CN115783807A - Automatic feeding system of connector - Google Patents

Abstract

The invention discloses an automatic feeding system of a connector, which comprises a screening part, a transition part, a base, a supporting part and a pushing part, wherein the screening part is arranged on the base; the screening part comprises a trapezoid funnel frame, a feed inlet is formed in the upper side of the trapezoid funnel frame, a plurality of connector assemblies are stacked in the trapezoid funnel frame and are all placed in a horizontal state, a screening rotary drum is arranged on the lower side of the trapezoid funnel frame and is used for screening out single connector assemblies in the trapezoid funnel frame and sequentially feeding the connector assemblies into the transition part; the transition portion is arranged at the lower end of the screening portion, the connector assemblies are orderly stacked in the transition portion in a row, and the transition portion is used for screening out a single connector assembly from the stacked connector assemblies in the row and intermittently feeding the single connector assembly into the lower side supporting portion; the supporting part is arranged on the base, and the supporting part is arranged on the lower side of the transition part.

Description

Automatic feeding system of connector

Technical Field

The invention relates to the technical field of photovoltaic product processing, and discloses an automatic feeding system of a connector.

Background

Photovoltaic connector is solar module's key accessory, and one end is used for connecting the terminal box, and the other end has male connector or female connector for realize monolithic photovoltaic module's the cluster that establishes ties, among the prior art, the connector will jointly assemble through a plurality of equipment: firstly, cutting the cable to a required length on a wire cutting machine, peeling an end, transferring the processed cable to a riveting machine to fix a wire core and a terminal of the cable in a crimping mode, transferring the terminal after crimping to a nut machine, inserting the terminal into a connector, operating the nut machine to screw a nut of the connector, and finally completing assembly of the connector.

The prior patent application No. 202110685254.1 discloses a photovoltaic connector harness all-in-one machine, which comprises a rack, wherein a wire cutting and stripping unit, a terminal riveting unit and a nut screwing unit are sequentially arranged on the rack, the nut screwing unit comprises a screwing mechanism and a feeding mechanism, the screwing mechanism is connected with the rack through a vertical plate, a feeding hole is formed in the vertical plate, the feeding mechanism is arranged on the back of the vertical plate, and a feeding outlet of the feeding mechanism is butted with the feeding hole; and the front surface of the vertical plate is provided with a screwing mechanism for screwing a nut fed by the feeding mechanism, and the screwing mechanism is connected to the feeding hole through a flange bearing.

In the prior art, the workers usually take the single connector assembly off from the charging tray on which the connector assembly is placed by using the manipulator and then feed the connector assembly into the feeding mechanism of the technical scheme, and the connector assembly on the charging tray is in a vertical state, so that the feeding mechanism is required to turn the connector assembly into a horizontal state and then feed the connector assembly, the structural complexity of the feeding mechanism is undoubtedly increased, the turning action is realized, the feeding time is also prolonged, the practicability is to be improved, and the equipment cost is also increased due to the use of the manipulator.

Therefore, there is a need for an automatic connector loading system that can achieve the automatic loading function.

Disclosure of Invention

The present invention is directed to an automatic connector loading system, which solves the above problems.

In order to solve the technical problems, the invention provides the following technical scheme: an automatic feeding system of a connector comprises a screening part, a transition part, a base, a supporting part and a material pushing part; wherein:

the screening part comprises a trapezoid funnel frame, a feed inlet is formed in the upper side of the trapezoid funnel frame, a plurality of connector assemblies are stacked in the trapezoid funnel frame and are all placed in a horizontal state, a screening rotary drum is arranged on the lower side of the trapezoid funnel frame and is used for screening out single connector assemblies in the trapezoid funnel frame and sequentially feeding the connector assemblies into the transition part;

the transition portion is arranged at the lower end of the screening portion, the connector assemblies are orderly stacked in a row in the transition portion, and the transition portion is used for screening out single connector assemblies from the stacked connector assemblies in the row and intermittently feeding the single connector assemblies into the lower side supporting portion;

the supporting part is arranged on the base, arranged on the lower side of the transition part and used for receiving and supporting and positioning a single connector assembly;

the material pushing part is arranged on one side of the supporting part and used for pushing the single connector assembly on the upper side of the supporting part into the next working procedure for processing.

In one embodiment, a pair of arc plates is fixedly connected to two sides of the lower end of the trapezoidal hopper frame, the circle centers of the pair of arc plates coincide with the circle center of the screening rotary drum, a plurality of arc grooves are formed in the outer ring surface of the screening rotary drum and used for screening into a single connector component, a first motor is arranged at one end of the screening rotary drum and fixed on the outer side wall of the trapezoidal hopper frame, the first motor is used for driving the screening rotary drum to rotate, the distance between the bottom of each arc groove and each arc plate is equal to the diameter of the single connector component, and the screening rotary drum is used for screening a plurality of connector components in the trapezoidal hopper frame into the arc grooves and bringing the connector components into the arc plates and falling into the transition portion of the lower side along the arc plates.

In one embodiment, the transition portion includes the row material way, the row material way sets up to vertical square passageway, the upper end that the row material was said is connected with the arc, is listed as the connector subassembly is vertically piled up in row material way, the lower extreme that the row material was said is provided with the drum shell, the lower extreme of drum shell is provided with the discharge gate, the inboard of drum shell is provided with and connects the feed cylinder, connect one side of feed cylinder to have seted up and connect the silo, the axis that connects the feed cylinder and the axis of drum shell coincide each other, the tank bottom that connects the silo equals the diameter of single connector subassembly to the drum shell between the interval, a plurality of support columns of outside downside fixedly connected with of drum shell, the lower extreme and the base fixed connection of support column, the one end that connects the feed cylinder is provided with its rotation of driving piece drive.

In one embodiment, the supporting part comprises a supporting table, a limiting groove is arranged on the upper side of the supporting table and corresponds to the discharge hole, the limiting groove is used for limiting the connector assembly, the limiting groove coincides with the axis of the connector assembly, the supporting column penetrates through the supporting table and is in sliding fit with the supporting table, and a linear driving assembly is arranged at the lower end of the supporting table.

In one embodiment, a rack is fixedly connected to one end of the support platform, a first gear is meshed and connected to one side of the rack, a rotating rod is fixedly connected to the center of the first gear, the rotating rod penetrates through the cylindrical shell and is rotatably connected with the cylindrical shell, the rotating rod is connected with the material receiving barrel, the rotating rod and the axis of the material receiving barrel coincide with each other, and the support platform controls the material receiving barrel to receive and discharge materials by moving up and down.

In one embodiment, the pushing part comprises a pushing column, a clamping groove is formed in the inner side of the pushing column, the clamping groove corresponds to the limiting groove, a positioning rod is arranged at the center of the clamping groove and is inserted into the inner side of the connector assembly for positioning, and the outer side of the connector assembly is clamped into the clamping groove for limiting.

In one embodiment, a circular ring piece is arranged on one side of the supporting platform, the lower end of the circular ring piece is connected with the base, a pair of semicircular baffles are arranged on the inner side of the circular ring piece, a semi-cylindrical sleeve is fixedly connected to one end of each semicircular baffle, the axes of the semi-cylindrical sleeve, the circular ring piece and the limiting groove are coincident, the connector assembly is pushed by the pushing column and inserted into the inner sides of the pair of semi-cylindrical sleeves and is blocked by the semicircular baffles, and the semicircular baffles are rubber plates;

the outer side of the material pushing column is fixedly connected with a pair of oblique angle arc plates I, one end of an oblique plane of each oblique angle arc plate I is oppositely provided with an oblique angle arc plate II, the inner side of each oblique angle arc plate II is in sliding fit with the outer side of the material pushing column, one end of each oblique angle arc plate II is fixedly connected with a pushing plate, a guide rod penetrates through the inner side of each pushing plate, one end of each guide rod is fixedly connected with the material pushing column, the other end of each guide rod is fixedly connected with a blocking piece, one end of each pushing plate is fixedly connected with a push rod, one end of each push rod is provided with a circular hole groove, a spring I is arranged in each circular hole groove, one end of each spring I is connected with the corresponding blocking piece, and the blocking pieces slide along the circular hole grooves;

the outer side of the material pushing column is fixedly connected with a pair of fixed arc plates.

In one embodiment, an annular ring is fixedly connected to the outer side of one end, close to the semi-cylindrical sleeve, of the pushing column, one end of the annular ring is arranged to be an inclined surface, the inner side of one end of each of the semi-cylindrical sleeves is arranged to be an arc-shaped inclined chamfer, the inclined surface is arranged opposite to the arc-shaped inclined chamfer, connecting strips are fixedly connected to the two ends of each of the semi-cylindrical sleeves, a plurality of guide rods penetrate through the inner side of each connecting strip, the two ends of each guide rod are fixedly connected with the annular member, a second spring is arranged on the outer side of each guide rod, and the two ends of each second spring are respectively connected with the connecting strips of the annular member.

In one embodiment, the linear driving assembly comprises a first threaded rod, a threaded sleeve is in threaded connection with the upper side of the first threaded rod, the upper end of the threaded sleeve is connected with the supporting table, a crown gear is fixedly connected with the lower end of the threaded sleeve, the lower end of the crown gear is rotatably connected with the base, a second gear is meshed with the upper side of the crown gear, a second threaded rod is fixedly connected with one end of the second gear, a second motor is arranged at one end of the second threaded rod, the second motor is connected with the base, a movable plate is in sliding fit with the upper side of the base, the second threaded rod penetrates through the movable plate and is in threaded connection with the movable plate, the upper end of the movable plate is connected with the push rod, and a telescopic column is arranged between the movable plate and the base.

Compared with the prior art, the invention has the following beneficial effects: the invention discloses a connector assembly, which is characterized in that a screening part is arranged and used for storing a plurality of connector assemblies in advance, the connector assemblies are stacked in a trapezoidal hopper frame in a horizontal state, the connector assemblies are gathered on a screening rotary drum under the action of a pair of inclined surfaces on the lower side of the trapezoidal hopper frame, and a single connector assembly is continuously screened from the connector assemblies and fed into a transition part on the lower side along with the rotation of the screening rotary drum, so that the connector assemblies are stacked into a row in the transition part, and then the transition part is matched with the gap feeding of a material pushing part to feed the connector assemblies, so that the connector assemblies are sequentially and intermittently screened onto a supporting part, and then the connector assemblies are pushed into the next processing procedure by the material pushing part, and the whole assembly of the connector is completed.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional side view of the present invention;

FIG. 3 is an internal perspective view of the present invention;

FIG. 4 is a front cross-sectional schematic view of the present invention;

FIG. 5 is an enlarged partial schematic view of region A of FIG. 4;

FIG. 6 is a perspective exploded view of the pusher section of the present invention;

FIG. 7 is a schematic view showing a state where the pusher section of the present invention is rotated;

FIG. 8 is a front elevational view of the connector assembly of the present invention shown in a snapped configuration;

FIG. 9 is a rear elevational view of the connector assembly of the present invention shown snapped together;

FIG. 10 is a schematic perspective view of the interior of the annular ring of the present invention;

in the figure: 1. a material pushing section; 101. pushing the material column; 102. a clamping groove; 103. positioning a rod; 104. a circular ring member; 105. a round baffle plate; 106. a semi-cylindrical sleeve; 107. a first oblique angle arc plate; 108. a second oblique-angle arc-shaped plate; 109. a push plate; 110. a guide bar; 111. a baffle plate; 112. a push rod; 113. fixing the arc plate; 114. an annular ring; 115. a connecting strip; 116. a guide rod; 117. a torsion spring member;

2. a support table; 201. a limiting groove; 202. a rack; 203. a first gear;

3. screening; 301. a trapezoidal funnel frame; 302. screening the rotary drum; 303. an arc-shaped plate; 304. an arc-shaped slot; 305. a first motor;

4. a transition section; 401. a discharge channel; 402. a cylindrical shell; 403. a discharge port; 404. a material receiving barrel; 405. a material receiving groove;

5. a base;

6. a connector assembly;

7. a support pillar;

8. a first threaded rod; 801. a threaded sleeve; 802. a crown gear; 803. a second gear; 804. a second threaded rod; 805. a second motor; 806. moving the plate; 807. a telescopic column.

Detailed Description

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1-10, the present invention provides the following technical solutions: an automatic feeding system of a connector comprises a screening part 3, a transition part 4, a base 5, a supporting part and a pushing part 1; wherein:

the screening part 3 comprises a trapezoid funnel frame 301, a feed inlet is formed in the upper side of the trapezoid funnel frame 301, a plurality of connector assemblies 6 are stacked in the trapezoid funnel frame 301, the connector assemblies 6 are all placed in a horizontal state, a screening rotary drum 302 is arranged on the lower side of the trapezoid funnel frame 301, and the screening rotary drum 302 is used for screening out a single connector assembly 6 in the trapezoid funnel frame 301 and sequentially feeding the single connector assembly 6 into the transition part 4;

the transition portion 4 is arranged at the lower end of the sieving portion 3, the connector assemblies 6 are sequentially stacked in a row in the transition portion 4, and the transition portion 4 is used for sieving a single connector assembly 6 out of the stacked connector assemblies 6 in the row and intermittently feeding the single connector assembly 6 into the lower side supporting portion;

the supporting part is arranged on the base 5 and arranged on the lower side of the transition part 4, and the supporting part is used for receiving, supporting and positioning the single connector assembly 6;

the material pushing part 1 is arranged on one side of the supporting part, and the material pushing part 1 is used for pushing the single connector assembly 6 on the upper side of the supporting part into the next working procedure for processing.

Specifically, the worker places a plurality of connector assemblies 6 in the trapezoidal hopper frame 301 in the screening portion 3 through the feed inlet in advance, the prior art such as a conveyor belt assembly can be utilized, the connector assemblies 6 are continuously transported to the trapezoidal hopper frame 301, the connector assemblies 6 are stacked in the trapezoidal hopper frame 301 in a horizontal state, and under the effect of a pair of inclined surfaces on the lower side of the trapezoidal hopper frame 301, the connector assemblies 6 are gathered on the screening rotary drum 302, the connector assemblies 6 are continuously screened from the connector assemblies 6 and sent to the transition portion 4 on the lower side, so that the connector assemblies 6 are stacked in a row in the transition portion 4, the transition portion 4 is matched with the interval feeding opportunity of the pushing portion 1, the connector assemblies 6 are sequentially and intermittently screened onto the supporting portion and then pushed into the next processing procedure by the pushing portion 1, the connector assemblies are integrally assembled, the manipulator and the charging tray are not needed, the equipment cost is saved, the connector assemblies 6 can be screened by using the screening portion 3 and the transition portion 4, the connector assemblies 6 can be automatically and the connector assemblies can be automatically operated without the need to be turned over, and the connector assemblies are conveniently in a simple structure, and the horizontal state is improved.

A pair of arc 303 of trapezoidal hopper frame 301's lower extreme both sides fixedly connected with, the centre of a circle of a pair of arc 303 coincides with the centre of a circle of screening rotary drum 302, a plurality of arc 304 have been seted up on the outer lane surface of screening rotary drum 302, arc 304 is used for sifting into single connector assembly 6, the one end of screening rotary drum 302 is provided with motor 305, motor 305 is fixed at the lateral wall of trapezoidal hopper frame 301, motor 305 is used for driving screening rotary drum 302 and rotates, the tank bottom of arc 304 equals the diameter of single connector assembly 6 to the interval between the arc 303, sift into the arc 304 and bring into in the arc 303 with a plurality of connector assembly 6 sieves in trapezoidal hopper frame 301 when screening rotary drum 302 rotates, and fall into transition portion 4 of downside along arc 303.

Specifically, because connector assembly 6 generally is the cylinder, consequently, its horizontal state can be comparatively stable piles up in trapezoidal hopper frame 301, and sieve rotary drum 302 has blockked up the export of trapezoidal hopper frame 301 whereabouts, the clearance between sieve rotary drum 302 and the arc 303, be not enough to let connector assembly 6 fall down, and set up a plurality of arc grooves 304 in the sieve rotary drum 302 outside, along with the rotation of sieving rotary drum 302, constantly have single connector assembly 6 to fall into arc groove 304, and along with sieving rotary drum 302, move along the arc 303, finally fall into in the transition portion 4 of downside (as shown in fig. 2), thereby accomplish the independent screening of connector assembly 6.

Transition portion 4 is including arranging material way 401, it sets up to vertical square passage to arrange material way 401, the upper end of material way 401 is connected with arc 303, a row of connector assembly 6 is vertical to be piled up in material way 401, the lower extreme that row material was said 401 is provided with drum shell 402, the lower extreme of drum shell 402 is provided with discharge gate 403, the inboard of drum shell 402 is provided with connects feed cylinder 404, one side of receiving feed cylinder 404 has been seted up and has been connect silo 405, the axis of receiving feed cylinder 404 and the axis of drum shell 402 coincide each other, the tank bottom that connects silo 405 equals the diameter of single connector assembly 6 to the interval between the drum shell 402, a plurality of support columns 7 of outside downside fixedly connected with of drum shell 402, the lower extreme and the base 5 fixed connection of support column 7, the one end that connects feed cylinder 404 is provided with its rotation of driving piece drive.

Specifically, since the sieving unit 3 is configured to sieve a single connector assembly from a plurality of stacked connector assemblies 6 by the rotation of the sieving drum 302, which has a certain uncertainty, it cannot guarantee accurate sieving to the connector assembly 6 each time, and when the sieving unit is directly used for feeding the material pushing unit 1, there is no corresponding connector assembly 6 falling onto the support portion when the material pushing unit 1 pushes the material, which causes process confusion, so that the transition unit 4 is configured to perform the transition, the single connector assemblies 6 falling from the sieving unit 3 sequentially fall into the material discharge channel 401 to form a row, and the sieving unit 3 is configured with the drum shell 402 and the material receiving drum 404, but only one material receiving groove 405 is configured on the material receiving drum 404, so that when the material receiving drum 404 rotates, the connector assemblies 6 can be accurately controlled to receive the material and fall from the material discharge port 403, and since the connector assemblies 6 are arranged in the row in the material discharge channel 401, the sieving unit 3 greatly improves the stability and accuracy of sieving, the control of the driving unit 404 to drive the material receiving speed, and realize effective material feeding and material pushing unit 1 feeding.

The supporting part is including propping up supporting bench 2, and the upside of propping up supporting bench 2 is provided with spacing groove 201, and spacing groove 201 corresponds the setting with discharge gate 403, and spacing groove 201 is used for spacing to connector assembly 6, and spacing groove 201 coincides mutually with connector assembly 6's axis, and support column 7 runs through in propping up supporting bench 2 and rather than sliding fit, and the lower extreme of propping up supporting bench 2 is provided with sharp drive assembly.

Specifically, the connector assembly 6 falling from the discharge port 403 falls into the limiting groove 201 on the supporting table 2 to realize positioning, the pushing portion 1 is convenient to push, and the pushing portion 1 inevitably contacts with the supporting table 2 when pushing, so that the linear driving assembly is arranged on the lower side of the supporting table 2, and when the pushing portion 1 pushes the connector assembly 6, the supporting table 2 descends to avoid the interference with the pushing portion 1.

The one end fixedly connected with rack 202 of brace table 2, the meshing of one side of rack 202 is connected with gear 203, the centre of a circle fixedly connected with bull stick of gear 203, the bull stick runs through in drum shell 402 and is connected rather than rotating, the bull stick is connected with receiving material section of thick bamboo 404, the axis coincidence of bull stick and receiving material section of thick bamboo 404, brace table 2 connects material and blowing through reciprocating to control receiving material section of thick bamboo 404.

Specifically, when the material receiving barrel 404 sends the connector assembly 6 to the support platform 2, the material receiving groove 405 is downward, and then the support platform 2 is driven by the linear driving assembly to move downwards for avoiding, the support platform 2 is guided along the support columns 7 to drive the rack 202 on one side to descend simultaneously, the rack 202 and the first gear 203 are driven to rotate in a meshed mode to drive the first gear 203 to rotate, so that the rotating rod and the material receiving barrel 404 are driven to rotate, the material receiving barrel 404 rotates the material receiving groove 405 back to the upper end again to receive materials, then the support platform 2 ascends and resets after the material pushing part 1 finishes pushing, the rack 202 and the first gear 203 are reversely meshed, the first gear 203 reversely rotates, the material receiving groove 405 rotates downward again, the connector assembly 6 in the groove falls onto the support platform 2 again, and therefore the operation is repeated to achieve ordered operation, and the support platform 2 and the material receiving barrel 404 can be driven to work by the arrangement of the single linear driving assembly, and cost is saved.

The pushing part 1 comprises a pushing column 101, a clamping groove 102 is formed in the inner side of the pushing column 101, the clamping groove 102 is arranged corresponding to a limiting groove 201, a positioning rod 103 is arranged at the center of the clamping groove 102, the positioning rod 103 is inserted into the inner side of the connector assembly 6 for positioning, and the outer side of the connector assembly 6 is clamped into the clamping groove 102 for limiting.

Specifically, when pushing is required, the pushing rod 101 moves towards the connector assembly 6 on the support platform 2, and since the support platform 2 moves downward to avoid the connector assembly 6, before the support platform 2 moves downward, the positioning rod 103 is inserted into the connector assembly 6 to support the connector assembly, so that the support platform 2 is prevented from driving the connector assembly to simultaneously descend, and the position of the connector assembly 6 is further ensured to be neutral.

A circular ring piece 104 is arranged on one side of the supporting platform 2, the lower end of the circular ring piece 104 is connected with the base 5, a pair of semicircular baffles 105 is arranged on the inner side of the circular ring piece 104, a semicircular sleeve 106 is fixedly connected to one end of each semicircular baffle 105, the axes of the semicircular sleeve 106, the circular ring piece 104 and the limiting groove 201 are overlapped, the connector assembly 6 is pushed by the pushing column 101, inserted into the inner sides of the pair of semicircular sleeves 106 and blocked by the semicircular baffles 105, and the semicircular baffles 105 are rubber plates;

a pair of oblique angle arc plates 107 is fixedly connected to the outer side of the material pushing column 101, an oblique angle arc plate II 108 is oppositely arranged at one end of an oblique plane of the oblique angle arc plate I107, the inner side of the oblique angle arc plate II 108 is in sliding fit with the outer side of the material pushing column 101, a pushing plate 109 is fixedly connected to one end of the oblique angle arc plate II 108, a guide rod 110 penetrates through the inner side of the pushing plate 109, one end of the guide rod 110 is fixedly connected with the material pushing column 101, a blocking piece 111 is fixedly connected to the other end of the guide rod 110, a push rod 112 is fixedly connected to one end of the pushing plate 109, a circular hole groove is formed in one end of the push rod 112, a spring I is arranged in the circular hole groove, one end of the spring I is connected with the blocking piece 111, and the blocking piece 111 slides along the circular hole groove;

a pair of fixed arc plates 113 is fixedly connected to the outer side of the material pushing column 101.

Specifically, after the connector assembly 6 is inserted by the positioning rod 103, the connector assembly 6 is pushed into the pair of semi-cylindrical sleeves 106 along with the pushing of the pushing column 101, and finally abuts against the side surfaces of the pair of semi-cylindrical baffles 105, and the pushing column 101 is pushed continuously along with the limitation of the head end of the connector assembly 6, so that the clamping groove 102 is sleeved on the outer side of the connector assembly 6, and the limitation is performed on the connector assembly 6;

since the connector assembly 6 is not a regular cylinder, the inner shape of the detent groove 102 is not a regular cylinder, but a corresponding inner cavity shape matching the outer shape of the connector assembly 6, so as to define the position of the connector assembly 6, and prevent the connector head from rotating during the nut screwing process, therefore, when the detent groove 102 is snapped into the outer side of the connector assembly 6, there is a possibility that the connector assembly 6 cannot be correctly snapped into the detent groove 102 due to misalignment of the corresponding shape positions on both sides, thereby generating the state shown in fig. 8, the connector assembly 6 still abuts against the semicircular baffle 105, the head end of the pushing rod 101 also abuts against the outer side of the connector assembly 6, one end of the pushing rod 101 is connected with the guide rod 110, the pushing plate 109 and the pushing rod 112, and the driving member is provided with the pushing rod 112, so that the pushing rod 112 pushes the pushing rod 101 to move, when the head end of the pushing rod 101 abuts against the outer side of the connector assembly 6, the pushing rod 112 can continue to push the pushing plate 109, the pushing plate 109 pushes the pair of oblique plates 108, the oblique edges of the second arc plate 108 and the oblique plate 108 are opposite to the oblique edge of the oblique plate 107, so that the oblique edge of the connector assembly 101 and the oblique plate 102 can be successfully pushed against the connector assembly 6, so that the connector assembly 102 and the connector assembly 6 rotates, and the oblique plate 102 and the connector assembly can be connected to the connector assembly 6, thereby the connector assembly 102, and the connector assembly 6, and the connector assembly 102, and the connector assembly can be connected to the connector assembly 6, and the connector assembly 102, and the connector assembly 6.

And a first spring is further arranged to facilitate the resetting of the first bevel arc plate 107 and the second bevel arc plate 108, and the pushing column 101 drives the guide rod 110 to correspondingly rotate when rotating, so that a torsion spring part 117 is further arranged between the pushing plate 109 and the pushing column 101, so that the pushing column 101 and the first bevel arc plate 107 return to corresponding positions and also return to an initial angle when returning to the corresponding positions, thereby facilitating the next clamping of the connector assembly 6.

Still be provided with a pair of fixed arc board 113 in the outside of pushing away material post 101, when oblique angle arc board 107 rotates along oblique angle arc board two 108, drive fixed arc board 113 and rotate together, until fixed arc board 113 contacts with oblique angle arc board two 108, fix a position the pushing away material post 101 that rotates certain angle, and fixed arc board 113 under initial condition also contacts with oblique angle arc board two 108, be used for injecing the position of pushing away material post 101 and connector assembly 6, prevent at the nut in-process of screwing, push away material post 101 and follow-up the commentaries on classics.

The material pushing column 101 is close to the annular ring 114 of the fixedly connected with in the one end outside of the semicylinder sleeve 106, the one end of the annular ring 114 sets up to the inclined plane, the one end inboard of a pair of semicylinder sleeve 106 sets up to the oblique chamfer of arc, the inclined plane sets up with the oblique chamfer of arc relatively, the equal fixedly connected with connecting strip 115 in both ends of the semicylinder sleeve 106, the inboard of connecting strip 115 runs through and is provided with a plurality of guide bars 116, the both ends and the ring spare 104 fixed connection of guide bar 116, the outside of guide bar 116 is provided with spring two, two both ends of spring are connected with the connecting strip 115 of ring spare 104 respectively.

Specifically, when the connector assembly 6 is successfully snapped into the detent groove 102, the pushing rod 101 at this time may also continue to move toward the semi-cylindrical sleeve 106, so that the inclined surface of the annular ring 114 contacts with the inclined chamfer of the semi-cylindrical sleeve 106 (as shown in fig. 9), so that the semi-cylindrical sleeve 106 is separated from the inclined surface of the annular ring 114 to two sides, the connecting strip 115 moves along the guide rod 116 to guide, and drives the semi-cylindrical baffles 105 to separate, and the connector assembly 6 may be pushed into the processing procedure for assembly.

The linear driving assembly comprises a first threaded rod 8, a threaded sleeve 801 is in threaded connection with the upper side of the first threaded rod 8, the upper end of the threaded sleeve 801 is connected with the supporting table 2, a crown gear 802 is fixedly connected to the lower end of the threaded sleeve 801, the lower end of the crown gear 802 is rotatably connected with the base 5, a second gear 803 is meshed with the upper side of the crown gear 802, a second threaded rod 804 is fixedly connected to one end of the second gear 803, a second motor 805 is arranged at one end of the second threaded rod 804, the second motor 805 is connected with the base 5, a moving plate 806 is in sliding fit with the upper side of the base 5, the second threaded rod 804 penetrates through the moving plate 806 and is in threaded connection with the moving plate 806, the upper end of the moving plate 806 is connected with the push rod 112, and a telescopic column 807 is arranged between the moving plate 806 and the base 5.

Specifically, when the linear driving assembly is required to drive the supporting platform 2 to descend, only the motor two 805 needs to be started, the motor two 805 drives the threaded rod two 804 and the gear two 803 to rotate, the gear two 803 and the crown gear 802 are in meshed motion, the crown gear 802 drives the threaded rod one 8 to rotate, the threaded rod one 8 is in threaded connection with the threaded sleeve 801, and therefore the threaded sleeve 801 drives the supporting platform 2 to descend.

In the description of the present application, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; may be mechanically, electrically or may be in communication with each other; may be directly connected, may be internal to the two elements or may be in an interactive relationship between the two elements. The meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.

The above detailed description is provided for an automatic loading system of a connector according to an embodiment of the present application, and specific examples are applied herein to explain the principle and the implementation of the present application, and the description of the above embodiments is only used to help understand the technical solution and the core idea of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims (9)

1. An automatic feeding system of a connector comprises a screening part (3), a transition part (4), a base (5), a supporting part and a pushing part (1); wherein:

the screening part (3) comprises a trapezoidal hopper frame (301), a feeding hole is formed in the upper side of the trapezoidal hopper frame (301), a plurality of connector assemblies (6) are stacked in the trapezoidal hopper frame (301), the connector assemblies (6) are all placed in a horizontal state, a screening rotary drum (302) is arranged on the lower side of the trapezoidal hopper frame (301), and the screening rotary drum (302) is used for screening out single connector assemblies (6) in the trapezoidal hopper frame (301) and sequentially feeding the connector assemblies into the transition part (4);

the transition part (4) is arranged at the lower end of the screening part (3), the connector assemblies (6) are orderly stacked in the transition part (4), and the transition part (4) is used for screening out single connector assemblies (6) from the stacked connector assemblies (6) in a row and intermittently feeding the single connector assemblies into the lower side supporting part;

the supporting part is arranged on the base (5), the supporting part is arranged on the lower side of the transition part (4), and the supporting part is used for receiving and supporting and positioning a single connector assembly (6);

the pushing part (1) is arranged on one side of the supporting part, and the pushing part (1) is used for pushing a single connector assembly (6) on the upper side of the supporting part into the next procedure for processing.

2. An automatic connector loading system as claimed in claim 1, wherein: the lower extreme both sides fixedly connected with a pair of arc (303) of trapezoidal hopper frame (301), the centre of a circle of a pair of arc (303) and the coincidence of the centre of a circle of screening rotary drum (302), a plurality of arc wall (304) have been seted up on the outer lane surface of screening rotary drum (302), arc wall (304) are used for sifting into single connector subassembly (6), the one end of screening rotary drum (302) is provided with motor (305), motor (305) are fixed at the lateral wall of trapezoidal hopper frame (301), motor (305) are used for driving screening rotary drum (302) and rotate, the interval equals the diameter of single connector subassembly (6) between the tank bottom of arc wall (304) to arc (303), when screening rotary drum (302) rotate with a plurality of connector subassemblies (6) in trapezoidal hopper frame (301) sift into arc wall (304) and carry into arc (303) in to fall into transition portion (4) of downside along arc (303).

3. An automatic loading system of a connector according to claim 2, wherein: transition portion (4) are including arranging material way (401), arrange material way (401) and set up to vertical square passage, the upper end that arranges material way (401) is connected with arc (303), one row connector component (6) are vertical piles up in arranging material way (401), the lower extreme that arranges material way (401) is provided with drum shell (402), the lower extreme of drum shell (402) is provided with discharge gate (403), the inboard of drum shell (402) is provided with connects feed cylinder (404), connect one side of feed cylinder (404) to seted up and connect feed cylinder (405), the axis that connects feed cylinder (404) and the axis of drum shell (402) coincide each other, the tank bottom that connects feed cylinder (405) to drum shell (402) interval equals the diameter of single connector component (6), the outside downside fixedly connected with a plurality of support columns (7) of circle shell (402), the lower extreme and the base (5) fixed connection of support column (7), the one end that connects feed cylinder (404) is provided with its rotation of drive spare.

4. An automatic loading system of a connector according to claim 3, wherein: the supporting part is including propping up supporting bench (2), the upside of propping up supporting bench (2) is provided with spacing groove (201), spacing groove (201) correspond the setting with discharge gate (403), spacing groove (201) are used for spacing to connector assembly (6), spacing groove (201) coincide mutually with the axis of connector assembly (6), support column (7) run through in propping up supporting bench (2) and rather than sliding fit, the lower extreme of propping up supporting bench (2) is provided with sharp drive assembly.

5. An automatic loading system of a connector according to claim 4, wherein: the one end fixedly connected with rack (202) of brace table (2), the meshing of one side of rack (202) is connected with gear (203), the centre of a circle fixedly connected with bull stick of gear (203), the bull stick runs through in drum shell (402) and is connected rather than the rotation, the bull stick is connected with receiving material section of thick bamboo (404), the bull stick coincides with the axis of receiving material section of thick bamboo (404) each other, brace table (2) are through reciprocating to control receiving material section of thick bamboo (404) to connect material and blowing.

6. An automatic connector loading system as claimed in claim 4, wherein: the material pushing part (1) comprises a material pushing column (101), a clamping groove (102) is formed in the inner side of the material pushing column (101), the clamping groove (102) corresponds to a limiting groove (201), a positioning rod (103) is arranged at the center of the clamping groove (102), the inner side of the positioning rod (103) inserted into a connector assembly (6) is positioned, and the outer side of the connector assembly (6) is clamped into the clamping groove (102) to be limited.

7. An automatic loading system of a connector according to claim 6, wherein: a circular ring piece (104) is arranged on one side of the supporting platform (2), the lower end of the circular ring piece (104) is connected with the base (5), a pair of semicircular baffles (105) is arranged on the inner side of the circular ring piece (104), one end of each semicircular baffle (105) is fixedly connected with a semicircular cylinder sleeve (106), the axes of the semicircular cylinder sleeve (106), the circular ring piece (104) and the limiting groove (201) are overlapped, the connector assembly (6) is pushed by the pushing column (101), inserted into the inner sides of the pair of semicircular cylinder sleeves (106) and blocked by the semicircular baffles (105), and the semicircular baffles (105) are rubber plates;

the material pushing device comprises a material pushing column (101), and is characterized in that a pair of oblique angle arc plates I (107) are fixedly connected to the outer side of the material pushing column (101), an oblique angle arc plate II (108) is oppositely arranged at one end of an inclined plane of the oblique angle arc plate I (107), the inner side of the oblique angle arc plate II (108) is in sliding fit with the outer side of the material pushing column (101), a pushing plate (109) is fixedly connected to one end of the oblique angle arc plate II (108), a guide rod (110) penetrates through the inner side of the pushing plate (109), one end of the guide rod (110) is fixedly connected with the material pushing column (101), a blocking piece (111) is fixedly connected to the other end of the guide rod (110), a push rod (112) is fixedly connected to one end of the pushing plate (109), a circular hole groove is formed in one end of the push rod (112), a first spring is arranged in the circular hole groove, one end of the first spring is connected with the blocking piece (111), and the blocking piece (111) slides along the circular hole groove;

the outer side of the material pushing column (101) is fixedly connected with a pair of fixed arc plates (113).

8. An automatic loading system of a connector according to claim 7, wherein: the material pushing column (101) is close to an annular ring (114) fixedly connected with the outer side of one end of a semi-cylindrical sleeve (106), one end of the annular ring (114) is arranged to be an inclined surface, the inner side of one end of the semi-cylindrical sleeve (106) is arranged to be an arc-shaped inclined chamfer, the inclined surface and the arc-shaped inclined chamfer are oppositely arranged, connecting strips (115) are fixedly connected with the two ends of the semi-cylindrical sleeve (106), a plurality of guide rods (116) are arranged on the inner side of the connecting strips (115) in a penetrating mode, the two ends of the guide rods (116) are fixedly connected with a circular ring piece (104), a spring II is arranged on the outer side of each guide rod (116), and the two ends of each spring are connected with the connecting strips (115) of the circular ring piece (104) respectively.

9. An automatic loading system of a connector according to claim 7, wherein: the linear driving assembly comprises a first threaded rod (8), a threaded sleeve (801) is connected to the upper side of the first threaded rod (8) in a threaded mode, the upper end of the threaded sleeve (801) is connected with the supporting table (2), a crown gear (802) is fixedly connected to the lower end of the threaded sleeve (801), the lower end of the crown gear (802) is rotatably connected with the base (5), a second gear (803) is connected to the upper side of the crown gear (802) in a meshed mode, a second threaded rod (804) is fixedly connected to one end of the second gear (803), a second motor (805) is arranged at one end of the second threaded rod (804), the second motor (805) is connected with the base (5), a moving plate (806) is in sliding fit with the upper side of the base (5), the second threaded rod (804) penetrates through the moving plate (806) and is in threaded connection with the second threaded rod, the upper end of the moving plate (806) is connected with a push rod (112), and a telescopic column (807) is arranged between the moving plate (806) and the base (5).

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