CN109932157A - A kind of test integrated equipment of crystal oscillator processing - Google Patents

Abstract

The present invention relates to crystal oscillators to process testing equipment field, test integrated equipment is processed more particularly to crystal oscillator, it include workbench, crystal oscillator ontology feeding device, detection device and pin mounting device, crystal oscillator ontology feeding device includes pushing component, mounting plate and installation are on a mounting board for driving the power mechanism of pushing component, centre on workbench is additionally provided with transmission device along the extending direction of mounting plate symmetry axis, the detection device includes detection components and the fixed transport component that detection components side is arranged in, the centre of the fixed transport component and detection components is additionally provided with bearing plate, bearing plate is detachably equipped with pressure sensor, detection components include mobile mechanism and knocking gear, angle adjusting mechanism is additionally provided on mobile mechanism's output end, the output of the knocking gear and angle regulating mechanism End is fixedly connected, and side of the workbench far from detection device is arranged in the pin mounting device, and device improves the production efficiency of crystal oscillator.

Description

A kind of test integrated equipment of crystal oscillator processing

Technical field

The present invention relates to crystal oscillators to process testing equipment field, and in particular to crystal oscillator processes test integrated equipment.

Background technique

Crystal oscillator is the oscillator of high-precision and high stability, is widely used in colour TV, computer, remote controler etc. In all kinds of oscillating circuits and in communication system for frequency generator, be that data processing equipment generates clock signal and is spy Determine system and reference signal be provided, crystal oscillator detected after manufacturing, be all at present after production is completed to crystal oscillator into Row detection, may damage pin, so the design present apparatus before assembly detects crystal oscillator ontology, improve The efficiency of crystal oscillator production, detection.

Summary of the invention

The purpose of the present invention is to provide a kind of crystal oscillators to process test integrated equipment.

To achieve this purpose, the present invention adopts the following technical scheme:

There is provided a kind of crystal oscillator processing test integrated equipment.

A kind of preferred embodiment that test integrated equipment is processed as crystal oscillator includes workbench, crystal oscillator ontology feeding dress It sets, detection device and pin mounting device, the workbench is the plate structure of rectangle, and the bottom of workbench is provided with multiple Support leg frame, crystal oscillator ontology feeding device include pushing component, the mounting plate being symmetricly set at workbench and are mounted on installation For driving the power mechanism of pushing component on plate, the centre on workbench is also set up along the extending direction of mounting plate symmetry axis There is a transmission device, the detection device includes detection components and the fixed of detection components side is arranged in transports component, described The fixed component that transports includes the fixation conveyer for being symmetricly set on transmission device two sides, the fixed transport component and detection The centre of component is additionally provided with bearing plate, and the bearing plate is provided with mounting groove, is detachably equipped with pressure sensing in mounting groove Device, detection components include mobile mechanism and knocking gear, are additionally provided with angle adjusting mechanism on mobile mechanism's output end, The knocking gear is fixedly connected with the output end of angle regulating mechanism, and the pin mounting device setting is remote in workbench Side from detection device, pin mounting device include pin fixed mechanism and the pin peace that the transmission device other side is arranged in Mounting mechanism.

Process a kind of preferred embodiment of test integrated equipment as crystal oscillator, the pushing component includes mounting rod and more A pushing mechanism, the pushing mechanism include that support rod, first rotating shaft, connecting rod and axis connect the second shaft on a mounting board, One end of connecting rod is fixedly connected on the end of the second shaft, and first rotating shaft axis connects on the other end in connecting rod, the bottom of support rod Portion is fixedly connected in first rotating shaft, and the mounting rod is horizontally disposed, and the top of support rod is solid with the bottom side of mounting rod It is fixed to connect, multiple push plates are evenly arranged on the mounting rod, the power mechanism is fixedly mounted on the outside of mounting plate, and The output end of power mechanism is fixedly connected with the end of the first rotating shaft in the first left side.

Process a kind of preferred embodiment of test integrated equipment as crystal oscillator, the power mechanism include first motor, First threaded rod and the first mounting base on a mounting board arranged symmetrically, the first threaded rod axis connect in the first mounting base, First motor is fixedly mounted in the first mounting base, and the fixed company of the output end of the end of the first threaded rod and first motor It connects, one end that second shaft extends on the outside of mounting plate is fixedly installed first gear, first threaded rod and first Gear engagement connection, described be connected in the second shaft of first gear are further fixedly arranged on the first idler wheel, and another second turn The second idler wheel is fixedly installed on axis, first idler wheel is connected by the first belt and the transmission of the second idler wheel.

Process a kind of preferred embodiment of test integrated equipment as crystal oscillator, the transmission device include driving mechanism and Two axis connect the roller among workbench, and conveyer belt is arranged on roller, multiple baffles, institute are also evenly arranged on transmission belt The one end for stating roller is provided with the third shaft for extending to workbench side, and the driving mechanism includes the second motor, third Idler wheel and the 4th idler wheel being fixedly mounted in third shaft support and are fixedly installed with fixed frame, second motor in leg support It is fixedly mounted on fixed frame, third idler wheel is fixedly connected with the output end of the second motor, the third idler wheel and the 4th idler wheel It is sequentially connected by the second belt.

A kind of preferred embodiment of test integrated equipment is processed as crystal oscillator, the fixed conveyer includes the first electricity Dynamic screw rod slide unit, elevating mechanism and clamping device, the first electronic screw rod slide unit are fixed at the side of transmission device, and And first electronic screw rod slide unit extending direction it is consistent with the extending direction of conveyer belt, elevating mechanism include support column, sliding Bar, third motor and second gear, the support column are vertically arranged on the sliding block of the first electronic screw rod slide unit, sliding bar sliding The side of support column is set, the second mounting base is additionally provided on support column, the third motor is fixedly mounted on the second installation On seat, second gear is fixedly connected with the output end of third motor, and rack gear, the second gear are also fixedly installed on sliding bar Connection is engaged with rack, the sliding groove for extending sliding for sliding bar, the top fixed setting of sliding bar are additionally provided on workbench There are mounting blocks, the clamping device is fixed on mounting blocks.

Process a kind of preferred embodiment of test integrated equipment as crystal oscillator, the clamping device include the 4th motor, Reverse-flighted screw, hinge bar, grip block and the third mounting base being symmetricly set on mounting blocks, the reverse-flighted screw axis connect in third In mounting base, the side of reverse-flighted screw is additionally provided with the first guide rod, and the 4th motor is fixedly mounted in third mounting base, and One end of reverse-flighted screw is fixedly connected with the output end of the 4th motor, and the two sides of reverse-flighted screw are threaded with movable block, hinge Extension bar is respectively hinged at the side of movable block, and the other end of hinge bar is hinged with grip block.

A kind of preferred embodiment of test integrated equipment is processed as crystal oscillator, the mobile mechanism includes the second screw thread Bar, the support plate for being symmetricly set on conveyor belt two sides and the second guide rod that the second threaded rod two sides are set, the second threaded rod Axis connects on the supporting plate, and the end of the second threaded rod is additionally provided with the 4th shaft for extending to support plate side, and described 4th turn It is additionally provided with rotating turret on axis, bottom plate is also threaded on the second threaded rod, the angle adjusting mechanism is fixed at bottom On plate.

A kind of preferred embodiment of test integrated equipment is processed as crystal oscillator, the angle adjusting mechanism includes the 5th turn Axis, third gear, the 4th gear, the 5th motor and the 4th mounting base being symmetricly set on bottom plate, the 5th shaft axis connect In the 4th mounting base, third gear is fixed among the 5th shaft, and the 5th motor is fixedly mounted on bottom plate, the 4th tooth Wheel is fixedly connected with the output end of the 5th motor, and the 4th gear engages connection with third gear.

Process a kind of preferred embodiment of test integrated equipment as crystal oscillator, the knocking gear include the first cylinder, Impact block, connecting column and the fixing seat being fixedly connected on third gear, first cylinder are fixedly mounted in fixing seat, even It connects column to be fixedly connected with the output end of the first cylinder, the end of impact block and connecting column is hinged.

A kind of preferred embodiment of test integrated equipment is processed as crystal oscillator, the pin fixed mechanism includes fixation Column, the second electronic screw rod slide unit, the second cylinder and the first pneumatic clamper, fixed column are arranged on the table, the second electronic screw rod slide unit It is vertically installed in fixed column, the second cylinder is horizontally arranged on the sliding block of the second electronic screw rod slide unit, the first pneumatic clamper and second The output end of cylinder is fixedly connected, and pin installing mechanism includes fixed plate, third cylinder, pin transmission track and multiple installations Side of the workbench far from fixed column, third cylinder level peace is arranged in the second pneumatic clamper on third cylinder, the fixed plate In fixed plate, the position between pin installing mechanism and conveyer belt is arranged in pin transmission track.

Beneficial effects of the present invention: equipment is provided with detection device and can assemble before production is completed in crystal oscillator to crystal oscillator sheet Body is detected, and detects the endurance of crystal oscillator collided, it is ensured that the product quality of the crystal oscillator of production；The inspection of device setting It surveys device and is provided with angle adjusting mechanism and mobile mechanism, the shock of multi-angle can be carried out to crystal oscillator original idea and can detecte The degree of the resistance to collision of all positions of crystal oscillator ontology；Detection is carried out to crystal oscillator ontology before assembling pin to be also ensured Pin will not be caused to damage when detection, installation pin can not be had to when the crystal oscillator ontology of detection is underproof, Which offers a saving resources；Pin mounting device can will install pin by the crystal oscillator detected, just complete entire crystal oscillator The processing of product.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, will make below to required in the embodiment of the present invention Attached drawing is briefly described.It should be evident that drawings described below is only some embodiments of the present invention, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is structural schematic diagram one of the invention.

Fig. 2 is structural schematic diagram two of the invention.

Fig. 3 is the structural schematic diagram of crystal oscillator ontology feeding device of the invention.

Fig. 4 is the enlarged diagram in Fig. 3 at A.

Fig. 5 is the structural schematic diagram of transmission device of the invention.

Fig. 6 is the structural schematic diagram of elevating mechanism of the invention.

Fig. 7 is the structural schematic diagram of clamping device of the invention.

Fig. 8 is the structural schematic diagram of angle adjusting mechanism of the invention.

Fig. 9 is the structural schematic diagram of knocking gear of the invention.

Figure 10 is the structural schematic diagram of pin mounting device of the invention.

In figure: workbench 1 supports leg support 2, pushing component 3, mounting plate 4, power mechanism 5, transmission device 6, detection components 7, bearing plate 8, mobile mechanism 9, knocking gear 10, angle adjusting mechanism 11, pin fixed mechanism 12, pin installing mechanism 13, Mounting rod 14, support rod 15, first rotating shaft 16, connecting rod 17, the second shaft 18, push plate 19, first motor 20, the first threaded rod 21, the first mounting base 22, first gear 23, the first idler wheel 24, the second idler wheel 25, the first belt 26, roller 27, conveyer belt 28, Baffle 29, third shaft 30, the second motor 31, third idler wheel 32, the 4th idler wheel 33, fixed frame 34, the first electronic screw rod slide unit 35, elevating mechanism 36, clamping device 37, support column 38, sliding bar 39, third motor 40, second gear 41, the second mounting base 42, sliding groove 43, mounting blocks 44, the 4th motor 45, reverse-flighted screw 46, hinge bar 47, grip block 48, third mounting base 49, the One guide rod 50, the second threaded rod 51, support plate 52, the second guide rod 53, the 4th shaft 54, rotating turret 55, bottom plate 56, the 5th Shaft 57, third gear 58, the 4th gear 59, the 5th motor 60, the 4th mounting base 61, the first cylinder 62, impact block 63, connection Column 64, fixing seat 65, fixed column 66, the second electronic screw rod slide unit 67, the second cylinder 68, the first pneumatic clamper 69, fixed plate 70, third Cylinder 71, pin transmission track 72, the second pneumatic clamper 73.

Specific embodiment

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

Wherein, the drawings are for illustrative purposes only and are merely schematic diagrams, rather than pictorial diagram, should not be understood as to this The limitation of patent；Embodiment in order to better illustrate the present invention, the certain components of attached drawing have omission, zoom in or out, not Represent the size of actual product；It will be understood by those skilled in the art that certain known features and its explanation may be omitted and be in attached drawing It is understood that.

The same or similar label correspond to the same or similar components in the attached drawing of the embodiment of the present invention；It is retouched in of the invention In stating, it is to be understood that closed if there is the orientation of the instructions such as term " on ", "lower", "left", "right", "inner", "outside" or position System is merely for convenience of description of the present invention and simplification of the description to be based on the orientation or positional relationship shown in the drawings, rather than indicates Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore retouch in attached drawing The term for stating positional relationship only for illustration, should not be understood as the limitation to this patent, for the common skill of this field For art personnel, the concrete meaning of above-mentioned term can be understood as the case may be.

In the description of the present invention unless specifically defined or limited otherwise, if there are the indicate indicators such as term " connection " Between connection relationship, which shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or at One；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection of two components interiors or the interaction relationship of two components.For those of ordinary skill in the art and Speech, can understand the concrete meaning of above-mentioned term in the present invention with concrete condition.

It include workbench 1, crystal oscillator ontology referring to figs. 1 to a kind of test integrated equipment of crystal oscillator processing shown in Fig. 10 Feeding device, detection device and pin mounting device, the workbench 1 are the plate structure of rectangle, the bottom setting of workbench 1 There are multiple support leg supports 2, crystal oscillator ontology feeding device includes pushing component 3, the mounting plate being symmetricly set at workbench 14 It is symmetrical along mounting plate 4 with centre for driving the power mechanism 5 of pushing component 3, on workbench 1 is mounted on mounting plate 4 The extending direction of axis is additionally provided with transmission device 6, and the detection device includes detection components 7 and is arranged in 7 side of detection components The fixed of portion transports component, and the fixed component that transports includes the fixation conveyer for being symmetricly set on 6 two sides of transmission device, The centre of the fixed transport component and detection components 7 is additionally provided with bearing plate 8, and the bearing plate 8 is provided with mounting groove, installation Pressure sensor is detachably installed, detection components 7 include mobile mechanism 9 and knocking gear 10, the mobile mechanism 9 in slot Angle adjusting mechanism 11 is additionally provided on output end, the output end of the knocking gear 10 and angle regulating mechanism 11 is fixed Side of the workbench 1 far from detection device is arranged in connection, the pin mounting device, and pin mounting device includes that pin is solid Determine mechanism 12 and the pin installing mechanism 13 that 6 other side of transmission device is set.

The pushing component 3 includes mounting rod 14 and multiple pushing mechanisms, the pushing mechanism include support rod 15, First rotating shaft 16, connecting rod 17 and axis connect the second shaft 18 on mounting plate 4, and one end of connecting rod 17 is fixedly connected on the second shaft 18 end, 16 axis of first rotating shaft connect on the other end in connecting rod 17, and the bottom of support rod 15 is fixedly connected on first rotating shaft On 16, the mounting rod 14 is horizontally disposed, and the top of support rod 15 is fixedly connected with the bottom side of mounting rod 14, the peace Multiple push plates 19 are evenly arranged on dress bar 14, the power mechanism 5 is fixedly mounted on the outside of mounting plate 4, and engine The output end of structure 5 is fixedly connected with the end of the first rotating shaft 16 in the first left side.Power mechanism 5 drives the rotation of the second shaft 18, Then the second shaft 18 drives connecting rod 17 to rotate around the second shaft 18, and connecting rod 17 drives the push plate 19 being mounted on support rod 15 The front end that the crystal oscillator ontology being placed on mounting plate 4 is pushed forward to conveyer belt 28 of regularity.

The power mechanism 5 include first motor 20, the first threaded rod 21 and be symmetricly set on mounting plate 4 first Mounting base 22,21 axis of the first threaded rod connect in the first mounting base 22, and first motor 20 is fixedly mounted on the first mounting base On 22, and the end of the first threaded rod 21 is fixedly connected with the output end of first motor 20, and second shaft 18 extends to The one end in 4 outside of mounting plate is fixedly installed first gear 23, and first threaded rod 21 engages connection, institute with first gear 23 It states and is further fixedly arranged on the first idler wheel 24 in the second shaft 18 for be connected with first gear 23, it is fixed in another second shaft 18 Second idler wheel 25 is installed, first idler wheel 24 is connected by the first belt 26 and the transmission of the second idler wheel 25.Power mechanism 5 First motor 20 drives the first threads turn, and the first threaded rod 21 drives 23 turns of first gear engaged with the first threaded rod 21 It is dynamic, and then the rotation of the second shaft 18 is driven, it is final to realize that driving pushing component 3 pushes crystal oscillator ontology to travel forward.

The transmission device 6 includes driving mechanism and two axis connect the roller 27 among workbench 1, covers on roller 27 Multiple baffles 29 are also evenly arranged with equipped with conveyer belt 28, on transmission belt, one end of the roller 27, which is provided with, extends to work The third shaft 30 of 1 side of platform, the driving mechanism include the second motor 31, third idler wheel 32 and be fixedly mounted on third turn The 4th idler wheel 33 on axis 30 supports and is fixedly installed with fixed frame 34 in leg support 2, and second motor 31 is fixedly mounted on fixation On frame 34, third idler wheel 32 is fixedly connected with the output end of the second motor 31, and the third idler wheel 32 and the 4th idler wheel 33 pass through The transmission connection of second belt.When the crystal oscillator ontology being placed on mounting plate 4 is pushed to 28 two baffles of conveyer belt by pushing component 3 Position between 29, then the second motor 31 driving roller 27 rotates, and then conveyer belt 28 is driven to travel forward, by crystal oscillator ontology It forwards.

The fixed conveyer includes the first electronic screw rod slide unit 35, elevating mechanism 36 and clamping device 37, described First electronic screw rod slide unit 35 is fixed at the side of transmission device 6, and the extending direction of the first electronic screw rod slide unit 35 Consistent with the extending direction of conveyer belt 28, elevating mechanism 36 includes support column 38, sliding bar 39, third motor 40 and the second tooth Wheel 41, the support column 38 is vertically arranged on the sliding block of the first electronic screw rod slide unit 35, and sliding bar 39 is slidably arranged in support The side of column 38 is additionally provided with the second mounting base 42 on support column 38, and the third motor 40 is fixedly mounted on the second mounting base On 42, second gear 41 is fixedly connected with the output end of third motor 40, is also fixedly installed with rack gear on sliding bar 39, and described Connection is engaged with rack in two gears 41, and the sliding groove 43 for extending sliding for sliding bar 39, sliding bar 39 are additionally provided on workbench 1 Top be fixedly installed mounting blocks 44, the clamping device 37 is fixed on mounting blocks 44.On to conveyer belt 28 When crystal oscillator ontology is detected, fixed conveyer is moved to the side of crystal oscillator ontology on the first electronic screw rod slide unit 35 Portion, then the third motor 40 of elevating mechanism 36 drives second gear 41 to rotate, the rack drives that engages with second gear 41 and The sliding bar 39 that rack gear is fixedly connected, to decline until clamping device 37 clamps crystal oscillator ontology, then rises along support rod 15 Descending mechanism 36 rises the clamping device 37 for clamping crystal oscillator ontology, and then crystal oscillator ontology is transported on bearing plate 8, is being detected Bi Zhizhi, fixed transport removes crystal oscillator ontology from bearing plate 8 to be placed on conveyer belt 28.

The clamping device 37 includes the 4th motor 45, reverse-flighted screw 46, hinge bar 47, grip block 48 and is symmetrical arranged Third mounting base 49 on mounting blocks 44,46 axis of reverse-flighted screw connect in third mounting base 49, the side of reverse-flighted screw 46 Portion is additionally provided with the first guide rod 50, and the 4th motor 45 is fixedly mounted in third mounting base 49, and the one of reverse-flighted screw 46 End is fixedly connected with the output end of the 4th motor 45, and the two sides of reverse-flighted screw 46 are threaded with movable block, and hinge bar 47 divides It is not hinged on the side of movable block, and the other end of hinge bar 47 is hinged with grip block 48.It needs to carry out crystal oscillator ontology When gripping, the 4th motor 45 driving reverse-flighted screw 46 of two sides is rotated, and is threaded on reverse-flighted screw 46 simultaneously It moves inward, so that it may drive hinge bar 47 that grip block 48 is pushed to clamp crystal oscillator ontology.

The mobile mechanism 9 includes the second threaded rod 51, the support plate 52 for being symmetricly set on 28 two sides of conveyer belt and sets The second guide rod 53 in 51 two sides of the second threaded rod is set, 51 axis of the second threaded rod connects in support plate 52, the second threaded rod 51 End be additionally provided with the 4th shaft 54 for extending to 52 side of support plate, be additionally provided with rotating turret in the 4th shaft 54 55, bottom plate 56 is also threaded on the second threaded rod 51, and the angle adjusting mechanism 11 is fixed on bottom plate 56.It is adjusting When whole detection device hits the position on detection crystal oscillator ontology, rotation rotating turret 55 can drive 51 turns of the second threaded rod It is dynamic, it can realize and move back and forth on the bottom plate 56 being threaded on the second threaded rod 51, to realize adjusting detection device Detect the position of crystal oscillator ontology.

The angle adjusting mechanism 11 includes the 5th shaft 57, third gear 58, the 4th gear 59,60 and of the 5th motor The 4th mounting base 61 being symmetricly set on bottom plate 56,57 axis of the 5th shaft connect in the 4th mounting base 61, third gear 58 are fixed among the 5th shaft 57, and the 5th motor 60 is fixedly mounted on bottom plate 56, the 4th gear 59 and the 5th motor 60 output end is fixedly connected, and the 4th gear 59 engages connection with third gear 58.Crystal oscillator ontology angle is hit adjusting When, the 5th motor 60 drives the rotation of the 4th gear 59, and the third gear 58 engaged with the 4th gear 59 rotates synchronously, installation Fixing seat 65 on third gear 58 just rotates determining angle, to realize the purpose for having adjusted projected angle of impact.

The knocking gear 10 includes the first cylinder 62, impact block 63, connecting column 64 and is fixedly connected on third gear Fixing seat 65 on 58, first cylinder 62 are fixedly mounted in fixing seat 65, the output of connecting column 64 and the first cylinder 62 End is fixedly connected, and impact block 63 and the end of connecting column 64 are hinged.When detecting crystal oscillator ontology, the driving of the first cylinder 62 connects The impact block 63 connect on column 64 hits the surface of crystal oscillator, to realize the detection to crystal oscillator ontology.

The pin fixed mechanism 12 includes fixed column 66, the second electronic screw rod slide unit 67, the second cylinder 68 and first Pneumatic clamper 69, fixed column 66 are arranged on workbench 1, and the second electronic screw rod slide unit 67 is vertically installed in fixed column 66, the second gas Cylinder 68 is horizontally arranged on the sliding block of the second electronic screw rod slide unit 67, and the output end of the first pneumatic clamper 69 and the second cylinder 68 is fixed to be connected It connects, pin installing mechanism 13 includes fixed plate 70, third cylinder 71, pin transmission track 72 and multiple is mounted on third cylinder Side of the workbench 1 far from fixed column 66, the horizontal peace of third cylinder 71 is arranged in the second pneumatic clamper 73 on 71, the fixed plate 70 In fixed plate 70, the position between pin installing mechanism 13 and conveyer belt 28 is arranged in pin transmission track 72.It has detected After finishing, the crystal oscillator ontology that fixed conveyer will test is placed on conveyer belt 28, and the then driving of third cylinder 71 is caught Pin is inserted on the crystal oscillator ontology on pin fixed mechanism 12 by the second pneumatic clamper 73 of pin raw material, then again will be assembled Crystal oscillator ontology is placed on conveyer belt 28 and realizes blanking.

Working principle: the first motor 20 of power mechanism 5 drives the first threads turn, the first threaded rod 21 driving and first The first gear 23 that threaded rod 21 engages rotates, and then drives the rotation of the second shaft 18, and then the second shaft 18 drives connecting rod 17 rotate around the second shaft 18, and 19 regularity of push plate that the driving of connecting rod 17 is mounted on support rod 15 will be placed on mounting plate Crystal oscillator ontology on 4 pushes forward to the front end of conveyer belt 28, when the crystal oscillator ontology that pushing component 3 will be placed on mounting plate 4 It is pushed to the position between 28 two baffles 29 of conveyer belt, then the second motor 31 driving roller 27 rotates, and then drives transmission Band 28 travels forward, and crystal oscillator ontology is forwarded, when being detected to the crystal oscillator ontology on conveyer belt 28, fixed fortune The side for sending mechanism to be moved to crystal oscillator ontology on the first electronic screw rod slide unit 35, then the third motor 40 of elevating mechanism 36 drives Dynamic second gear 41 rotates, and the sliding bar 39 that the rack drives engaged with second gear 41 are fixedly connected with rack gear is along support rod 15 to decline until the 4th motor 45 driving rotation of reverse-flighted screw 46 of two sides, is threaded on reverse-flighted screw 46 simultaneously inwardly It is mobile, so that it may to drive hinge bar 47 that grip block 48 is pushed to clamp crystal oscillator ontology, then elevating mechanism 36 will clamp crystal oscillator The clamping device 37 of ontology rises, and then crystal oscillator ontology is transported on bearing plate 8, hits detection crystal oscillator in adjustment detection device When position on ontology, rotation rotating turret 55 can drive the second threaded rod 51 to rotate, and be threaded in the second screw thread It can realize and move back and forth on bottom plate 56 on bar 51, thus realize the position for adjusting detection device detection crystal oscillator ontology, It adjusts when hit crystal oscillator ontology angle, the 5th motor 60 drives the rotation of the 4th gear 59, the engaged with the 4th gear 59 Three gears 58 rotate synchronously, and the fixing seat 65 being mounted on third gear 58 just rotates determining angle, have adjusted to realize The purpose of projected angle of impact, after detection finishes, the crystal oscillator ontology that fixed conveyer will test is placed on conveyer belt 28, so The driving of third cylinder 71 afterwards catches the second pneumatic clamper 73 of pin raw material that pin is inserted into the crystal oscillator sheet on pin fixed mechanism 12 On body, then assembled crystal oscillator ontology is placed on conveyer belt 28 again and realizes blanking.

It is to be understood that above-mentioned specific embodiment is only that presently preferred embodiments of the present invention and institute's application technology are former Reason.It will be understood by those skilled in the art that various modifications, equivalent replacement, variation etc. can also be done to the present invention.But this A little transformation, all should be within protection scope of the present invention without departing from spirit of the invention.In addition, present specification and power Some terms used in sharp claim are not limitation, it is only for convenient for description.

Claims (10)

1. a kind of crystal oscillator processes test integrated equipment, it is characterised in that: include workbench (1), crystal oscillator ontology feeding device, Detection device and pin mounting device, the workbench (1) are the plate structure of rectangle, and the bottom of workbench (1) is provided with more A support leg support (2), crystal oscillator ontology feeding device includes pushing component (3), the mounting plate that is symmetricly set at workbench (1) (4) and be mounted on mounting plate (4) centre for driving the power mechanisms (5) of pushing component (3), on workbench (1) along The extending direction of mounting plate (4) symmetry axis is additionally provided with transmission device (6), the detection device include detection components (7) and It is arranged and transports component in the fixed of detection components (7) side, the fixed component that transports includes to be symmetricly set on transmission device (6) centre of the fixation conveyer of two sides, the fixed transport component and detection components (7) is additionally provided with bearing plate (8), institute It states bearing plate (8) and is provided with mounting groove, pressure sensor is detachably installed, detection components (7) include movement in mounting groove Mechanism (9) and knocking gear (10) are additionally provided with angle adjusting mechanism (11) on mobile mechanism (9) output end, described to hit It hits mechanism (10) to be fixedly connected with the output end of angle regulating mechanism (11), the pin mounting device is arranged in workbench (1) far from the side of detection device, pin mounting device includes that pin fixed mechanism (12) and setting are another in transmission device (6) The pin installing mechanism (13) of side.

2. a kind of crystal oscillator according to claim 1 processes test integrated equipment, it is characterised in that: the pushing component (3) include mounting rod (14) and multiple pushing mechanisms, the pushing mechanism include support rod (15), first rotating shaft (16), Connecting rod (17) and axis connect the second shaft (18) on mounting plate (4), and one end of connecting rod (17) is fixedly connected on the second shaft (18) end, first rotating shaft (16) axis connect on the other end in connecting rod (17), and the bottom of support rod (15) is fixedly connected on In first rotating shaft (16), the mounting rod (14) is horizontally disposed, and bottom of the top of support rod (15) with mounting rod (14) Side is fixedly connected, and is evenly arranged with multiple push plates (19) on the mounting rod (14), and the power mechanism (5) is fixedly mounted on peace The outside of loading board (4), and the output end of power mechanism (5) is fixedly connected with the end of the first rotating shaft (16) in the first left side.

3. a kind of crystal oscillator according to claim 2 processes test integrated equipment, it is characterised in that: the power mechanism It (5) include first motor (20), the first threaded rod (21) and the first mounting base (22) being symmetricly set on mounting plate (4), First threaded rod (21) axis connects on the first mounting base (22), and first motor (20) is fixedly mounted on the first mounting base (22) On, and the end of the first threaded rod (21) is fixedly connected with the output end of first motor (20), and second shaft (18) is prolonged It extends to one end on the outside of mounting plate (4) to be fixedly installed first gear (23), first threaded rod (21) and first gear (23) engagement connects, and is further fixedly arranged on the first idler wheel (24) in second shaft (18) for being connected with first gear (23), Be fixedly installed with the second idler wheel (25) in another second shaft (18), first idler wheel (24) by the first belt (26) with Second idler wheel (25) transmission connection.

4. a kind of crystal oscillator according to claim 3 processes test integrated equipment, it is characterised in that: the transmission device It (6) include that driving mechanism and two axis connect the roller (27) intermediate in workbench (1), roller is arranged with conveyer belt on (27) (28), it is also evenly arranged on transmission belt multiple baffles (29), one end of the roller (27), which is provided with, extends to workbench (1) The third shaft (30) of side, the driving mechanism include the second motor (31), third idler wheel (32) and are fixedly mounted on The 4th idler wheel (33) in three shafts (30) is supported and is fixedly installed with fixed frame (34) on leg support (2), second motor (31) It is fixedly mounted on fixed frame (34), third idler wheel (32) is fixedly connected with the output end of the second motor (31), the third rolling (32) and the 4th idler wheel (33) is taken turns to be sequentially connected by the second belt.

5. a kind of crystal oscillator according to claim 4 processes test integrated equipment, it is characterised in that: the fixed transveyer Structure includes the first electronic screw rod slide unit (35), elevating mechanism (36) and clamping device (37), the first electronic screw rod slide unit (35) side of transmission device (6), and the extending direction and conveyer belt of the first electronic screw rod slide unit (35) are fixed at (28) extending direction is consistent, and elevating mechanism (36) includes support column (38), sliding bar (39), third motor (40) and second Gear (41), the support column (38) are vertically arranged on the sliding block of the first electronic screw rod slide unit (35), sliding bar (39) sliding Side in support column (38) is set, is additionally provided on support column (38) the second mounting base (42), the third motor (40) is solid Dingan County is on the second mounting base (42), and second gear (41) is fixedly connected with the output end of third motor (40), sliding bar (39) rack gear is also fixedly installed on, connection is engaged with rack in the second gear (41), and workbench is additionally provided on (1) for cunning Lever (39) extends the sliding groove (43) of sliding, and the top of sliding bar (39) is fixedly installed mounting blocks (44), the clamping machine Structure (37) is fixed on mounting blocks (44).

6. a kind of crystal oscillator according to claim 5 processes test integrated equipment, it is characterised in that: the clamping device (37) include the 4th motor (45), reverse-flighted screw (46), hinge bar (47), grip block (48) and be symmetricly set on mounting blocks (44) the third mounting base (49) on, reverse-flighted screw (46) axis connect on third mounting base (49), reverse-flighted screw (46) Side is additionally provided with the first guide rod (50), and the 4th motor (45) is fixedly mounted on third mounting base (49), and two-way spiral shell One end of bar (46) is fixedly connected with the output end of the 4th motor (45), and the two sides of reverse-flighted screw (46) are threaded with movement Block, hinge bar (47) is respectively hinged at the side of movable block, and the other end of hinge bar (47) is hinged with grip block (48).

7. a kind of crystal oscillator according to claim 6 processes test integrated equipment, it is characterised in that: the mobile mechanism (9) include the second threaded rod (51), be symmetricly set on the support plate (52) of conveyer belt (28) two sides and be arranged in the second screw thread Second guide rod (53) of bar (51) two sides, the second threaded rod (51) axis connect on support plate (52), the second threaded rod (51) End is additionally provided with the 4th shaft (54) for extending to support plate (52) side, is additionally provided with rotation on the 4th shaft (54) Frame (55) is also threaded with bottom plate (56) on the second threaded rod (51), and the angle adjusting mechanism (11) is fixed at bottom On plate (56).

8. a kind of crystal oscillator according to claim 7 processes test integrated equipment, it is characterised in that: the angular adjustment machine Structure (11) includes the 5th shaft (57), third gear (58), the 4th gear (59), the 5th motor (60) and is symmetricly set on bottom The 4th mounting base (61) on plate (56), the 5th shaft (57) axis connect in the 4th mounting base (61), third gear (58) It is intermediate to be fixed at the 5th shaft (57), the 5th motor (60) is fixedly mounted on bottom plate (56), the 4th gear (59) and the The output end of five motors (60) is fixedly connected, and the 4th gear (59) engages connection with third gear (58).

9. a kind of crystal oscillator according to claim 8 processes test integrated equipment, it is characterised in that: the knocking gear It (10) include the first cylinder (62), impact block (63), connecting column (64) and the fixation being fixedly connected on third gear (58) Seat (65), first cylinder (62) are fixedly mounted on fixing seat (65), the output of connecting column (64) and the first cylinder (62) End is fixedly connected, and impact block (63) and the end of connecting column (64) are hinged.

10. a kind of crystal oscillator according to claim 9 processes test integrated equipment, it is characterised in that: the pin is fixed Mechanism (12) includes fixed column (66), the second electronic screw rod slide unit (67), the second cylinder (68) and the first pneumatic clamper (69), is fixed Column (66) is arranged on workbench (1), and the second electronic screw rod slide unit (67) is vertically installed on fixed column (66), the second cylinder (68) it is horizontally arranged on the sliding block of the second electronic screw rod slide unit (67), the output end of the first pneumatic clamper (69) and the second cylinder (68) It is fixedly connected, pin installing mechanism (13) includes fixed plate (70), third cylinder (71), pin transmission track (72) and multiple The second pneumatic clamper (73) being mounted on third cylinder (71), fixed plate (70) setting is in workbench (1) far from fixed column (66) side, third cylinder (71) are horizontally arranged on fixed plate (70), and pin transmission track (72) setting is installed in pin Position between mechanism (13) and conveyer belt (28).