CN113690704B

CN113690704B - Filter wiring positioning device for RFID

Info

Publication number: CN113690704B
Application number: CN202110973381.1A
Authority: CN
Inventors: 陈泽
Original assignee: Hangzhou Ccrfid Microelectronics Co ltd
Current assignee: Hangzhou Ccrfid Microelectronics Co ltd
Priority date: 2021-08-24
Filing date: 2021-08-24
Publication date: 2022-05-10
Anticipated expiration: 2041-08-24
Also published as: CN113690704A

Abstract

The invention relates to the field of RFID, in particular to a filter wiring positioning device for RFID. The technical problem of the invention is that: in the automatic wiring process of the RFID filter. A filter wiring positioning device for RFID comprises an installation rack, an installation machine bottom plate, an adhesive tape feeder, a first installation vertical column, a positive transfer system, a threading connection system, an encapsulation system, a first installation frame and a limiting roller; the lower part of the mounting frame is fixedly connected with a mounting machine bottom plate. The invention realizes the automatic righting and transferring of the filter, automatically inserts one end of a wire into the perforated joint of the filter, screws the copper wire part, and directly plugs the copper wire with longer length into the joint sleeve of the filter after being screwed, thereby ensuring that the copper wire can be completely positioned in the joint sleeve of the filter and is in an absolute closed state, and ensuring the use safety effect of the filter.

Description

Filter wiring positioning device for RFID

Technical Field

The invention relates to the field of RFID, in particular to a filter wiring positioning device for RFID.

Background

At present, in the process of conducting wire connection of an RFID filter in the prior art, the joints of part of the RFID filter are perforated joints, which can ensure that the connection is firmer, but the perforated connection often needs to manually penetrate a copper wire at the end of the conducting wire into the perforated joints, then manually pull back and wind the end of the copper wire on the copper wire, so that the wound copper wire forms a ring to fix the joints, and ensure stable connection with the joints, in order to ensure that enough copper wire is twisted to improve stability, the length of the pre-exposed copper wire is longer, and a section of open and exposed position basically appears after winding, when manual treatment is performed, an insulating tape is generally wound on the surface of the exposed copper wire to prevent leakage, but the operation is complicated, the operation precision is insufficient, the redundant copper wire is difficult to be completely sealed, the copper wire is easy to be damaged, and the filter is prone to voltage instability in the subsequent use process, leakage of electricity, etc.

In order to solve the problems, a filter wiring positioning device for RFID is provided.

Disclosure of Invention

In order to overcome the problem that in the prior art, in the process of conducting wire connection of an RFID filter, the joints of part of the RFID filter are perforated joints, which can ensure that the connection is firmer, but the perforated connection usually needs to manually penetrate copper wires at the end of a conducting wire into the perforated joints, then manually pull back and wind the ends of the copper wires on the copper wires, so that the wound copper wires form a ring to fix the joints, and ensure stable connection with the joints, in order to ensure that enough copper wires are twisted to improve stability, the length of the pre-exposed copper wires is longer, and a section of open and exposed position basically appears after winding, when in manual treatment, an insulating tape is generally wound on the surface of the exposed copper wires to prevent the electric leakage phenomenon, but the operation is complicated, the operation precision is insufficient, the redundant copper wires are difficult to be completely sealed, and the copper wires are easy to be damaged, the filter has the following technical problems that the filter is easy to have the defects of unstable voltage, electric leakage and the like in the subsequent use process: provided is a filter wiring positioning device for RFID.

A filter wiring positioning device for RFID comprises an installation rack, an installation machine bottom plate, an adhesive tape feeder, a first installation vertical column, a positive transfer system, a threading connection system, an encapsulation system, a collection box, a first installation frame and a limiting roller; the lower part of the mounting frame is fixedly connected with a mounting machine bottom plate; the right side of the top of the bottom plate of the mounting machine is provided with an adhesive tape feeder; a first mounting vertical column is fixedly connected to the right rear side of the top of the rubber strip feeder; a first mounting frame is fixedly inserted at the upper part of the first mounting vertical column; the first mounting frame is rotatably connected with a limiting roller; the right transfer system is arranged on the left side of the top of the bottom plate of the mounting machine; the upper side of the righting transfer system is connected with the mounting rack; the top of the mounting frame is provided with a threading connection system; a packaging system is arranged at the top of the left rear side of the adhesive tape feeder; the middle part of the bottom plate top of the mounting machine is provided with a collecting box; the top of the collecting box is connected with the normal position transferring system.

Furthermore, it is particularly preferred that the righting transfer system comprises a mounting strip, a scanning sensor, a conveying table, a supporting base table, a motorized rotary carrier plate and a clamping assembly; the top of the left side of the collecting box is fixedly connected with a supporting bottom table; the top of the collecting box is fixedly connected with a conveying table; the middle part of the bottom of the conveying table is fixedly connected with a supporting bottom table; the middle part of the top of the supporting bottom table is provided with an electric rotating bearing disc; a group of clamping components are respectively arranged on the front side and the rear side of the left part of the mounting rack; an installation batten is fixedly connected between the two groups of clamping components; and the middle part of the bottom of the mounting strip is provided with a scanning sensor.

In addition, it is particularly preferred that the clamping assembly comprises a connecting column, a second mounting frame, a first electric sliding assembly, a first electric sliding seat, a mounting bottom column, a first telescopic assembly, a clamping fork, a connecting elastic piece and an adjusting arc-shaped piece; the front side of the left part and the rear side of the left part of the mounting rack are respectively provided with a connecting column; the two connecting columns are fixedly connected with a second mounting frame respectively; a group of first electric sliding assemblies are respectively arranged on the inner sides of the two second mounting frames; the outer surfaces of the two groups of first electric sliding assemblies are respectively connected with a first electric sliding seat in a sliding manner; the mounting strip plate is mounted between the two first electric sliding seats; the bottoms of the two first electric sliding seats are fixedly connected with an installation bottom column respectively; the bottoms of the two mounting bottom columns are respectively provided with a group of first telescopic assemblies; the two groups of first telescopic assemblies are symmetrically arranged, and the bottoms of the two groups of first telescopic assemblies are respectively provided with a clamping fork; the two clamping forks are also symmetrically arranged; the inner sides of the two clamping forks are respectively fixedly connected with a connecting elastic piece; the two connecting elastic pieces are respectively fixedly connected with an adjusting arc-shaped piece; the two adjusting arc-shaped pieces are symmetrically arranged.

In addition, particularly preferably, the threading connection system comprises a top frame plate, a power motor, a rotating shaft rod, a connecting ribbon plate, a connecting sliding column, an arc-shaped sliding rail, a threading assembly, a tightening assembly and a thread screwing assembly; the top of the mounting frame is fixedly connected with a top frame plate; the top frame plate is fixedly connected with a power motor; the top frame plate is rotationally connected with a rotating shaft rod; the output shaft of the power motor is fixedly connected with a rotating shaft rod; the bottom of the rotating shaft rod is fixedly connected with a connecting batten; an arc-shaped sliding rail is fixedly connected to the right side of the top frame plate; the inner side of the arc-shaped slide rail is connected with a connecting slide column in a sliding way; the bottom of the connecting sliding column is fixedly connected with a connecting batten; the bottom of the connecting ribbon board is connected with a threading component; the front part of the right side of the threading assembly is provided with a tightening assembly; the front end of the threading component is provided with a twisting component.

In addition, particularly preferably, the threading assembly comprises a second electric sliding assembly, a second electric sliding seat, a connecting sleeve column, an inner sleeve sliding column, a return spring, a connecting side frame plate, a wire outlet machine and a mounting sleeve ring; the bottom of the connecting batten is fixedly connected with a second electric sliding assembly; the front side and the rear side of the bottom of the second electric sliding component are respectively connected with a second electric sliding seat in a sliding manner; the bottoms of the two second electric sliding seats are fixedly connected with a connecting sleeve column respectively; the inner sides of the two connecting sleeve columns are respectively connected with an inner sleeve sliding column in a sliding manner; the left sides of the two connecting sleeve columns are respectively connected with a return spring; the inner sides of the two return springs are respectively sleeved with an inner sleeve sliding column; the left side and the right side of the inner sleeve sliding column are respectively fixedly connected with a connecting side frame plate, and the left side and the right side of the other inner sleeve sliding column are respectively connected with a connecting side frame plate in a sliding manner; the left sides of the two return springs are connected with the side frame plates; an outlet machine is fixedly connected at the bottom between the two connecting side frame plates; the front side of the outer surface of the wire outlet machine is fixedly sleeved with an installation lantern ring; a tightening assembly is arranged on the right side of the mounting lantern ring; the front end of the wire outlet machine is provided with a twisting component.

In addition, it is particularly preferred that the tightening assembly comprises an engagement frame, a second telescopic assembly and a tightening clamp; the right side of the mounting lantern ring is fixedly connected with a connecting frame; the front part of the connecting frame is provided with a second telescopic component; the left telescopic end of the second telescopic component is fixedly connected with a tightening clamp.

In addition, the wire twisting assembly particularly preferably comprises an electric rotating assembly, a sliding seat and an electric clamp; the front end of the wire outlet machine is provided with an electric rotating assembly; a sliding seat is arranged on the right side of the rotating end of the electric rotating assembly; the front part of the sliding seat is provided with an electric clamp.

In addition, the packaging system particularly preferably comprises a third telescopic assembly, a pushing plate, a rubber strip feeding plate, a second mounting vertical column, a guide ring and a gluing assembly; a third telescopic assembly is arranged on the left rear side of the top end of the adhesive tape feeder; the telescopic end at the rear side of the third telescopic assembly is fixedly connected with a pushing plate; an adhesive tape feeding plate is arranged at the upper left rear part of the inner side of the adhesive tape feeder; a second mounting vertical column is fixedly connected to the left part of the rear side of the top of the rubber strip feeder; the top of the second mounting vertical column is fixedly connected with a guide ring; the gluing component is installed on the upper left portion of the rear side of the adhesive tape feeder.

In addition, it is particularly preferred that the gluing assembly comprises a connecting underframe, an electric opening and closing assembly, a hot melt strip plate and a shaping strip plate; a connecting underframe is fixedly connected to the left upper part of the rear side of the adhesive tape feeder; an electric opening and closing assembly is arranged on the rear side of the top of the connecting underframe; the rotating end in the middle of the electric opening and closing component is fixedly connected with a shaping batten; the rotating ends of the front side and the rear side of the electric opening and closing component are fixedly connected with hot melting laths.

Furthermore, it is particularly preferred that the guide ring is provided with a recess in the middle of its inner side.

Compared with the prior art, the invention has the following advantages: in order to solve the problem that in the process of conducting wire connection of an RFID filter in the prior art, the joints of part of the RFID filter are perforated joints, which can ensure that the connection is firmer, but the perforated connection usually needs to manually penetrate copper wires at the end parts of the conducting wires into the perforated joints, then manually pull back and wind the end heads of the copper wires on the copper wires, so that the wound copper wires form a ring to fix the joints, and ensure stable connection with the joints, in order to ensure that enough copper wires are twisted to improve stability, the length of the pre-exposed copper wires is longer, a section of open and exposed position basically appears after winding, when in manual treatment, an insulating tape is generally wound on the surface of the exposed copper wires to prevent the leakage phenomenon, but the operation is complicated, the operation precision is insufficient, the redundant copper wires are difficult to be completely sealed, the copper wires are easy to be damaged, and the voltage of the filter is easy to be unstable in the subsequent use process, problems with electrical leakage and the like;

a positive transfer system is designed, so that automatic positive and transfer of the filter are realized;

a threading connection system is designed; one end of a wire is automatically inserted into the perforated joint of the filter, the copper wire part is screwed, and the copper wire with longer length after being screwed can be directly plugged into the joint sleeve of the filter;

designing a packaging system; the automatic packaging is realized, the copper wire can be completely positioned in the joint sleeve of the filter and is in an absolute closed state, and the effect of safe use of the filter is ensured.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic perspective view of the righting transfer system of the present invention;

FIG. 4 is a schematic view of a first partial perspective of the righting transfer system of the present invention;

FIG. 5 is a schematic diagram of a second partial perspective view of the righting transfer system of the present invention;

fig. 6 is a schematic view of a first perspective view of the threading connection system of the present invention;

fig. 7 is a schematic view of a second perspective view of the threading connection system of the present invention;

fig. 8 is a third perspective view of the threading connection system of the present invention;

fig. 9 is a partial perspective view of the threadable connection system of the present invention;

fig. 10 is a schematic perspective view of the packaging system of the present invention.

In the figure: 1. a mounting frame, 2, a mounting machine bottom plate, 3, a rubber strip feeder, 4, a first mounting vertical column, 5, a righting transfer system, 6, a threading connection system, 7, a packaging system, 8, a collecting box, 9, a first mounting frame, 10, a limiting roller, 501, a connecting column, 502, a second mounting frame, 503, a first electric sliding component, 504, a first electric sliding seat, 505, a mounting strip plate, 506, a scanning sensor, 507, a conveying platform, 508, a supporting bottom platform, 509, an electric rotating bearing disc, 5010, a mounting bottom column, 5011, a first telescopic component, 5012, a clamping fork, 5013, a connecting elastic component, 5014, an adjusting arc-shaped sheet, 601, a top frame plate, 602, a power motor, 603, a rotating shaft rod, 604, a connecting strip plate, 605, a connecting sliding column, 606, an arc-shaped sliding rail, 607, a second electric sliding component, 608, a second electric sliding seat, 609, a connecting sleeve column, 6010 and an inner sleeve sliding column, 6011. reset spring, 6012, connection side frame board, 6013, outlet machine, 6014, the installation lantern ring, 6015, link up the frame, 6016, the flexible subassembly of second, 6017, the tightening clamp, 6018, electronic rotating assembly, 6019, the sliding seat, 6020, electronic clamp, 701, the flexible subassembly of third, 702, pushing plate, 703, adhesive tape feed plate, 704, the second installation upstand, 705, the guide ring, 706, connect the chassis, 707, electronic subassembly that opens and shuts, 708, hot melt lath, 709, the design lath.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Examples

As shown in fig. 1-2, a filter wiring positioning device for RFID comprises an installation rack 1, an installation machine bottom plate 2, a rubber strip feeding machine 3, a first installation vertical column 4, a normal transfer system 5, a threading connection system 6, a packaging system 7, a collection box 8, a first installation frame 9 and a limiting roller 10; the lower part of the mounting frame 1 is fixedly connected with a mounting machine bottom plate 2; the right side of the top of the mounting machine bottom plate 2 is provided with an adhesive tape feeder 3; a first mounting vertical column 4 is welded on the right rear side of the top of the adhesive tape feeder 3; a first mounting frame 9 is fixedly inserted at the upper part of the first mounting vertical column 4; the first mounting frame 9 is rotatably connected with a limiting roller 10; the right transfer system 5 is arranged on the left side of the top of the mounting machine bottom plate 2; the upper side of the righting transfer system 5 is connected with the installation rack 1; the top of the installation rack 1 is provided with a threading connection system 6; a packaging system 7 is arranged at the top of the left rear side of the adhesive tape feeder 3; the middle of the top of the mounting machine bottom plate 2 is provided with a collecting box 8; the top of the collection box 8 is connected to the positive transfer system 5.

When the filter wiring positioning device for RFID is used, firstly, the power supply is connected externally, then the filter is placed in the righting transfer system 5, then the filter is righted by the righting transfer system 5, then the filter is driven by the righting transfer system 5 to move into the threading connection system 6, then the threading connection system 6 penetrates the end of the wire into one end of the filter for fixing, and finally the wire and the connector of the filter are packaged through the packaging system 7, so that the automatic righting and transferring of the filter are realized, one end of the wire is automatically inserted into the perforated connector of the filter, the copper wire part is screwed, and for the copper wire with longer length after being screwed, can directly pack it into the joint sleeve to the wave filter to encapsulate automatically, guaranteed that the copper line can be in the absolutely confined state in the joint sleeve of wave filter completely, guaranteed the effect of the safe in utilization of wave filter.

As shown in fig. 3-5, the righting transfer system 5 includes mounting bars 505, scanning sensors 506, a transfer table 507, a support base table 508, a motorized rotary carrier tray 509, and a gripper assembly; a supporting base table 508 is fixedly connected to the top of the left side of the collecting box 8; the top of the collecting box 8 is fixedly connected with a conveying table 507; the middle part of the bottom of the conveying table 507 is fixedly connected with a supporting bottom table 508; an electric rotating bearing plate 509 is arranged in the middle of the top of the supporting base table 508; a group of clamping components are respectively arranged on the front side and the rear side of the left part of the mounting rack 1; an installation strip plate 505 is fixedly connected between the two groups of clamping components; the middle of the bottom of the mounting strip 505 is provided with a scanning sensor 506.

First place the conveying platform 507 with the wave filter, then the wave filter slides to electronic rotation from conveying platform 507 inclined plane and bears the weight of the dish 509 top, control scanning sensor 506 to scan the shape of wave filter this moment and detect, judge whether the position of wave filter is ajusted, if the position of wave filter is ajusted, then control electronic rotation and bear the weight of the dish 509 and drive the wave filter at its top and rotate, make the position of wave filter ajust, then control two centre gripping subassemblies and carry out the centre gripping with the wave filter, and then steerable two centre gripping subassemblies drive the wave filter to the direction motion that is close to threading connection system 6.

The clamping component comprises a connecting column 501, a second mounting frame 502, a first electric sliding component 503, a first electric sliding seat 504, a mounting bottom column 5010, a first telescopic component 5011, a clamping fork 5012, a connecting elastic component 5013 and an adjusting arc-shaped sheet 5014; the front side of the left part and the rear side of the left part of the mounting frame 1 are respectively provided with a connecting column 501; each bolt of the two connecting columns 501 is connected with a second mounting frame 502; a group of first electric sliding assemblies 503 are respectively arranged on the inner sides of the two second mounting frames 502; the outer surfaces of the two groups of first electric sliding assemblies 503 are respectively connected with a first electric sliding seat 504 in a sliding way; the mounting strip 505 is mounted between the two first electric sliders 504; the bottoms of the two first electric sliding seats 504 are respectively connected with a mounting bottom column 5010 through bolts; the bottoms of the two mounting bottom posts 5010 are respectively provided with a group of first telescopic assemblies 5011; the two groups of first telescopic assemblies 5011 are symmetrically arranged, and the bottoms of the two groups of first telescopic assemblies 5011 are respectively provided with a clamping fork 5012; the two clamping forks 5012 are also symmetrically mounted; the inner sides of the two clamping forks 5012 are fixedly connected with a connecting elastic piece 5013 respectively; the two connecting elastic pieces 5013 are fixedly connected with an adjusting arc-shaped piece 5014 respectively; the two adjustment arc-shaped pieces 5014 are symmetrically arranged.

When the electric rotation bearing disc 509 is controlled to drive the filter on the top of the electric rotation bearing disc 509 to rotate so as to ensure that the position of the filter is adjusted, the two first telescopic assemblies 5011 are controlled to extend, namely the two first telescopic assemblies 5011 respectively drive the two clamping forks 5012 to move towards the middle, and then the two clamping forks 5012 respectively move to the two sides of the filter to clamp the filter, and meanwhile, when the filter contacts the adjusting arc-shaped piece 5014 on the inner side of the clamping fork 5012, if the filter is slightly inclined, the connecting elastic piece 5013 drives the adjusting arc-shaped piece 5014 to correct the small angle of the filter, so that the two planes of the filter can be completely inserted into the two clamping forks 5012, the two clamping forks 5012 fix the filter, the first electric sliding assembly 503 is controlled to drive the first electric sliding seat 504 to move, and then the first electric sliding seat 504 drives the mounting bottom column 5010 and the first telescopic assembly 5011, The clamping fork 5012, the connecting elastic piece 5013 and the adjusting arc-shaped piece 5014 move synchronously, namely, the two groups of clamping components move synchronously at the moment, so that the filter is transferred to the front side of the threading connection system 6, and the filter is righted and transferred.

As shown in fig. 6-9, the threading connection system 6 comprises a top frame plate 601, a power motor 602, a rotating shaft rod 603, a connecting lath 604, a connecting sliding column 605, an arc-shaped sliding rail 606, a threading assembly, a tightening assembly and a thread screwing assembly; the top of the mounting frame 1 is connected with a top frame plate 601 through bolts; the top frame plate 601 is connected with a power motor 602 through bolts; the top frame plate 601 is rotatably connected with a rotating shaft rod 603; an output shaft of the power motor 602 is fixedly connected with a rotating shaft rod 603; the bottom of the rotating shaft rod 603 is fixedly connected with a connecting batten 604; an arc-shaped sliding rail 606 is welded on the right side of the top frame plate 601; the inner side of the arc-shaped slide rail 606 is connected with a connecting slide column 605 in a sliding way; the bottom of the connecting sliding column 605 is fixedly connected with a connecting ribbon board 604; the bottom of the connecting ribbon board 604 is connected with a threading component; the front part of the right side of the threading assembly is provided with a tightening assembly; the front end of the threading component is provided with a twisting component.

Firstly, two sets of clamping components drive the filter to move to the position of the front side of the threading connection system 6, namely, the perforation joint of the filter is positioned on the front side of the threading component at the moment, then the threading component is controlled to insert the exposed end of a copper wire of a wire into the perforation joint of the filter, then the tightening component is controlled to tighten the side where the wire penetrates out, the threading component is controlled to clamp the wire, then the power motor 602 is controlled to be switched on, namely, the power motor 602 drives the rotating shaft rod 603 to rotate, then the rotating shaft rod 603 drives the connecting strip 604, the connecting sliding column 605, the arc-shaped sliding rail 606, the threading component, the tightening component and the threading component rotate ninety degrees, after the ninety degrees of rotation, the tightening component is controlled to loosen, then the threading component is controlled to tighten the side where the wire penetrates out and the penetrating side, and then the packaging system 7 is controlled to package the wire.

The threading assembly comprises a second electric sliding assembly 607, a second electric sliding seat 608, a connecting sleeve column 609, an inner sleeve sliding column 6010, a return spring 6011, a connecting side frame plate 6012, a wire outlet machine 6013 and a mounting sleeve ring 6014; the bottom of the connecting slat 604 is bolted with a second electric sliding component 607; a second electric sliding seat 608 is connected to the front side and the rear side of the bottom of the second electric sliding component 607 in a sliding manner; the bottoms of the two second electric sliding seats 608 are respectively connected with a connecting sleeve column 609 through bolts; the inner sides of the two connecting sleeve columns 609 are respectively connected with an inner sleeve sliding column 6010 in a sliding manner; the left sides of the two connecting sleeve columns 609 are respectively connected with a return spring 6011; the inner sides of the two return springs 6011 are respectively sleeved with an inner sleeve sliding column 6010; a connecting side frame plate 6012 is fixedly connected to the left side and the right side of the inner sleeve sliding column 6010 respectively, and the connecting side frame plate 6012 is connected to the left side and the right side of the other inner sleeve sliding column 6010 respectively in a sliding manner; the left sides of the two return springs 6011 are both connected with a side frame plate 6012; a wire outlet machine 6013 is fixedly connected to the bottom between the two connecting side frame plates 6012; an installation lantern ring 6014 is fixedly sleeved on the front side of the outer surface of the wire outgoing machine 6013; a tightening assembly is arranged on the right side of the mounting collar 6014; the front end of the wire outlet machine 6013 is provided with a wire twisting assembly.

The two groups of clamping assemblies drive the filter to move to the position on the front side of the threading connection system 6, namely, the perforated joint of the filter is positioned on the front side of the wire outgoing machine 6013, then the wire outgoing machine 6013 sends out a section of the lead in the wire outgoing machine forward to expose the exposed copper wire part on the front side of the lead, the second electric sliding assembly 607 is controlled to drive the second electric sliding seat 608 to move towards the direction close to the filter, then the second electric sliding seat 608 drives the connecting sleeve column 609, the inner sleeve sliding column 6010, the reset spring 6011, the connecting side frame plate 6012, the wire outgoing machine 6013 and the mounting sleeve 6014 to move synchronously, then the exposed copper wire part on the front side of the wire outgoing machine 6013 is inserted into the hole of the perforated joint of the filter, then the copper wire part is guided by the packaging system 7, the copper wire part penetrating through the copper wire starts to move reversely and penetrates out, then the wire twisting assembly is controlled to clamp the penetrating end part of the copper wire of the lead, and controlling the tightening assembly to tighten the copper wire penetrating out of the copper wire, controlling to switch on a power supply of the power motor 602 after tightening, namely the power motor 602 drives the rotating shaft rod 603 to rotate, then the rotating shaft rod 603 drives the connecting ribbon board 604, the connecting sliding column 605, the arc-shaped sliding rail 606, the threading assembly, the tightening assembly and the wire twisting assembly to rotate for ninety degrees, after rotating for ninety degrees, the connecting side frame plate 6012 on the right side contacts the limiting roller 10, then the limiting roller 10 extrudes the connecting side frame plate 6012 on the right side inwards, then the connecting side frame plate 6012 drives the inner sleeve sliding column 6010 to slide on the surface of the connecting sleeve column 609, the left side of the inner sleeve sliding column 6010 drives the reset spring 6011 to stretch through the connecting side frame plate 6012, and further realize that the second electric sliding assembly 607, the second electric sliding seat 608, the connecting sleeve column 609, the inner sleeve column 6010, the reset spring 6011, the connecting side frame plate 6012, the outlet machine 6013 and the mounting sleeve ring 6014, The tightening assembly and the wire twisting assembly perform synchronous short-distance translation, so that a lead discharged by the wire outlet machine 6013 can be aligned with the filter joint sleeve, then the tightening assembly is controlled to be loosened, and then the wire twisting assembly is controlled to screw the side, through which the lead penetrates, of the lead and the side, through which the lead penetrates.

The tightening assembly comprises a connecting frame 6015, a second telescopic assembly 6016 and a tightening clamp 6017; a connecting frame 6015 is fixedly connected to the right side of the mounting lantern ring 6014; a second telescopic assembly 6016 is arranged at the front part of the joining frame 6015; a tightening clip 6017 is fixedly connected to the telescopic end on the left side of the second telescopic assembly 6016.

The part of the naked wire copper line of outlet machine 6013 front side inserts to the downthehole of the perforation joint of wave filter, then copper line part is under packaging system 7's direction, and the copper line part that penetrates begins the reverse motion and wears out, then the control is twisted the tip that the line subassembly worn out the copper line of wire and is pressed from both sides tightly, and control second telescoping component 6016 is released left, then second telescoping component 6016 drives the part that tightens up the clamp 6017 left motion and wear out the wire copper line to the part that penetrates and close up, and then will wear out partial copper line and tighten up.

The wire twisting assembly comprises an electric rotating assembly 6018, a sliding seat 6019 and an electric clamp 6020; an electric rotating assembly 6018 is installed at the front end of the wire outgoing machine 6013; a sliding seat 6019 is installed on the right side of the rotating end of the electric rotating assembly 6018; an electric clamp 6020 is arranged at the front part of the sliding seat 6019.

Part of a lead copper wire exposed at the front side of the wire outgoing machine 6013 is inserted into a hole of a perforated joint of a filter, then the copper wire part is guided by a packaging system 7, the penetrated copper wire part starts to move reversely to penetrate out, then an electric clamp 6020 is controlled to open, then the electric clamp 6020 clamps the end of the penetrated part of the copper wire, a tightening assembly is controlled to tighten the penetrated part of the copper wire, a power source of a power motor 602 is controlled to be switched on, namely the power motor 602 drives a rotating shaft rod 603 to rotate, then the rotating shaft rod 603 drives a connecting strip plate 604, a connecting sliding column 605, an arc-shaped sliding rail 606, a threading assembly, a tightening assembly and a twisting assembly to rotate for ninety degrees, after the rotation for ninety degrees, a second expansion assembly 6016 is controlled to contract to drive a tightening clamp 6017 to move rightwards, then the tightening clamp 6017 loosens the penetrated part of the copper wire, and then the electric rotating assembly 6018 is controlled to drive a sliding seat 6019 and the electric clamp 6020 to rotate, then the electric clamp 6020 drives the end of the copper wire penetrating out of the middle part to rotate around the penetrating part of the copper wire, and then the copper wires penetrating into and out of the two parts are wound together to complete the winding of the copper wire, the rotating shaft rod 603 drives the connecting strip plate 604, the connecting sliding column 605, the arc-shaped sliding rail 606, the threading assembly, the tightening assembly and the wire twisting assembly to rotate for ninety degrees, after the copper wires are rotated for ninety degrees, the connecting side frame plate 6012 on the right side contacts the limiting roller 10, and then the limiting roller 10 extrudes the connecting side frame plate 6012 on the right side to the inner side, and then the connecting side frame plate 6012 drives the inner sleeve sliding column 6010 to slide on the surface of the connecting sleeve column 609, the left side of the inner sleeve sliding column 6010 drives the reset spring 6011 to stretch through the connecting side frame plate 6012, and then the second electric sliding assembly 607, the second electric sliding seat 608, the connecting sleeve column 609, the inner sleeve sliding column 6010, the reset spring 6011, and the connecting side frame plate 6012, The wire outgoing machine 6013, the mounting collar 6014, the tightening assembly and the wire twisting assembly perform synchronous short-distance translation, so that a lead discharged by the wire outgoing machine 6013 can be aligned with the filter joint sleeve, and at the moment, the wire outgoing machine 6013 is controlled to continuously discharge the lead, so that a copper wire part of the lead can be inserted into the sleeve of the filter and hidden.

As shown in fig. 10, the packaging system 7 includes a third telescopic assembly 701, a pushing plate 702, a glue strip feeding plate 703, a second mounting upright post 704, a guide ring 705 and a gluing assembly; a third telescopic component 701 is arranged on the left rear side of the top end of the rubber strip feeder 3; a push plate 702 is fixedly connected to the telescopic end at the rear side of the third telescopic component 701; an adhesive tape feeding plate 703 is arranged on the left rear upper part of the inner side of the adhesive tape feeder 3; a second mounting vertical column 704 is fixedly connected to the left part of the rear side of the top of the rubber strip feeder 3; a guide ring 705 is welded at the top of the second mounting vertical column 704; the gluing component is installed on the upper left portion of the rear side of the rubber strip feeder 3.

Firstly, when the second electric sliding seat 608 drives the connecting sleeve column 609, the inner sleeve sliding column 6010, the return spring 6011, the connecting side frame plate 6012, the wire outgoing machine 6013 and the mounting sleeve ring 6014 to move synchronously, then the part of the lead copper wire exposed at the front side of the wire outgoing machine 6013 is inserted into a hole of a perforated joint of the filter, then the end of the copper wire contacts the inner side of the guide ring 705, due to the arc-shaped surface of the inner side of the guide ring 705, the end of the copper wire starts to move reversely along the arc-shaped surface, then the subsequent operation is continued until the winding of the copper wire is completed, then the electric clamp 6020 is loosened, at this time, the adhesive tape feeder 3 is controlled to send out a hot melt adhesive tape to the top of the adhesive tape feeding plate 703, then the third telescopic assembly 701 is controlled to extend to drive the pushing plate 702 to move, then the pushing plate 702 pushes the hot melt adhesive tape at the top of the adhesive tape feeding plate 703 to the gluing assembly, then the gluing assembly thermally melts the hot melt adhesive tape and adheres to the connecting position of the lead and the connecting sleeve of the filter, the connector sleeve of the filter is packaged, and after the end socket at one side of the filter is packaged, the original path of the filter can be controlled to return to carry out wiring packaging on the end socket at the other side.

The gluing assembly comprises a connecting underframe 706, an electric opening and closing assembly 707, a hot melt strip 708 and a shaping strip 709; the left upper part of the rear side of the rubber strip feeder 3 is connected with a connecting underframe 706 through a bolt; an electric opening and closing assembly 707 is arranged on the rear side of the top of the connecting chassis 706; a rotating end in the middle of the electric opening and closing component 707 is fixedly connected with a shaping batten 709; the rotating ends of the front side and the rear side of the electric opening and closing component 707 are fixedly connected with hot melt strip plates 708.

So that the copper wire can move along the groove after the copper wire part of the wire contacts the groove on the inner side of the guide ring 705, and the reverse movement of the copper wire is realized.

The guide ring 705 is provided with a groove in the middle of its inner side.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. The utility model provides a wave filter positioner that works a telephone switchboard for RFID, is including installation frame (1), mounting plate bottom plate (2), adhesive tape feeder (3) and first installation upstand (4), characterized by: the device also comprises a righting transfer system (5), a threading connection system (6), a packaging system (7), a collecting box (8), a first mounting frame (9) and a limiting roller (10); the lower part of the mounting rack (1) is fixedly connected with a mounting machine bottom plate (2); a rubber strip feeding machine (3) is arranged on the right side of the top of the mounting machine bottom plate (2); a first mounting vertical column (4) is fixedly connected to the right rear side of the top of the rubber strip feeder (3); a first mounting frame (9) is fixedly inserted at the upper part of the first mounting vertical column (4); the first mounting frame (9) is rotatably connected with a limiting roller (10); a righting transfer system (5) is arranged on the left side of the top of the mounting machine bottom plate (2); the upper side of the righting transfer system (5) is connected with the mounting rack (1); the top of the mounting rack (1) is provided with a threading connection system (6); a packaging system (7) is arranged at the top of the left rear side of the adhesive tape feeder (3); a collecting box (8) is arranged in the middle of the top of the mounting machine bottom plate (2); the top of the collecting box (8) is connected with the righting transfer system (5);

the righting transfer system (5) comprises a mounting lath (505), a scanning sensor (506), a conveying table (507), a supporting base table (508), a motor-driven rotary bearing disc (509) and a clamping assembly; a supporting base (508) is fixedly connected to the top of the left side of the collecting box (8); the top of the collecting box (8) is fixedly connected with a conveying table (507); the middle part of the bottom of the conveying table (507) is fixedly connected with a supporting bottom table (508); an electric rotating bearing disc (509) is arranged in the middle of the top of the supporting bottom table (508); a group of clamping components are respectively arranged on the front side and the rear side of the left part of the mounting rack (1); an installation batten (505) is fixedly connected between the two groups of clamping components; the middle part of the bottom of the installation slat (505) is provided with a scanning sensor (506);

the threading connection system (6) comprises a top frame plate (601), a power motor (602), a rotating shaft rod (603), a connection batten (604), a connection sliding column (605), an arc-shaped sliding rail (606), a threading assembly, a tightening assembly and a thread twisting assembly; the top of the mounting rack (1) is fixedly connected with a top frame plate (601); a power motor (602) is fixedly connected with the top frame plate (601); the top frame plate (601) is rotatably connected with a rotating shaft rod (603); an output shaft of the power motor (602) is fixedly connected with a rotating shaft rod (603); the bottom of the rotating shaft rod (603) is fixedly connected with a connecting batten (604); an arc-shaped sliding rail (606) is fixedly connected to the right side of the top frame plate (601); the inner side of the arc-shaped sliding rail (606) is connected with a connecting sliding column (605) in a sliding way; the bottom of the connecting sliding column (605) is fixedly connected with a connecting ribbon board (604); the bottom of the connecting batten (604) is connected with a threading component; a tightening assembly is arranged at the front part of the right side of the threading assembly; the front end of the threading assembly is provided with a thread twisting assembly;

the packaging system (7) comprises a third telescopic assembly (701), a pushing plate (702), an adhesive tape feeding plate (703), a second mounting vertical column (704), a guide ring (705) and a gluing assembly; a third telescopic component (701) is arranged on the left rear side of the top end of the rubber strip feeder (3); a telescopic end at the rear side of the third telescopic component (701) is fixedly connected with a push plate (702); an adhesive tape feeding plate (703) is arranged at the upper left rear part of the inner side of the adhesive tape feeding machine (3); a second mounting vertical column (704) is fixedly connected to the left part of the rear side of the top of the rubber strip feeder (3); a guide ring (705) is fixedly connected to the top of the second mounting vertical column (704); the gluing component is arranged on the left upper part of the rear side of the adhesive tape feeder (3).

2. A filter connection positioning device for RFID as defined in claim 1, wherein: the clamping assembly comprises a connecting column (501), a second mounting frame (502), a first electric sliding assembly (503), a first electric sliding seat (504), a mounting bottom column (5010), a first telescopic assembly (5011), a clamping fork (5012), a connecting elastic piece (5013) and an adjusting arc-shaped piece (5014); a connecting column (501) is respectively arranged on the front side of the left part and the rear side of the left part of the mounting rack (1); the two connecting columns (501) are fixedly connected with second mounting frames (502) respectively; a group of first electric sliding assemblies (503) are respectively arranged on the inner sides of the two second mounting frames (502); the outer surfaces of the two groups of first electric sliding assemblies (503) are respectively connected with a first electric sliding seat (504) in a sliding way; the mounting strip plate (505) is mounted between the two first electric sliding seats (504); the bottoms of the two first electric sliding seats (504) are fixedly connected with a mounting bottom column (5010) respectively; the bottoms of the two mounting bottom columns (5010) are respectively provided with a group of first telescopic assemblies (5011); the two groups of first telescopic assemblies (5011) are symmetrically arranged, and the bottoms of the two groups of first telescopic assemblies (5011) are respectively provided with a clamping fork (5012); the two clamping forks (5012) are also symmetrically arranged; the inner sides of the two clamping forks (5012) are fixedly connected with a connecting elastic piece (5013) respectively; the two connecting elastic pieces (5013) are respectively fixedly connected with an adjusting arc-shaped piece (5014); the two adjusting arc-shaped pieces (5014) are symmetrically arranged.

3. A filter connection positioning device for RFID as defined in claim 2, wherein: the threading assembly comprises a second electric sliding assembly (607), a second electric sliding seat (608), a connecting sleeve column (609), an inner sleeve sliding column (6010), a return spring (6011), a connecting side frame plate (6012), a wire outlet machine (6013) and a mounting sleeve ring (6014); the bottom of the connecting batten (604) is fixedly connected with a second electric sliding assembly (607); the front side and the rear side of the bottom of the second electric sliding component (607) are respectively connected with a second electric sliding seat (608) in a sliding way; the bottoms of the two second electric sliding seats (608) are respectively fixedly connected with a connecting sleeve column (609); the inner sides of the two connecting sleeve columns (609) are respectively connected with an inner sleeve sliding column (6010) in a sliding way; the left sides of the two connecting sleeve columns (609) are respectively connected with a return spring (6011); the inner sides of the two return springs (6011) are respectively sleeved with an inner sleeve sliding column (6010); the left side and the right side of the inner sleeve sliding column (6010) are fixedly connected with a connecting side frame plate (6012) respectively, and the left side and the right side of the other inner sleeve sliding column (6010) are connected with a connecting side frame plate (6012) respectively in a sliding mode; the left sides of the two return springs (6011) are connected with a side frame plate (6012); a wire outlet machine (6013) is fixedly connected at the bottom between the two connecting side frame plates (6012); an installation lantern ring (6014) is fixedly sleeved on the front side of the outer surface of the wire outgoing machine (6013); a tightening assembly is arranged on the right side of the mounting lantern ring (6014); the front end of the wire outlet machine (6013) is provided with a wire twisting assembly.

4. A filter wiring positioning device for RFID as defined in claim 3, wherein: the tightening assembly comprises a connecting frame (6015), a second telescopic assembly (6016) and a tightening clamp (6017); a connecting frame (6015) is fixedly connected to the right side of the mounting lantern ring (6014); a second telescopic assembly (6016) is arranged at the front part of the connecting frame (6015); a tightening clamp (6017) is fixedly connected with the telescopic end on the left side of the second telescopic assembly (6016).

5. The filter connection positioning device for RFID as claimed in claim 4, wherein: the wire twisting assembly comprises an electric rotating assembly (6018), a sliding seat (6019) and an electric clamp (6020); the front end of the wire outgoing machine (6013) is provided with an electric rotating assembly (6018); a sliding seat (6019) is installed on the right side of the rotating end of the electric rotating assembly (6018); an electric clamp (6020) is arranged at the front part of the sliding seat (6019).

6. The filter connection positioning device for RFID as claimed in claim 5, wherein: the gluing assembly comprises a connecting underframe (706), an electric opening and closing assembly (707), a hot melt strip plate (708) and a shaping strip plate (709); a connecting bottom frame (706) is fixedly connected to the left upper part of the rear side of the rubber strip feeder (3); an electric opening and closing assembly (707) is arranged on the rear side of the top of the connecting chassis (706); a rotating end in the middle of the electric opening and closing component (707) is fixedly connected with a shaping batten (709); the rotating ends of the front side and the rear side of the electric opening and closing component (707) are fixedly connected with hot melt strip plates (708).

7. The filter connection positioning device for RFID as claimed in claim 6, wherein: the middle part of the inner side of the guide ring (705) is provided with a groove.