CN110896189A

CN110896189A - Production equipment for blood glucose machine connector

Info

Publication number: CN110896189A
Application number: CN201911161811.9A
Authority: CN
Inventors: 王发帅; 陈文�
Original assignee: SUZHOU E-CONN TECHNOLOGY Co Ltd
Current assignee: SUZHOU E-CONN TECHNOLOGY Co Ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-03-20

Abstract

The invention discloses a production device of a blood glucose machine connector, which comprises a rubber core feeding device, an elevator type dislocation mechanism, a linear transplanting processing runner mechanism, a hoop cutting and inserting sweeping mechanism, a coplanarity shaping mechanism, a material discharging mechanism and a man-machine operation and operation button, wherein the rubber core feeding device, the elevator type dislocation mechanism, the linear transplanting processing runner mechanism, the hoop cutting and inserting sweeping mechanism, the coplanarity shaping mechanism, the material discharging mechanism and the man-machine operation and operation button are arranged on a rack, rubber cores on the elevator type dislocation mechanism are conveyed to the linear transplanting processing runner mechanism through the elevator type dislocation mechanism, the two sets of hoop cutting and inserting sweeping mechanisms respectively insert long terminals and short terminals into the rubber cores, and the coplanarity shaping. Through the mode, the automatic feeding device is compact in structure, stable in operation, capable of discharging materials independently, capable of moving and positioning materials uniformly, capable of working in sequence at all stations without interference, neat and uniform in layout, easy to observe the operation conditions of all mechanisms, convenient to maintain and convenient to replace the materials at all positions.

Description

Production equipment for blood glucose machine connector

Technical Field

The invention relates to the technical field of industrial machinery, in particular to a production device of a blood glucose machine connector.

Background

Nowadays, with the improvement of medical treatment, the range of application of blood glucose machine connector products is wider and wider, the usage amount is larger and larger, the required productivity and quality are higher and higher, in this case, it is necessary to vigorously develop automated equipment to meet the demand and reduce labor costs, the original equipment is updated, the original blood sugar machine connector products are mostly assembled and produced by adding a jig by hand, compared with the pure manual assembly, although the original capacity is improved, the efficiency stability and the control of the equipment are lagged behind along with the development, the requirements of the pin inserting mechanism of the prior automatic equipment on materials are strict and not stable enough, the material number changing and product adjusting machine is inconvenient to lack of the test on the product size, the maintenance and the debugging have certain difficulty and time consumption, and on the basis of the defects and the shortcomings, the prior art is necessary to be improved, and the blood glucose meter connector production equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the production equipment for the blood glucose machine connector, which has a compact structure, is stable in operation, can discharge materials independently, can uniformly move and position the materials, ensures that all stations work in sequence without interference, is orderly arranged, is easy to observe the operation condition of each mechanism, is convenient to maintain and replace the materials at all positions.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides a blood glucose machine connector production facility, this kind of blood glucose machine connector production facility is including setting up the gluey core feedway in the frame, elevator formula dislocation mechanism, processing runner mechanism is transplanted to the straight line, send to embrace to cut to insert and sweep the material mechanism, coplanarity plastic mechanism, arrange the material mechanism, man-machine operation and operating button, elevator formula dislocation mechanism goes up gluey core and carries sharp processing runner mechanism of transplanting through elevator formula dislocation mechanism, two sets of sending to embrace to cut to insert and sweep the material mechanism and carry out cartridge long terminal and short terminal to gluey core respectively, coplanarity plastic mechanism plastic after the product assembly is accomplished, discharge through arranging the material mechanism.

Preferably, the elevator type dislocation mechanism comprises a bottom plate, a dislocation guide block, an upper sliding block, a lower sliding block, a connecting plate, a dislocation cylinder, in-place optical fibers and a dislocation pushing component, wherein the bottom plate is fixed at the side end of the linear transplanting processing flow channel mechanism, the dislocation guide block is installed on the bottom plate, one end of the dislocation guide block is transversely provided with a feeding passage, the feeding passage is opposite to the direct vibration feeding of the rubber core feeding device, the dislocation guide block is provided with a dislocation passage which is vertical and communicated with the feeding passage, the upper sliding block and the lower sliding block are installed in the dislocation passage, the connecting plate is installed at the upper end of the dislocation guide block, the lateral end of the connecting plate is provided with the dislocation cylinder, a telescopic rod of the dislocation cylinder is fixed with the upper sliding block and the lower sliding block, the transverse rubber core installation through groove is installed at the lower end of the upper sliding block and the lower sliding block, the bottom at the, the telescopic link shrink of dislocation cylinder, it is relative with the feeding corridor to glue the logical groove of core installation, and the telescopic link of dislocation cylinder extends, and it is relative with ejection of compact corridor to glue the logical groove of core installation, and the optic fibre that targets in place is installed to dislocation guide block both sides, is provided with the hole of dodging relative with the optic fibre that targets in place on the logical groove of rubber core installation, still installs the dislocation on the bottom plate and pushes away the material subassembly, the dislocation pushes away the material subassembly and includes guide block, feeding cylinder, connecting block and push pedal, is provided with the logical groove of direction on the bottom plate, is equipped with the guide block in the logical groove of direction, still installs feeding cylinder on the bottom plate, and feeding cylinder's telescopic link passes through the connecting block to be fixed with the guide block, installs the.

Preferably, the linear transplanting and processing runner mechanism comprises a support, a rubber core runner, a linear slide rail, a transplanting frame, a linear feeding cylinder, a transplanting assembly and a positioning assembly, wherein the support is provided with the rubber core runner which is used for conveying rubber cores, the rubber core runner is in butt joint with a discharging channel, the upper end of the support is provided with the linear slide rail, a sliding block of the linear slide rail is provided with the transplanting frame, the support is also provided with the linear feeding cylinder, a piston rod of the linear feeding cylinder is fixed with the transplanting frame, the transplanting frame is provided with the transplanting assembly, the bottom of the rubber core runner is equidistantly provided with the positioning assembly, the transplanting assembly comprises a guide plate, a lifting frame, a lifting cylinder and a transplanting plate, the transplanting frame is provided with a vertical guide plate, the guide plate is sleeved with the lifting frame, the upper end of the transplanting frame is provided with two lifting cylinders, and a, transplanting plates are equidistantly arranged on the lifting frame, and grooves with the same appearance as the rubber cores are arranged at the lower ends of the transplanting plates; the locating component comprises a locating mounting plate, a locating slider, a locating cylinder and a locating plate, the locating mounting plate is fixed at the lower end of the rubber core runner, the locating slider is arranged in a chute on the locating mounting plate, the locating cylinder is mounted on the locating mounting plate, a telescopic rod of the locating cylinder is fixed with the locating slider, the locating plate is mounted on the locating slider, a avoiding notch opposite to the extending end of the locating plate is formed in the side end of the rubber core runner, and the locating plate can penetrate through the port of the rubber core runner and is inserted into the rubber core to play a locating role.

Preferably, the feeding, holding, cutting, inserting and sweeping mechanism comprises a feeding device, an inserting terminal device and a sweeping belt device, wherein the inserting terminal device comprises a fixed support, a material belt guide plate, a material shifting slide block, a material shifting cylinder, an elastic sheet, a shifting claw and an inserting unit, the material belt guide plate is arranged on the fixed support, the material belt at the upper end of the feeding device is connected into a chute of the material belt guide plate, the material belt guide plate is provided with the material shifting slide block, the fixed support is also provided with the material shifting cylinder, a telescopic rod of the material shifting cylinder is fixed with the material shifting slide block, the elastic sheet is fixed on the material shifting slide block, the lower part of the extending end of the elastic sheet is provided with the shifting claw, the shifting claw penetrates through the material shifting slide block, the lower end of the shifting claw is a guide inclined surface, the lower end of the shifting claw is matched with a material guide hole on the terminal material belt, the telescopic rod of the material shifting cylinder is extended to drive the, the output end of the material belt guide plate is in butt joint with a plug-in unit, and a material belt sweeping device is arranged at the side end of the plug-in unit.

Preferably, the inserting unit comprises a limiting guide plate, a sliding plate, floating limit blocks, an upper sliding block, a clasping and cutting cylinder, a connecting column, a connecting rod, a hinged support, an upper clasping and cutting block, a fixed block, a floating block, a lower cutting knife and a stop component, wherein the upper plane of the fixed support is provided with two limiting guide plates, the slidable sliding plate is arranged between the two limiting guide plates, the sliding plate is provided with two floating limit blocks, the sliding plate between the floating limit blocks is provided with the slidable upper sliding block, the fixed support is provided with the clasping and cutting cylinder, a telescopic rod of the clasping and cutting cylinder is fixed with the upper sliding block, the upper end of the upper sliding block is provided with a guide chute, the guide chute points to the lower right part from left to right and is gradually parallel, the connecting column is inserted in the guide chute, the connecting rod is movably inserted in the connecting column, the, the upper part of the fixed block is connected with a floating block through a spring, the sliding plates on two sides of the floating block are provided with lower cutting knives which are positioned below the terminal material belt, the terminal material belt can be inserted on the floating block, the lower ends of two sides of the upper holding cutting block are provided with upper cutting edges corresponding to the cutting edges of the lower cutting knives, and the sliding plates are also provided with stop components matched with the floating block; the stop assembly comprises a stop plate, a connecting rod stop block and a limit screw, the stop plate horizontally arranged is arranged on the hinged support in a penetrating mode, the sliding plate is hinged to a vertical connecting rod, the short arm end of the connecting rod penetrates through the sliding plate and is matched with an opening sliding groove in the tail portion of the stop plate, the limit block is installed at the lower end of the fixed support, and the limit screw opposite to the long arm end of the connecting rod is installed on the limit block.

Preferably, the sweeping belt device comprises a sweeping belt support, a sweeping belt cylinder, a sweeping belt frame and a material accumulating groove, wherein the sweeping belt support is provided with a vertical sweeping belt cylinder, the telescopic rod of the sweeping belt cylinder is provided with the sweeping belt frame, the material accumulating groove is arranged on the sweeping belt support below the sweeping belt frame, the sweeping belt frame is transversely provided with an open slot, and the open slot is used for clamping a terminal.

Preferably, coplanarity plastic mechanism includes plastic support, plastic cylinder, ejector pad and shaping block, and the plastic support upper end is provided with the plastic cylinder, installs the ejector pad on the telescopic link of plastic cylinder, and the ejector pad front end is provided with the shaping block, is provided with the recess unanimous with terminal side end appearance on the shaping block.

Preferably, arrange the material mechanism and include the CCD camera, arrange material gas pole, garbage collection groove and blown down tank, the straight line is transplanted processing runner mechanism and is carried the end rear side and be provided with the CCD camera, is provided with in the frame of straight line transplantation processing runner mechanism transport end below and arranges the material gas pole, arranges and installs the garbage collection groove on the telescopic link of material gas pole, and garbage collection groove upper portion is provided with the obliquely blown down tank.

Compared with the prior art, the invention has the beneficial effects that:

the arrangement of the elevator type dislocation mechanism can discharge products one by one, so that the production is more stable, and the maintenance and debugging operation is more convenient;

the linear transplanting and processing runner mechanism adopts a rail and a pusher dog to shift work stations, and secondary accurate positioning is carried out at each work station, so that the stability of equipment is enhanced;

various contact pins are sequentially arranged on one side of the linear transplanting and processing runner mechanism, so that the linear transplanting and processing runner mechanism is not interfered with each other, the linear transplanting and processing runner mechanism completes work respectively, the layout is neat and uniform, the running condition of each mechanism is easy to observe, the maintenance is convenient, and the materials on each position are convenient to replace;

and the CCD camera tests and judges the size of the product, and discharges qualified products and unqualified products independently.

Drawings

Fig. 1 is a schematic structural diagram of a blood glucose machine connector production device.

Fig. 2 is a schematic structural diagram of an elevator type malposition mechanism of the blood glucose machine connector production equipment.

Fig. 3 is a cross-sectional view of an elevator-type malposition mechanism of a blood glucose machine connector production facility.

Fig. 4 is a first view structural diagram of a linear transplanting processing flow channel mechanism of a blood glucose machine connector production device.

Fig. 5 is a second view structural diagram of a linear transplanting processing flow channel mechanism of the blood glucose machine connector production equipment.

FIG. 6 is a schematic view of a positioning assembly of a blood glucose meter connector production device.

Fig. 7 is a schematic structural view of a feeding, holding, cutting, inserting and sweeping mechanism of a blood glucose machine connector production device.

FIG. 8 is a cross-sectional view of a cartridge unit of a blood glucose machine connector manufacturing apparatus.

FIG. 9 is a side view of a cartridge unit of a blood glucose machine connector production apparatus.

Fig. 10 is a schematic structural view of a material sweeping belt device of a blood glucose machine connector production device.

FIG. 11 is a schematic diagram of a coplanarity reshaping mechanism of a blood glucose meter connector production device.

Fig. 12 is a schematic structural diagram of a discharging mechanism of a blood glucose machine connector production device.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the invention can be more readily understood by those skilled in the art, and the scope of the invention will be more clearly defined.

Referring to fig. 1 to 12, an embodiment of the present invention includes:

the utility model provides a blood glucose machine connector production facility, this kind of blood glucose machine connector production facility is including setting up gluey core feedway 2 in frame 1, elevator formula dislocation mechanism 3, processing runner mechanism 4 is transplanted to the straight line, send to embrace to cut to insert and sweep material mechanism 5, coplane degree plastic mechanism 6, arrange material mechanism 7, man-machine operation 8 and

operating button

9, 3 rubberizing cores of elevator formula dislocation mechanism carry straight line transplanting processing runner mechanism 4 through elevator formula dislocation mechanism 3, two sets of sending to embrace to cut to insert and sweep material mechanism 5 and carry out cartridge long terminal and short terminal to gluey core respectively, 6 plastic of coplane degree plastic mechanism after the product assembly is accomplished, arrange the discharge through arranging material mechanism 7.

The elevator type dislocation mechanism 3 comprises a bottom plate 31, a dislocation guide block 32, an upper sliding block 33, a lower sliding block 33, a connecting plate 34, a dislocation cylinder 35, in-place optical fibers 36 and a dislocation pushing component 37, wherein the bottom plate 31 is fixed at the side end of the linear transplanting processing flow channel mechanism 4, the dislocation guide block 32 is installed on the bottom plate 31, one end of the dislocation guide block 32 is transversely provided with a feeding channel 321, the feeding channel 321 is opposite to the direct vibration feeding of the rubber core feeding device 2, the dislocation guide block 32 is provided with a vertical dislocation channel 322 communicated with the feeding channel 321, an upper sliding block 333 and a lower sliding block 333 are installed in the dislocation channel 322, the upper end of the dislocation guide block 32 is provided with the connecting plate 34, the side end of the connecting plate 34 is provided with the dislocation cylinder 35, an expansion rod of the dislocation cylinder 35 is fixed with the upper sliding block 33 and the lower sliding block 33, the lower end of the upper sliding block 33 is provided, the discharging channel 323 is positioned below the feeding channel 321 and opposite to the feeding hole of the linear transplanting and processing flow channel mechanism 4, the telescopic rod of the dislocation cylinder 35 is contracted, the rubber core mounting through groove 330 is opposite to the feeding channel 321, the telescopic rod of the dislocation cylinder 35 is extended, the rubber core mounting through groove 330 is opposite to the discharging channel 323, the in-place optical fibers 36 are mounted on two sides of the dislocation guide block 32, an avoiding hole opposite to the in-place optical fibers 36 is formed in the rubber core mounting through groove 330, the bottom plate 31 is further provided with the dislocation pushing assembly 37, the dislocation pushing assembly 37 comprises a guide block 371, a feeding cylinder 372, a connecting block 373 and a push plate 374, the bottom plate 31 is provided with the guiding through groove, the guide block 371 is mounted in the guiding through groove, the feeding cylinder 372 is further mounted on the bottom plate 31, the telescopic rod of the feeding cylinder 372 is fixed with the guide block 371 through the connecting block, the push plate 374 is mounted on the guide block, the push plate 374 opposes the exit shaft 323.

The linear transplanting processing flow channel mechanism 4 comprises a support 41, a rubber core flow channel 42, a linear slide rail 43, a transplanting frame 44, a linear feeding cylinder 45, a transplanting assembly 46 and a positioning assembly 47, wherein the support 41 is provided with the rubber core flow channel 42, the rubber core flow channel 42 is used for conveying rubber cores, the rubber core flow channel 42 is in butt joint with a discharging shaft 323, the upper end of the support 41 is provided with the linear slide rail 43, a slider of the linear slide rail 43 is provided with the transplanting frame 44, the support 41 is also provided with the linear feeding cylinder 45, a piston rod of the linear feeding cylinder 45 is fixed with the transplanting frame 44, the transplanting frame 44 is provided with the transplanting assembly 46, the bottom of the rubber core flow channel 42 is equidistantly provided with the positioning assembly 47, the transplanting assembly 46 comprises a guide plate 461, a lifting frame 462, a lifting cylinder 463 and a transplanting plate 464, the transplanting frame 44 is provided with a vertical guide plate 461, the, two lifting cylinders 463 are installed at the upper end of the transplanting frame 44, the telescopic rods of the lifting cylinders 463 are fixed with a lifting frame 462, transplanting plates 464 are equidistantly installed on the lifting frame 462, and grooves consistent with the shapes of the rubber cores are formed in the lower ends of the transplanting plates 464; the positioning assembly 47 comprises a positioning mounting plate 471, a positioning sliding block 472, a positioning cylinder 473 and a positioning plate 474, the positioning mounting plate 471 is fixed at the lower end of the rubber core flow channel 42, the positioning sliding block 472 is arranged in a sliding groove on the positioning mounting plate 471, the positioning cylinder 473 is mounted on the positioning mounting plate 471, a telescopic rod of the positioning cylinder 473 is fixed with the positioning sliding block 472, the positioning plate 474 is mounted on the positioning sliding block 472, an avoiding notch opposite to the extending end of the positioning plate 474 is formed in the side end of the rubber core flow channel 42, and the positioning plate 474 can penetrate through a port formed in the rubber core flow channel 42 and inserted into the rubber core.

The feeding, holding, cutting, inserting and sweeping mechanism 5 comprises a feeding device 51, an inserting terminal device 52 and a sweeping belt device 53, wherein the inserting terminal device 52 comprises a fixed support 521, a material belt guide plate 522, a material shifting slide block 523, a material shifting cylinder 524, an elastic sheet 525, a shifting claw 526 and an inserting unit 527, the material belt guide plate 522 is arranged on the fixed support 521, the upper terminal material belt of the feeding device 51 is connected into a sliding chute of the material belt guide plate 522, the material belt guide plate 522 is provided with the material shifting slide block 523, the fixed support 521 is also provided with the material shifting cylinder 524, an expansion rod of the material shifting cylinder 524 is fixed with the material shifting slide block 523, the elastic sheet 525 is fixed on the material shifting slide block 523, the lower part of the extending end of the elastic sheet 525 is provided with the shifting claw 526, the shifting claw 526 penetrates through the material shifting slide block 523, the lower end of the shifting claw 526 is a guide inclined surface, the lower end of the shifting claw 526 is matched with a material guide hole on, the telescopic rod of the material shifting cylinder 524 is contracted, the shifting claw 526 is lifted under the action of the guide inclined plane at the lower end thereof, the insertion unit 527 is arranged at the output end of the material belt guide plate 522 in a butt joint mode, and the material belt sweeping device 53 is arranged at the side end of the insertion unit 527.

The plug-in unit 527 comprises a limit guide plate 5271, a sliding plate 5272, floating limit blocks 5273, an upper sliding block 5274, a clasping and cutting cylinder 5275, a connecting column 5276, a connecting rod 5277, a hinge support 5278, an upper clasping and cutting block 5279, a fixed block 52710, a floating block 52711, a lower cutting knife 52712 and a stop component 52713, wherein the upper plane of the fixed bracket 521 is provided with two limit guide plates 5271, a sliding plate 5272 is arranged between the two limit guide plates 5271 in a sliding manner, the sliding plate 5272 is provided with two floating limit blocks 5273, the sliding plate 5272 between the floating limit blocks 5273 is provided with a sliding upper block 5274 in a sliding manner, the fixed bracket 521 is provided with a clasping and cutting cylinder 5275, an expansion rod of the clasping and cutting cylinder 5275 is fixed with the upper sliding block 5274, the upper end of the upper sliding block 5274 is provided with a guide chute 52740, the guide chute 52740 points to the lower part of the upper sliding block and, a hinge support 5278 is arranged at the front end of the sliding plate 5272, the middle part of the connecting rod 5277 is hinged to the hinge support 5278, an upper holding cutting block 5279 is hinged to the other end of the connecting rod 5277, a fixing block 52710 is mounted on the sliding plate 5272 below the upper holding cutting block 5279, the upper part of the fixing block 52710 is connected with a floating block 52711 through a spring, lower cutting knives 52712 are mounted on the sliding plates 5272 on two sides of the floating block 52711, the lower cutting knives 52712 are positioned below the terminal material belts, the terminal material belts can be inserted onto the floating block 52711, upper cutting edges corresponding to the cutting edges of the lower cutting knives 52712 are arranged at the lower ends of two sides of the upper holding cutting block 5279, and a stop component 52713 matched with the floating block; the stopping assembly 52713 includes a stopping plate 527131, a connecting rod 527132, a limiting block 527133 and a limiting screw 527134, the horizontally arranged stopping plate 527131 is mounted on the hinged support 5278 in a penetrating manner, the sliding plate 5272 is hinged with a vertical connecting rod 527132, the short arm end of the connecting rod 527132 penetrates through the sliding plate 5272 and is matched with the opening sliding groove at the tail of the stopping plate 527131, the limiting block 527133 is mounted at the lower end of the fixed bracket 521, and the limiting block 527133 is provided with the limiting screw 527134 opposite to the long arm end of the connecting rod 527132.

The sweeping belt device 53 comprises a sweeping belt support 531, a sweeping belt cylinder 532, a sweeping belt frame 533 and a material accumulating groove 534, wherein the sweeping belt support 531 is provided with the vertical sweeping belt cylinder 532, the telescopic rod of the sweeping belt cylinder 532 is provided with the sweeping belt frame 533, the material accumulating groove 534 is arranged on the sweeping belt support 531 below the sweeping belt frame 533, and the sweeping belt frame 533 is transversely provided with an open slot which is used for clamping a terminal.

The coplanarity shaping mechanism 6 comprises a shaping support 61, a shaping cylinder 62, a pushing block 63 and a shaping block 64, the shaping cylinder 62 is arranged at the upper end of the shaping support 61, the pushing block 63 is mounted on a telescopic rod of the shaping cylinder 62, the shaping block 64 is arranged at the front end of the pushing block 63, and a groove which is consistent with the shape of the side end of the terminal is formed in the shaping block 64.

The discharging mechanism 7 comprises a CCD camera 71, a discharging air rod 72, a waste collecting groove 73 and a discharging groove 74, the CCD camera 71 is arranged on the rear side of the conveying end of the linear transplanting processing flow channel mechanism 4, the discharging air rod 72 is arranged on the rack 1 below the conveying end of the linear transplanting processing flow channel mechanism 4, the waste collecting groove 73 is installed on the telescopic rod of the discharging air rod 72, and the discharging groove 74 is obliquely arranged on the upper portion of the waste collecting groove 73.

When the production equipment of the blood glucose machine connector works, a rubber core in a rubber core feeding device 2 is conveyed into a feeding channel 321 through direct vibration feeding, a telescopic rod of a dislocation cylinder 35 contracts, a rubber core mounting through groove 330 is opposite to the feeding channel 321, the rubber core is conveyed into a rubber core mounting through groove 330, when an optical fiber 36 in position detects the rubber core, a telescopic rod of the dislocation cylinder 35 extends to drive an upper sliding block 33 and a lower sliding block 33 to move downwards, the rubber core mounting through groove 330 is opposite to a discharging channel 323, at the moment, a dislocation pushing component works to push the rubber core out of the discharging channel 323 to enter a rubber core channel 42, a telescopic rod of a lifting cylinder 463 of a transplanting component 46 extends to drive a transplanting plate 464 to move downwards, the transplanting plate 464 moves downwards to clamp the rubber core, a linear feeding cylinder 45 works to drive the transplanting component 46 to move, the transplanting plate 464 moves the rubber core on the rubber core channel 42 to a next station, a positioning cylinder 473 of a positioning, the positioning plate 474 passes through the rubber core flow passage 42 and is inserted into the port of the rubber core to play a role in positioning the rubber core, the transplanting assembly 46 is reset, when a terminal material strip is conveyed to the floating block 52711 through the material strip guide plate 522, the telescopic rod of the holding and cutting cylinder 5275 extends to drive the upper sliding block 5274 to move forwards, under the action of the guide chute 52740, the upper sliding block 5274 moves forwards through the connecting rod 5277 to drive the upper holding and cutting block 5279 to move downwards to press the terminal, the floating block 52711 is in a pressing state, meanwhile, the upper knife edge of the upper holding and cutting block 5279 is matched with the lower cutting knife 52712 to cut off the terminal material strip, the telescopic rod of the holding and cutting cylinder 5275 extends to drive the upper sliding block 5274 to move forwards continuously, the upper sliding block 5274 drives the sliding block 5272 to move forwards through the floating limit block 5273 to insert the cutting terminal onto the rubber core, the upper sliding block 5274 pushes the stop plate 527131 to move above the floating block 52711, the floating block 52711 is in a pressing, until a limiting screw 527134 butts against the long arm end of a connecting rod 527132, the connecting rod 527132 rotates to drive a stop plate 527131 to reset and return, a rubber core of an assembly terminal moves to the next station, a tail material on the terminal is clamped in a transverse open slot of a sweeping belt frame 533, a telescopic rod of a sweeping belt cylinder 532 extends and contracts back and forth, the sweeping belt frame 533 is not driven to move up and down, the sweeping belt frame 533 breaks the tail material off into a material accumulation groove 534, the rubber core of the assembly terminal moves to the next station, the long terminal is continuously assembled, after the assembly is completed, an assembly product moves to a coplanarity shaping mechanism 6, a telescopic rod of a shaping cylinder 62 extends to drive a shaping block 64 to push the side surface of the terminal to ensure that the terminal is installed in place, the assembly product moves to the next station, a CCD camera 71 tests and judges the size of the product, when the product is detected to be unqualified, the telescopic rod of a discharge air rod 72, when the detection result is a check product, the telescopic rod of the material discharging air rod 72 is extended, and the qualified product falls to the designated position through the material discharging groove 74.

The production equipment for the blood glucose machine connector is compact in structure, stable in operation, capable of discharging materials independently, capable of uniformly moving and positioning, capable of working in sequence at all stations without mutual interference, neat and uniform in layout, easy to observe the operation condition of each mechanism, convenient to maintain and convenient to replace the materials at all positions.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a blood glucose machine connector production facility which characterized in that: this kind of blood glucose machine connector production facility is including setting up the gluey core feedway in the frame, elevator formula dislocation mechanism, processing runner mechanism is transplanted to the straight line, send to embrace to cut to insert and sweep the material mechanism, coplane degree plastic mechanism, arrange the material mechanism, man-machine operation and operating button, elevator formula dislocation mechanism goes up gluey core and carries sharp processing runner mechanism of transplanting through elevator formula dislocation mechanism, two sets of sending to embrace to cut to insert and sweep the material mechanism and carry out cartridge long terminal and short terminal to gluey core respectively, coplane degree plastic mechanism's plastic after the product assembly is accomplished, arrange the material mechanism and discharge through arranging.

2. The blood glucose machine connector production device of claim 1, wherein: the elevator type dislocation mechanism comprises a bottom plate, a dislocation guide block, an upper slide block, a lower slide block, a connecting plate, a dislocation cylinder, in-place optical fibers and a dislocation pushing component, wherein the bottom plate is fixed at the side end of the linear transplanting processing flow channel mechanism, the dislocation guide block is installed on the bottom plate, one end of the dislocation guide block is transversely provided with a feeding channel, the feeding channel is opposite to the direct vibration feeding of the rubber core feeding device, the dislocation guide block is provided with a vertical dislocation channel communicated with the feeding channel, the upper slide block and the lower slide block are installed in the dislocation channel, the connecting plate is installed at the upper end of the dislocation guide block, the dislocation cylinder is installed at the side end of the connecting plate, a telescopic rod of the dislocation cylinder is fixed with the upper slide block and the lower slide block, the transverse rubber core installing through groove is installed at the lower end of the upper slide block and the lower slide block, the bottom of the other, the optical fiber that targets in place is installed to dislocation guide block both sides, is provided with the hole of dodging relative with the optical fiber that targets in place on the logical groove of rubber core installation, still installs the dislocation on the bottom plate and pushes away the material subassembly, the dislocation pushes away the material subassembly and includes guide block, feeding cylinder, connecting block and push pedal, is provided with the direction on the bottom plate and leads to the groove, is equipped with the guide block in the direction leads to the groove, still installs feeding cylinder on the bottom plate, and feeding cylinder's telescopic link passes through the connecting block to be fixed with the guide block, installs the push pedal on the guide block, is provided with on the dislocation guide block to dod.

3. The blood glucose machine connector production device of claim 1, wherein: the linear transplanting and processing runner mechanism comprises a support, a rubber core runner, a linear slide rail, a transplanting frame, a linear feeding cylinder, a transplanting assembly and a positioning assembly, wherein the support is provided with the rubber core runner which is used for conveying rubber cores, the rubber core runner is in butt joint with a discharging channel, the upper end of the support is provided with the linear slide rail, the sliding block of the linear slide rail is provided with the transplanting frame, the support is also provided with the linear feeding cylinder, the piston rod of the linear feeding cylinder is fixed with the transplanting frame, the transplanting frame is provided with the transplanting assembly, the bottom of the rubber core runner is equidistantly provided with the positioning assembly, the transplanting assembly comprises a guide plate, a lifting frame, a lifting cylinder and a transplanting plate, the transplanting frame is provided with a vertical guide plate, the guide plate is sleeved with the lifting frame, the upper end of the transplanting frame is provided with two lifting cylinders, a telescopic rod of the lifting cylinder, the lower end of the transplanting plate is provided with a groove with the same shape as the rubber core; the locating component comprises a locating mounting plate, a locating slider, a locating cylinder and a locating plate, the locating mounting plate is fixed at the lower end of the rubber core runner, the locating slider is arranged in a chute on the locating mounting plate, the locating cylinder is mounted on the locating mounting plate, a telescopic rod of the locating cylinder is fixed with the locating slider, the locating plate is mounted on the locating slider, a avoiding notch opposite to the extending end of the locating plate is formed in the side end of the rubber core runner, and the locating plate can penetrate through the port of the rubber core runner and inserted into the rubber core.

4. The blood glucose machine connector production device of claim 1, wherein: the feeding, holding, cutting, inserting and sweeping mechanism comprises a feeding device, an inserting terminal device and a sweeping belt device, wherein the inserting terminal device comprises a fixed support, a material belt guide plate, a material shifting slide block, a material shifting cylinder, an elastic sheet, a shifting claw and an inserting unit, the material belt guide plate is arranged on the fixed support, a material belt at the upper end of the feeding device is connected into a chute of the material belt guide plate, the material belt guide plate is provided with the material shifting slide block, the fixed support is further provided with the material shifting cylinder, a telescopic rod of the material shifting cylinder is fixed with the material shifting slide block, the elastic sheet is fixed on the material shifting slide block, the shifting claw is arranged at the lower end of the extending end of the elastic sheet and penetrates through the material shifting slide block, the lower end of the shifting claw is a guide inclined plane, the lower end of the shifting claw is matched with a material guide hole in the terminal material.

5. The blood glucose machine connector production device of claim 4, wherein: the inserting unit comprises limiting guide plates, a sliding plate, floating limiting blocks, an upper sliding block, a holding cutting cylinder, a connecting column, a connecting rod, a hinged support, an upper holding cutting block, a fixed block, a floating block, a lower cutting knife and a stop component, wherein the upper plane of the fixed support is provided with the two limiting guide plates, the slidable sliding plate is arranged between the two limiting guide plates, the sliding plate is provided with the two floating limiting blocks, the slidable upper sliding block is arranged on the sliding plate between the floating limiting blocks, the holding cutting cylinder is arranged on the fixed support, a telescopic rod of the holding cutting cylinder is fixed with the upper sliding block, the upper end of the upper sliding block is provided with a guide chute, the guide chute points to the lower right part from left to right and gradually advances in parallel, the connecting column is inserted in the guide chute, the connecting rod is movably inserted on the connecting column, the hinged support is arranged, a fixed block is arranged on the sliding plate below the upper holding cutting block, the upper part of the fixed block is connected with a floating block through a spring, lower cutting knives are arranged on the sliding plates on two sides of the floating block, the lower cutting knives are positioned below the terminal material belt, upper knife edges corresponding to the knife edges of the lower cutting knives are arranged at the lower ends of two sides of the upper holding cutting block, and a stop component matched with the floating block is also arranged on the sliding plate; the stop assembly comprises a stop plate, a connecting rod stop block and a limit screw, the stop plate horizontally arranged is arranged on the hinged support in a penetrating mode, the sliding plate is hinged to a vertical connecting rod, the short arm end of the connecting rod penetrates through the sliding plate and is matched with an opening sliding groove in the tail portion of the stop plate, the limit block is installed at the lower end of the fixed support, and the limit screw opposite to the long arm end of the connecting rod is installed on the limit block.

6. The blood glucose machine connector production device of claim 4, wherein: the sweeping belt device comprises a sweeping belt support, a sweeping belt cylinder, a sweeping belt frame and a material accumulating groove, wherein the sweeping belt support is provided with a vertical sweeping belt cylinder, the telescopic rod of the sweeping belt cylinder is provided with the sweeping belt frame, the material accumulating groove is arranged on the sweeping belt support below the sweeping belt frame, and the sweeping belt frame is transversely provided with an open slot.

7. The blood glucose machine connector production device of claim 1, wherein: the coplanarity shaping mechanism comprises a shaping support, a shaping cylinder, a push block and a shaping block, the shaping cylinder is arranged at the upper end of the shaping support, the push block is mounted on a telescopic rod of the shaping cylinder, the shaping block is arranged at the front end of the push block, and a groove which is consistent with the shape of the side end of the terminal is formed in the shaping block.

8. The blood glucose machine connector production device of claim 1, wherein: arrange material mechanism and include the CCD camera, arrange material gas pole, garbage collection groove and blown down tank, the straight line is transplanted processing runner mechanism and is carried the end rear side and be provided with the CCD camera, is provided with in the frame of straight line transplantation processing runner mechanism transport end below and arranges the material gas pole, arranges and installs the garbage collection groove on the telescopic link of material gas pole, and garbage collection groove upper portion is provided with the obliquely blown down tank.