CN107037241A - Camera model test jack - Google Patents

Abstract

Disclose camera model test jack.Camera model test jack includes：Bottom plate, is provided with module booting block, and camera model is placed on module booting block；Cover plate, is rotatably coupled to bottom plate；And swivel plate, connection pin block is provided with, the connector and camera lens pushing block of camera model is configured to connect to, and is rotatably coupled to cover plate.When cover plate rotates towards bottom plate, swivel plate is rotated by the interference edge of module booting block with cover plate identical direction so that connection pin block and connector are connected to each other directly.According to the disclosure, a kind of camera model test jack can be provided, be configured as guiding the correct connection between the connector of camera model and connection pin block, even and if the production line test camera model of 1000 or more daily, solid structure can be also kept within a very long time.

Description

Camera model test jack

Technical field

This disclosure relates to camera model test jack.More specifically, this disclosure relates to a kind of camera model test jack, Correct connection between its connector for being configured as guiding camera model and connection pin (pin) block, even and if production line The camera model of daily test 1000 or more, the camera model test jack can also keep hard within a very long time Real structure.

Background technology

After the assembling of each component is completed, the camera model of portable phone can be checked by carry out checking process With the presence or absence of abnormal, such as open a way short-circuit (OS) test, color measurement and test pixel in module.In order to perform inspection, by phase Machine module is incorporated into test jack, is then loaded into check device.

The lens unit of camera model receives the image of the test chart on the top for being attached to check device, the company of camera model Each pin for connecing device is electrically connected to check device to be powered, and is sent to inspection dress by the image that lens unit is received Put, to check anomaly existing/being not present for module.

While the inspection of camera model is carried out, the center overlapping of axles that the central shaft of lens unit should be with test chart, and And the status of electrically connecting between electric component and check device should be excellent.

Related to this, Korean patent No. 1316793 discloses a kind of camera model and checks socket, and it includes double cover plate, with Just durability and connective stability are improved.Camera model disclosed in Korean patent No. 1316793 checks that socket includes：Bottom plate, Camera model is laid on which floor plate；It is hinged to the inner cover plate of the bottom plate；Pressing plate, its formed in the inner cover plate with can on Lower movement；Outer cover plate, it is connected to the inner cover plate, protrudes pre- from the inner cover plate by elastic force to be maintained at the outer cover plate Determine the state of angle；And connection pin block, it is arranged on the pressing plate to be connected to the connection of the camera model Device.

Inspection socket in Korean patent No. 1316793 is configured to when outer cover plate is closed, and connection pin block is vertical On direction close to camera model connector, with cause normal load be directed to connection pin block and ensure connection pin block and Being stably connected between connector.

However, the inspection socket in Korean patent No. 1316793 is formed with complicated structure, the formation of its center platen is in inner cap That can move up and down on plate, outer cover plate is connected to inner cover plate by elastic force, and outer cover plate is configured to press pressing plate so that When installing camera model, three parts (that is, inner cover plate, pressing plate and outer cover plate) for being rotated against on substrate are mutually to interlock Mode rotate and move.Therefore, when repeating to install camera model and then separate the process of camera model, the result is that three When any one position between individual part part rubbing against one another starts to occur gap (clearance), due to complicated mutual Lock construction, the gap of generation expands to three part parts rubbing against one another, and therefore, the life-span of device reduces rapidly.

Gap between relative movement in camera model test jack or the part rotated against occurs being that interference connects Connect the principal element of the correct connection between device and connection pin block.Therefore need to develop a kind of test jack, the test jack Be configured as guide camera model connector and connection pin block between correct connection, even and if production line test daily The camera model of 1000 or more, the camera model test jack can also keep solid structure.

[prior art document]

[patent document]

(patent document 1) Korean patent No. 1316793 (is registered on October 2nd, 2013)

The content of the invention

The purpose of the disclosure is to provide a kind of camera model test jack, and it is configured as the connector for guiding camera model The correct connection between connection pin block, even and if production line the test camera model of 1000 or more, the phase daily Machine module testing socket can also keep solid structure within a very long time.

Above-mentioned purpose is realized by the camera model test jack according to the disclosure.The camera model test jack bag Include：Bottom plate, it is provided with module booting block, and camera model is positioned on the module booting block；Cover plate, is rotatably coupled To the bottom plate；And swivel plate, connection pin block is provided with, the connection pin block is configured to connect to the camera mould The connector and camera lens pushing block of block, and the connection pin block is rotatably coupled to the cover plate.When the cover plate direction During the bottom plate rotation, the swivel plate is rotated by the interference edge of module booting block with the cover plate identical direction so that The connection pin block and the connector are connected to each other directly.

First spring can be placed between module booting block and bottom plate to compress the module booting block upwards, and described The swivel plate that module booting block declines during being rotated in the cover plate towards the bottom plate is compressed.

The swivel plate may be coupled to the cover plate be able to enclose around the rotation of the first rotary shaft, the swivel plate It is described around the lens unit of camera model described in the described first rotation shaft compression, and when the module booting block is lowered by Swivel plate can rotate along the direction opposite with the cover plate.

The module booting block can include projection, and when the cover plate rotates to the bottom plate, the projection is by described Swivel plate is compressed and formed, and the swivel plate can be in the connection pin block opposite one on first rotary shaft Projection described in side compression.

Second spring can be placed between the projection and the module booting block to compress the projection upwards, and work as When the module booting block is lowered by, the projection can be by the module booting block swivel plate pressure to be lowered by Tightly.

The cover plate can be provided with：First boundary wall, first boundary wall is on swivel plate edge and the cover plate Identical direction forms the rotation border of the swivel plate when rotating；And the second boundary wall, the second boundary wall is described Swivel plate forms the rotation border of the swivel plate when being rotated along the direction opposite with the cover plate.

According to the disclosure, when the cover plate rotates towards the bottom plate, the swivel plate passes through the module booting block Interference along being rotated with the cover plate identical direction.It is, therefore, possible to provide a kind of camera model test jack, it is configured as The correct connection between the connector and the connection pin block of camera model is guided, even and if production line test 1000 daily Or more camera model, the camera model test jack can also keep solid structure within a very long time.

Brief description of the drawings

By the detailed description below in conjunction with accompanying drawing, above and other objects, features and advantages of the disclosure will be more Substantially, wherein：

Fig. 1 is the stereogram for the camera model test jack closure state for showing the disclosure；

Fig. 2 is the stereogram for showing the camera model test jack open mode in Fig. 1；

Fig. 3 A and Fig. 3 B are the partial sectional views of the use state for the camera model test jack being shown respectively in Fig. 1；

Fig. 4 is the partial sectional view of the camera model test jack in Fig. 1；And

Fig. 5 to Fig. 7 is the sectional view for the use state for showing the camera model test jack in Fig. 1.

Embodiment

Hereinafter, the illustrative embodiments of the disclosure be will be described in detail with reference to the accompanying drawings.In the description of the disclosure, it is Make the theme of the disclosure clear, the description to known function or structure will be omitted.

The camera model test jack of the disclosure is configured as guiding between the connector of camera model and connection pin block Correct connection, even and if production line the test camera model of 1000 or more, the camera model test jack daily Solid structure can be kept within a very long time.

Fig. 1 is the stereogram for the camera model test jack closure state for showing the disclosure.Fig. 2 is to show the phase in Fig. 1 The stereogram of machine module testing socket open mode.Fig. 3 A and Fig. 3 B are the camera model test jacks being shown respectively in Fig. 1 The partial sectional view of use state.Fig. 4 is the partial sectional view of the camera model test jack in Fig. 1.Fig. 5 is to show to Fig. 7 The sectional view of the use state of camera model test jack in Fig. 1.

As depicted in figs. 1 and 2, the camera model test jack 10 of the disclosure is configured as guiding the connection of camera model 1 Correct connection between device 3 and connection pin block 310, even and if production line tests the camera mould of 1000 or more daily Block, the camera model test jack 10 can also keep solid structure within a very long time.The camera model test Socket 10 includes bottom plate 100, cover plate 200 and swivel plate 300.

As depicted in figs. 1 and 2, the bottom plate 100 is provided with module booting block 110, and the camera model 1 is placed in the mould On block bootstrap block 110, and the bottom plate 100 forms the shape of cuboid block together with the module booting block 110.

The module booting block 110 is cuboid block, and it is installed on the bottom plate 100 with vertical direction Slidably.The module booting block 111 for laying camera model 1 is formed with the top surface of the module booting block 110.

As shown in Figures 2 and 3, the module booting block 110 is arranged on the bottom plate 100, to be existed by guide cylinder 112 On vertical direction slidably.Be formed with coupling recess 113 in the lower end of each guide cylinder 112, and bolt B with it is described couple it is recessed The screw thread couple of portion 113.The guide cylinder 112 is coupled to the basal surface of the bottom plate 100 by the bolt B, and described leads The top surface of the through hole from formation in vertical direction in the bottom plate 100 to cylinder 112 from the bottom plate 100 that pass through exposes.

As shown in figure 3, the module booting block 110 includes the straight line sphero-cylindrical lens 114 being arranged in each through hole.When described When module booting block 110 is moved in the vertical direction, the module booting block 110 is by the straight line sphero-cylindrical lens 114 with each leading Contacted to cylinder 112, so as to suppress the formation of frictional force.

Although it is not shown, between the module booting block 110 and the adjacent side of the bottom plate 100 further It is provided with crossed roller guide rail.The crossed roller guide rail is limitation stroke type line slideway, and wherein precise roller is orthogonal Ground is assembled.Because the crossed roller guide rail is well known in the present art, therefore its detailed description will be omitted.

First spring S1 is placed between the module booting block 110 and the bottom plate 100, is drawn with compressing the module upwards Guide block 110.As shown in Figure 3A, the module booting block 110 passes through the elastic extensive of each first spring S1 with its basal surface Multiple power is installed with the mode that the bottom plate 100 is spaced apart, and in this condition, the module booting block 110 is than the bottom plate 100 top surface is protruded more up.

Snap ring 115 is installed in the upper end of each guide cylinder 112.As shown in Figure 3A, the snap ring 115 forms described The portion boundary that module booting block 110 is moved up by each first spring S1 elastic restoring force.

As shown in Figure 3 B, when side promotes the module booting block 110 from it, the first spring S1 is compacted, and is made The module booting block 110 is obtained to decline (until the module booting block 110 is contacted with the bottom plate 100).When external force is removed When, the module booting block 110 is lifted to the state shown in Fig. 3 A by the elastic restoring force of the first spring S1.

As shown in Fig. 2 and Fig. 5 to Fig. 7, the bottom plate 100 is provided with projection 120.The projection 120 is configured to work as institute The rotation that the swivel plate 300 is disturbed when cover plate 200 rotates towards the bottom plate 100 is stated, and in the projection 120 than described Module booting block 110 from the top surface of the bottom plate 100 closer to projecting upwards at the position of the cancelling 201.

As shown in Figures 5 to 7, second spring S2 is placed between the projection 120 and the module booting block 110, with to It is upper to compress the projection 120.During the module booting block 110 declines, the projection 120 is by the swivel plate 300 Compress, and the second spring S2 is depressed on the module booting block 110.Detailed description on this point is by after Described together with description with the swivel plate 300.

As depicted in figs. 1 and 2, the cover plate 200 is rotatably coupled to the bottom plate 100.The cover plate 200 and described Bottom plate 100 by pin (hereinafter referred to as " and cancelling 201 ") it is coupled to each other with relatively rotatable.

As shown in figure 5, when the cover plate 200 rotates about 90 degree on the bottom plate 100, the cover plate 200 with it is described Bottom plate 100 is engaged without further rotating.Torsion spring 202 is assemblied in the cancelling 201.The cover plate 200 is by the torsion spring 202 Along the direction fexible bias pressure away from the bottom plate 100.

As shown in Fig. 2 the swivel plate 300 is coupled to the cover plate 200, can be rotated around the first rotary shaft X1.It is described Swivel plate 300 and the cover plate 200 by pin (hereinafter referred to as " and rotating dog 301 ") it is coupled to each other with relatively rotatable.

As shown in Fig. 2 the rotating dog 301 forms the first rotary shaft X1.As shown in Figures 5 to 7, the swivel plate 300 form the first rotary shaft X1.

In the swivel plate 300 towards on the surface of the bottom plate 100, it is configured as promoting the camera model 1 The quilt of connection pin block 310 of the connector 3 of the camera lens pushing block 320 of the lens unit 2 with being connected to the camera model 1 Install together.Because the connection pin block 310 and the camera lens pushing block 320 are known in the prior art, therefore will be saved Slightly it is described in detail.

Although not being shown specifically, the camera lens pushing block 320 is provided with holddown spring (not shown), the holddown spring with institute State when lens unit 2 is contacted and compress the lens unit 2.The first rotary shaft X1 formation is passed through in the camera lens pushing block 320 The position of the normal for the plane that the camera lens pushing block 320 is contacted with the lens unit 2.

As shown in Fig. 2, Fig. 4 and Fig. 5, the cover plate 200 includes the first boundary wall 210 and the second boundary wall 220, described the One boundary wall 210 is in the swivel plate 300 along forming the swivel plate 300 when being rotated with the identical direction of cover plate 200 Border is rotated, the second boundary wall 220 is formed when the swivel plate 300 rotates along the direction opposite with the cover plate 200 The rotation border of the swivel plate 300.

As shown in Figure 2 and Figure 4, the swivel plate 300 includes the first bonding part 330 and the second bonding part 340, described First bonding part 330 the swivel plate 300 along when being rotated with the identical direction of cover plate 200 with first boundary wall 210 engagements, second bonding part 340 is when the swivel plate 300 rotates along the direction opposite with the cover plate 200 and institute The second boundary wall 220 is stated to engage.

Pass through first junction surface 330 and first boundary wall 210 and second junction surface 340 and described Interference between two boundary walls 220, prevents the swivel plate 300 from excessively being revolved more than the required anglec of rotation in the opposite direction Turn.

As shown in Fig. 2 the cover plate 200 is formed with the first hook H1, and the bottom plate 100 is provided with to form second hook H2 Lever 130.

The bottom plate 100 is rotatably coupled to the lever 130 by pin.Torsion spring 202 is assemblied on the pin, and The second hook H2 receives revolving force by the torsion spring 202, will be engaged in the second hook H2 with the first hook H1 Side rotate up.

As shown in fig. 7, when the cover plate 200 closes the top of the bottom plate 100, the first hook H1 and described second Hook H2 is engaged with each other to form engaging force.When user promotes the lever 130, the first hook H1 and the second hook H2 Between connected structure be released, and the cover plate 200 rotates to the state shown in Fig. 5.

As shown in Figure 2 and Figure 5, the camera model 1 forms about 90 between the cover plate 200 and the bottom plate 100 It is placed in the state of the angle of degree in the module booting portion 111.

Hereinafter, in order to make it easy to understand, by for rotating the cover plate 200 from the side of state of Fig. 5 state to Fig. 7 It is referred to as " reverse direction " to referred to as " direction of advance, " and by the direction opposite with " direction of advance ".

Under the state shown in fig. 5, when the user promotes the end of the cover plate 200 towards the bottom plate 100 (that is, when the cover plate 200 rotates along the direction of advance), the swivel plate 300 is contacted with by quilt with the projection 120 The projection 120 is pressed and rotated along the direction of advance.

The swivel plate 300 is rotated by the projection 120 along the direction of advance, then, as shown in fig. 6, rotating to The horizontality that the camera lens pushing block 320 and the lens unit 2 are in contact with each other.In this state, the connection pin block 310 rotate to it is described connection pin block 310 be directly connected to the connector 3 angle (that is, wherein it is described connect pin it is vertical The state of setting).In this condition, first junction surface 330 is engaged with first boundary wall 210, to prevent the rotation Flap 300 further rotates in the direction of advance.

In the state of shown in Fig. 6, when the user further rotates the cover plate 200 along the direction of advance, The revolving force of the cover plate 200 passes sequentially through the first rotary shaft X1, and the camera lens pushing block 320 and the lens unit 2 are passed To the module booting block 110.Therefore, as shown in fig. 7, the module booting block 110 is compressed by the swivel plate 300, with The cover plate 200 declines during being rotated towards the bottom plate 100 together with the swivel plate 300.

In this case, institute is passed through by the imaginary line (not shown) for extending downwardly the first rotary shaft X1 and obtaining State the core of the contact plane between camera lens pushing block 320 and the lens unit 2.Therefore, though the cover plate 200 be from Fig. 6 state rotates to be Fig. 7 state, and the swivel plate 300 keeps horizontality.

With reference to the cover plate 200, state shown in Fig. 7 is dropped in the state of shown in Fig. 6 in the module booting block 110 During, the swivel plate 300 is rotated against along reverse direction.In the situation of figure 7, second junction surface 340 with The second boundary wall 220 is engaged, to prevent the swivel plate 300 from being further rotated along reverse direction.

Although it is not shown, the connection pin block 310 includes holddown spring (not shown) installed therein, and It is described as the state shown in the connection pin block 310 from the state to Fig. 7 shown in Fig. 6 is in close contact with the connector 3 Holddown spring is somewhat pressed.

From state shown in state to Fig. 7 shown in Fig. 6, a part of revolving force of the cover plate 200 is consumed to described in compression The each of projection 120 and the connection pin block 310, and be consumed to compress installed in the projection 120 and the company Connect the holddown spring in each of pin block 310.

From state shown in state to Fig. 7 shown in Fig. 6, the projection 120 and the connection pin block 310 are on described first Rotary shaft X1 is disposed opposite to each other.When the position of the projection 120 and the connection pin block 310 is correctly arranged, pass through The torque sum around the first rotary shaft X1 that the power that the projection 120 and the connection pin block 310 are transmitted is produced can To be caused to be zero (0).When it is zero (0) that the summation of torque, which is caused, state of the swivel plate 300 shown in from Fig. 6 to Fig. 7 Keep fully horizontal state.

According to the disclosure, when the cover plate rotates towards the bottom plate, the swivel plate passes through the module booting block Interference along being rotated with the cover plate identical direction.It is, therefore, possible to provide a kind of camera model test jack, it is configured as The correct connection between the connector and the connection pin block of camera model is guided, even and if production line test 1000 daily Or more camera model, the camera model test jack can also keep solid structure within a very long time.

It is aobvious and easy to those skilled in the art although the specific embodiment of the disclosure is described above See, can the invention is not restricted to embodiment disclosed herein, and in the case where not departing from spirit and scope of the present disclosure To carry out various modifications and variations.Therefore, such modifications and variations should not individually be explained from the spirit or viewpoint of the disclosure, And it should be appreciated that the embodiment of modification belongs to the claim of the disclosure.

Claims (6)

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

Bottom plate, the bottom plate is provided with module booting block, and camera model is placed on the module booting block；

Cover plate, the cover plate is rotatably coupled to the bottom plate；And

Swivel plate, the swivel plate is provided with connection pin block, and the connection pin block is configured to connect to the camera mould The connector and camera lens pushing block of block, and the connection pin block is rotatably coupled to the cover plate,

Wherein, when the cover plate rotates towards the bottom plate, the swivel plate by the interference of the module booting block along with The cover plate identical direction rotates so that the connection pin block and the connector are connected to each other directly.

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

First spring, first spring is placed between the module booting block and the bottom plate to be drawn with compressing the module upwards Guide block,

Wherein when the cover plate rotates towards the bottom plate, the module booting block swivel plate pressure to be lowered by Tightly.

3. camera model test jack according to claim 2, wherein, the swivel plate is coupled to the cover plate with can Around the rotation of the first rotary shaft,

The swivel plate surrounds the lens unit of camera model described in the described first rotation shaft compression, and

When the module booting block declines, the swivel plate rotates along the direction opposite with the cover plate.

4. camera model test jack according to claim 3, wherein, the module booting block includes projection, described prominent Rise and be formed to be compressed by the swivel plate when the cover plate rotates to the bottom plate, and

The swivel plate is on connecting projection described in the opposite side compression of pin block described in first rotary shaft.

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

Second spring, the second spring is placed between the projection and the module booting block to compress the projection upwards, And

When the module booting block is lowered by, the projection is by the module booting block swivel plate to be lowered by Compress.

6. camera model test jack according to claim 3, wherein, the cover plate includes：First boundary wall, described One boundary wall forms the rotation border of the swivel plate when swivel plate edge rotates with the cover plate identical direction；And The second boundary wall, the second boundary wall forms the rotation when the swivel plate rotates along the direction opposite with the cover plate The rotation border of plate.