CN218987148U - Detection and packaging integrated device of connector - Google Patents

Abstract

The utility model provides a detection and packaging integrated device of a connector, which comprises: a machine table; a vibration plate; a detection mechanism comprising: the device comprises a first flow passage for butting against the vibration disc, a rotating table which is arranged tangentially to the first flow passage and continuously rotates, and a plurality of detection probes which are arranged along the outer diameter of the rotating table; a packaging mechanism comprising: the device comprises a rotating table, a first runner, a second runner tangent to the rotating table, a tray feeding device arranged at the tail end of the first runner and driving a tray on a material belt loaded into the connector, and a material moving device arranged at the side part of the first runner and moving the connector of the first runner onto the material belt on the tray feeding device. The detection mechanism and the packaging mechanism are in organic butt joint, the assembled connector enters the rotating table from the first flow channel from the vibration disc, rotates along with the rotating table, is respectively subjected to multi-angle visual detection by the plurality of detection probes, the qualified connector enters the second flow channel, the material moving device moves the connector from the second flow channel to the material belt of the upper disc device to complete upper disc packaging of the connector, and detection and packaging integrated operation of the connector is realized.

Description

Detection and packaging integrated device of connector

Technical Field

The utility model relates to the technical field of connector production, in particular to detection and packaging integrated equipment for a connector.

Background

After the connector is assembled, operations such as detecting, removing defective products, packaging and the like are required to be performed on the connector. In the operation of the existing connector, corresponding detection equipment and packaging equipment are adopted for independent operation respectively, and the defects of low efficiency, time consumption and labor consumption are overcome.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide a connector inspection and packaging integrated device, which is used for solving the problems of low inspection and packaging separation operation efficiency, time and labor consumption in the prior art.

To achieve the above and other related objects, the present utility model provides a test and package integrated device for a connector, comprising:

a machine table;

the vibration disc is arranged at the side part of the machine table;

the detection mechanism of setting at the board middle part and butt joint vibration dish output, detection mechanism includes: the device comprises a first flow passage for butting against the vibration disc, a rotating table which is arranged tangentially to the first flow passage and continuously rotates, and a plurality of detection probes which are arranged along the outer diameter of the rotating table;

the packagine machine of setting in board lateral part and butt joint detection mechanism output constructs, packagine machine constructs includes: the device comprises a rotating table, a first runner, a second runner tangent to the rotating table, a tray feeding device arranged at the tail end of the first runner and driving a tray on a material belt loaded into the connector, and a material moving device arranged at the side part of the first runner and moving the connector of the first runner onto the material belt on the tray feeding device.

Through adopting above-mentioned technical scheme, with detection mechanism and the organic butt joint of packagine machine construct, the connector of completion of equipment gets into the rolling table by first runner from the vibration dish, rotates along with the rolling table, carries out multi-angle vision by a plurality of test probes respectively and detects, detects qualified connector and gets into the second runner to carry the upper disc packing of accomplishing the connector on the material strip of upper disc device with the connector from the second runner by the material shifting device, realized the integrative operation of detection packing of connector, improved work efficiency.

In an embodiment of the present utility model, a pushing nozzle is disposed above a side of the second flow channel near the rotating table, and an air injection pipeline is connected to an upper portion of the pushing nozzle, where an air injection direction is consistent with a moving direction of the connector in the second flow channel.

Through adopting above-mentioned technical scheme, by pushing away material nozzle blowout gas, promote the connector from second flow path head end to terminal, realize that the connector is moved to packagine machine mechanism by detection mechanism's rolling table.

In an embodiment of the present utility model, the disc loading device includes: the first material tray frame is rotatably arranged below the machine table, and a material tray filled with empty material belts is arranged on the first material tray frame; the upper tray rack is arranged on the first tray rack, the upper end face of the upper tray rack is provided with a material belt input groove, and the machine table is arranged above the release end of the first tray rack; the pinwheel is arranged at one side of the upper tray frame, which is opposite to the first tray frame; the upper disc motor is arranged at the side part of the pinwheel and drives the pinwheel to rotate; the second material tray frame is arranged at the tail end of the first material tray frame, and an empty material tray is arranged on the second material tray frame; the upper end face gap of the upper disc rack is provided with an upper sealing plate, and a gap between the upper sealing plate and the upper end face of the upper disc rack forms a material belt with a groove.

Through adopting above-mentioned technical scheme, empty material area stretches into from the material area input groove by first charging tray frame, passes the material area through the groove and along moving with the upper end parallel direction of upper disc frame, and the material device that moves constantly snatchs the connector from the second runner end on empty material area to drive the material area by the pinwheel and constantly move to second charging tray frame direction, the material area rolling of packing into the connector realizes the automatic packing of connector in the empty charging tray on the second charging tray frame.

In an embodiment of the utility model, a light shielding wheel is coaxially arranged at the side part of the pinwheel, and a plurality of radial grooves are radially arranged on the light shielding wheel; the outer diameter of the shading wheel is provided with a first grating, and the transmitting end and the receiving end of the first grating are respectively positioned on two sides of the shading wheel.

Through adopting above-mentioned technical scheme, the light-shielding wheel is driven by the pinwheel and rotates, along with the even speed rotation of light-shielding wheel, and the light-shielding wheel shelters from first grating according to fixed time interval to first grating receives fixed time interval's shading signal to judge that the material area is last rolling to the empty charging tray of second charging tray frame, improved error proofing ability.

In an embodiment of the utility model, the material transferring device includes: a material transferring rack; the two belt pulleys are respectively and rotatably arranged at two ends of the material moving rack, and the belt pulleys are in transmission connection; the material moving motor is arranged at the side part of a belt wheel and drives the belt wheel to rotate; the two connecting arms are correspondingly sleeved on the side parts of the pulleys and driven by the pulleys to rotate; the suction nozzle bracket is horizontally arranged at the upper part of the connecting arm, and two ends of the suction nozzle bracket are respectively and rotatably connected with the connecting arm; the suction nozzle body is vertically arranged at one end, close to the upper disc device, of the suction nozzle support, and the upper part of the suction nozzle body is connected with a suction pipeline.

By adopting the technical scheme, the material moving motor positively rotates and reversely rotates at fixed time intervals, the belt pulley is driven to positively rotate and reversely rotate at fixed time intervals, and when the belt pulley positively rotates, the connecting arm rotates to one side of the second flow channel, the suction nozzle body is driven to move and descend to the tail end of the second flow channel, and the suction nozzle body sucks the connector; when the belt wheel rotates reversely, the connecting arm rotates towards one side of the upper disc device to drive the suction nozzle body to ascend and move towards one side of the upper disc device, and finally descends to the upper part of the empty material belt, and the suction nozzle body stops sucking air and puts down the connector; the above steps are repeated, and the material transferring device continuously grabs the connector onto the empty material belt of the upper disc device according to the fixed production rhythm.

In an embodiment of the utility model, a light-transmitting groove is disposed at the end of the second flow channel, and a second grating is disposed at the lower part of the light-transmitting groove.

By adopting the technical scheme, when the second grating is shielded, the existence of the connector at the tail end of the second flow channel is indicated, the condition that the connector is not installed on the material belt due to the empty grabbing of the second flow channel and the material moving device is prevented, and the error proofing capability is improved.

In an embodiment of the present utility model, a waste discharging device is disposed at a junction between the rotating table and the second flow channel, and the waste discharging device includes: the waste discharging device comprises a waste discharging rack arranged on the side part of a rotating table, a waste box detachably arranged in the waste discharging rack and facing to an opening on one side of the rotating table, and a waste discharging nozzle obliquely arranged above the rotating table; the upper part of the waste discharge nozzle is connected with an air injection pipeline, and the air injection direction is outwards along the radial direction of the rotating table.

Through adopting above-mentioned technical scheme, detecting probe detects unqualified connector, by exhaust nozzle blowout gas, promotes unqualified connector and gets into the waste material box, if the waste material box is fully loaded, can take out the waste material box by hand, and the operation continues behind the clear waste material box.

As described above, the detection and packaging integrated device of the connector of the utility model has the following beneficial effects:

the detection mechanism and the packaging mechanism are organically abutted, the assembled connector enters the rotating table from the first flow channel and rotates along with the rotating table, the plurality of detection probes respectively perform multi-angle visual detection, the qualified connector is detected to enter the second flow channel, the material moving device moves the connector from the second flow channel to the material belt of the upper disc device to complete upper disc packaging of the connector, detection and packaging integrated operation of the connector is realized, and the working efficiency is improved.

Drawings

Fig. 1 shows a perspective view of a first view angle of a test pack integrated device of a connector disclosed in an embodiment of the present utility model.

Fig. 2 shows a perspective view of a second view of the inspection and packaging integrated device of a connector disclosed in an embodiment of the present utility model.

Fig. 3 shows a top view of the second flow path end of a test pack integrated device of a connector as disclosed in an embodiment of the present utility model.

Fig. 4 is a perspective view showing a third view angle of the inspection and packaging integrated apparatus of the connector disclosed in the embodiment of the present utility model.

Description of the reference numerals

1. A machine table; 11. a material belt input groove; 2. a vibration plate; 3. a detection mechanism; 31. a first flow passage; 32. a rotating table; 33. a detection probe; 34. a waste discharging device; 341. a waste discharge rack; 342. a waste bin; 343. a waste discharge nozzle; 4. a packaging mechanism; 41. a second flow passage; 411. a pushing nozzle; 412. a light transmission groove; 413. a second grating; 42. a disc loading device; 421. a first tray rack; 422. a tray feeding rack; 423. an upper sealing plate; 424. the material belt passes through the groove; 425. a pinwheel; 426. a disc feeding motor; 427. a second tray rack; 428. a shading wheel; 429. a first grating; 43. a material transferring device; 431. a material transferring rack; 432. a belt wheel; 433. a material moving motor; 434. a connecting arm; 435. a suction nozzle bracket; 436. a suction nozzle body.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

Please refer to fig. 1 to 4. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the utility model, are not intended to be critical to the essential characteristics of the utility model, but are intended to fall within the spirit and scope of the utility model. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Referring to fig. 1, the present utility model provides a connector inspection and packaging integrated device, comprising:

a machine 1;

a vibration plate 2 arranged at the side part of the machine table 1;

the detection mechanism 3 of setting at board 1 middle part and butt joint vibration dish 2 output, detection mechanism 3 includes: the device comprises a first flow channel 31 for butting against the vibration disc 2, a rotating table 32 which is arranged tangentially to the first flow channel 31 and continuously rotates, and a plurality of detection probes 33 which are arranged along the outer diameter of the rotating table 32;

the packaging mechanism 4 is arranged at the side part of the machine table 1 and is in butt joint with the output end of the detection mechanism 3, and the packaging mechanism 4 comprises: a second flow channel 41 tangential to the rotating table 32, a tray feeding device 42 arranged at the tail end of the second flow channel 41 and driving a tray on a material belt loaded with connectors, and a material moving device 43 arranged at the side part of the second flow channel 41 and moving the connectors of the second flow channel 41 onto the material belt on the tray feeding device 42;

the detection mechanism 3 and the packing mechanism 4 are organically abutted, the assembled connector enters the rotating table 32 from the vibration disc 2 through the first flow channel 31, rotates along with the rotating table 32, is respectively subjected to multi-angle visual detection through the plurality of detection probes 33, enters the second flow channel 41, and is transferred from the second flow channel 41 to the material belt of the upper disc device 42 through the material transferring device 43 to complete upper disc packing of the connector, so that the detection and packing integrated operation of the connector is realized, and the working efficiency is improved.

Referring to fig. 2, a pushing nozzle 411 is disposed above a side of the second flow channel 41 near the rotating table 32, an air injection pipeline is connected to an upper portion of the pushing nozzle 411, and an air injection direction is consistent with a moving direction of the connector in the second flow channel 41; the pushing nozzle 411 ejects gas to push the connector from the head end to the tail end of the second flow channel 41, so that the connector moves from the rotating table 32 of the detecting mechanism 3 to the packaging mechanism 4.

The upper disc device 42 includes: a first tray frame 421 rotatably disposed below the machine 1, and a tray with empty material tape is mounted on the first tray frame 421; the upper tray rack 422 is arranged on the first tray rack 421, the upper end surface of the upper tray rack 422 is provided with a material belt input groove 11, and the position of the organic table 1 above the release end of the first tray rack 421; the pinwheel 425 is arranged on the side of the upper tray frame 422, which is opposite to the first tray frame 421; an upper disc motor 426 provided at a side of the pinwheel 425 and driving the pinwheel 425 to rotate; the second tray holder 427 is arranged at the tail end of the first tray holder 421, and an empty tray is arranged on the second tray holder 427; an upper sealing plate 423 is arranged at the upper end surface gap of the upper disc frame 422, and a material belt passing groove 424 is formed at the gap between the upper sealing plate 423 and the upper end surface of the upper disc frame 422; the empty material belt stretches into from the material belt input groove 11 by the first material plate frame 421, passes through the material belt passing groove 424 and moves along the direction parallel to the upper end surface of the upper plate frame 422, the material moving device 43 continuously grabs the connector from the tail end of the second flow channel 41 onto the empty material belt, the material belt is driven by the pinwheel 425 to continuously move towards the second material plate frame 427, and the material belt loaded into the connector is wound into the empty material plate on the second material plate frame 427 to realize automatic packaging of the connector.

The side part of the pinwheel 425 is coaxially provided with a shading wheel 428, and the shading wheel 428 is provided with a plurality of radial grooves along the radial direction; the outer diameter of the shading wheel 428 is provided with a first grating 429, and the transmitting end and the receiving end of the first grating 429 are respectively positioned at two sides of the shading wheel 428; the shading wheel 428 is driven to rotate by the pinwheel 425, and along with the uniform rotation of the shading wheel 428, the shading wheel 428 shields the first grating 429 according to fixed time intervals, and the first grating 429 receives shading signals at the fixed time intervals to judge that the material belt is continuously wound on an empty material disc of the second material disc frame 427, so that the error proofing capability is improved.

The transfer device 43 includes: a material-moving frame 431; two belt pulleys 432 are respectively and rotatably arranged at two ends of the material moving frame 431, and the belt pulleys 432 are in transmission connection; a material moving motor 433 disposed at a side of a pulley 432 and driving the pulley 432 to rotate; two connecting arms 434 correspondingly sleeved on the side parts of the pulleys 432 and driven to rotate by the pulleys 432; the suction nozzle bracket 435 is horizontally arranged on the upper part of the connecting arm 434, and two ends of the suction nozzle bracket are respectively connected with the connecting arm 434 in a rotating way; the suction nozzle body 436 is vertically arranged at one end of the suction nozzle bracket 435 close to the upper disc device 42, and the upper part of the suction nozzle body 436 is connected with a suction pipeline; the material moving motor 433 rotates forward and reversely at fixed time intervals, the belt wheel 432 is driven to rotate forward and reversely at fixed time intervals, when the belt wheel 432 rotates forward, the connecting arm 434 rotates to the side of the second flow channel 41, the suction nozzle body 436 is driven to move towards the tail end of the second flow channel 41 and descend, and the suction nozzle body 436 sucks the connector; when the belt wheel 432 is reversed, the connecting arm 434 rotates towards the upper disc device 42 side, drives the suction nozzle body 436 to ascend and move towards the upper disc device 42 side, finally descends to the upper part of the empty material belt, and the suction nozzle body 436 stops sucking air and puts down the connector; repeating this, the transfer device 43 continuously grabs the connector onto the empty strip of the upper tray device 42 at a fixed production rhythm.

Referring to fig. 3, a light-transmitting slot 412 is formed at the end of the second flow channel 41, and a second grating 413 is disposed at the lower part of the light-transmitting slot 412; when the second grating 413 is shielded, that is, the connector exists at the tail end of the second flow channel 41, the situation that the connector is not installed on the material belt due to no load of the second flow channel 41 and no grasp of the material moving device 43 is prevented, and the error-proofing capability is improved.

Referring to fig. 4, a waste discharging device 34 is disposed at a junction between the rotating table 32 and the second flow channel 41, and the waste discharging device 34 includes: a waste discharge frame 341 provided at a side of the rotating table 32, a waste box 342 detachably provided in the waste discharge frame 341 and opened to a side facing the rotating table 32, and a waste discharge nozzle 343 obliquely provided above the rotating table 32; the upper part of the waste discharge nozzle 343 is connected with an air injection pipeline, and the air injection direction is outwards along the radial direction of the rotating table 32; the detecting probe 33 detects the unqualified connector, and the waste discharge nozzle 343 ejects gas to push the unqualified connector into the waste box 342, if the waste box 342 is fully loaded, the waste box 342 can be manually taken out, and the waste box 342 is emptied and then the operation is continued.

The detection and packaging integrated device of the connector has the working principle that: the detection mechanism 3 and the packaging mechanism 4 are organically abutted, the assembled connector enters the rotating table 32 from the first flow channel 31 and rotates along with the rotating table 32, the multiple detection probes 33 respectively perform multi-angle visual detection, the qualified connector is detected to enter the second flow channel 41, the pushing nozzle 411 is used for spraying gas, the connector is pushed to move from the second flow channel 41 to the packaging mechanism 4, the detection probe 33 is used for detecting the unqualified connector, the waste discharge nozzle 343 is used for spraying gas, and the unqualified connector is pushed to enter the waste box 342; the empty material belt stretches in from the material belt input groove 11 through the material belt passing groove 424 and moves along the direction parallel to the upper end surface of the upper disc frame 422 by the first material disc frame 421, the material moving motor 433 rotates forward and reversely at fixed time intervals, the belt wheel 432 is driven to rotate forward and reversely at fixed time intervals, when the belt wheel 432 rotates forward, the connecting arm 434 rotates to the side of the second flow channel 41, the suction nozzle body 436 is driven to move towards the tail end of the second flow channel 41 and descend, and the suction nozzle body 436 sucks the connector; when the belt wheel 432 is reversed, the connecting arm 434 rotates towards the upper disc device 42 side, drives the suction nozzle body 436 to ascend and move towards the upper disc device 42 side, finally descends to the upper part of the empty material belt, and the suction nozzle body 436 stops sucking air and puts down the connector; the above steps are repeated, the material moving device 43 continuously grabs the connector on the empty material belt of the upper disc device 42 according to the fixed production rhythm, the material belt is driven by the pin wheel 425 to continuously move towards the second material disc frame 427, and the material belt filled with the connector is wound into the empty material disc on the second material disc frame 427 to realize automatic packaging of the connector; the detection and packaging integrated operation of the connector is realized, and the working efficiency is improved.

In summary, the utility model organically connects the detecting mechanism 3 and the packing mechanism 4, the assembled connector enters the rotating table 32 from the vibrating tray 2 through the first flow channel 31, rotates along with the rotating table 32, is respectively and visually detected at multiple angles through the plurality of detecting probes 33, the qualified connector enters the second flow channel 41, and is transferred from the second flow channel 41 to the material belt of the upper tray device 42 through the material transferring device 43, so that the tray loading and packing of the connector are completed, the detection and packing integrated operation of the connector is realized, and the working efficiency is improved. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (7)

1. A test pack integrated device of a connector, comprising:

a machine table (1);

a vibration plate (2) arranged at the side part of the machine table (1);

the detection mechanism (3) is arranged in the middle of the machine table (1) and is in butt joint with the output end of the vibration disc (2), and the detection mechanism (3) comprises: the device comprises a first flow passage (31) for butting the vibration disc (2), a rotating table (32) which is arranged tangentially to the first flow passage (31) and continuously rotates, and a plurality of detection probes (33) which are arranged along the outer diameter of the rotating table (32);

the packaging mechanism (4) is arranged at the side part of the machine table (1) and is in butt joint with the output end of the detection mechanism (3), and the packaging mechanism (4) comprises: the device comprises a second flow passage (41) tangential to the rotating table (32), a tray feeding device (42) arranged at the tail end of the second flow passage (41) and driving a material belt to be loaded into the connector, and a material moving device (43) arranged at the side part of the second flow passage (41) and moving the connector of the second flow passage (41) to the material belt on the tray feeding device (42).

2. The connector inspection and packaging integrated device of claim 1, wherein: the upper part of one side of the second flow channel (41) close to the rotating table (32) is provided with a pushing nozzle (411), the upper part of the pushing nozzle (411) is connected with an air injection pipeline, and the air injection direction is consistent with the moving direction of the connector in the second flow channel (41).

3. The connector inspection and packaging integrated device of claim 2, wherein: the upper disc device (42) includes: the first material tray frame (421) is rotatably arranged below the machine table (1), and a material tray filled with empty material belts is arranged on the first material tray frame (421); the upper tray rack (422) is arranged on the first tray rack (421), the upper end surface of the upper tray rack (422) is provided with a material belt input groove (11) arranged at the position, above the release end of the first tray rack (421), of the machine table (1); a pinwheel (425) arranged on one side of the upper tray frame (422) back to the first tray frame (421); an upper disc motor (426) which is arranged at the side part of the pinwheel (425) and drives the pinwheel (425) to rotate; the second material tray rack (427) is arranged at the tail end of the first material tray rack (421), and an empty material tray is arranged on the second material tray rack (427); the upper end face gap of the upper disc rack (422) is provided with an upper sealing plate (423), and a material belt passing groove (424) is formed in the gap between the upper sealing plate (423) and the upper end face of the upper disc rack (422).

4. A connector inspection and packaging integrated device according to claim 3, wherein: a shading wheel (428) is coaxially arranged on the side part of the pinwheel (425), and a plurality of radial grooves are formed in the shading wheel (428) along the radial direction; the outer diameter of the shading wheel (428) is provided with a first grating (429), and the transmitting end and the receiving end of the first grating (429) are respectively positioned at two sides of the shading wheel (428).

5. A connector inspection and packaging integrated device according to claim 3, wherein: the material moving device (43) comprises: a material moving frame (431); two belt wheels (432) are respectively and rotatably arranged at two ends of the material moving frame (431), and the belt wheels (432) are in transmission connection; a material moving motor (433) which is arranged at the side part of a belt wheel (432) and drives the belt wheel (432) to rotate; two connecting arms (434) correspondingly sleeved on the side parts of the pulleys (432) and driven to rotate by the pulleys (432); the suction nozzle bracket (435) is horizontally arranged at the upper part of the connecting arm (434), and the two ends of the suction nozzle bracket are respectively connected with the connecting arm (434) in a rotating way; the suction nozzle body (436) is vertically arranged at one end, close to the upper disc device (42), of the suction nozzle bracket (435), and a suction pipeline is connected to the upper part of the suction nozzle body (436).

6. The connector inspection and packaging integrated device of claim 5, wherein: the tail end of the second flow channel (41) is provided with a light transmission groove (412) in a penetrating mode, and the lower portion of the light transmission groove (412) is provided with a second grating (413).

7. The connector inspection and packaging integrated device of claim 1, wherein: the rotary table (32) is provided with a waste discharge device (34) at the joint of the rotary table and the second flow channel (41), and the waste discharge device (34) comprises: a waste discharge rack (341) arranged at the side part of the rotating table (32), a waste box (342) which is detachably arranged in the waste discharge rack (341) and is open at one side facing the rotating table (32), and a waste discharge nozzle (343) obliquely arranged above the rotating table (32); the upper part of the waste discharge nozzle (343) is connected with an air injection pipeline, and the air injection direction is outwards along the radial direction of the rotating table (32).

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