other To form engaging force.When user promotes rotating lever L, the engagement between the hooks of H1 and second H2, cover plate are linked up with release first 300 rotate to the state shown in Fig. 3.

As shown in Fig. 6 to Figure 10, it is configured to make according to the camera model test jack 20 of second of embodiment of the invention Pin block 310 must be connected to be connected with connector 3 along linear direction, and connect pin block 310 towards the length of the linear decline of connector 3 Degree is fully guaranteed, and thus prevents from damaging the connection pin block 310.Camera model test jack includes bottom plate 100, is oriented to Plate 200, cover plate 300 and releasing unit 400.

As shown in Figure 6 and Figure 7, bottom plate 100 is configured to camera model 1 being supported on above it, and it is flat to be formed as rectangle The shape of row facade body block.Module targeting part 110 and interface block 120 are arranged on the top surface of bottom plate 100.For ease of understanding, Omit the component description overlapping with the first embodiment of the invention.

Pedestal S is connected to the bottom surface of bottom plate 100.Pedestal S formation frameworks are filled with allowing test jack 20 to be loaded onto inspection In putting.

As shown in Figure 7 to 9, guide plate 200 is set so that cover plate 300 is spaced apart upwards with bottom plate 100, and guide plate 200 are formed to move up and down on bottom plate 100.

As shown in fig. 7, forming guide plate 200 along the periphery of module targeting part 110 in the upside of bottom plate 100 so that Guide plate 200 does not cover the upside of camera model 1 (more specifically, the vertical transfer portion of camera lens pushing block 320, connection pin Block 310 and insertion block 330).Flat surfaces are formed respectively in the top surface of guide plate 200 and bottom surface.

As shown in Figure 7 and Figure 8, multiple guide rod GB are connected with guide plate 200, and guide rod GB is vertically from guide plate 200 connect to bottom plate 100.Bottom plate 100 is formed with multiple slots 101, and guide rod GB inserts the slot 101 can vertically move It is dynamic.Preferably, the individual guide rod GB in four (4) is set along the length of guide plate 200.

As shown in Figure 17 A, guide rod GB is fixed to guide plate 200 by bolt B.Formed in each guide rod GB lower end There is the expansion W of radial dilatation, and each slot 101 is formed with the step 103 engaged with the expansion W.Step 103 itself can be formed by slot 101, still, as shown in figure 17, step 103 can by support compression spring CS the shape of boss 102 Into.Boss 102 is press fit into slot 101.

Between multiple compression spring CS insertion bottom plates 100 and guide plate 200.As shown in Figure 17 A, each compression spring CS with The state of Partial shrinkage is assembled on guide rod GB, and guide plate 200 is by compression spring CS elastic restoring force and bottom plate 100 top surface is spaced apart upwards.

As shown in Figure 17 A, because compression spring CS in guide rod GB upper end is fixed to guide plate 200 by bolt B Guide rod GB lower end (that is, expansion) is engaged with step 103 when elasticity is recovered under state, therefore guide plate 200 and bottom plate The distance that 100 top surfaces are spaced upwards is determined by guide rod GB.

As seen in this fig. 17b, when promoting guide plate 200, compression spring CS is compressed, the bottom surface of guide plate 200 and bottom plate 100 top surface is brought into tight contact with each other.

As shown in Figures 6 to 9, cover plate 300 is configured to be rotationally attached to guide plate 200, and in the face of cover plate 300 To on the surface of guide plate 200, with sub-circuit board SB electrically connect insertion block 330 and be connected pin block 310 and camera lens pushing block 320 are installed together, and the connection pin block 310 is connected with the connector 3 of camera model 1, and the camera lens pushing block 320 is configured To promote the lens unit 2 of camera model 1.

Cover plate 300 and bottom plate 200 are interconnected to rotate against by pin (hereinafter referred to " cancelling 301 ").Such as Fig. 8 Shown, when cover plate 300 rotates about 90 degree relative to guide plate 200, cover plate 300 is engaged with guide plate 200, not further Rotation.Torque spring 302 is assemblied in cancelling 301.Cover plate 300 is by torque spring 302 along the direction away from guide plate 200 Elastic biasing.

As shown in Fig. 7, Fig. 8 and Figure 11, formed between cover plate 300 and guide plate 100 in the state of about 90 degree of angles, Camera model 1 is supported in module targeting part 110.In this condition, guide plate 200 passes through the elastic extensive of compression spring CS Multiple power is spaced apart with the top surface of bottom plate 100.

When user promotes the end of cover plate 300 under state shown in Fig. 8 and Figure 11 towards guide plate 200, cover plate 300 revolves Turn, until the top surface of its bottom surface and guide plate 200 is in close contact, as shown in figs. 9 and 12.

As shown in figs. 9 and 12, in the state of the top surface of the bottom surface of cover plate 300 and guide plate 200 is in close contact, connection Pin block 310 and connector 3 and insertion block 330 and interface block 120 are spaced apart sufficiently from each other.Herein, the meaning " being spaced apart sufficiently from " Think of is to connect the several times that the distance between pin block 310 and connector 3 are the height of connector 3.Connect pin block 310 and connection The spacing distance between spacing distance and insertion block 330 and interface block 120 between device 3 is determined by guide rod GB.

When user pushes down on cover plate 300 under state shown in Fig. 9 and Figure 12, as shown in Figure 10 and Figure 17 B, bullet is compressed Spring CS is compressed, and cover plate 300 and guide plate 200 linear decline together, bottom surface and the bottom plate 100 of guide plate 200 are in close contact, together When, as shown in figure 13, connection pin block 310 and the linearly connected of connector 3.

As shown in figs. 9 and 12, when user pushes down on cover plate 300, ideally both hands are extruded simultaneously is located at pressure Point (point A) (multiple compression spring CS therefore, are compressed with identical pressure) directly over contracting spring CS, or singlehanded extruding compression Central point (" B " point) between spring CS.

Camera model test jack 20 is configured as follows：It is formed with connection pin block 310 and the cover plate of insertion block 330 300 and it is formed with module targeting part 110 and the bottom plate 100 of interface block 120 is spaced apart from each other by guide plate 200, thus exists In the state of cover plate 300 rotates towards guide plate 200, connection pin block 310 and connector 3 and insertion block 330 and interface block 120 It is spaced sufficiently apart each other.In this state, when user promote cover plate 300 when, cover plate 300 and guide plate 200 1 it is linear under Drop, is thus connected pin block 310 and the linearly connected of connector 3 (and inserting block 330 and the linearly connected of interface block 120).

As shown in Figure 7 and Figure 8, the first hook H1 is rotatably formed on cover plate 300, and the with the first hook H1 clasp joints Two hook H2 formation are on bottom plate 100.

A pair first hook H1 are rotationally attached to cover plate by pin (hereinafter referred to " hanger pin 303 ") respectively 300 opposite flank.As shown in fig. 7, formed between the hook of cover plate 300 and first H1 in the state of about 90 degree of angles, First hook H1 is hooked on cover plate 300, thus prevents the bottom surface of the first hook H1 towards cover plate 300 from further rotating.Each hook Torque spring (not shown) is equipped with pin 303.First hook H1 is rotated by torque spring towards the bottom surface of cover plate 300 to be biased.

As depicted in figure 10 and figure 13, when connection pin block 310 while cover plate 300 and guide plate 200 decline together and During with 3 linearly connected of connector, the first hook H1 is hooked on the second hook H2.By between the first hook H1 and the second hook H2 Binding strength, connection pin block 310 remain connection pin block 310 be connected with connector 3 state (also, insert block 330 and Interface block 120 is connected).

As shown in Figure 7 to 10, bottom plate 100 is provided with releasing unit 400 to discharge the hooks of the first hook H1 and second H2 Between clasp joint.

Releasing unit 400 include exposed to outside button 410, extend from the button 410 towards projection sliding block 420, And it is configured to compress the compression spring 430 of the sliding block 420 towards the button 410.

The end of sliding block 420 extends to relative projection 304, and projection 304 is formed on the first hook H1 with by sliding block 420 End compression and promote.

As depicted in figure 10 and figure 13, in the state of the first hook H1 is hooked to the second hook H2, when user is towards compression spring During 430 promoting button 410, compression spring 430 is compressed, and the opposed end of sliding block 420 promotes projection 304.

As shown in fig. 7, forming the inclined surface F with the ends contact of sliding block 420 in each projection 304.Such as Figure 10 institutes Show, when the end of sliding block 420 promotes inclined surface F, normal direction of the projection 304 along inclined surface F is compressed, therefore the One hook H1 outwards rotates (that is, along release and the direction of the second hook H2 clasp joint) around hanger pin 303.Therefore, when When clasp joint between one hook H1 and the second hook H2 is released, guide plate 200 is moved up, meanwhile, cover plate 300 is along away from guide plate 200 direction rotates, as shown in Figure 8.

As shown in Figure 14 to Figure 16, pressure is also included according to the camera model test jack 30 of the third embodiment of the invention Contracting unit 500.For ease of understanding, omit and above-mentioned embodiment identical component description of the invention.

Compression unit 500 is configured to promote cover plate 300 towards guide plate 200, thus in the process of linear reduction guide plate 200 In each compression spring CS compression ratio it is identical, and including body 510 and contact 520.

Body 510 includes being fixed to the fixed body 511 of bottom plate 100 and is rotationally attached to the rotary body of fixed body 511 512。

Fixed body 511 extends to the rear side of cover plate 300 from bottom plate 100, and rotary body 512 (is hereinafter referred to as by pin For " body pin 513 ") it is rotationally attached to fixed body 511.The formation of body pin 513 rotary shaft parallel with cancelling 301.Although Do not illustrate in detail, but in the state of shown in Figure 14, by being engaged with fixed body 511, prevent rotary body 512 along away from cover plate 300 direction rotates.

Contact 520 is configured to promote cover plate 300 during rotary body 512 rotates towards bottom plate 100, and by from rotation 512 wheels 520 prominent to cover plate 300 of swivel are constituted.Compression unit 500 is kept by wheel 520 and the top surface of cover plate 300 connects Tactile state.

As shown in Figure 14 to Figure 16, wheel 520 is rotationally attached to rotation by pin (hereinafter referred to " wheel pin 521 ") Swivel 512.Take turns the formation of pin 521 rotary shaft parallel with body pin 513 and cancelling 301.

In the state of shown in Figure 14, when user promotes the end of rotary body 512 with rotation cover 300, rotary body 512 Rotated respectively around different rotary shafts with cover plate 300.Therefore, the part hair that the top surface of wheel 520 and cover plate 300 is contacted with each other Changing.

As shown in figure 15, when user promotes the end of rotary body 512 with rotation cover 300, wheel 520 is in cover plate 300 Top surface on move to the core between compression spring CS, while continue rotate, until cover plate 300 bottom surface contact guide plate 200 top surface.

In this condition, as shown in figure 16, when user further promotes the end of rotary body 512, wheel 520 is in cover plate The core between compression spring is promoted on 300 top surface.Therefore, spring CS is compressed by identical pressure, cover plate 300 and leads Vertically decline to plate 200.Because rotary body 512 and fixed body 511 are only rotatably interconnected by body pin 513, rotation Body 512 keeps the state of the top surface contact of contact 520 and cover plate 300.

When user's promoting button 410 under state shown in Figure 16, the clasp joint between the first hook H1 and the second hook H2 It is released.Therefore, guide plate 200 is moved up, meanwhile, cover plate 300 rotates along the direction away from guide plate 200, as shown in figure 14. When cover plate 300 away from the direction of guide plate 200 along when rotating, cover plate 300 promotes rotary body 512, thus with rotary body 512 1 Act the state shown in Figure 14 of rotating to.

As shown in figure 18, regulation is configured to according to the camera model test jack 40 of the 4th kind of embodiment of the invention The length of the linear decline of guide plate 200.For ease of understanding, omit and the present invention first to the third embodiment identical component Description.

As shown in Figure 18 A, guide rod GB includes the fixed part GB1 being connected with guide plate 200 and is tightened onto the fixed part GB1 is upper and adjustment portion GB2 that engaged with step.Adjustment portion GB2 is formed with I shapes groove, cross recess or hex slot, screwdriver or pulls Hand is inserted in the groove.Slot 101 is extended downwardly with exposed to outside.

When user inserts screwdriver or spanner in slot 101, and adjustment portion GB2 is rotated so that adjustment portion GB2 and fixation When portion GB1 is rotated against, guide rod GB length is conditioned, as shown in figure 18b.Therefore, the length of the linear decline of guide plate 200 (that is, from the top surface of bottom plate 100 to the distance of guide plate 200, the top surface of the guide plate and bottom plate 100 is spaced upwards) is adjusted Section.

As described above, being configured to simply according to the camera model test jack 40 of the 4th kind of embodiment of the invention Adjust the spacing between guide plate 200 and bottom plate 100.Therefore, even if the length of connector 3 is because a variety of causes is (for example, camera The design variation of module 1) and increase, it can also fully ensure that the spacing between connection pin block 310 and connector 3 (and is inserted Enter the spacing between block 330 and interface block 120), to adapt to the increased length of connector 3.

According to the present invention, the cover plate has insertion block, when the cover plate closes the top of the bottom plate, the insertion Block electrically connects the Pogo pins of the interface block and the electric contact of the sub-circuit board.It is, therefore, possible to provide a kind of camera model Test jack, even if pin and electric contact that the camera model test jack is configured to interface block are repeated each other in test process Contact, is also possible to prevent to need to change sub-circuit board due to electrical contact wear.

In addition, when promoting the cover plate after being rotated in the cover plate to the guide plate, the cover plate and described lead It is thus described to connect pin block and the connector linearly connected to plate together linear decline.It is, therefore, possible to provide a kind of camera Module testing socket, wherein the length that the connection pin block declines towards the connector is fully guaranteed, thus prevents stopping loss The bad connection pin block.

It is furthermore possible to also provide a kind of camera model test jack, the camera model test jack is configured to by relative rotation Turn the adjustment portion and the fixed part to adjust the length of the guide plate linear decline, so as to freely adjust connection pin block Towards the length of connector linear decline.

Although described above is only certain exemplary embodiments of this invention, it will be understood by those skilled in the art that the present invention is not limited In embodiment described herein, various modifications may be made without departing from the spirit and scope of the invention and change. Therefore, the modifications and variations should not individually be interpreted as spirit or viewpoint beyond the present invention, it should be understood that the reality of modification The mode of applying falls within scope of the present invention.

Claims (12)

1. a kind of camera model test jack, including：

Bottom plate, the bottom plate has the interface block being connected with main circuit board, and the bottom plate is configured to camera model being supported on The top of the bottom plate；And

Cover plate, the cover plate is configured to open or close the top of the bottom plate, and the cover plate includes being arranged on the cover plate On connection pin block and sub-circuit board, the connection pin block is connected to the connector of the camera model,

Wherein described cover plate is provided with insertion block, and the insertion block is configured to make institute when the cover plate closes the top of the bottom plate The electric contact for stating the pogo pins and the sub-circuit board of interface block is electrically connected to each other.

2. camera model test jack according to claim 1, wherein the insertion block includes：

Multiple connection pins, one end of each connection pin and the contact of the sub-circuit board, and separately One end is contacted with the pogo pins；

First block part, first block part is connected with the cover plate, and first block part includes being formed in first block part In multiple first patchholes so that the side insertion of the connection pin described first inserts in the hole；And

Second block part, second block part is connected with first block part, and second block part includes being formed described second Multiple second patchholes in block part so that the opposite side of the connection pin inserts second patchhole.

3. camera model test jack according to claim 2, is being formed in institute wherein each connection pin has The bonding part radially extended on the center section of connection pin is stated, and

The 3rd patchhole is formed with first block part or second block part so that bonding part insertion described the Three insert in the hole.

4. camera model test jack according to claim 1, in addition to：

The guide plate vertically moved on the bottom plate is formed to, the cover plate is rotationally attached to described lead To plate,

Wherein, when promoting the cover plate after being rotated in the cover plate to the guide plate, the cover plate and the guide plate Linear decline together so that the connection pin block and the connector linearly connected.

5. camera model test jack according to claim 4, in addition to：Insert between the bottom plate and the guide plate Multiple compression springs.

6. camera model test jack according to claim 5, wherein any one in the guide plate and the bottom plate Person includes being formed in multiple guiding on any one, towards the other of the guide plate and the bottom plate extending The another one in bar, and the guide plate and the bottom plate is included in the multiple slots to be formed in the another one, So that the guide rod inserts the slot to move in the vertical direction respectively.

7. camera model test jack according to claim 4, wherein the cover plate is described including being rotatably formed at The first hook on cover plate,

The bottom plate includes being formed the second hook on the bottom plate so that when the connection pin block and the connector line Property connection when, it is described first hook clasp joint in described second hook, and

The camera model test jack also includes releasing unit, and the releasing unit is configured to release first hook and described Clasp joint between second hook.

8. camera model test jack according to claim 7, wherein first hook includes being formed described first Projection on hook,

The releasing unit includes：Button exposed to outside；

The sliding block extended from the button towards the projection；And

It is configured to extrude the compression spring of the sliding block towards the button, and

When user promotes the button, side of the sliding block along clasp joint between release first hook and second hook It is described raised to promoting.

9. camera model test jack according to claim 5, in addition to：

Compression unit, the compression unit is rotationally attached to the bottom plate and is configured to promote the lid towards the guide plate Plate so that the compression ratio of the compression spring is equal to each other in the guide plate linear decline.

10. camera model test jack according to claim 9, wherein the compression unit includes：

By the body of user's rotation process；And

Contact, the contact is raised from the body to the cover plate, and the contact be configured to when the body to The cover plate is promoted during the bottom plate rotation.

11. camera model test jack according to claim 10, wherein be configured with can with the body for the contact The wheel rotatably connected.

12. camera model test jack according to claim 6, wherein each slot is formed with step,

Each guide rod include the fixed part being connected with the guide plate and be tightened onto on the fixed part and with described The adjustment portion of rank engagement, and

When the adjustment portion and the fixed part are rotated against relative to each other, the length of the guide plate linear decline is adjusted Section.