CN109273964B - Socket assembling equipment - Google Patents

Abstract

The invention provides socket assembling equipment, and relates to the technical field of socket product manufacturing equipment. The socket assembling apparatus includes: frame, lead electrical pillar subassembly assembly devices, robot mechanism, storage area, socket equipment mechanism and control system. Lead electrical pillar subassembly assembly devices, storage area, socket equipment mechanism and set up in the frame, robot mechanism erects in one side of frame and is used for pressing from both sides the electrical pillar subassembly that send the equipment to accomplish. The socket assembling mechanism is used for assembling the assembled conductive column assembly, the front cover and the base into a socket product. The control system can control the conductive column assembly assembling mechanism, the robot mechanism and the socket assembling mechanism to work or stop. The socket assembling equipment meets the production requirement of socket products, and the production process is high in efficiency.

Description

Socket assembling equipment

Technical Field

The invention relates to the technical field of socket product manufacturing equipment, in particular to socket assembling equipment.

Background

A new socket product 2000 (shown in fig. 32 and 33) includes a conductive post assembly, a front cover 2002 and a base 2003, wherein a conductive post 2001 of the conductive post assembly has a post portion 20011, a disc portion 20012 and a flat portion 20013 connected in sequence, the post portion 20011 has a fine hole, and the flat portion 20013 has a coarse hole, which is also called a conductive post hole. The conductive post holes require the installation of self-clinching nuts 2004. An insulating cap 2005 is attached to one end of the columnar portion 20011, and a rear cover 2006 is attached to the flat piece portion 20013 at a position close to the disc portion 20012.

For the new socket product 2000, a corresponding socket assembling apparatus is required to perform automated production, thereby realizing actual manufacturing of the product.

Disclosure of Invention

An object of the present invention is to provide a socket assembling apparatus which can be used for production and manufacture of a new socket product.

The embodiment of the invention is realized by the following steps:

an embodiment of the present invention provides a socket assembling apparatus including: the device comprises a rack, a conductive column assembly assembling mechanism, a robot mechanism, a material storage area, a socket assembling mechanism and a control system;

the conductive column assembly assembling mechanism is arranged at the front part of the rack according to working procedures, the material storage area is arranged at the middle part of the rack, the socket assembling mechanism is arranged at the rear part of the rack, and the robot mechanism is erected at one side of the rack and is used for clamping and conveying the assembled conductive column assembly from the conductive column assembly assembling mechanism to the material storage area or the socket assembling mechanism; or, the conductive column assembly is used for clamping and conveying the assembled conductive column assembly from the storage area to the socket assembling mechanism;

the socket assembling mechanism is used for assembling the assembled conductive column assembly, the front cover and the base into a socket product;

the control system can control the conductive column assembly assembling mechanism, the robot mechanism and the socket assembling mechanism to work or stop.

In addition, the socket assembling device provided by the embodiment of the invention can also have the following additional technical characteristics:

in an optional embodiment of the present invention, the conductive pillar assembly assembling mechanism includes: the automatic riveting machine comprises a rack, a first rotary table mechanism, and a rear cover feeding station, a conductive post pressing station, an insulating cap feeding pressing station, a turning station, a self-riveting nut feeding pressing station and an unloading station which are sequentially arranged on the rack along the circumferential direction of the first rotary table mechanism;

the first rotary table mechanism is provided with a plurality of tool positions and a plurality of conductive column assembly tools, one conductive column assembly tool is installed at each tool position, and each conductive column assembly tool can rotate on the rack and sequentially passes through the rear cover feeding station, the conductive column pressing station, the insulating cap feeding pressing station, the overturning station, the self-riveting nut feeding pressing station and the unloading station and returns to the original position so as to perform circulating work.

In an optional embodiment of the present invention, the conductive pillar assembly fixture includes:

the base is provided with an accommodating cavity hole, an accommodating groove and a positioning bulge hole, the accommodating cavity hole is used for accommodating the flat sheet part of the conductive column in the vertical direction, the accommodating groove is used for accommodating the flat sheet part of the conductive column in the horizontal direction, and the positioning bulge hole is formed in the accommodating groove;

the horizontal positioning assembly comprises a positioning bracket and a positioning telescopic piece, the positioning bracket is arranged on the base and is positioned on one side of the accommodating groove, the positioning bracket is used for lifting the columnar part of the conductive column, the positioning telescopic piece comprises a first spring and a protruding column, the first spring is sleeved at one end of the protruding column and is telescopically arranged in the positioning protruding hole, one part of the protruding column extends out of the positioning protruding hole, and the protruding column is used for being clamped into the conductive column hole;

the base is provided with clamping grooves which are positioned at two sides of the accommodating groove, the length direction of each clamping groove is the same as the axial direction of the corresponding positioning protruding hole, and the positioning telescopic piece further comprises a limiting pin which is arranged on the protruding columns in a penetrating mode and can slide in the clamping grooves along the length direction of the clamping grooves;

the base includes spacing bedplate and support pedestal, hold the accent hold the holding tank with protruding hole in location all sets up support the pedestal, support the pedestal with spacing bedplate is connected, support the pedestal and be in the axial projected area who holds the accent is less than spacing bedplate is in equidirectional projected area, the location bracket set up in spacing bedplate.

In an optional embodiment of the present invention, the conductive pillar feeding station includes a conductive pillar supporting platform, a conductive pillar clamping jaw and a first detection camera, the conductive pillar supporting platform is disposed on the rack and is capable of receiving an externally supplied conductive pillar, the conductive pillar clamping jaw is disposed on the rack and is capable of clamping and transferring the conductive pillar on the conductive pillar supporting platform into the accommodating cavity, and the first detection camera is disposed on the rack and is capable of detecting a front side and a back side of the conductive pillar before the conductive pillar is placed into the accommodating cavity; the conductive post pressing station comprises a rear cover pressing power cylinder, and the rear cover pressing power cylinder is arranged on the rack and is used for pressing the conductive posts and the rear cover which are placed in the accommodating cavity; the insulating cap feeding and pressing station comprises an insulating cap feeding mechanism and an insulating cap pressing mechanism, the insulating cap feeding mechanism comprises an insulating cap feeding disc and an insulating cap feeding rail, the insulating cap feeding disc is erected on the side face of the rack and can convey an insulating cap to the tail end of the insulating cap feeding rail, and the insulating cap pressing mechanism is arranged on the rack and can press the insulating cap to the end of the cylindrical part of the conductive column at the tail end of the insulating cap feeding rail.

In an optional embodiment of the invention, the self-riveting nut feeding and pressing station comprises a self-riveting nut feeding mechanism, the self-riveting nut feeding mechanism comprises a self-riveting nut feeding tray, a self-riveting nut feeding track and a self-riveting nut discharging mechanism, the self-riveting nut feeding tray is erected on the side surface of the rack and can convey self-riveting nuts to the tail ends of the self-riveting nut feeding track, and the self-riveting nut discharging mechanism can clamp self-riveting nuts at the tail ends of the self-riveting nut feeding track and discharge the self-riveting nuts to the positions of the protruding columns; the self-riveting nut feeding and pressing station further comprises a self-riveting nut pressing mechanism, the self-riveting nut pressing mechanism comprises a pressing power part and a pressing platform, the pressing platform is connected to one side of the bottom of the limiting seat plate, the pressing power part is located on the side of the self-riveting nut, and the pressing power part can press downwards and enable the self-riveting nut to be pressed on the flat sheet part.

In an alternative embodiment of the present invention, the socket assembling mechanism includes: the second turntable mechanism, the base feeding mechanism, the base assembling mechanism and the discharging platform mechanism;

the second turntable mechanism includes: disk body, casing equipment frock and rotary mechanism, rotary mechanism with the disk body transmission is connected and can make the disk body uses self center pin as the rotation of axes, casing equipment frock set up in the disk body just can follow the disk body motion loops through base feed mechanism robot mechanism base equipment mechanism with unload platform mechanism and each mechanism and carry out work separately in proper order.

In an optional embodiment of the present invention, the housing assembling tool includes:

the middle part of the carrier main body is provided with a step accommodating groove which is a base groove and a front cover groove from top to bottom, the projection of the carrier main body in the vertical direction is square, and four corners of the carrier main body are provided with buffer mounting through holes;

the positioning columns are distributed on the upper surface of the carrier main body and are positioned around the base groove;

a front cover carrier disposed within the front cover slot;

the second buffer assembly comprises a guide pillar, a buffer spring and a shaft sleeve, the buffer spring is sleeved on the guide pillar, the shaft sleeve is installed at one end of the guide pillar, the guide pillar slidably penetrates through the buffer installation through hole through the shaft sleeve, and the buffer spring is compressed by the guide pillar and the lower surface of the carrier main body.

In an alternative embodiment of the present invention, the base assembling mechanism includes: the assembling mechanism comprises an assembling mechanism main body support, an upper pressing component, a lower pressing component and a sliding platform, wherein the sliding platform is installed on the rack, the assembling mechanism main body support is installed on the sliding platform, and the upper pressing component and the lower pressing component are installed on the assembling mechanism main body support and are respectively positioned on the upper side and the lower side of the disc body;

when the tray body runs in place, the sliding platform extends out to support the carrier main body; the control system controls the upper crimping assembly to press the conductive column assembly into the base, and the lower crimping assembly presses the front cover into the base.

In an alternative embodiment of the invention, the robot mechanism comprises a discharge manipulator and a gripping jaw;

grab the material clamping jaw and be used for centre gripping article, grab the material clamping jaw connect in unload the manipulator and can follow it removes to unload the manipulator.

In an alternative embodiment of the invention, the magazine comprises: the support main part, prevent slow-witted ring and defective products and get rid of the groove, the support main part erects in the frame, the support main part has and leads electrical pillar storage tank, every the notch that leads electrical pillar storage tank is equipped with prevent slow-witted ring, the defective products is got rid of the groove and is erect and locate the frame just is located one side of support main part.

The invention has the beneficial effects that:

socket equipment carries out the equipment of leading electrical pillar subassembly through leading electrical pillar subassembly assembly devices, then transfer the electrical pillar subassembly to the storage area or socket equipment mechanism through robot mechanism, rethread socket equipment mechanism comes the electrical pillar subassembly and forms final socket product with protecgulum and base (base) pressfitting together, the production needs of socket product have been satisfied, and in the assembling process of leading electrical pillar subassembly and socket product, be equipped with multichannel detection gate, the convenient defective products that in time discharges, be favorable to the smooth completion of production.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a socket assembly apparatus provided by an embodiment of the present invention;

FIG. 2 is an isometric view of the conductive column assembly mechanism of the present invention from a first perspective;

FIG. 3 is an isometric view of the conductive column assembly mechanism of the present invention from a second perspective;

FIG. 4 is a top view of the conductive post assembly mechanism of the present invention;

fig. 5 is an isometric view of a conductive post assembly tool provided by an embodiment of the present invention;

FIG. 6 is a first top view of FIG. 5;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 6;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 6;

FIG. 9 is a second top view of FIG. 5;

FIG. 10 is a cross-sectional view taken along line C-C of FIG. 9;

FIG. 11 is a side view of FIG. 5;

FIG. 12 is a schematic view of a back cover loading station;

fig. 13 is a schematic view of a conductive post feeding station;

FIG. 14 is a schematic view of an insulation cap loading and pressing station;

FIG. 15 is a schematic view of the flipping station;

FIG. 16 is a schematic view of a self-clinching nut feed mechanism;

FIG. 17 is a schematic view of a self-clinching nut pressing mechanism;

FIG. 18 is a schematic view of a discharge station;

FIG. 19 is a schematic view of a robotic mechanism;

FIG. 20 is a schematic view of a holding area;

FIG. 21 is a schematic view of a socket assembly mechanism;

FIG. 22 is a schematic view of the second turntable mechanism of FIG. 21;

FIG. 23 is an isometric view of the housing assembly tooling;

FIG. 24 is an exploded view of FIG. 23;

FIG. 25 is a schematic view of a tool positioning mechanism;

FIG. 26 is an exploded view of FIG. 25;

FIG. 27 is a schematic view of a base loading mechanism;

FIG. 28 is a schematic view of an assembly assist mechanism;

FIG. 29 is an exploded view of FIG. 28;

FIG. 30 is a schematic view of a base assembly mechanism;

FIG. 31 is a schematic view of a discharge platform mechanism;

FIG. 32 is a schematic view of a receptacle product;

fig. 33 is an exploded view of fig. 32.

Icon: 1000-socket assembly equipment; 1001-rack; 100-conductive pillar assembly mechanism; 110-a first turntable mechanism; 111-conductive post assembly tooling; 1111-a base; 11111-receiving cavity bore; 11112-holding tank; 11113-locating boss holes; 11114-card slot; 11115-limit seat board; 111151-mounting holes; 11116-support housing; 11121-positioning bracket; 111211-bracket base; 111212-frame body; 11122-positioning telescoping member; 111221-a first spring; 111222-raised columns; 111223-limit pin; 1113-first buffer assembly; 11131-buffer rod; 11132-second spring; 120-a rear cover feeding station; 121-a lifting platform; 122-rear cover feeding claw; 130-conductive column feeding station; 131-a conductive pillar support; 132-conductive post jaws; 133-a first detection camera; 140-conductive post pressing station; 141-the rear cover presses the power cylinder; 150-insulating cap feeding and pressing station; 151-insulating cap feeding mechanism; 1511-charging tray of insulating cap; 1512-insulating cap feed track; 152-insulating cap pressing mechanism; 160-turnover station; 161-detection means; 162-horizontal movement track; 163-longitudinal movement track; 164-a rotating device; 170-self-riveting nut feeding and pressing station; 171-self-riveting nut feeding mechanism; 1711-feeding tray for self-riveting nut; 1712-self-riveting nut feeding track; 1713-a self-riveting nut discharging mechanism; 172-self-riveting nut pressing mechanism; 1721-pressing the power parts; 1722-a press-fit station; 180-a discharge station; 181-a discharge pressing mechanism; 1811-pressing arm; 182-a discharging turnover mechanism; 1821-flipping jaws; 200-a socket assembly mechanism; 210-a second carousel mechanism; 211-a tray body; 212-a housing assembly fixture; 2121-carrier body; 21211-base groove; 21212-front cover groove; 21213-buffer mounting through holes; 2122-locating columns; 21221-pin; 21222-positioning head; 2123-a front cover carrier; 2124-a second damping assembly; 21241-guide post; 21242-buffer springs; 21243-shaft sleeve; 213-a rotation mechanism; 214-a tool positioning mechanism; 2141-a positioning mechanism main body frame; 2142-a motive element; 2143-a sliding mechanism; 2144-sliding bearings; 2145-a positioning plate; 220-base feed mechanism; 221-a second detection camera; 222-a light source; 223-light curtain; 224-a manual feeding platform; 230-a base assembly mechanism; 231-assembling the mechanism body holder; 232-an upper crimping assembly; 233-lower crimp assembly; 234-a sliding platform; 240-a discharge platform mechanism; 241-a discharging hand; 242-defective cartridge; 243-flow channel; 244-kick-off cylinders; 250-an assembly aid mechanism; 251-an auxiliary mechanism support; 252-a cylinder; 253-indenter; 300-a robot mechanism; 310-a discharge manipulator; 320-material gripping jaws; 400-a storage area; 410-a stent body; 420-fool-proof ring; 430-defective product removal tank; 2000-outlet products; 2001-conductive posts; 20011-column section; 20012-disc portion; 20013-flat sheet portion; 2002-front cover; 2003-a base; 2004-self-clinching nuts; 2005-insulating cap; 2006-rear cover.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, the first feature may be present on or under the second feature in direct contact with the first and second feature, or may be present in the first and second feature not in direct contact but in contact with another feature between them. Also, the first feature being above, on or above the second feature includes the first feature being directly above and obliquely above the second feature, or merely means that the first feature is at a higher level than the second feature. A first feature that underlies, and underlies a second feature includes a first feature that is directly under and obliquely under a second feature, or simply means that the first feature is at a lesser level than the second feature.

It should be noted that, the contents of the structural components of the socket product shown in fig. 32 and 33 are already labeled in the background art, and are not additionally labeled in the embodiment.

Examples

Referring to fig. 1, the present embodiment provides a socket assembling apparatus 1000, including: the device comprises a rack 1001, a conductive column assembly assembling mechanism 100, a robot mechanism 300, a material storage area 400, a socket assembling mechanism 200 and a control system;

the conductive pillar assembly assembling mechanism 100 is arranged at the front part of the rack 1001 according to the process, the storage area 400 is arranged at the middle part of the rack 1001, the socket assembling mechanism 200 is arranged at the rear part of the rack 1001, and the robot mechanism 300 is arranged at one side of the rack 1001 and is used for clamping and conveying the assembled conductive pillar assembly from the conductive pillar assembly assembling mechanism 100 to the storage area 400 or the socket assembling mechanism 200; alternatively, the device is configured to pinch the assembled conductive pillar assembly from the magazine 400 to the socket assembling mechanism 200;

the socket assembling mechanism 200 is used for assembling the assembled conductive column assembly, the front cover and the base into a socket product;

the control system can control the operation or stop of the conductive column assembly assembling mechanism 100, the robot mechanism 300, and the socket assembling mechanism 200.

Wherein, the control system adopts a PLC system. The PLC system may be installed in a space inside the rack 1001 or may be installed elsewhere and transmit commands through a wire.

Referring to fig. 2 to 11, the conductive pillar assembly assembling mechanism 100 includes: the first turntable mechanism 110 and the rear cover loading station 120, the conductive column loading station 130, the conductive column pressing station 140, the insulating cap loading pressing station 150, the overturning station 160, the self-riveting nut loading pressing station 170 and the unloading station 180 which are sequentially arranged on the rack 1001 along the circumferential direction of the first turntable mechanism 110;

the first rotating disc mechanism 110 has a plurality of tool positions and a plurality of conductive post assembly tools 111, each tool position is provided with one conductive post assembly tool 111, and each conductive post assembly tool 111 can rotate on the rack 1001 and sequentially passes through the rear cover feeding station 120, the conductive post feeding station 130, the conductive post pressing station 140, the insulating cap feeding pressing station 150, the overturning station 160, the self-clinching nut feeding pressing station 170 and the unloading station 180, and returns to the original position so as to perform cycle work.

Referring to fig. 5 to 11, the conductive post assembly tooling 111 includes:

the base 1111, the base 1111 has the accommodation cavity 11111, the accommodation groove 11112 and the positioning protrusion 11113, the accommodation cavity 11111 is used for accommodating the flat sheet part of the conductive post in the vertical direction, the accommodation groove 11112 is used for accommodating the flat sheet part of the conductive post in the horizontal direction, and the positioning protrusion 11113 is opened in the accommodation groove 11112;

the horizontal positioning assembly comprises a positioning bracket 11121 and a positioning telescopic piece 11122, the positioning bracket 11121 is arranged on the base 1111 and is positioned on one side of the accommodating groove 11112, the positioning bracket 11121 is used for lifting the columnar part of the conductive column, the positioning telescopic piece 11122 comprises a first spring 111221 and a protrusion column 111222, the first spring 111221 is sleeved on one end of the protrusion column 111222 and is telescopically arranged in the positioning protrusion hole 11113, one part of the protrusion column 111222 extends out of the positioning protrusion hole 11113, and the protrusion column 111222 is used for being clamped into the conductive column hole;

the base 1111 has a slot 11114, the slot 11114 is located at two sides of the receiving slot 11112, the length direction of the slot 11114 is the same as the axial direction of the positioning protrusion hole 11113, the positioning expansion piece 11122 further includes a limit pin 111223, the limit pin 111223 is inserted into the protrusion post 111222 and can slide in the slot 11114 along the length direction of the slot 11114;

base 1111 includes spacing bedplate 11115 and support pedestal 11116, holds the housing hole 11111, holding tank 11112 and fixes a position protruding hole 11113 and all sets up in support pedestal 11116, and support pedestal 11116 is connected with spacing bedplate 11115, and support pedestal 11116 is less than spacing bedplate 11115 at the syntropy's of spacing bedplate 11115 in the axial projection area who holds housing hole 11111, and location bracket 11121 sets up in spacing bedplate 11115.

In detail, the limiting seat plate 11115 is provided with a mounting hole 111151, the conductive pillar assembly tooling 111 further includes a first buffering assembly 1113, the first buffering assembly 1113 includes a buffering rod 11131 and a second spring 11132, the buffering rod 11131 penetrates through the mounting hole 111151, and the second spring 11132 is sleeved on the buffering rod 11131 and compressed between one end of the buffering rod 11131 and the limiting seat plate 11115. In more detail, the number of the first buffer assemblies 1113 is four, the limiting seat plate 11115 is in a square plate shape, four corners of the limiting seat plate 11115 are provided with mounting holes 111151, and each mounting hole 111151 is provided with one group of the first buffer assemblies 1113. Specifically, the positioning bracket 11121 includes a bracket base 111211 and a rack body 111212, wherein the rack body 111212 is erected on the bracket base 111211, and the bracket base 111211 is connected to the limiting seat plate 11115. In detail, the frame 111212 is M-shaped. More specifically, the contour of the middle portion of the M-shaped frame 111212 matches the outer peripheral contour of the columnar portion of the conductive post. Specifically, a part of the protrusion 111222 protruding out of the positioning protrusion hole 11113 has a nut support portion, and the outer shape of the nut support portion is matched with the inner surface shape of the self-clinching nut. The width of the accommodating groove 11112 is adapted to the width of the flat part of the conductive post.

Specifically, referring to fig. 12, the rear cover loading station 120 includes a lifting table 121 and a rear cover loading claw 122, the lifting table 121 is disposed on the frame 1001 and is used for receiving an externally supplied rear cover, and the rear cover loading claw 122 is disposed on the frame 1001 and is capable of clamping and placing the rear cover lifted by the lifting table 121 into the accommodating cavity 11111. The lifting of the lifting platform 121 itself can be realized by the cylinder 252 or an electric cylinder, and the feeding tray for supplying the back cover can refer to a common feeding tray in the prior art. The rear cover feeding claw 122 can move up and down, left and right by means of the longitudinal and horizontal rail matching of the rear cover feeding claw, so that the rear cover can be clamped and placed in the accommodating cavity hole 11111 conveniently. The rails in the longitudinal and horizontal directions are conventional structures, and are not described herein. Similarly, the various rails mentioned below are all embodied in the motion rail in the prior art, and are not described in detail.

Specifically, referring to fig. 13 to 14, the conductive pillar loading station 130 includes a conductive pillar supporting platform 131, a conductive pillar clamping jaw 132 and a first detecting camera 133, the conductive pillar supporting platform 131 is disposed on the rack 1001 and can receive an externally supplied conductive pillar, the conductive pillar clamping jaw 132 is disposed on the rack 1001 and can clamp and transfer the conductive pillar on the conductive pillar supporting platform 131 to the accommodating cavity 11111, and the first detecting camera 133 is disposed on the rack 1001 and can detect the front and the back of the conductive pillar before the conductive pillar is placed in the accommodating cavity 11111; the conductive post pressing station 140 includes a rear cover pressing power cylinder 141, and the rear cover pressing power cylinder 141 is disposed on the rack 1001 and is configured to press the conductive posts and the rear cover placed in the accommodating cavity 11111; insulating cap material loading pressfitting station 150 includes insulating cap feed mechanism 151 and insulating cap pressfitting mechanism 152, and insulating cap feed mechanism 151 includes insulating cap material loading tray 1511 and insulating cap material loading track 1512, and insulating cap material loading tray 1511 erects in frame 1001 side and can carry the insulating cap to the end of insulating cap material loading track 1512, and insulating cap pressfitting mechanism 152 sets up in frame 1001 and can be at the end of insulating cap material loading track 1512 with the insulating cap pressfitting to the tip of leading the column portion of electrical pillar. The conductive pillar support 131 functions similarly to the lift table 121, and the conductive pillar clamping jaw 132 also functions similarly to the back cover feeding jaw 122, and the specific jaw shape is different due to different clamping objects. The insulation cap pressing mechanism 152 may refer to a general pressing mechanism.

Specifically, referring to fig. 15, the flipping station 160 includes a detecting device 161, a horizontal moving rail 162, a longitudinal moving rail 163, and a rotating device 164, the detecting device 161 is erected on the turntable mechanism, the detecting device 161 can emit a light beam to the pillar portion of the conductive pillar, the light beam passing through the fine hole has a correct position and cannot pass through the fine hole, the rotating device 164 can clamp the conductive pillar pressed on the insulating cap, the longitudinal moving rail 163 is used to lift the conductive pillar, the horizontal moving rail 162 is connected to the longitudinal moving rail 163, the horizontal moving rail 162 is erected on the rack 1001 and can move the conductive pillar in the horizontal direction, the rotating device 164 directly rotates the conductive pillar from vertical to horizontal when the position is correct and places the flat portion into the receiving groove 11112 and the protruding pillar 111222 to penetrate into the conductive pillar hole, when the position is incorrect, the rotating device 164 rotates the conductive pillar to the correct position in the vertical direction, the horizontal moving rail 162, the longitudinal moving rail 163 and the rotating means 164 are operated again in the steps when the positions are correct.

Specifically, referring to fig. 16 to 17, the self-riveting nut feeding and pressing station 170 includes a self-riveting nut feeding mechanism 171, the self-riveting nut feeding mechanism 171 includes a self-riveting nut feeding tray 1711, a self-riveting nut feeding rail 1712 and a self-riveting nut discharging mechanism 1713, the self-riveting nut feeding tray 1711 is erected on the side surface of the rack 1001 and can convey self-riveting nuts to the tail end of the self-riveting nut feeding rail 1712, and the self-riveting nut discharging mechanism 1713 can clamp self-riveting nuts at the tail end of the self-riveting nut feeding rail 1712 and place the self-riveting nuts at the positions of the protruding columns 111222; the self-riveting nut feeding and pressing station 170 further comprises a self-riveting nut pressing mechanism 172, the self-riveting nut pressing mechanism 172 comprises a pressing power part 1721 and a pressing table 1722, the pressing table 1722 is connected to one side of the bottom of the limiting seat plate 11115, the pressing power part 1721 is located on the side where the self-riveting nut is located, and the pressing power part 1721 can press downwards and enable the self-riveting nut to be pressed on the flat plate portion.

Specifically, referring to fig. 18, the unloading station 180 includes an unloading pressing mechanism 181 and an unloading turnover mechanism 182, the unloading pressing mechanism 181 is disposed on the turntable mechanism, the unloading pressing mechanism 181 includes a pressing arm 1811, the unloading turnover mechanism 182 is disposed on the rack 1001, and the unloading turnover mechanism 182 includes a turnover clamping jaw 1821;

during discharging, the pressing arm 1811 presses the stopper pin 111223 to separate the protruding pillar 111222 from the conductive pillar hole, and the flipping claw 1821 clamps the pillar portion of the conductive pillar and separates the assembled conductive pillar assembly from the conductive pillar assembly fixture 111.

Referring to fig. 21 to 31, the socket assembling mechanism 200 includes: a second turntable mechanism 210, a base feeding mechanism 220, a base assembling mechanism 230 and a discharging platform mechanism 240;

the second turntable mechanism 210 includes: disk body 211, casing equipment frock 212 and rotary mechanism 213, rotary mechanism 213 is connected with disk body 211 transmission and can make disk body 211 use self center pin to rotate as the axle, and casing equipment frock 212 sets up in disk body 211 and can follow disk body 211 motion, and loops through base feed mechanism 220 the robot mechanism 300 base equipment mechanism 230 with each mechanism carries out work separately in proper order.

As shown in fig. 23 and 24, the housing assembling tool 212 includes:

a carrier body 2121, wherein a stepped accommodating groove 11112 is formed in the middle of the carrier body 2121, the stepped accommodating groove 11112 is a base groove 21211 and a front cover groove 21212 from top to bottom, the vertical projection of the carrier body 2121 is square, and buffer mounting through holes 21213 are formed at four corners of the carrier body 2121;

positioning posts 2122, positioning posts 2122 are distributed on the upper surface of carrier main body 2121 and located around base groove 21211;

a front cover carrier 2123, the front cover carrier 2123 disposed within the front cover slot 21212;

the second damping assembly 2124 and the second damping assembly 2124 comprise a guide post 21241, a damping spring 21242 and a bushing 21243, the damping spring 21242 is sleeved on the guide post 21241, the bushing 21243 is mounted at one end of the guide post 21241, the guide post 21241 is slidably inserted into the damping mounting through hole 21213 through the bushing 21243, and the damping spring 21242 is compressed by the guide post 21241 and the lower surface of the carrier body 2121. The compression of the damping spring 21242 by the guide post 21241 and the lower surface of the carrier body 2121 is intended to indicate the position of the damping spring 21242, and the actual compression of the damping spring 21242 is the bottom end portion of the carrier body 2121 and the guide post 21241.

Specifically, the carrier body 2121 has a positioning hole, the positioning post 2122 includes a pin 21221 and a positioning head 21222, the positioning head 21222 is connected to one end of the pin 21221, and the pin 21221 is inserted into the positioning hole. In detail, cutting along the radial direction of positioning post 2122, the cross-sectional dimension of positioning head 21222 is larger than that of prong 21221. In more detail, positioning post 2122 is divided into a first post and a second post, a circumferential surface of positioning head 21222 of the first post is a smooth curved surface, and a circumferential surface of the second post has a planar portion.

In this embodiment, the number of the first columns is two, and the number of the second columns is four. The two first columns are disposed at two opposite sides of the base groove 21211, and the four second columns are disposed at four corners of the base groove 21211. This effectively limits the base to the positioning area defined by six positioning posts 2122, preventing movement of the base.

Furthermore, the peripheral face of the positioning head 21222 of the two first cylinders is smooth, so that the peripheral face of the positioning head 21222 and the edge of the base cannot be collided and damaged when the two first cylinders are pressed, the four corners of the base are in arc transition, and the plane part of the second cylinder can be better contacted with the four corners of the base, so that the situation that the four corners are clamped in place is avoided.

In this embodiment, the number of the front cover carriers 2123 is three, and instead of three, two front cover carriers 2123 may be provided (for example, two front cover carriers 2123 are required when manufacturing the product shown in fig. 32), which is determined according to actual production requirements. As the name implies, the front cover carrier 2123 is used to carry the front cover to be pressed. The front cover carrier 2123 is slidable in the front cover slot 21212 to facilitate the pressing of the front cover.

Specifically, the number of second bumper assemblies 2124 corresponds to the number of bumper mounting through-holes 21213, and each bumper mounting through-hole 21213 is provided with one second bumper assembly 2124.

In this embodiment, the number of the second damping members 2124 is four. The bottom end of the guide post 21241 is used to abut against the bearing mechanism, such as the output end of the air cylinder 252, so that during pressing, the whole carrier body 2121 is pressed down, the buffer spring 21242 is compressed, and after pressing, the carrier body 2121 can be restored by the restoring force of the buffer spring 21242. Through such design, can prevent to lead to power transmission to the carousel because of cylinder 252 leads to after the carrier for a long time to make the carousel warp and lead to whole equipment to become invalid.

As shown in fig. 25 and 26, the housing assembling tool 212 further includes a tool positioning mechanism 214, the tool positioning mechanism 214 includes a positioning mechanism main body frame 2141, a power element 2142, a sliding mechanism 2143, a sliding bearing 2144 and a positioning plate 2145, the power element 2142 is mounted on the positioning mechanism main body frame 2141, and an output end of the power element 2142 is connected to the sliding mechanism 2143, the sliding mechanism 2143 slidably penetrates through the positioning mechanism main body frame 2141 via the sliding bearing 2144, an end of the sliding mechanism 2143 away from the power element 2142 is connected to the positioning plate 2145, and the positioning plate 2145 is detachably connected to a side of the carrier main body 2121 not provided with the step receiving groove 11112. When the rotating mechanism 213 with an internal driving source of the second turntable mechanism 210 receives the PLC control signal and then brings the turntable of the second turntable mechanism 210 to rotate by 60 °, and when the turntable reaches a position, the tool positioning mechanism 214 ascends to support the lower surface of the carrier body 2121, and then each station starts to operate. After all station operations are completed, the tool positioning mechanism 214 descends and the next cycle is started.

As shown in fig. 27 to 29, the base feeding mechanism 220 includes a second detection camera 221, a light source 222, a light curtain 223 and a manual feeding platform 224, the manual feeding platform 224 is erected on the frame 1001, the light curtain 223 is erected on one end of the manual feeding platform 224, and the light source 222 and the second detection camera 221 are erected on the second turntable mechanism 210 but do not rotate and are located on one side of the manual feeding platform 224. After the turntable is in place, the worker sequentially puts the front cover and the base into the carrier body 2121 and presses the start switch. At the moment, the CCD system is activated to detect images. The detection content comprises the following steps: the base is placed positively and negatively, and whether waterproof rubber circle and the base of differentiateing whether compounding have or not correctly installed in base department. After the CCD outputs an OK signal, the turntable rotates to enter the next cycle; and if the defect occurs, alarming the operator through a buzzer in the PLC system and displaying the defect content on a display screen. The CCD system may refer to the existing detection system, and will not be described herein.

Except that the material loading detects, can also set up assembly complementary unit 250, assembly complementary unit 250 has included complementary unit support 251, cylinder 252 and pressure head 253, complementary unit support 251 installs in second carousel mechanism 210, cylinder 252 installs in complementary unit support 251, the output and the pressure head 253 of cylinder 252 are connected, assembly complementary unit 250 can carry out the pre-compaction before carrying out the equipment of protecgulum and base, prevent that the base from failing to place in place on casing assembly fixture 212, also place the waterproof rubber circle on the base and fail to install in place.

As shown in fig. 30, the base assembling mechanism 230 includes: the assembling mechanism comprises an assembling mechanism body support 231, an upper crimping component 232, a lower crimping component 233 and a sliding platform 234, wherein the sliding platform 234 is installed on a rack 1001, the assembling mechanism body support 231 is installed on the sliding platform 234, and the upper crimping component 232 and the lower crimping component 233 are installed on the assembling mechanism body support 231 and are respectively positioned on the upper side and the lower side of a disc body 211;

when the tray 211 is in place, the sliding platform 234 extends to support the carrier body 2121; the control system controls the upper crimp assembly 232 to press the conductive post assembly into the base and the lower crimp assembly 233 to press the front cover into the base.

As shown in fig. 31, the discharging platform mechanism 240 is mounted on the rack 1001, the discharging platform mechanism 240 includes a discharging hand 241, a defective product box 242, a flow channel 243, and a material shifting cylinder 244, the discharging hand 241 is used for clamping the assembled socket product from the housing assembly tool 212 into the flow channel 243 for transportation, and during transportation, the PLC system determines whether the socket product is a defective product according to various previous detection procedures. If the defective product is a good product, the defective product is transported to a production facility other than the socket assembling facility 1000, and if the defective product is a defective product, the defective product is driven into the defective product box 242 by the kick-out cylinder 244.

As shown in fig. 19, the robot mechanism 300 includes a discharging robot 310 and a grasping claw 320; the gripper jaws 320 are used for gripping an article, and the gripper jaws 320 are connected to the discharge robot 310 and can move with the discharge robot 310. The robot mechanism 300 may refer to a general robot arm for automated manufacturing, and will not be described in detail herein.

As shown in fig. 20, the magazine 400 includes: the rack comprises a rack main body 410, a fool-proof ring 420 and a defective product removing groove 430, wherein the rack main body 410 is erected on the rack 1001, the rack main body 410 is provided with a conductive column accommodating groove, a fool-proof ring 420 is arranged at a notch of each conductive column accommodating groove, and the defective product removing groove 430 is erected on the rack 1001 and located on one side of the rack main body 410. The storage area 400 is mainly used for storing good products, and a certain proportion of conductive pillar assemblies are manually placed in the storage area 400 in advance. When the conductive pillar assembly assembling mechanism 100 is stopped due to a fault, the material grabbing clamping jaws 320 directly extract products from the material storage area 400, and it is ensured that the rear equipment is not stopped. On the contrary, if the socket assembling mechanism 200 encounters a problem, the conductive pillar assembly assembling mechanism 100 may also continuously place the product into the storage area 400, thereby ensuring the efficiency of the equipment.

The principle of the embodiment is as follows:

during the assembly of the conductive post assembly, it is typical to: 1. firstly, feeding a rear cover; 2. conducting column feeding; 3. conducting post pressing; 4. feeding and pressing the insulating cap; 5. feeding and pressing the self-riveting nut; 6. and (6) discharging.

In the rear cover feeding step, the rear cover is firstly placed in the accommodating cavity hole 11111, so that the cover hole and the square hole are completely overlapped. The rear cover is provided with a boss part, when the feeding is finished, the rear cover can emit light through the laser detection module, and the light is blocked, so that the correct placement is indicated. In the step of conducting the material loading, insert the flat piece portion of leading electrical pillar in the square hole to satisfy the location between back lid and the leading electrical pillar, make things convenient for the pressfitting step of follow-up conducting electrical pillar and the pressfitting step of insulating cap. The detection camera can distinguish the positive and negative of placing of conducting pillar and judge whether the material that is gone up mixes in this step, avoids the material loading mistake. The structures and functions of the laser detection module and the detection camera can refer to the prior art, and are not described herein again.

The rear cover pressing power cylinder 141 can press the rear cover and the conductive posts, and the insulating cap pressing mechanism 152 can further press the insulating caps provided by the insulating cap feeding mechanism 151 on the conductive posts, because the base 1111 can have a good fixing effect on the conductive posts, the positions of the conductive posts cannot rotate reversely or deviate in the pressing step of the conductive posts and the pressing step of the insulating caps. After the insulating caps are bonded, the vertically disposed conductive posts and the bonded corresponding components need to be turned over together by the turning station 160, so that the conductive posts are horizontally disposed. At this time, the flat piece portion is placed in the accommodation groove 11112 and is restricted from moving in the width direction by the accommodation groove 11112. The column is placed on the shelf 111212 of the positioning bracket 11121 and is also restrained from moving loose. At this time, the rear cover is located between the frame 111212 and the receiving groove 11112, and has a receiving space. The bump 111222 now inserts into the conductive post hole, preventing the conductive post from moving in its axial direction. The subsequent self-riveting nut feeding and pressing steps are convenient to carry out. The nut support portion is shaped to fit the inner surface of the self-clinching nut so that the nut support portion does not interfere with the raised columns 111222 when the self-clinching nut is clinched. After the pressing process is completed, the stopper 111223 is pressed, so that the protruding pillar 111222 overcomes the resistance of the first spring 111221 and the assembled conductive pillar assembly can be removed. The protrusion column 111222 can be restored to its original position by the restoring force of the first spring 111221.

In the above multiple press-fitting processes, the first buffer component 1113 can provide a buffer force, so as to prevent the turntable of the assembly mechanism where the conductive column component tooling 111 is located from deforming in a long-term working process. The stopper seat plate 11115 can prevent the uneven distribution of the force of the second spring 11132.

After the self-clinching nut pressfitting ends, press through the press mechanism 181 of unloading, then will lead the column portion centre gripping of electrical pillar through upset clamping jaw 1821, after the centre gripping, upset clamping jaw 1821 upwards overturns for it leaves to lead electrical pillar subassembly frock 111 and leave carousel mechanism place region to lead electrical pillar subassembly, then can be through the mode of manual work or arm with the equipment completion lead electrical pillar subassembly and move and send next operating position, for example assembly position or storage position. In this embodiment, it is that robot mechanism 300 unloads, and after robot mechanism 300 received the non-defective products signal that the PLC system sent, move to the product top through 4 shaft linkages of its self, utilize to grab material clamping jaw 320 and grab the conductive column subassembly and break away from conductive column subassembly frock 111 of conductive column subassembly assembly mechanism 100, then move to relevant position according to the concrete order of PLC system issue and place (in the casing equipment frock 212 on storage area 400 or socket assembly mechanism 200).

When the robot mechanism 300 receives a defective product signal sent by the PLC system, the defective product signal is directly brought into the defective product discharge groove 430 by the material grabbing clamping jaw 320 for placement, and the defective product slides into the collection box in the case through the guide pipe in the discharge groove and is taken away by staff for classification.

When leading electrical pillar assembly devices 100 or socket equipment mechanism 200 and damaging the back, storage area 400 can play the cushioning effect as a transfer station, guarantees that equipment does not shut down to guarantee its whole efficiency of equipment.

During the assembly of the housing, it is typical that: 1. feeding the front cover and the base; 2. feeding the conductive column assembly; 3. the front cover and the base are pressed; 4. and (6) discharging.

In the step of loading the front cover and the base, the front cover is placed into the front cover carrier 2123, and the base is placed into the base groove 21211, so that the front cover can be positioned by the cylindrical surface of the front cover carrier 2123 through the front cover carrier 2123, and the base can be positioned by the cooperation of the base groove 21211 and the positioning posts 2122. Thereby providing a material foundation and a positioning foundation for subsequent pressing. After the material loading of protecgulum and base is accomplished, can detect protecgulum and base, confirm whether the just anti-compliance of base to see whether the rubber circle that drains that needs the configuration on the base has the correct installation, confirm again that the base has the compounding. After the detection and the uniform regulation, the conductive column assembly is put in, and the columnar part of the conductive column in the conductive column assembly is put in the front cover. The control system then controls the upper crimp assembly 232 to press the conductive post assembly into the base and the lower crimp assembly 233 to press the front cover into the base.

According to the socket assembling equipment 1000, the conductive column assembly is assembled through the conductive column assembly assembling mechanism 100, then the conductive column assembly is transferred to the storage area 400 or the socket assembling mechanism 200 through the robot mechanism 300, and then the conductive column assembly, the front cover and the base (base) are pressed together through the socket assembling mechanism 200 to form a final socket product, so that the production requirements of the socket product are met, and in the assembling process of the conductive column assembly and the socket product, a plurality of detection gates are arranged, so that defective products are conveniently and timely discharged, and smooth completion of production is facilitated.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A socket assembly apparatus, comprising: the device comprises a rack, a conductive column assembly assembling mechanism, a robot mechanism, a material storage area, a socket assembling mechanism and a control system;

the conductive column assembly assembling mechanism is arranged at the front part of the rack according to working procedures, the material storage area is arranged at the middle part of the rack, the socket assembling mechanism is arranged at the rear part of the rack, and the robot mechanism is erected at one side of the rack and is used for clamping and conveying the assembled conductive column assembly from the conductive column assembly assembling mechanism to the material storage area or the socket assembling mechanism; or, the conductive column assembly is used for clamping and conveying the assembled conductive column assembly from the storage area to the socket assembling mechanism;

the socket assembling mechanism is used for assembling the assembled conductive column assembly, the front cover and the base into a socket product;

the control system can control the conductive column assembly assembling mechanism, the robot mechanism and the socket assembling mechanism to work or stop;

lead electrical pillar subassembly assembly devices and include: the device comprises a first rotary table mechanism, and a rear cover feeding station, a conductive post pressing station, an insulating cap feeding pressing station, a turning station, a self-riveting nut feeding pressing station and an unloading station which are sequentially arranged on the rack along the circumferential direction of the first rotary table mechanism;

the first rotary table mechanism is provided with a plurality of tool positions and a plurality of conductive post assembly tools, each tool position is provided with one conductive post assembly tool, and each conductive post assembly tool can rotate on the rack and sequentially passes through the rear cover feeding station, the conductive post pressing station, the insulating cap feeding pressing station, the overturning station, the self-riveting nut feeding pressing station and the unloading station and returns to the original position so as to perform circulating work;

lead electrical pillar subassembly frock includes:

the base is provided with an accommodating cavity hole, an accommodating groove and a positioning bulge hole, the accommodating cavity hole is used for accommodating the flat sheet part of the conductive column in the vertical direction, the accommodating groove is used for accommodating the flat sheet part of the conductive column in the horizontal direction, and the positioning bulge hole is formed in the accommodating groove;

the horizontal positioning assembly comprises a positioning bracket and a positioning telescopic piece, the positioning bracket is arranged on the base and is positioned on one side of the accommodating groove, the positioning bracket is used for lifting the columnar part of the conductive column, the positioning telescopic piece comprises a first spring and a protruding column, the first spring is sleeved at one end of the protruding column and is telescopically arranged in the positioning protruding hole, one part of the protruding column extends out of the positioning protruding hole, and the protruding column is used for being clamped into the conductive column hole;

the base is provided with clamping grooves which are positioned at two sides of the accommodating groove, the length direction of each clamping groove is the same as the axial direction of the corresponding positioning protruding hole, and the positioning telescopic piece further comprises a limiting pin which is arranged on the protruding columns in a penetrating mode and can slide in the clamping grooves along the length direction of the clamping grooves;

the base includes spacing bedplate and support pedestal, hold the accent hold the holding tank with protruding hole in location all sets up support the pedestal, support the pedestal with spacing bedplate is connected, support the pedestal and be in the axial projected area who holds the accent is less than spacing bedplate is in equidirectional projected area, the location bracket set up in spacing bedplate.

2. The socket assembling apparatus according to claim 1, wherein the conductive pillar loading station includes a conductive pillar support platform, a conductive pillar clamping jaw and a first detection camera, the conductive pillar support platform is disposed on the rack and is capable of receiving an externally supplied conductive pillar, the conductive pillar clamping jaw is disposed on the rack and is capable of clamping and transferring the conductive pillar on the conductive pillar support platform into the accommodating cavity, and the first detection camera is disposed on the rack and is capable of detecting a front side and a back side of the conductive pillar before the conductive pillar is placed into the accommodating cavity; the conductive post pressing station comprises a rear cover pressing power cylinder, and the rear cover pressing power cylinder is arranged on the rack and is used for pressing the conductive posts and the rear cover which are placed in the accommodating cavity; the insulating cap feeding and pressing station comprises an insulating cap feeding mechanism and an insulating cap pressing mechanism, the insulating cap feeding mechanism comprises an insulating cap feeding disc and an insulating cap feeding rail, the insulating cap feeding disc is erected on the side face of the rack and can convey an insulating cap to the tail end of the insulating cap feeding rail, and the insulating cap pressing mechanism is arranged on the rack and can press the insulating cap to the end of the cylindrical part of the conductive column at the tail end of the insulating cap feeding rail.

3. The socket assembling equipment according to claim 1, wherein the self-riveting nut feeding and pressing station comprises a self-riveting nut feeding mechanism, the self-riveting nut feeding mechanism comprises a self-riveting nut feeding tray, a self-riveting nut feeding rail and a self-riveting nut discharging mechanism, the self-riveting nut feeding tray is erected on the side face of the rack and can convey self-riveting nuts to the tail end of the self-riveting nut feeding rail, and the self-riveting nut discharging mechanism can clamp the self-riveting nuts at the tail end of the self-riveting nut feeding rail and discharge the self-riveting nuts to the positions of the protruding columns; the self-riveting nut feeding and pressing station further comprises a self-riveting nut pressing mechanism, the self-riveting nut pressing mechanism comprises a pressing power part and a pressing platform, the pressing platform is connected to one side of the bottom of the limiting seat plate, the pressing power part is located on the side of the self-riveting nut, and the pressing power part can press downwards and enable the self-riveting nut to be pressed on the flat sheet part.

4. The socket assembling apparatus according to claim 1, wherein the socket assembling mechanism comprises: the second turntable mechanism, the base feeding mechanism, the base assembling mechanism and the discharging platform mechanism;

the second turntable mechanism includes: disk body, casing equipment frock and rotary mechanism, rotary mechanism with the disk body transmission is connected and can make the disk body uses self center pin as the rotation of axes, casing equipment frock set up in the disk body just can follow the disk body motion loops through base feed mechanism robot mechanism base equipment mechanism with unload platform mechanism and each mechanism and carry out work separately in proper order.

5. The socket assembling apparatus according to claim 4, wherein the housing assembling tool includes:

the middle part of the carrier main body is provided with a step accommodating groove which is a base groove and a front cover groove from top to bottom, the projection of the carrier main body in the vertical direction is square, and four corners of the carrier main body are provided with buffer mounting through holes;

the positioning columns are distributed on the upper surface of the carrier main body and are positioned around the base groove;

a front cover carrier disposed within the front cover slot;

the second buffer assembly comprises a guide pillar, a buffer spring and a shaft sleeve, the buffer spring is sleeved on the guide pillar, the shaft sleeve is installed at one end of the guide pillar, the guide pillar slidably penetrates through the buffer installation through hole through the shaft sleeve, and the buffer spring is compressed by the guide pillar and the lower surface of the carrier main body.

6. The socket assembling apparatus according to claim 5, wherein said base assembling mechanism comprises: the assembling mechanism comprises an assembling mechanism main body support, an upper pressing component, a lower pressing component and a sliding platform, wherein the sliding platform is installed on the rack, the assembling mechanism main body support is installed on the sliding platform, and the upper pressing component and the lower pressing component are installed on the assembling mechanism main body support and are respectively positioned on the upper side and the lower side of the disc body;

when the tray body runs in place, the sliding platform extends out to support the carrier main body; the control system controls the upper crimping assembly to press the conductive column assembly into the base, and the lower crimping assembly presses the front cover into the base.

7. The socket assembly device of claim 1 wherein the robotic mechanism comprises an unloading robot and a grasping jaw;

grab the material clamping jaw and be used for centre gripping article, grab the material clamping jaw connect in unload the manipulator and can follow it removes to unload the manipulator.

8. The socket assembly apparatus of claim 1, wherein the magazine comprises: the support main part, prevent slow-witted ring and defective products and get rid of the groove, the support main part erects in the frame, the support main part has and leads electrical pillar storage tank, every the notch that leads electrical pillar storage tank is equipped with prevent slow-witted ring, the defective products is got rid of the groove and is erect and locate the frame just is located one side of support main part.

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