CN217787299U - Digital integrated circuit testing and processing device - Google Patents

Abstract

The utility model discloses a digital integrated circuit tests processingequipment belongs to digital integrated circuit test technical field, including testboard, mount, lead screw slide rail, bracing piece A, slider A, holding frame, testboard top one end fixed mounting has the mount, and mount outer wall one end fixed mounting has the lead screw slide rail, and the lead screw slide rail outside other end slides through the slider and is provided with bracing piece A, and the bracing piece A outside slides and is provided with, slider A. The utility model discloses the staff closes the lead screw slide rail and promotes movable cardboard A and rotates through the pivot, makes fixture block B contact fixture block A surface joint back, and the staff twists the bolt fastening back with twisting between activity cardboard A and the bracing piece A, and the integrated circuit pick-up plate falls through the slider to the control lead screw slide rail once more, makes the detection head of integrated circuit pick-up plate bottom contact digital integrated circuit board surface, carries out digital integrated circuit detection to digital integrated circuit board and handles.

Description

Digital integrated circuit testing and processing device

Technical Field

The utility model belongs to the technical field of the test of digital integrated circuit, specifically be a digital integrated circuit tests processingequipment.

Background

The digital integrated circuit is an integrated circuit which is formed by integrating components and connecting wires on the same semiconductor chip and is used for processing digital signals.

The detection device for the integrated circuit test convenient to fix is found by retrieval, has the advantages that the height of a processing table can be automatically adjusted according to requirements by arranging a driving motor, a lead screw, a nut block, an adjusting rod and the like, and the practicability is better; the processing element can be conveniently fixed by arranging the adjusting screw, the fixing plate, the clamping plate, the locking nut and the like, so that the processing element can be conveniently detected; wherein, the deficiency points are as follows:

this kind of integrated circuit testing detection device convenient to it is fixed uses when carrying out integrated circuit board centre gripping processing at the staff, because only single through adjusting screw in the inboard rotating of fixed plate, the position of adjusting the splint carries out the centre gripping to integrated circuit board, and because adjusting screw can not fix the processing, make after carrying out the centre gripping with integrated circuit board through splint, adjusting screw can produce easily not hard up and turn round, make integrated circuit board break away from and produce the position between the splint easily, the detection efficiency to the staff produces the influence easily, and this kind of integrated circuit testing detection device convenient to it is fixed carries out integrated circuit test processing because only single through the artifical manual work of staff to fixed integrated circuit board, make the staff manual condition that produces arm ache easily of detecting integrated circuit board long time, need constantly have a rest, and manual also special inconvenient when carrying out integrated circuit test processing to fixed integrated circuit board.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems that the clamping effect of the detection device for the integrated circuit test convenient to fix on the integrated circuit board is poor, and the integrated circuit test is inconvenient to manually process on the integrated circuit board, the digital integrated circuit test processing device is provided.

The utility model adopts the technical scheme as follows: a digital integrated circuit testing and processing device comprises a test board, a fixing frame, a lead screw slide rail, a support rod A, a slide block A and a clamping frame, wherein the fixing frame is fixedly arranged at one end of the top of the test board, the lead screw slide rail is fixedly arranged at one end of the outer wall of the fixing frame, the support rod A is arranged at the other end of the outer side of the lead screw slide rail in a sliding mode through the slide block, the slide block A is arranged on the outer side of the support rod A in a sliding mode, the clamping frame is fixedly arranged at one end, close to the outer side of the fixing frame, of the top of the test board, an adjusting clamping mechanism is arranged at the top of the clamping frame, a detachable detection mechanism is arranged at the bottom of the slide block A, and a position adjusting clamping mechanism is arranged at the outer side of the support rod A;

the adjusting and clamping mechanism is composed of a support rod B, a slide block C, a movable rod, an object placing table, a support rod C, a slide block D, a clamping plate and a rubber plate.

Wherein, fixed mounting has bracing piece B in the middle of the centre gripping frame top, bracing piece B top fixed mounting has puts the thing platform, put equal fixed mounting between thing platform outer wall both ends and the centre gripping frame outer wall and have bracing piece C, the bracing piece C outside slides and is provided with slider D, the equal fixed mounting of slider D top opposite face has the grip block, the equal fixed mounting of grip block outer wall opposite face has the rubber slab, and the supporting "X" type lug that is provided with of rubber slab surface, the bracing piece B outside slides and is provided with slider C, and passes through bolted connection between bracing piece B and the slider C, slider C outer wall both ends respectively with two slider D between all rotate through the pivot and be provided with the movable rod.

The detachable detection mechanism comprises a sliding groove, a movable clamping plate B, a clamping block C, an integrated circuit detection plate, a detection head, a sliding block B and a clamping block D, wherein the sliding groove is fixedly arranged on the outer wall of the bottom of the sliding block A, the integrated circuit detection plate is arranged on the bottom of the sliding groove, the detection head is fixedly arranged on the bottom of the integrated circuit detection plate, the sliding head is provided with a plurality of parts, the sliding block B is fixedly arranged on the top of the integrated circuit detection plate, the sliding block B is matched with the sliding block arranged on the inner side of the sliding groove, the clamping block D is fixedly arranged on one end of the outer wall of the sliding block B, the movable clamping plate B is rotatably arranged on the top of one end of the outer wall of the sliding groove through a rotating shaft, the clamping block C is fixedly arranged on the other end of the outer wall of the movable clamping plate B, the clamping block C is matched with the clamping block D, and the movable clamping plate B is connected with the sliding block B through a bolt.

Position control clamping mechanism comprises fixture block A, activity cardboard A and fixture block B, bracing piece A outer wall top fixed mounting has fixture block A, fixture block A has a plurality of, and is and set up side by side, slider A outer wall top one end is rotated through the pivot and is provided with activity cardboard A, activity cardboard A outer wall bottom fixed mounting has fixture block B, and is the setting of agreeing with the joint between fixture block B and the fixture block A, pass through bolted connection between activity cardboard A and the bracing piece A.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. this kind of digit integrated circuit test processingequipment is through being provided with the grip block, can make the staff promote slider C and slide in the bracing piece B outside lapse, it rotates through the pivot to drive movable rod and slider D, make relative slider D slide in the bracing piece C outside, the rubber slab of grip block surface "X" type lug contacts behind the surface of digital integrated circuit board both ends, with the friction between increase and the digital integrated circuit board, prevent that digital integrated circuit board from producing the removal, and accomplish the centre gripping of digital integrated circuit board and handle the back, the staff twists the bolt fastening with twisting between bracing piece B and the slider C.

2. This kind of digital integrated circuit tests processingequipment is through being provided with fixture block C and fixture block D, can make the staff with digital integrated circuit board fixed back, integrated circuit pick-up plate top slider B that will use slides in the spout of slider A bottom back, the staff promotes movable cardboard B and rotates through the pivot, make fixture block C contact fixture block D surface joint back, the staff will move about between cardboard B and the slider B twist the bolt fastening, accomplish the installation to the integrated circuit pick-up plate and handle.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of a digital integrated circuit testing and processing device according to the present invention;

FIG. 2 is an enlarged schematic diagram of the structure at A in FIG. 1;

fig. 3 is a schematic diagram of an enlarged structure at B in fig. 1 according to the present invention;

fig. 4 is the utility model discloses well slider D looks sideways at spatial structure and schematically shows the sketch.

The mark in the figure is: 1. a test bench; 101. a fixed mount; 102. a screw slide rail; 103. a support rod A; 1031. a clamping block A; 104. a slide block A; 1041. a movable clamping plate A; 1042. a clamping block B; 105. a chute; 106. a movable clamping plate B; 1061. a clamping block C; 2. an integrated circuit detection board; 201. a detection head; 202. a slide block B; 2021. a clamping block D; 3. a clamping frame; 301. a support bar B; 3011. a slider C; 3012. a movable rod; 302. a placing table; 303. a support bar C; 3031. a slider D; 3032. a clamping plate; 3033. a rubber plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-4, a digital integrated circuit testing and processing device comprises a testing platform 1, a fixing frame 101, a lead screw slide rail 102, a support rod A103, a slide block A104 and a clamping frame 3, wherein the fixing frame 101 is fixedly installed at one end of the top of the testing platform 1, the lead screw slide rail 102 is fixedly installed at one end of the outer wall of the fixing frame 101, the support rod A103 is arranged at the other end of the outer side of the lead screw slide rail 102 in a sliding mode through the slide block, the slide block A104 is arranged on the outer side of the support rod A103 in a sliding mode, the clamping frame 3 is fixedly installed at one end, close to the outer side of the fixing frame 101, of the top of the testing platform 1, an adjusting and clamping mechanism is arranged at the top of the clamping frame 3, a detachable detection mechanism is arranged at the bottom of the slide block A104, and a position adjusting and clamping mechanism is arranged at the outer side of the support rod A103;

the adjusting and clamping mechanism is composed of a support rod B301, a slide block C3011, a movable rod 3012, an object placing table 302, a support rod C303, a slide block D3031, a clamping plate 3032 and a rubber plate 3033.

Referring to fig. 1, 2 and 4, further, a support rod B301 is fixedly installed in the middle of the top of the clamping frame 3, a placement platform 302 is fixedly installed on the top of the support rod B301, support rods C303 are fixedly installed between both ends of the outer wall of the placement platform 302 and the outer wall of the clamping frame 3, sliders D3031 are slidably installed outside the support rods C303, clamping plates 3032 are fixedly installed on opposite surfaces of the tops of the sliders D3031, rubber plates 3033 are fixedly installed on opposite surfaces of the outer wall of the clamping plates 3032, X-shaped bumps are arranged on the outer surface of the rubber plates 3033 in a matching manner, sliders C3011 are slidably installed outside the support rods B301, the support rods B301 are connected with the sliders C3011 through bolts, movable rods 3012 are rotatably installed between both ends of the outer wall of the sliders C3011 and the two sliders D3031 through rotating shafts, when a worker needs to test a large number of produced digital integrated circuit boards, the worker carries the digital integrated circuit boards produced in large quantity into a detection field, places one of the digital integrated circuit boards on the surface of the object placing table 302, pushes the sliding block C3011 to slide downwards on the outer side of the supporting rod B301, drives the movable rod 3012 and the sliding block D3031 to rotate through the rotating shaft, enables the opposite sliding block D3031 to slide on the outer side of the supporting rod C303, enables the clamping plate 3032 to contact the surfaces of the two ends of the digital integrated circuit board, enables the two ends of the digital integrated circuit board to contact the surface of the rubber plate 3033 which is provided with the X-shaped convex block on the surface of the clamping plate 3032, increases friction between the digital integrated circuit board, prevents the digital integrated circuit board from moving, and screws the supporting rod B301 and the sliding block C3011 to fix after clamping treatment of the digital integrated circuit board is completed.

Referring to fig. 1 and 3, further, the detachable detection mechanism is composed of a sliding slot 105, a movable clamping plate B106, a clamping block C1061, an integrated circuit detection plate 2, a detection head 201, a sliding block B202 and a clamping block D2021.

Referring to fig. 1 and 3, further, a sliding groove 105 is fixedly installed on the outer wall of the bottom of a sliding block a104, an integrated circuit detection plate 2 is arranged at the bottom of the sliding groove 105, a detection head 201 is fixedly installed at the bottom of the integrated circuit detection plate 2, the number of the detection head 201 is multiple, a sliding block B202 is fixedly installed at the top of the integrated circuit detection plate 2, the sliding block B202 is arranged inside the sliding groove 105 in a fit-sliding manner, a clamping block D2021 is fixedly installed at one end of the outer wall of the sliding groove B202, a movable clamping plate B106 is arranged at the top of the outer wall of the sliding groove 105 in a rotating manner through a rotating shaft, a clamping block C1061 and the clamping block D2021 are arranged in a fit-clamping manner, the movable clamping plate B106 and the sliding block B202 are connected through bolts, after the digital integrated circuit is fixed by a worker, the sliding block B202 at the top of the integrated circuit 2 to be used is slid into the sliding groove 105 at the bottom of the sliding block a104, the worker pushes the movable clamping plate B106 to rotate the rotating shaft, the clamping block C1061 to clamp B106 to contact with the surface of the clamping block D2021, and then the bolt is screwed into the detection plate to fix the integrated circuit between the movable clamping plate B106 and the sliding block B202, and install the integrated circuit.

Referring to fig. 1 and 3, further, the position adjusting clamping mechanism is composed of a fixture block a1031, a movable fixture block a1041 and a fixture block B1042;

the top of the outer wall of the supporting rod A103 is fixedly provided with a fixture block A1031, the fixture block A1031 is provided with a plurality of blocks, the blocks are arranged in parallel, one end of the top of the outer wall of the slider A104 is provided with a movable clamping plate A1041 in a rotating mode through a rotating shaft, the bottom of the outer wall of the movable clamping plate A1041 is fixedly provided with a fixture block B1042, the fixture block B1042 and the fixture block A1031 are arranged in a matched and clamped mode, the movable clamping plate A1041 is connected with the supporting rod A103 through a bolt, after the integrated circuit detection plate 2 required to be used is installed by a worker, the screw rod sliding rail 102 is controlled to descend the supporting rod A103 through the slider, the slider A104 is pulled to slide outside the supporting rod A103, after the integrated circuit detection plate 2 is located at a position, which needs to be subjected to contact detection, the worker closes the screw rod sliding rail 102 and pushes the movable clamping plate A1041 through the rotating shaft, after the fixture block B1042 is contacted with the surface of the fixture block A1031, the worker screws and fixes the movable clamping plate A1041 and the bolt between the movable clamping plate A1041 and the slider, the slider 102, the slider is controlled again to be contacted with the integrated circuit board, and then the integrated circuit board is processed into a digital integrated circuit board 201.

Referring to fig. 1 and 3, further, the integrated circuit detection board 2 is electrically connected to the storage battery through a matching integrated circuit detector and a control panel, the screw rod slide rail 102 is electrically connected to the storage battery through the control panel, and the integrated circuit detector is provided with a display for displaying faults in a matching manner.

The working principle is as follows: firstly, when a worker needs to test and process a large number of produced digital integrated circuit boards, the worker carries the large number of produced digital integrated circuit boards to a detection site, and places one of the digital integrated circuit boards on the surface of a placing table 302, the worker pushes a slide block C3011 to slide downwards on the outer side of a support rod B301 to drive a movable rod 3012 and a slide block D3031 to rotate through a rotating shaft, so that the opposite slide block D3031 slides on the outer side of the support rod C303, after a clamping plate 3032 contacts the surfaces of two ends of the digital integrated circuit board, the two ends of the digital integrated circuit board contact the surface of a rubber plate 3033 which is provided with an X-shaped lug on the surface of the clamping plate 3032, the friction between the digital integrated circuit board and the digital integrated circuit board is increased, the digital integrated circuit board is prevented from moving, and after the clamping processing of the digital integrated circuit board is completed, the worker screws the support rod B301 and the slide block C3011 into a bolt for fixing, then, after the worker slides the slider B202 on the top of the integrated circuit detection plate 2 to be used into the sliding groove 105 at the bottom of the slider a104, the worker pushes the movable clamping plate B106 to rotate through the rotating shaft, so that the clamping block C1061 contacts with the surface of the clamping block D2021 for clamping, the worker screws the movable clamping plate B106 and the slider B202 into bolts for fixing, thereby completing the installation process of the integrated circuit detection plate 2, finally, the worker controls the lead screw slide rail 102 to descend the support rod a103 through the slider, simultaneously pulls the slider a104 to slide on the outer side of the support rod a103, so that the integrated circuit detection plate 2 is at the position at the top of the digital integrated circuit board where contact detection is required, closes the lead screw slide rail 102 and pushes the movable clamping plate a1041 to rotate through the rotating shaft, so that the clamping block B1042 contacts with the surface of the clamping block a1031 for clamping, and then the worker screws the bolts between the movable clamping plate a1041 and the support rod a103 into bolts for fixing, and controlling the screw rod slide rail 102 to lower the integrated circuit detection plate 2 through the slide block again, so that the detection head 201 at the bottom of the integrated circuit detection plate 2 is contacted with the surface of the digital integrated circuit board, and after the digital integrated circuit detection processing is carried out on the digital integrated circuit board, the digital integrated circuit detection processing is carried out on the next digital integrated circuit board in the same way.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (5)

1. The utility model provides a digital integrated circuit tests processingequipment, includes testboard (1), mount (101), lead screw slide rail (102), bracing piece A (103), slider A (104), holding frame (3), testboard (1) top one end fixed mounting has mount (101), mount (101) outer wall one end fixed mounting has lead screw slide rail (102), the lead screw slide rail (102) outside other end slides through the slider and is provided with bracing piece A (103), bracing piece A (103) outside slides and is provided with, slider A (104), testboard (1) top one end is close to mount (101) outside one end fixed mounting has holding frame (3), its characterized in that: an adjusting clamping mechanism is arranged at the top of the clamping frame (3), a detachable detection mechanism is arranged at the bottom of the sliding block A (104), and a position adjusting clamping mechanism is arranged on the outer side of the supporting rod A (103);

the adjusting and clamping mechanism is composed of a support rod B (301), a slide block C (3011), a movable rod (3012), an object placing table (302), a support rod C (303), a slide block D (3031), a clamping plate (3032) and a rubber plate (3033).

2. The digital integrated circuit test handler of claim 1, wherein: support rod B (301) is fixedly mounted in the middle of the top of clamping frame (3), support rod B (301) top fixed mounting has object placing table (302), equal fixed mounting has support rod C (303) between object placing table (302) outer wall both ends and clamping frame (3) outer wall, support rod C (303) outside slides and is provided with slider D (3031), equal fixed mounting has grip block (3032) on slider D (3031) top opposite face, equal fixed mounting has rubber slab (3033) on grip block (3032) outer wall opposite face, and the outer surface of rubber slab (3033) is supporting and is provided with "X" type lug, support rod B (301) outside slides and is provided with slider C (3011), and passes through bolted connection between support rod B (301) and slider C (3011), slider C (3011) outer wall both ends respectively and between two slider D (3031) all rotate through the pivot and are provided with movable rod (3012).

3. The digital integrated circuit test handler of claim 1, wherein: the detachable detection mechanism is composed of a sliding groove (105), a movable clamping plate B (106), a clamping block C (1061), an integrated circuit detection plate (2), a detection head (201), a sliding block B (202) and a clamping block D (2021).

4. The digital integrated circuit test handler of claim 1, wherein: the detection device is characterized in that a sliding groove (105) is fixedly mounted on the outer wall of the bottom of the sliding block A (104), an integrated circuit detection plate (2) is arranged at the bottom of the sliding groove (105), a detection head (201) is fixedly mounted at the bottom of the integrated circuit detection plate (2), a plurality of detection heads (201) are arranged on the detection head (201), a sliding block B (202) is fixedly mounted at the top of the integrated circuit detection plate (2), the sliding block B (202) is matched with and slides inside the sliding groove (105), a clamping block D (2021) is fixedly mounted at one end of the outer wall of the sliding block B (202), a movable clamping plate B (106) is rotatably arranged at one end of the outer wall of the sliding groove (105) through a rotating shaft, a clamping block C (1061) is fixedly mounted at the other end of the outer wall of the movable clamping plate B (106), the clamping block C (1061) and the clamping block D (2021) are matched and clamped, and the movable clamping plate B (106) and the sliding block B (202) are connected through bolts.

5. The digital integrated circuit test handler of claim 1, wherein: the position adjusting clamping mechanism consists of a fixture block A (1031), a movable fixture block A (1041) and a fixture block B (1042);

support bar A (103) outer wall top fixed mounting has fixture block A (1031), fixture block A (1031) has a plurality of, and is the setting side by side, slider A (104) outer wall top one end is rotated through the pivot and is provided with movable cardboard A (1041), activity cardboard A (1041) outer wall bottom fixed mounting has fixture block B (1042), and is the setting of agreeing with the joint between fixture block B (1042) and fixture block A (1031), pass through bolted connection between activity cardboard A (1041) and support bar A (103).

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