CN204166008U - The headstock gear of electronic components test module - Google Patents

Abstract

The utility model relates to a kind of headstock gear of electronic components test module, its test module is provided with test bench and a lid and is placed in lid on this test bench, the lid of this tool radiator structure is also located with the buckling parts of multiple this test bench of snap fit hook, this headstock gear comprises transfer mechanism and opens and closes unit, this transfer mechanism is provided with the transfer tool of at least one party to displacement, to link this keying unit of assembling, this keying unit is provided with at least one drive source, relative displacement is done to drive two of at least one fixture holders, two snap fits of lid these two holders being compressed or discharge this test module depart from or hook in the buckling parts of this test bench, and the taking-up of this lid or lid are placed in this test bench, and then open or close the lid of this test module, by this, robotization can open and close test module, not only save human cost, and shorten the keying activity duration, reach the Practical Benefit of saving cost and promoting tested productivity.

Description

The headstock gear of electronic components test module

Technical field

The utility model provides a kind of robotization can open and close the headstock gear testing module, not only reduces manpower, and shortens the keying activity duration, and then save cost and promote tested productivity.

Background technology

Now, electronic component is after back segment has encapsulated, for guaranteeing product quality, the test bench of electronic component built-in test module can be carried out test jobs, whether suffer damage in manufacturing process with detected electrons element, to eliminate out defective products, because electronic component is in the process performing test jobs, itself can produce self-heating because performing formula operation, default probe temperature is exceeded for avoiding the self-heating temperature of electronic component, and impact test quality, dealer is equipped with the lid of tool radiator structure above the test bench of test module, and utilize radiator structure and electronic component to do cold and hot exchange, the temperature of electronic component is made to be held in default Range of measuring temp, and then guarantee the detection qualification rate of electronic component.

Refer to Fig. 1, 2, multiple test module 10 is assemblied on a testing circuit board 20, each test module 10 includes test bench 11 and lid 12, this test bench 11 is provided with the storage tank 111 of holding electronic element, and in storage tank 111, be configured with the probe 112 of multiple electric connection testing circuit board 20, separately be arranged with buckling parts 113 in the both sides of test bench 11, the end face of this lid 12 is provided with radiator structure, this radiator structure is provided with one and protrudes out conducting piece 121 for lid 12 bottom surface, to contact the self-heating of conduction electron element, and link the radiating fin 122 being positioned at lid 12 end face, the top of radiating fin 122 is then equipped with radiator fan 123, buckling parts 113 position of the another corresponding test bench 11 in the both sides of lid 12 is pivoted with snap fit 125 with pivot 124, spring 126 is provided with between one end of each snap fit 125 and lid 12, the other end is then provided with hook part 1251, with the buckling parts 113 of hook in test bench 11, lid 12 lid is put to be positioned on test bench 11, refer to Fig. 3, 4, in time using, staff presses two snap fit 125 one end of gland body 12 both sides with hand, snap fit 125 i.e. Compress Spring 126, and with pivot 124 for rotation center, the hook part 1251 of the other end is outwards swung and departs from the buckling parts 113 of test bench 11, and then taking-up lid 12 can be opened, electronic component 30 to be measured is placed in the storage tank 111 of test bench 11 by staff more in a manual manner, then again lid 12 lid is placed in the top of test bench 11 in a manual manner, and discharge two snap fits 125, two snap fits 125 are made to utilize the elastic force of spring 126 and reset, and with the buckling parts 113 of hook part 1251 hook in test bench 11, to close test bench 11, and make conducting piece 121 contact the self-heating of conduction electron element 30, radiating fin 122 and the radiator fan 123 of recycling lid 12 end face dispel the heat, be held in default Range of measuring temp to make the temperature of electronic component 30, and then guarantee the detection qualification rate of electronic component 30, but the use-pattern of this manual opening-closing test module 10, has following disappearance:

1. dealer opens and closes the lid 12 of test module 10 in manual work mode, if during test module 10 substantial amounts, certainly will configure more manpower and open and close lid 12 one by one, causes the disappearance increasing operating cost.

2. owing to lid 12 being configured with the elements such as conducting piece 121, radiating fin 122 and radiator fan 123, cause the heavier-weight of lid 12, when test jobs, staff must require great effort and to be taken off one by one by test bench 11 by the lid 12 of multiple test module 10, test bench 11 is placed in electronic component 30, require great effort again by lid 12 one by one again lid put and be fastened on test bench 11, so that manual operation operation not only time and effort consuming, also reduce tested productivity.

3. after staff opens the lid 12 of test module 10 in a manual manner, need again to pick and place electronic component 30 in test bench 11 one by one in a manual manner, more increase the loading and unloading activity duration, and then reduce tested productivity.

Summary of the invention

The purpose of this utility model one, be to provide a kind of headstock gear of electronic components test module, its test module is provided with test bench and a lid and is placed in lid on test bench, the lid of this tool radiator structure is also located with the buckling parts of multiple snap fit hook test bench, this headstock gear comprises transfer mechanism and opens and closes unit, this transfer mechanism is provided with makes the transfer tool of at least one party to displacement, unit is opened and closed to link assembling, this keying unit is provided with at least one drive source, relative displacement is done to drive two of at least one fixture gripping members, two gripping members are compressed or discharge two of lid of test module hook depart from or hook in the buckling parts of test bench, and lid taking-up or lid are placed in test bench, and then open or close the lid of test module, by this, robotization can open and close test module, and significantly reduce manapower allocation, reach cost-effective Practical Benefit.

The purpose of this utility model two, be to provide a kind of headstock gear of electronic components test module, wherein, the transfer tool of this transfer mechanism can drive the multiple fixtures opening and closing unit to correspond to multiple test module, namely multiple drive sources of this keying unit drive multiple fixture to pick and place multiple lid, and then robotization once opens and closes the lid of one batch of test module, open and close the lid activity duration significantly to reduce, reach the Practical Benefit promoting tested productivity.

The purpose of this utility model three, be to provide a kind of headstock gear of electronic components test module, wherein, this keying unit assembles multiple drive source with frame plate, and syndeton is provided with between the transfer tool of frame plate and transfer mechanism, this syndeton is provided with the first joint seat of the tool blocking part cooperatively interacted and the second joint seat of tool buckle part between frame plate and transfer tool, in time changing whole keying unit, can pneumatic mode the robotization of buckle part be driven to depart from or engaging blocking part, conveniently can install and remove whole keying unit, reach the Practical Benefit promoting effective utilization.

The purpose of this utility model four, be to provide a kind of headstock gear of electronic components test module, wherein, this headstock gear is provided with the mechanism for picking of at least one pick-up of tool, after the lid opening and closing unit robotization unlatching test module, namely mechanism for picking pick-up robotization can pick and place electronic component in test bench, need manually not pick and place, significantly to reduce the loading and unloading activity duration, reach the Practical Benefit promoting tested productivity.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of existing test module;

Fig. 2 is the existing test bench of test module and the schematic diagram of lid;

Fig. 3 is the use schematic diagram () of existing test module;

Fig. 4 is the use schematic diagram (two) of existing test module;

Fig. 5 is the schematic diagram of the utility model headstock gear;

Fig. 6 is the schematic diagram of the keying unit of the utility model headstock gear;

Fig. 7 is the use schematic diagram () of the utility model headstock gear;

Fig. 8 is the use schematic diagram (two) of the utility model headstock gear;

Fig. 9 is the use schematic diagram (three) of the utility model headstock gear;

Figure 10 is the use schematic diagram (four) of the utility model headstock gear;

Figure 11 is the use schematic diagram (five) of the utility model headstock gear;

Figure 12 is the use schematic diagram (six) of the utility model headstock gear;

Figure 13 is the use schematic diagram (seven) of the utility model headstock gear;

Figure 14 is the use schematic diagram (eight) of the utility model headstock gear;

Figure 15 is the use schematic diagram (nine) of the utility model headstock gear;

Figure 16 be the utility model headstock gear transfer mechanism with open and close unit be separated schematic diagram.

Description of reference numerals: test module-10; Test bench-11; Storage tank-111; Probe-112; Buckling parts-113; Lid-12; Conducting piece-121; Radiating fin-122; Radiator fan-123; Pivot-124; Snap fit-125; Hook part-1251; Spring-126; Testing circuit board-20; Electronic component-30; Headstock gear-40; Transfer mechanism-41; First transfer device-411; Second transfer device-412; Motor-4121; Transmission group-4122; Frame-413; Transfer tool-414; Second joint seat-415; Buckle part-4151; Open and close unit-42; Frame plate-421; First joint seat-422; Blocking part-4221; Drive source-423; Holder-424,425; First pad-4241,4251; Second pad-4242,4252; Mechanism for picking-43; 3rd transfer device-431; Pick-up-432; Test module-50; Test bench-51; Storage tank-511; Probe-512; Buckling parts-513,514; Lid-52; Pivot-521,522; Snap fit-523,524; Pressure-bearing portion-5231,5241; Hook part-5232,5242; Spring-525,526; Conducting piece-531; Radiating fin-532; Radiator fan-533; Electronic component-60.

Embodiment

For further setting forth the utility model, hereby lifting a preferred embodiment and coordinating graphic, describing in detail as rear:

Refer to Fig. 5, 6, the utility model headstock gear 40 comprises transfer mechanism 41 and opens and closes unit 42, this transfer mechanism 41 is provided with at least one transfer device, at least one party is done to displacement to transfer at least one transfer tool, in the present embodiment, this transfer mechanism is provided with the first transfer device 411 and the second transfer device 412, this the first transfer device 411 drives a frame 413 being equipped with the second transfer device 412 to do first direction (as X-direction) displacement, this the second transfer device 412 is provided with motor 4121, to drive transmission group 4122 displacement, this transmission group 4122 comprises belt pulley set and screw rod spiral shell seat group, and link a transfer tool 414 with the spiral shell seat of screw rod spiral shell seat group through linkage frame, second direction (as Z-direction) displacement is done to drive transfer tool 414, this keying unit 42 is provided with at least one drive source, start is folded up to drive at least one fixture, further, this drive source can directly be assemblied on transfer tool 414, or be assemblied on a frame plate, transfer tool 414 is linked again with frame plate, in the present embodiment, open and close unit 42 and be provided with a frame plate 421, and syndeton is provided with between the end face of frame plate 421 and the transfer tool 414 of transfer mechanism 41, this syndeton is provided with the first joint seat of the tool blocking part cooperatively interacted and the second joint seat of tool buckle part between frame plate 421 and transfer tool 414, unit 42 is opened and closed for mounting or dismounting, in the present embodiment, this syndeton is provided with the first joint seat 422 of tool blocking part 4221 in the end face of frame plate 421, this blocking part 4221 can be annular groove, the position of this transfer tool 414 corresponding first joint seat 422 in bottom surface is provided with the second joint seat 415, this second joint seat 415 is provided with multiple buckle part 4151 that can be pearl body, and drive multiple buckle part 4151 clip with pneumatic mode or depart from the blocking part 4221 of the first joint seat 422, separately be provided with multiple drive source 423 that can be cylinder pressure in the bottom surface of frame plate 421, each drive source 423 drives two holders 424 of fixture, 425 do relative displacement, each holder 424, the medial surface of 425 is respectively equipped with the first pad 4241, 4251, and be provided with the second pad 4242 in inner top surface, 4252, in order to buffering.

Refer to Fig. 7, 8, 9, for the test module 50 that the utility model headstock gear 40 is applied, multiple test module 50 is configured on testing circuit board, this test module 50 comprises test bench 51 and lid 52, this test bench 51 is provided with the storage tank 511 of bearing electronic component, and in storage tank 511, be configured with the probe 512 of multiple electric connection testing circuit board, be separately arranged with buckling parts 513 in the both sides of test bench 51, 514, this lid 52 is in the buckling parts 513 of corresponding test bench 51, 514 positions are with pivot 521, 522 are pivoted with snap fit 523, 524, each snap fit 523, the pressure-bearing portion 5231 of 524 one end, spring 525 is provided with between 5241 and lid 52, 526, the other end is then provided with hook part 5232, 5242, with the buckling parts 513 of hook in test bench 51, 514, this lid 52 is provided with the radiator structure of auxiliary electronic element heat radiation again, this radiator structure is provided with one and protrudes out conducting piece 531 for lid 52 bottom surface, to contact the self-heating of conduction electron element, and linking the radiating fin 532 being positioned at lid 52 end face, the top of radiating fin 532 is then equipped with radiator fan 533, in time using headstock gear 40 to open the lid 52 of test module 50, first transfer device 411 of the transfer mechanism 41 of this headstock gear 40 carries the second transfer device 412 and opens and closes unit 42 is moved to test module 50 top as X-direction, and make multiple fixture to being positioned at multiple lid 52, then the motor 4121 of the second transfer device 412 drives transmission group 4122, and drive transfer tool 414 and keying unit 42 to do Z-direction decline displacement via the spiral shell seat of transmission group 4122, make two holders 424 of each fixture of keying unit 42, 425 two snap fits 523 being positioned at each lid 52, 524 sides.

Refer to the 10th figure, the drive source 423 of this keying unit 42 drives two holders 424 of fixture, 425 do relative displacement, and compress two snap fits 523 of lid 52, the pressure-bearing portion 5231 of 524, 5241, and utilize the first pad 4241, 4251 with pressure-bearing portion 5231, 5241 fit and increase contact friction, really steadily to clamp two snap fits 523, 524, two snap fits 523, the pressure-bearing portion 5231 of 524, 5241 Compress Springs 525, 526, and with pivot 521, 522 outwards swing for rotation center, make hook part 5232, the buckling parts 513 of 5242 disengaging test benches 51, 514.

Refer to Fig. 7, 11, in two snap fits 523 of lid 52, after 524 disengaging test benches 51, the motor 4121 of the second transfer device 412 of this transfer mechanism 41 drives transmission group 4122, and drive transfer tool 414 and keying unit 42 to do Z-direction rising displacement via the spiral shell seat of transmission group 4122, make two holders 424 of the fixture of keying unit 42, 425 clamping lids 52 leave test bench 51, and then open the lid 52 of test module 50, then the first transfer device 411 carries the second transfer device 412 and opens and closes unit 42 and does the top that test module 50 is left in the reverse displacement of X-direction, material loading operation is carried out for test bench 51.

Refer to Figure 11, 12, this material loading operation can adopt artificial loading or robotization material loading, because the utility model robotization can open the lid 52 testing module 50, for making the consistent automated job of headstock gear 40, need manually not pick and place electronic component, significantly to reduce the loading and unloading activity duration, the utility model headstock gear 40 more comprises and is provided with mechanism for picking 43, this mechanism for picking 43 is provided with at least one pick-up picking and placeing electronic component, and be provided with at least one transfer device drive pick-up do at least one party to displacement, in the present embodiment, this mechanism for picking 43 is provided with the 3rd transfer device 431 and drives the pick-up 432 with measured electronic elements 60 to be moved to as X-direction above the test bench 51 of test module 50, 3rd transfer device 431 drive pick-up 432 to do again storage tank 511 that measured electronic elements 60 is placed in test bench 51 by Z-direction displacement, make the probe 512 of measured electronic elements 60 test bench 51 in electrical contact, to complete material loading operation, 3rd transfer device 431 of this mechanism for picking 43 drives multiple pick-up 432 to do the displacement of X-Z direction again and leaves the top testing module 50.

Refer to Fig. 7, 13, 14, the first transfer device 411 of this transfer mechanism 41 carries the second transfer device 412 and opens and closes unit 42 is moved to test module 50 top as X-direction, and makes two holders 424 of multiple fixture, 425 clamp multiple lid 52 to being positioned at multiple test bench 51, due to two holders 424, 425 still compress two snap fits 523 clamping lid 52, 524, make two snap fits 523, 524 keep in extratensive type state, and then the motor 4121 of the second transfer device 412 drives transmission group 4122, and drive transfer tool 414 and keying unit 42 to do Z-direction decline displacement via the spiral shell seat of transmission group 4122, make two holders 424 of the fixture of keying unit 42, the lid 52 of clamping lid is placed on test bench 51 by 425, makes two snap fits 523 of lid 52, 524 pairs of two buckling parts 513 being positioned at test bench 51, 514, the drive source 423 of this keying unit 42 drives two holders 424 of fixture, 425 do reverse displacement, and discharge two snap fits 523 of lid 52, 524, two snap fits 523, 524 utilize spring 525, the reseting elasticity of 526, with pivot 521, 522 inwardly swing for rotation center, make two snap fits 523, the hook part 5232 of 524, 5242 hooks are in the buckling parts 513 of test bench 51, 514, lid 52 lid is put and is positioned on test bench 51, to close test bench 51.

Refer to Fig. 7, 15, first transfer device 411 of this transfer mechanism 41 and the second transfer device 412 drive keying unit 42 to do the displacement of X-Z direction and leave test module 50, due to lid 52 lid be placed on test bench 51 time, make conducting piece 531 contact measured electronic component 60, when measured electronic elements 60 performs test jobs and produces self-heating in test bench 51, the self-heating of measured electronic elements 60 can conduct to radiating fin 532 via conducting piece 531 and dispel the heat, and utilize radiator fan 533 auxiliary heat dissipation, measured electronic elements 60 is made to be held in default Range of measuring temp, and then guarantee to detect qualification rate, after being completed, this headstock gear 40 can utilize multiple holder to take out lid 52, and then open test bench 51 for loading and unloading.

Refer to Figure 16, the replaceable keying unit 42 of headstock gear 40 of the present utility model and in response to the test module of different kenel, transfer tool 414 due to transfer mechanism 41 utilizes the first joint seat 422 of syndeton and the second joint seat 415 to link with the frame plate 421 opening and closing unit 42 and assembles, in time changing keying unit 42, drive the buckle part 4151 of the second joint seat 415 to inside contract to give up the throne with pneumatic mode and depart from the blocking part 4221 of the first joint seat 422, transfer tool 414 is separated with frame plate 421, conveniently can change and open and close unit 42, reach the Practical Benefit promoting ease of use.

Above-described embodiment is only be described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection domain that the utility model claims determine.

Claims (10)

1. a headstock gear for electronic components test module, is characterized in that it comprises:

Transfer mechanism: be provided with at least one transfer device, does at least one party to displacement to drive at least one transfer tool;

Open and close unit: the transfer tool being assemblied in this transfer mechanism, and be provided with at least one drive source, with the buckling parts driving at least one fixture to press two snap fits disengagings of the lid of folder or release test module or the test bench of this test module of hook, and open and close the lid of this test module.

2. the headstock gear of electronic components test module according to claim 1, wherein, the transfer mechanism of this headstock gear is provided with the first transfer device and the second transfer device, this the first transfer device drives the frame of this second transfer device of at least one assembling to do first direction displacement, and this second transfer device drives this transfer tool and this keying unit to do second direction displacement.

3. the headstock gear of electronic components test module according to claim 2, wherein, the second transfer device of this transfer mechanism is provided with motor, and to drive at least one transmission group displacement, this transmission group links this transfer tool displacement of driving.

4. the headstock gear of electronic components test module according to claim 1, wherein, the drive source of this keying unit is cylinder pressure.

5. the headstock gear of electronic components test module according to claim 1, wherein, the fixture of this keying unit has two holders, and this drive source drives two these holders to do relative displacement.

6. the headstock gear of electronic components test module according to claim 5, wherein, the medial surface of the holder of this fixture is provided with the first pad, to contact the snap fit of the lid of this test module of laminating.

7. the headstock gear of electronic components test module according to claim 5, wherein, the inner top surface of the holder of this fixture is provided with the second pad, in order to buffering.

8. the headstock gear of electronic components test module according to claim 1, wherein, this keying unit is provided with at least one frame plate, and on this frame plate, assemble this at least one drive source.

9. the headstock gear of electronic components test module according to claim 8, wherein, be provided with syndeton between the frame plate of this keying unit and the transfer tool of this transfer mechanism, this syndeton is provided with the first joint seat of the tool blocking part cooperatively interacted and the second joint seat of tool buckle part between this frame plate and this transfer tool.

10. the headstock gear of electronic components test module according to claim 1, wherein, this headstock gear is provided with mechanism for picking, and this mechanism for picking is provided with at least one pick-up picking and placeing electronic component, and is provided with at least one transfer device and drives this pick-up to do at least one party to displacement.