CN102788749B - Fixing device for detection - Google Patents

Abstract

The invention relates to a fixing device for detection. The fixing device comprises a pedestal, a movable mechanism and a support plate, wherein the movable mechanism is arranged on the pedestal; the support plate is arranged on the movable mechanism and supports a member to be detected; and the movable mechanism enables the support plate to overturn and rotate, and the support plate drives the member to be detected to overturn and rotate to detect the member to be detected from various angles. The fixing device allows the member to be arranged and supported, so a user can detect the member to be detected from different angles without any manpower support, thereby the excess fatigue of the user is avoided, the assembly damage of the member to be detected in the detection process is prevented, the cost is effectively reduced, and the production benefit is improved.

Description

The stationary installation detected

Technical field

The present invention relates to a kind of stationary installation detected, referring to a kind of for fixing to be measured and without the need to using the stationary installation of manpower especially.

Background technology

When current electronic package manufactures, in order to safeguard overall quality, all must check that whether each electronic component is normal in the fabrication process, so during the assembling of those electronic components, overall qualification rate will be promoted, after certain electronic component has been assembled, whether also must check assembling correctly or whether have the place of damage.

Especially in printed circuit-board assembly manufacture, custom checks printed circuit-board assembly in artificial visual mode, artificial visual mode allows detection person support printed circuit-board assembly with hand, then upset and rotary printing circuit board assemblies before and after, printed circuit-board assembly is made to be various different angles, to check the part of printed circuit-board assembly, when tester is as checked a certain part, pressure must be applied to printed circuit-board assembly, but printed circuit-board assembly is without suitable support, tin ball fractured will be caused, and then cause printed circuit-board assembly to damage, printed circuit-board assembly not only can be caused to damage, tester is because checking printed circuit-board assembly in the above described manner for a long time, tester is easily tired, recall rate is caused to reduce, the quality of production is finally caused to reduce.

In order to solve the problem, provide support tool in the future and coordinate visual inspection operation, printed circuit-board assembly is so made to have suitable anchorage force, the problem of printed circuit-board assembly distortion or tin ball fractured can be prevented, but support jig must use manual support and does front and back upset and rotate, and the weight of support jig is quite heavy, and detection person uses quite hard, muscle power also consumes soon than usual, easily tired.

Because the problems referred to above, the invention provides a kind of stationary installation detected, this stationary installation can be fixed and support one and be treated side part, need not use this stationary installation of any manual support, effectively promote recall rate, and then improves productivity effect.

Summary of the invention

Object of the present invention, be to provide a kind of stationary installation detected, it mainly arranges for one to be measured and supports, and upset is provided and rotates this function of to be measured, to detect this to be measured, so need not use manual support, and avoid to be measured damage, effectively reduce costs, improve productivity effect.

In order to achieve the above object, the invention provides a kind of stationary installation detected, this stationary installation comprises: a base; One movable device, this movable device is arranged at this base; And a support plate, this support plate is arranged at this movable device, to be measured of this carrier for bearing one; Wherein this movable device makes this support plate overturn and rotates, and this support plate drives this to be measured to overturn and rotates, and allows this to be measured to detect in various angle.

The invention provides the another kind of stationary installation detected, this stationary installation comprises: a base; At least one flip module, this at least one turning mould is arranged at this base; One support plate, this support plate is arranged at this flip module, to be measured of this carrier for bearing one, and this support plate is overturn, and this support plate drives this to be measured upset; And a rotary module, this rotary module is arranged at this support plate, and is connected to this to be measured, drives this to be measured rotation; Wherein this flip module and this rotary module drive this to be measured to overturn and rotate, and make this to be measured to detect in various angle.

The present invention can meet user can detect to be measured in different angles, and do not need user exert a force support to be measured detect, avoid user overtired, and prevent the assembly on to be measured from damaging, effectively reduce costs, raising productivity effect.

Accompanying drawing explanation

Fig. 1 is the stereographic map of a preferred embodiment of the present invention;

Fig. 2 is the sectional view of a preferred embodiment of the present invention;

Fig. 3 is the stereographic map of another preferred embodiment of the present invention;

Fig. 4 is the sectional view of the flip module of another preferred embodiment of the present invention;

Fig. 5 is the stereographic map of another preferred embodiment of the present invention; And

Fig. 6 is the sectional view of another preferred embodiment of the present invention.

Primary clustering symbol description:

Embodiment

Hereby for making auditor have a better understanding and awareness architectural feature of the present invention and effect of reaching, careful assistant is with preferred embodiment and coordinate detailed description, illustrates as rear:

Referring to Fig. 1, is the stereographic map of a preferred embodiment of the present invention, as shown in the figure, the present embodiment provides a kind of stationary installation detected, it is mainly used in visual detection, stationary installation 1 is fixing and support one to be measured 2, make to be measured 2 to overturn and rotate to be various detection angles, user can be detected by the visual light reflection state of to be measured 2 under various detection angles, wherein to be measured 2 is printed circuit-board assembly, general printed circuit-board assembly has a central processing unit, its surface has an over cap, when opening over cap, because stationary installation 1 gives to be measured 2 suitable anchorage forces, relatively be not easy to cause deformation of printed circuit board and tin ball fractured.The stationary installation 1 of the present embodiment can be used for other and detects, and is only not limited to for visual detection.

Stationary installation 1 comprises base 10, movable device 12 and a support plate 14, and movable device 12 is arranged at base 10, and a surface of support plate 14 is arranged at movable device 12, and another surface of support plate 14 is in order to carry to be measured 2.Wherein movable device 12 makes support plate 14 overturn, and support plate 14 drives to be measured 2 upset.Movable device 12 also can make support plate 14 rotate, and support plate 14 drives to be measured 2 rotation, and so to be measured 2 is various detection angles, to detect to be measured 2.

The movable device 12 of the present embodiment has flip module 121 and a rotary module 123, flip module 121 is arranged between base 10 and support plate 14, and be positioned at the center of base 10 and support plate 14, support plate 14 is overturn and produces a flip angle, and then drive to be measured 2 upset, and the flip angle of foundation support plate 14 controls the flip angle of to be measured 2.The detailed construction of above-mentioned flip module 121 refers to following.

Seeing also Fig. 2, is the sectional view of a preferred embodiment of the present invention.As shown in the figure, flip module 121 comprises undersetting 1211 and a upper bracket 1213, and undersetting 1211 has a first end 1211a and one second end 1211b, and the first end 1211a of undersetting 1211 is arranged at base 10.Upper bracket 1213 has a first end 1213a and one second end 1213b, and the first end 1213a of upper bracket 1213 is arranged at support plate 14, and the second end 1213b of upper bracket 1213 is articulated in the second end 1211b of undersetting 1211.When overturning support plate 14, the upper bracket 1213 be connected with support plate 14 rotates relative to undersetting 1211, so support plate 14 produces upset by flip module 121, and then drives to be measured 2 upset be positioned on support plate 14.

Then above-mentioned undersetting 1211 has two side plates 12111, and every side plate 12111 also has a first end and one second end, and the first end of two side plates 12111 is the first end 1211a of above-mentioned undersetting 1211, and is arranged at base 10.Second end of two side plates 12111 is the second end 1211b of above-mentioned undersetting 1211, at the second end of every side plate 12111, there is a fixed orifice 12113, second end 1213b of upper bracket 1213 has a pivoted hole 12131, the fixed orifice 12113 of every side plate 12111 and the pivoted hole 12131 of upper bracket 1213 wear for a fixing axle center 1215, undersetting 1211 is fixed in fixing axle center 1215, and upper bracket 1213 is fixed between those side plates 12111.When support plate 14 overturns, the upper bracket 1213 connecting support plate 14 rotates relative to fixing axle center 1215, and support plate 14 drives to be measured 2 upset.

Consult Fig. 2 again, rotary module 123 comprises a turning axle 1231, and one end of turning axle 1231 is arranged at flip module 121, and its other end is arranged at support plate 14.When rotating support plate 14, support plate 14 rotates on flip module 121 by turning axle 1231, and support plate 14 drives to be measured 2 rotation.Overturn by flip module 121 and rotary module 123 and rotate for be measured 2, making to be measured 2 in various detection angles, to detect to be measured 2.Above-mentioned flip module 121 and rotary module 123 all utilize manpower to drive, flip module 121 and rotary module 123 also can connect a power source respectively, power source is utilized to drive flip module 121 and rotary module 123 overturn and rotate, so more can reduce the use of manpower, user is more convenient in use.Wherein power source can be electronic or pneumatic.

Referring to Fig. 3, is the stereographic map of another preferred embodiment of the present invention.As shown in the figure, the support plate 14 of the stationary installation 1 of the present embodiment also has multiple keeper 141, and those keepers 141 are arranged to be measured 2 of support plate 14 in order to location.Referring to Fig. 4, is the sectional view of the flip module of another preferred embodiment of the present invention.As shown in the figure, the undersetting 1211 of the flip module 121 of the present embodiment has at least one locking hole 12115, locking hole 12115 is arranged for a locking part 12117, locking part 12117 has body 12110, elastic body 12114 and a ball 12116, body 12110 has a groove 12112, elastic body 12114 is arranged at groove 12112, and ball 12116 is arranged at one end of elastic body 12114, and is positioned at the opening of groove 12112.The outer surface of body 12110 has screw thread, locking hole 12115 has the screw thread corresponding with body 12110, locking part 12117 is allowed to be locked in locking hole 12115, elastic body 12114 props up ball 12116 in upper bracket 1213, with fixing upper bracket 1213 in an anglec of rotation, then can be locked in the degree of depth of locking hole 12115 by locking part 12117, adjustment elastic body 12114 props up ball 12116 in the amount of force of upper bracket 1213.When locking part 12117 be locked in locking hole 12115 darker time, elastic body 12114 is compressed more, produces that to prop up ball 12116 larger in the acting force of upper bracket 1213; Otherwise, when locking part 12117 be locked in locking hole 12115 more shallow time, elastic body 12114 is compressed more shallow, produces that to prop up ball 12116 less in the acting force of upper bracket 1213.And control the rotation of upper bracket 1213 and static needs suitably adjust locking part 12117, prop up ball 12116 in the suitable acting force of upper bracket 1213 to produce, upper bracket 1213 like this can arbitrarily rotate and be fixed on the anglec of rotation.

Referring to Fig. 5, is the stereographic map of another preferred embodiment of the present invention.As shown in the figure, the present embodiment also provides a kind of stationary installation detected, stationary installation 1 has a base 10, at least one flip module 13, support plate 14 and a rotary module 16, flip module 13 quantity of the present embodiment is two, it is arranged at the two ends of base 10 respectively, then support plate 14 is arranged in those flip module 13, and flip module 13 structure of the present embodiment is the same with the flip module structure of above-described embodiment, does not repeat them here.Support plate 14 produces upset by those flip module 13.Seeing also Fig. 6, is the sectional view of another preferred embodiment of the present invention.As shown in the figure, rotary module 16 is arranged at support plate 14, and connects to be measured 2, allows to be measured 2 to rotate on support plate 14.The rotary module 16 of the present embodiment comprises turning axle 161 and a rotary seat 163, and one end of turning axle 161 is arranged at rotary seat 163, and its other end is arranged at support plate 14.Be arranged at for be measured 2 on rotary seat 163, when rotating rotary seat 163, to be measured 2 rotates along with rotary seat 163, and flip module 13 and rotary module 16 make to be measured 2 to overturn and rotate to various detection angles, to detect to be measured 2.Wherein rotary seat 163 also increases the thickness of support plate 14, gives to be measured 2 better anchorage force, and increases stability when rotating.The one side that above-mentioned rotary seat 163 carries to be measured 2 also equally with Fig. 3 embodiment can be provided with multiple keeper, to locate to be measured 2 on rotary seat 163, does not repeat them here.

In sum, the present invention relates to a kind of stationary installation detected, it is mainly for be measured setting, then by the flip module of stationary installation and rotary module upset and rotate to be measured, make to be measured to overturn and rotate to a detection angles, so that detect to be measured, so can meet user and can detect to be measured in different angles, and do not need user exert a force support to be measured detect, avoid user overtired, and prevent the assembly on to be measured from damaging, effectively reduce costs, improve productivity effect.

Therefore the present invention one has novelty, progressive and can for user in industry, the patented claim important document that should meet Patent Law defined undoubtedly, so propose application for a patent for invention in accordance with the law, is prayed Patent Office and is grant quasi patent early, to sense for praying.

Only as described above, be only a preferred embodiment of the present invention, not be used for limiting scope of the invention process, the equivalent variations that every shape, structure, feature and spirit according to the scope of claims of the present invention is done and modification, all should be included in the scope of claims of the present invention.

Claims (9)

1. the stationary installation detected, this stationary installation comprises:

One base;

One movable device, this movable device is arranged at this base; And

One support plate, this support plate is arranged at this movable device, to be measured of this carrier for bearing one;

Wherein this movable device comprises:

One flip module, this flip module comprises:

One undersetting; And

One upper bracket;

Wherein this undersetting has two side plates, and those side plates have a fixed orifice respectively, and this upper bracket has a pivoted hole, and those fixed orifices and this pivoted hole pass for a fixing axle center, to fix this upper bracket between those side plates; And

One rotary module, this rotary module comprises:

One turning axle, this turning axle one end is arranged at this flip module, and its other end is arranged at this support plate, makes this support plate rotate on flip module, to drive this to be measured rotation;

Wherein this movable device makes this support plate overturn and rotates, and this support plate drives this to be measured to overturn and rotates, and allows this to be measured to detect in various angle; And

Wherein this support plate has multiple keeper, and those keepers locate this to be measured.

2. the stationary installation detected as claimed in claim 1, wherein this flip module is arranged between this base and this support plate, makes this support plate produce upset, to drive this to be measured upset; This rotary module is arranged at this flip module, and is connected to this support plate, makes this support plate rotate on this flip module, to drive this to be measured rotation.

3. the stationary installation detected as claimed in claim 2, wherein this undersetting has a first end and one second end, and this first end of this undersetting is arranged at this base; This upper bracket has a first end and one second end, and this first end of this upper bracket is arranged at this support plate, and this second end of this upper bracket is articulated in this second end of this undersetting, and this support plate rotates generation upset by this upper bracket relative to this undersetting.

4. the stationary installation detected as claimed in claim 3, wherein this undersetting has at least one locking hole, and this locking hole is arranged for a locking part, and this locking part fixes this upper bracket in an anglec of rotation.

5. the stationary installation detected as claimed in claim 4, wherein this locking part comprises:

One body, this body has a groove;

One elastic body, this elastic body is arranged at this groove; And

One ball, this ball is arranged at this elastomeric one end, and this elastic body props up this ball in this upper bracket, to fix this upper bracket in this anglec of rotation.

6. the stationary installation detected, this stationary installation comprises:

One base;

At least one flip module, this at least one flip module is arranged at this base, and this at least one flip module comprises:

One undersetting; And

One upper bracket;

Wherein this undersetting has two side plates, and those side plates have a fixed orifice respectively, and this upper bracket has a pivoted hole, and those fixed orifices and this pivoted hole pass for a fixing axle center, to fix this upper bracket between those side plates; And

One support plate, this support plate is arranged at this at least one flip module, to be measured of this carrier for bearing one, and this support plate is overturn, and this support plate drives this to be measured upset; And

One rotary module, this rotary module is arranged at this support plate, and is connected to this to be measured, and drive this to be measured rotation, this rotary module comprises:

One rotary seat, this rotary seat is arranged between this support plate and this to be measured; And

One turning axle, this turning axle one end is arranged at this support plate, and its other end is arranged at this rotary seat, and this rotary seat rotates on this support plate by this turning axle, to drive this to be measured rotation; Wherein this at least one flip module and this rotary module drive this to be measured to overturn and rotate, and make this to be measured to detect in various angle; And

Wherein this rotary seat has multiple keeper, and those keepers locate this to be measured.

7. the stationary installation detected as claimed in claim 6, wherein this undersetting has a first end and one second end, and this first end of this undersetting is arranged at this base; This upper bracket has a first end and one second end, and this first end of this upper bracket is arranged at this support plate, and this second end of this upper bracket is articulated in this second end of this undersetting, and this support plate rotates generation upset by this upper bracket relative to this undersetting.

8. the stationary installation detected as claimed in claim 7, wherein this undersetting has at least one locking hole, and this locking hole is arranged for a locking part, and this locking part fixes this upper bracket in an anglec of rotation.

9. the stationary installation detected as claimed in claim 8, wherein this locking part comprises:

One body, this body has a groove;

One elastic body, this elastic body is arranged at this groove; And

One ball, this ball is arranged at this elastomeric one end, and this elastic body props up this ball in this upper bracket, to fix this upper bracket in this anglec of rotation.