CN212350281U - Full-automatic hinge riveting equipment for producing - Google Patents

Abstract

The utility model relates to a full-automatic hinge riveting assembly production device; the automatic riveting device comprises a feeding device, an orienting device, a clamping device, a crank riveting device, an oil cylinder positioning device and an oil cylinder riveting device which are sequentially arranged along a carrier track on a rack, wherein an oil dispensing device is arranged on one side opposite to the feeding device; the beneficial effects of the utility model embody: the independent correction procedures are respectively carried out on the product in each processing process through the feeding device, the orienting device, the crank riveting device, the oil cylinder positioning device and the oil cylinder riveting device on the rack, multiple correction orienting operations are adopted, so that the product can be kept in a high-precision matching state in each assembling and riveting procedure, the production precision is greatly improved, the production efficiency is effectively improved, the production cost is reduced, the production and the use are convenient, and the practicability is high.

Description

Full-automatic hinge riveting equipment for producing

Technical Field

The utility model relates to a technical field of hinge equipment refers in particular to a can automatic correction and accurate full-automatic hinge riveting equipment production facility in location.

Background

General hinge usually includes the process of assembling into the hinge main part with the cylinder subassembly, wherein the cylinder subassembly includes crank portion and hydro-cylinder portion, need respectively fix a position crank portion and hydro-cylinder portion in the assembling process, and install in the main part correspondingly, in traditional hinge assembling process, generally directly carry out the plastic location through the manual work to the cylinder subassembly, thereby assemble the cylinder subassembly in the hinge main part again, it is loaded down with trivial details through the manual process of assembling, lead to low in production efficiency, the assembly cycle is long, high in production cost, in order to improve production efficiency, mostly adopt automatic positioning's mode to assemble this subassembly at present, but current equipment can not carry out position automatic correction to the cylinder subassembly, make whole location effect poor, the accuracy is not high, its practicality is relatively poor, be not convenient for the production and use.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims at providing a hinge equipment, refer in particular to a can automatic correction and accurate full-automatic hinge riveting equipment production facility in location.

Realize above-mentioned purpose, the utility model discloses a technical scheme be: the full-automatic hinge riveting assembly production equipment comprises a rack, an oil dispensing device, a feeding device, an orienting device, a clamping device, a crank riveting device, an oil cylinder positioning device and an oil cylinder riveting device, wherein the rack is provided with a carrier track, the oil dispensing device, the feeding device, the orienting device, the clamping device, the crank riveting device, the oil cylinder positioning device and the oil cylinder riveting device are sequentially arranged on the rack along the feeding direction of the carrier track respectively, a material taking device is arranged between the feeding device and the orienting device, and the crank riveting device, the oil cylinder positioning device and the oil cylinder riveting device are all provided with riveting mechanisms.

Preferably, the oil dispensing device and the feeding device are oppositely and respectively arranged at two sides of the carrier track, the feeding device comprises a feeding rail, a pushing mechanism and a shaping mechanism, the pushing mechanism is arranged on the feeding rail, the pushing mechanism comprises an induction push plate and a position sensor, a positioning pin positioned at one side of the feeding rail is arranged between the induction push plate and the position sensor, the induction push plate is telescopically arranged in the feeding rail and is connected with a first driving transmission fixed on the feeding rail, the position sensor and the shaping mechanism are respectively arranged at the end part of a discharge port of the feeding rail, the shaping mechanism comprises an air cylinder and a push block, the air cylinder is obliquely arranged on the feeding rail at a certain included angle, the air cylinder is provided with a transmission shaft penetrating through the feeding rail, and the push block is arranged at the end part of the transmission shaft, and the crank part of the oil cylinder assembly is telescopically pushed along with the transmission shaft, the feeding rail is provided with a material channel compensation mechanism, and the material channel compensation mechanism is arranged below the shaping mechanism.

Preferably, the orientation device comprises a mounting seat, a rotating mechanism and a correcting mechanism, the mounting seat is fixedly mounted on the rack, the rotating mechanism is rotatably mounted on the mounting seat, the correcting mechanism is fixedly mounted on the rotating mechanism, the correcting mechanism comprises a correcting seat and a correcting clamp, and the correcting seat is respectively communicated with the negative pressure adsorption assembly.

Preferably, the clamping device comprises a support, a sliding mechanism and a clamping jaw, the support is fixedly mounted on the rack, the sliding mechanism is located above the carrier track and the orienting device, the sliding mechanism comprises a sliding rail fixedly mounted on the support and a sliding block slidably arranged on the sliding rail, the clamping jaw is mounted on the sliding block, and the clamping jaw is provided with a lifting drive.

Preferably, the crank riveting device includes a first rivet conveying mechanism, a first guiding mechanism and a pressing mechanism, the first rivet conveying mechanism and the first guiding mechanism are respectively and oppositely disposed on two sides of the carrier track, the pressing mechanism is obliquely disposed above the carrier track through a supporting frame fixed on the frame, the cylinder riveting device includes a second rivet conveying mechanism, a second guiding mechanism and a pressing and positioning mechanism, the second rivet conveying mechanism and the second guiding mechanism are respectively and oppositely disposed on two sides of the carrier track, and the pressing and positioning mechanism is disposed above the carrier track through a fixing frame fixed on the frame.

Preferably, the first rivet conveying mechanism and the second rivet conveying mechanism both comprise a material distribution assembly, a material pushing assembly and a guide assembly, the material distribution assembly comprises a material tray and a material distribution rail arranged on a material tray discharge port, the material pushing assembly comprises a fixing seat, a second drive, a push rod and a feeding block, the second drive and the feeding block are respectively arranged on the fixing seat at a certain interval, one end of the push rod is in transmission connection with the second drive, the other end of the push rod is telescopically inserted into the feeding block, the feeding block is connected with the material distribution rail through a pipe body, the guide assembly is fixedly arranged on the fixing seat, and the guide assembly is provided with a correction block.

Preferably, the first guide mechanism and the second guide mechanism 40 both include an installation table, a push block and a positioning guide mechanism, wherein one end of the push block is telescopically installed on the installation table through a bending arm, the other end of the push block is fixedly connected on the positioning guide mechanism, the positioning guide mechanism is slidably installed on the installation table through the push block and a guide rail, the positioning guide mechanism includes a positioning plate, a third drive and a plurality of guide pins, the third drive is installed on the positioning plate, and the plurality of guide pins are telescopically connected with the third drive in a transmission manner.

Preferably, the pressing mechanism comprises a sliding seat, a guide block and a pressing rod, the sliding seat is fixedly mounted on the support frame, the sliding seat is provided with a fourth drive, the fourth drive is provided with an output shaft, the guide block is slidably mounted on the sliding seat, the fourth drive is in transmission connection with the guide block through the output shaft, and the pressing rod is obliquely mounted on the end face, close to the carrier track, of the guide block.

Preferably, hydro-cylinder positioner includes the locating rack and selects to the mechanism with the rotation, the locating rack install in riveting mechanism top, the locating rack is provided with the mounting panel of slope, rotatory selection includes roating seat, rotation axis, servo motor and adsorption component to the mechanism, the roating seat through lead slider slidable install in on the guide rail of mounting panel, the roating seat be provided with close to in the orbital directional head of carrier, the rotation axis rotationally set up in on the roating seat, the rotation axis with servo motor passes through belt pulley transmission and connects, the rotation axis extends to in the directional head, the both sides of directional head are provided with the elastic locating pin respectively, adsorption component fixed mounting in on the riveting mechanism.

Preferably, the pressure is held positioning mechanism and is included from last fifth drive, transmission piece, sixth drive and the briquetting that sets gradually extremely down, fifth drive fixed mounting in on the mount, the transmission piece with but fifth drive interconnection with transmission ground to slidable ground card is located on the mount, sixth drive fixed mounting in on the transmission piece, the briquetting with but sixth drive interconnection with transmission ground, through the sixth drive makes the briquetting set up telescopically in the bottom of transmission piece.

The beneficial effects of the utility model embody: the utility model aims at providing a full-automatic hinge riveting equipment production facility, realize the bending that accords with the assembly requirement through plastic mechanism among the material feeding unit to the assembly part, carry out the integral rotation with the assembly part by orienting device, clamping device places it on the assembly part and realizes the assembly, and respectively by crank riveting device, location when hydro-cylinder positioner and hydro-cylinder riveting device realize each position riveting to the riveting in-process of subassembly, realize accurate assembly riveting, it adopts multiple correction orientation operation, make the product can all keep high accuracy cooperation state in each equipment and riveting process, the production precision has greatly been improved, and realize full-automatic production, effectively improve production efficiency, and the reduction in production cost, and convenient to use and production, therefore, the clothes hanger is strong in practicability.

Drawings

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

Fig. 2 is a schematic structural diagram of the oil dispensing device of the present invention.

Fig. 3 is a schematic structural diagram of the feeding device of the present invention.

Fig. 4 is a schematic structural diagram of the orientation device of the present invention.

Fig. 5 is a schematic structural view of the clamping device of the present invention.

Fig. 6 is a schematic structural view of the crank riveting device of the present invention.

Fig. 7 is a schematic structural diagram of the oil cylinder positioning device of the present invention.

Fig. 8 is a schematic structural diagram of the cylinder riveting device of the present invention.

Fig. 9 is a schematic structural diagram of the riveting mechanism of the present invention.

Fig. 10 is an enlarged schematic structural view of part a of the present invention.

Reference is made to the accompanying drawings in which:

1-a frame; 2-a point oil device; 3-a feeding device; 4-an orientation device; 5-a clamping device; 6-a crank riveting device; 7-oil cylinder positioning device; 8-oil cylinder riveting device; 9-a carrier track; 10-a material taking device; 11-a riveting mechanism; 12-a feeding rail; 13-a material pushing mechanism; 14-a shaping mechanism; 15-induction push plate; 16-a position sensor; 17-a positioning pin; 18-a first drive; 19-a cylinder; 20-a push block; 21-a transmission shaft; 22-a channel compensation mechanism; 23-a mounting seat; 24-a rotation mechanism; 25-a correction mechanism; 26-a correction seat; 27-a correction clip; 28-an adsorption component; 29-a scaffold; 30-a sliding mechanism; 31-a jaw; 32-a slide rail; 33-a slide block; 34-lifting driving; 35-a first rivet delivery mechanism; 36-a first guide mechanism; 37-a hold down mechanism; 38-a support frame; 39-a second rivet delivery mechanism; 40-a second guide mechanism; 41-pressing and holding positioning mechanism; 42-a fixing frame; 43-a material distribution assembly; 44-a pusher assembly; 45-a pilot assembly; 46-a tray; 47-a distribution rail; 48-a fixed seat; 49-second drive; 50-a push rod; 51-a feedblock; 52-a correction block; 53-mounting table; 54-an engagement block; 55-a positioning guide mechanism; 56-bending arm; 57-a positioning plate; 58-third drive; 59-a guide needle; 60-a sliding seat; 61-a guide block; 62-a pressure bar; 63-fourth drive; 64-an output shaft; 65-a positioning frame; 66-a rotary direction selecting mechanism; 67-a mounting plate; 68-a rotating base; 69-rotation axis; 70-a servo motor; 71-a guide rail; 72-a directional head; 73-a pulley; 74-a locating pin; 75-a fifth drive; 76-a transmission block; 77-sixth drive; 78-briquetting.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings:

as shown in fig. 1-10, a full-automatic hinge riveting assembly production apparatus includes a frame 1, an oil dispensing device 2, a feeding device 3, a positioning device 4, a clamping device 5, a crank riveting device 6, an oil cylinder positioning device 7, and an oil cylinder riveting device 8, wherein the frame 1 is provided with a carrier track 9, the oil dispensing device 2, the feeding device 3, the positioning device 4, the clamping device 5, the crank riveting device 6, the oil cylinder positioning device 7, and the oil cylinder riveting device 8 are sequentially arranged on the frame 1 along a feeding direction of the carrier track 9, respectively, a material taking device 10 is arranged between the feeding device 3 and the positioning device 4, and the crank riveting device 6, the oil cylinder positioning device 7, and the oil cylinder riveting device 8 are all provided with a riveting mechanism 11.

Preferably, the oil dispensing device 2 and the feeding device 3 are oppositely and respectively arranged on two sides of the carrier track 9, the feeding device 3 includes a feeding rail 12, a pushing mechanism 13 and a shaping mechanism 14, the pushing mechanism 13 is mounted on the feeding rail 12, the pushing mechanism 13 includes an induction push plate 15 and a position sensor 16, a positioning pin 17 located on one side of the feeding rail 12 is arranged between the induction push plate 15 and the position sensor 16, the induction push plate 15 is telescopically arranged in the feeding rail 12 and is in transmission connection with a first drive 18 fixed on the feeding rail 12, the position sensor 16 and the shaping mechanism 14 are respectively arranged on the end portion of the discharge port of the feeding rail 12, the shaping mechanism 14 includes a cylinder 19 and a push block 20, the cylinder 19 is obliquely mounted on the feeding rail 12 at a certain included angle, the cylinder 19 is provided with a transmission shaft 21 penetrating the feeding rail 12, the push block 20 is mounted at an end of the transmission shaft 21 and telescopically pushes a crank portion of the oil cylinder assembly along with the transmission shaft 21, the feeding rail 12 is provided with a material path compensation mechanism 22, and the material path compensation mechanism 22 is arranged below the shaping mechanism 14.

Preferably, the orienting device 4 is disposed at one side of the feeding device 3, the product is carried by the taking device 10, the orienting device 4 includes a mounting seat 23, a rotating mechanism 24 and a correcting mechanism 25, the mounting seat 23 is fixedly mounted on the frame 1, the rotating mechanism 24 is rotatably mounted on the mounting seat 23, the correcting mechanism 25 is fixedly mounted on the rotating mechanism 24, the correcting mechanism 25 includes a correcting seat 26 and a correcting clamp 27, and the correcting seat 26 is respectively communicated with the negative pressure adsorption component 28.

Preferably, the clamping device 5 includes a bracket 29, a sliding mechanism 30 and a clamping jaw 31, the bracket 29 is fixedly mounted on the frame 1, the sliding mechanism 30 is located above the carrier rail 9 and the orienting device 4, the sliding mechanism 30 includes a sliding rail 32 fixedly mounted on the bracket 29 and a sliding block 33 slidably disposed on the sliding rail 32, the clamping jaw 31 is mounted on the sliding block 33, and slides reciprocally over the carrier rail 9 and the orienting device 4 through the sliding block 33, and the clamping jaw 31 is provided with a lifting drive 34.

Preferably, the crank riveting device 6 includes a first rivet conveying mechanism 35, a first guiding mechanism 36 and a pressing mechanism 37, the first rivet conveying mechanism 35 and the first guiding mechanism 36 are respectively and oppositely disposed on two sides of the carrier track 9, the pressing mechanism 37 is obliquely disposed above the carrier track 9 through a supporting frame 38 fixed on the frame 1, the cylinder riveting device 8 includes a second rivet conveying mechanism 39, a second guiding mechanism 40 and a pressing and positioning mechanism 41, the second rivet conveying mechanism 39 and the second guiding mechanism 40 are respectively and oppositely disposed on two sides of the carrier track 9, and the pressing and positioning mechanism 41 is disposed above the carrier track 9 through a fixing frame 42 fixed on the frame 1.

Preferably, the first rivet conveying mechanism 35 and the second rivet conveying mechanism 39 both comprise a material distributing component 43, a material pushing component 44 and a guiding component 45, the distributing assembly 43 comprises a tray 46 and a distributing rail 47 arranged on a discharge port of the tray 46, the pushing assembly 44 comprises a fixed seat 48, a second driver 49, a push rod 50 and a feeding block 51, the second drive 49 and the feeding block 51 are respectively arranged on the fixed seat 48 at a certain interval, one end of the push rod 50 is connected with the second drive 49 in a transmission way, the other end is inserted into the feeding block 51 in a telescopic way, the feeding block 51 is connected with the distributing rail 47 through a pipe body, so that the pipe body blows rivets from the distributing rail 47, the guide assembly 45 is fixedly mounted on the fixed seat 48, and the guide assembly 45 is provided with a correcting block 52.

Preferably, each of the first guiding mechanism 36 and the second guiding mechanism 40 includes a mounting platform 53, an engaging block 54 and a positioning guiding mechanism 55, wherein one end of the engaging block 54 is telescopically mounted on the mounting platform 53 through a bending arm 56, the other end is fixedly connected to the positioning guiding mechanism 55, the positioning guiding mechanism 55 is slidably mounted on the mounting platform 53 through the engaging block 54 and a guide rail 71, the positioning guiding mechanism 55 includes a positioning plate 57, a third driver 58 and a plurality of guiding pins 59, the third driver 58 is mounted on the positioning plate 57, and the plurality of guiding pins 59 are telescopically drivingly connected with the third driver 58.

Preferably, the pressing mechanism 37 includes a sliding seat 60, a guide block 61 and a pressing rod 62, the sliding seat 60 is fixedly mounted on the supporting frame 38, the sliding seat 60 is provided with a fourth driving member 63, the fourth driving member 63 is provided with an output shaft 64, the guide block 61 is slidably mounted on the sliding seat 60, the fourth driving member 63 is drivingly connected with the guide block 61 through the output shaft 64, and the pressing rod 62 is obliquely mounted on an end surface of the guide block 61 close to the carrier rail 9.

Preferably, the cylinder positioning device 7 comprises a positioning frame 65 and a rotary direction selecting mechanism 66, the positioning frame 65 is installed above the riveting mechanism 11, the positioning frame 65 is provided with an inclined mounting plate 67, the rotary direction selecting mechanism 66 comprises a rotary seat 68, a rotary shaft 69, a servo motor 70 and an adsorption component 28, the rotary base 68 is slidably mounted on a guide rail 71 of the mounting plate 67 by means of a guide block, the rotary base 68 is provided with a directional head 72 close to the carrier rail 9, the rotary shaft 69 is rotatably provided on the rotary base 68, the rotating shaft 69 is in transmission connection with the servo motor 70 through a belt pulley 73, the rotating shaft 69 extends into the directional head 72, elastic positioning pins 74 are respectively arranged on two sides of the orientation head 72, and the adsorption component 28 is fixedly installed on the riveting mechanism 11.

Preferably, the pressing and positioning mechanism 41 includes a fifth driver 75, a transmission block 76, a sixth driver 77 and a pressing block 78 sequentially arranged from top to bottom, the fifth driver 75 is fixedly installed on the fixing frame 42, the transmission block 76 and the fifth driver 75 are connected with each other in a transmission manner and are slidably clamped on the fixing frame 42, the sixth driver 77 is fixedly installed on the transmission block 76, the pressing block 78 is connected with the sixth driver 77 in a transmission manner, and the pressing block 78 is telescopically arranged at the bottom of the transmission block 76 by the sixth driver 77.

The utility model relates to a full-automatic hinge riveting equipment production facility, transversely set up in the carrier track 9 at 1 middle part of frame and follow the feed end in proper order and to the circulation transport carrier of discharge end department, along the pay-off direction of carrier track 9, install some oily device 2 respectively from this carrier track 9's feed end to discharge end department in proper order in frame 1, material feeding unit 3, orienting device 4, clamping device 5, crank riveting device 6, hydro-cylinder positioner 7 and hydro-cylinder riveting device 8, some oily device 2 and material feeding unit 3 set up respectively in the both sides of carrier track 9's feed end, the carrier sends to some oily device 2 department earlier through carrier track 9, at this moment, the glib talker on some oily device 2 moves down, carry out some oily operations through its work piece of some oily valve on the carrier.

Further, an oil cylinder assembly for assembling with a workpiece on a carrier is manually placed on a feeding device 3, the oil cylinder assembly is firstly placed on a feeding rail 12 of the feeding device 3, the feeding rail 12 conveys the oil cylinder assembly to a pushing mechanism 13 arranged on the feeding rail 12, when a sensing push plate 15 on the pushing mechanism 13 senses that the oil cylinder assembly is in place, a first drive 18 is started, the sensing push plate 15 pushes the oil cylinder assembly in the place to a discharge port of the feeding rail 12 on the feeding rail 12, meanwhile, after a position sensor 16 on the end part of the discharge port of the feeding rail 12 senses the oil cylinder assembly, a shaping mechanism 14 obliquely arranged at the discharge port of the feeding rail 12 starts to work, an air cylinder 19 on the shaping mechanism 14 is started, a push block 20 is pushed upwards at a certain inclination angle through a transmission shaft 21 of the air cylinder assembly, and a crank part on the oil cylinder assembly is pushed up by the push block 20, and the other part of the cylinder part of the oil cylinder assembly is upwarped through the material channel compensation mechanism 22, so that the crank part and the cylinder part of the oil cylinder assembly form a V shape with a certain included angle, the positioning needle 17 extends out of the oil cylinder to clamp the crank part, and the material taking mechanism clamps the whole reshaped oil cylinder assembly through the material taking head and places the whole reshaped oil cylinder assembly on the orientation device 4.

Furthermore, the orientation device 4 is disposed at one side of the discharge port of the feeding device 3, the material taking device 10 clamps the shaped cylinder assembly and places the cylinder assembly on the calibration seat 26 of the calibration mechanism 25, the calibration seat 26 has a precise positioning groove, the cylinder assembly is placed in the positioning groove to realize further shaping, the calibration seat 26 is communicated with the negative pressure adsorption assembly 28, the crank portion is sucked by the negative pressure adsorption assembly 28, the cylinder portion is clamped and positioned by the calibration clamp 27, the rotation mechanism 24 provides power to rotate 90 ° by the motor, the calibration mechanism 25 rotates along with the rotation of the rotation mechanism 24, so that the cylinder assembly originally perpendicular to the carrier rail 9 rotates to a position parallel to the carrier rail 9, and the material taking device 5 takes the material.

Further, the slide block 33 mechanism on the clamping device 5 is started, the slide block 33 drives the clamping jaw 31 mounted thereon to slide along the slide rail 32, so that the clamping jaw 31 slides to above the steering correcting seat 26, the clamping jaw 31 descends through the lifting drive 34, simultaneously the correcting clamp 27 releases the cylinder part, the clamping jaw 31 clamps the cylinder component parallel to the carrier rail 9, and then the clamping jaw 31 with the cylinder component moves to the front of the crank riveting device 6 through the slide block 33, and the cylinder component is conveyed to above the carrier rail 9 of the carrier loaded with the oil-dotted workpiece.

Further, when the clamping device 5 clamps the workpiece and moves to the front of the crank riveting device 6, the pressing mechanism 37 on the supporting frame 38 is started, the supporting frame 38 is entirely erected above the carrier rail 9 and fixedly installed on the frame 1, the pressing mechanism 37 is entirely installed on the supporting frame 38 through the sliding seat 60 in an inclined manner at a certain angle, the fourth drive 63 on the pressing mechanism 37 is started, the guide block 61 installed on the sliding seat 60 is pushed out in the direction of the carrier rail 9 through the output shaft 64, the pressing rod 62 installed at the bottom of the guide block 61 is extended in the direction of the carrier on the carrier rail 9 and pressed on the workpiece of the carrier, at this time, the clamping jaw 31 is lowered, the cylinder component is placed on the workpiece for assembly, then, the first guide mechanism 36 is started, the bending arm 56 on the installation table 53 of the first guide mechanism 36 pushes the engagement block 54 out in the direction of the carrier rail 9, the positioning guide mechanism 55 is pushed to the carrier track 9 by the connection block 54, specifically, the positioning guide mechanism 55 comprises a positioning plate 57, a third drive 58 and a plurality of guide pins 59, the positioning plate 57 and the connection block 54 are connected with each other, when the connection block 54 is pushed out, the positioning plate 57 slides to one side of the carrier track 9 along a guide rail 71, the third drive 58 is started to push the guide pins 59 out of the carrier track 9, the guide pins 59 are respectively inserted on riveting holes where the assembled crank part and the workpiece are matched with each other, so that the oil cylinder component and the workpiece are mutually positioned, then, a tray 46 on the material distributing component 43 on the first rivet conveying mechanism 35 conveys rivets to the material distributing track 47 through vibration, the material distributing track 47 conveys the rivets one or more at a time according to production requirements, wherein the number of the rivets is two, the rivets are conveyed to the material conveying block 51 by a fan through a pipe body communicated with the material distributing track 47 and the material conveying block 51, the feed block 51 is provided with a pilot assembly 45 on one side, the rivet fed to the feed block 51 is corrected by a correction block 52 of the pilot assembly 45, and then a push rod 50 is pushed out by a second drive 49 positioned on a fixed seat 48, so that the corrected rivet in the feed block 51 is penetrated into a guide pin 59 by the push rod 50, and the rivet can accurately enter a riveting hole where a positioned crank part and a workpiece are matched with each other.

Further, the assembly part with the rivet loaded in the crank part is conveyed to the riveting mechanism 11 of the next processing unit of the crank riveting device 6 along with the carrier track 9 by the carrier, the riveting mechanism 11 comprises a spin riveting machine and a spin riveting joint supporting mechanism which are coaxially arranged at two sides of the carrier track 9, the assembly part is supported by the spin riveting joint supporting mechanism, and the rivet on the first riveting position on the crank part is riveted by the spin riveting machine.

Furthermore, the assembly completing the riveting of the crank is then sent to the cylinder positioning device 7 by the carrier rail 9, meanwhile, the adsorption component 28 at the other side of the riveting mechanism 11 is provided with a top block at the joint of the top cylinder part, the top block is pressed downwards to tilt the cylinder upwards, the adsorption component 28 adsorbs the cylinder part, the rotating direction selection device on the cylinder positioning device 7 descends on the slide rail 32 along with the slide block 33 by the motor, and the orientation head 72 at the end part of the rotating seat 68 moves to the cylinder part, so that the cylinder part is clamped in the orientation head 72 and is in transmission connection with the rotating shaft 69 in the orientation head 72, then, the servo drive is started, the rotating shaft 69 in the rotating seat 68 is driven to rotate by the belt pulley 73, the cylinder part is driven to rotate in the orientation head 72 by the rotating shaft 69, the riveting holes at two sides of the orientation head 72 are rotated to be in the same axis with the elastic positioning pins 74 at two sides in the orientation head 72, at this time, the elastic positioning pin 74 in the orientation head 72 is ejected and is clamped into the riveting holes on both sides of the cylinder portion, so as to realize the rotary orientation function of the cylinder, and after the orientation is completed, the riveting mechanism 11 rivets the second riveting position on the crank portion according to the above operation.

Further, after completing the riveting of the second riveting position of the crank portion, the carrier is sent to the cylinder riveting device 8 with the carrier rail 9, the fifth driving device 75 on the pressing and positioning mechanism 41 is started to push down the driving block 76 arranged on the fixing frame 42, meanwhile, the sixth driving device 77 arranged on the driving block 76 descends along with the second driving block 76 in the direction of the carrier rail 9, when the sixth driving device 77 descends to two fixed strokes, the pressing block 78 arranged at the bottom of the driving block 76 is extended and pressed down, the pressing block 78 presses the whole cylinder component in the workpiece, then the bending arm 56 on the mounting table 53 of the second guiding mechanism 40 pushes the connecting block 54 out in the direction of the carrier rail 9, the second positioning guiding mechanism 55 is pushed to the carrier rail 9 by the connecting block 54, when the pressing block 54 out, the positioning plate 57 on the positioning and guiding mechanism 55 slides to the side of the carrier rail 9 along the guide rail 71, the third drive 58 is started to push the guide pin 59 out of the carrier track 9, so that the guide pin 59 is inserted in the riveting hole site where the oil cylinder part and the workpiece are matched after the directional assembly, so that the oil cylinder assembly and the workpiece are mutually positioned, then, the material tray 46 on the material distribution assembly 43 on the second rivet conveying mechanism 39 conveys the rivets to the material distribution rail 47 thereof through vibration, the material distribution rail 47 feeds the rivets in a single or multiple mode according to production requirements, wherein the rivets are fed into the feeding block 51 through a pipe body communicated with the material distribution rail 47 and the feeding block 51 by a fan, the two sides of the feeding block 51 are provided with the guide assemblies 45, after the rivets sent to the feeding block 51 are corrected by the correcting block 52 of the pilot assembly 45, the push rod 50 is pushed out by the second drive 49 positioned on the fixed seat 48, so that the corrected rivets in the feeding block 51 are inserted into the riveting holes matched with the positioned oil cylinder part and the workpiece by the push rod 50.

Further, after the operation is finished, the workpiece with the rivet on the oil cylinder part is sent to the riveting mechanism 11 behind the oil cylinder riveting device 8, and the rivet on the oil cylinder part is riveted by the spin riveting machine, so that the whole set of hinge is completely riveted and assembled automatically.

The above, it is only the preferred embodiment of the present invention, not right the technical scope of the present invention makes any restriction, the technical personnel of the industry, under this technical scheme's enlightenment, can do some deformation and modification, all the basis the utility model discloses a technical essence is to any modification, the equivalent change and the modification of the above embodiment do, all still belong to the technical scheme's scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic hinge riveting equipment production facility which characterized in that: the automatic oil feeding device comprises a rack, an oil dispensing device, a feeding device, an orienting device, a clamping device, a crank riveting device, an oil cylinder positioning device and an oil cylinder riveting device, wherein the rack is provided with a carrier track, the oil dispensing device, the feeding device, the orienting device, the clamping device, the crank riveting device, the oil cylinder positioning device and the oil cylinder riveting device are sequentially arranged on the rack along the feeding direction of the carrier track respectively, a material taking device is arranged between the feeding device and the orienting device, and the crank riveting device, the oil cylinder positioning device and the oil cylinder riveting device are all provided with riveting mechanisms.

2. The full-automatic hinge riveting, assembling and producing equipment of claim 1, wherein: the oil dispensing device and the feeding device are oppositely and respectively arranged at two sides of the carrier track, the feeding device comprises a feeding rail, a pushing mechanism and a shaping mechanism, the pushing mechanism is arranged on the feeding rail, the pushing mechanism comprises a sensing push plate and a position sensor, a positioning pin positioned at one side of the feeding rail is arranged between the sensing push plate and the position sensor, the sensing push plate is telescopically arranged in the feeding rail and is connected with a first driving transmission fixed on the feeding rail, the position sensor and the shaping mechanism are respectively arranged at the end part of a discharge hole of the feeding rail, the shaping mechanism comprises a cylinder and a push block, the cylinder is obliquely arranged on the feeding rail at a certain included angle, the cylinder is provided with a transmission shaft penetrating through the feeding rail, and the push block is arranged at the end part of the transmission shaft, the feeding rail is provided with a material channel compensation mechanism, and the material channel compensation mechanism is arranged below the shaping mechanism.

3. The full-automatic hinge riveting, assembling and producing equipment of claim 1, wherein: the orienting device comprises a mounting seat, a rotating mechanism and a correcting mechanism, the mounting seat is fixedly mounted on the rack, the rotating mechanism is rotatably mounted on the mounting seat, the correcting mechanism is fixedly mounted on the rotating mechanism, the correcting mechanism comprises a correcting seat and a correcting clamp, and the correcting seat is respectively communicated with the negative pressure adsorption assembly.

4. The full-automatic hinge riveting, assembling and producing equipment of claim 1, wherein: the clamping device comprises a support, a sliding mechanism and a clamping jaw, the support is fixedly installed on the rack, the sliding mechanism is located above the carrier track and the orienting device, the sliding mechanism comprises a sliding rail fixedly installed on the support, a sliding block slidably arranged on the sliding rail, the clamping jaw is installed on the sliding block, and the clamping jaw is provided with a lifting drive.

5. The full-automatic hinge riveting, assembling and producing equipment of claim 1, wherein: the crank riveting device comprises a first rivet conveying mechanism, a first guide mechanism and a pressing mechanism, the first rivet conveying mechanism and the first guide mechanism are respectively and oppositely arranged on two sides of the carrier track, the pressing mechanism is obliquely arranged above the carrier track through a support frame fixed on the rack, the oil cylinder riveting device comprises a second rivet conveying mechanism, a second guide mechanism and a pressing and holding positioning mechanism, the second rivet conveying mechanism and the second guide mechanism are respectively and oppositely arranged on two sides of the carrier track, and the pressing and holding positioning mechanism is arranged above the carrier track through a fixing frame fixed on the rack.

6. The full-automatic hinge riveting, assembling and producing equipment of claim 5, wherein: the first rivet conveying mechanism and the second rivet conveying mechanism respectively comprise a material distribution assembly, a material pushing assembly and a guide assembly, the material distribution assembly comprises a material tray and a material distribution rail arranged on a material tray discharge port, the material pushing assembly comprises a fixing seat, a second drive, a push rod and a feeding block, the second drive and the feeding block are respectively arranged on the fixing seat at intervals, one end of the push rod is connected with the second drive in a transmission manner, the other end of the push rod is telescopically inserted into the feeding block, the feeding block is connected with the material distribution rail through a pipe body, the guide assembly is fixedly arranged on the fixing seat, and the guide assembly is provided with a correction block.

7. The full-automatic hinge riveting, assembling and producing equipment of claim 5, wherein: the first guide mechanism and the second guide mechanism respectively comprise an installation table, a push block and a positioning guide mechanism, one end of the push block is telescopically installed on the installation table through a bending arm, the other end of the push block is fixedly connected onto the positioning guide mechanism, the positioning guide mechanism is slidably installed on the installation table through the push block and a guide rail, the positioning guide mechanism comprises a positioning plate, a third drive and a plurality of guide needles, the third drive is installed on the positioning plate, and the guide needles are telescopically connected with the third drive in a transmission manner.

8. The full-automatic hinge riveting, assembling and producing equipment of claim 5, wherein: the pressing mechanism comprises a sliding seat, a guide block and a pressing rod, the sliding seat is fixedly installed on the supporting frame, the sliding seat is provided with a fourth drive, the fourth drive is provided with an output shaft, the guide block is installed on the sliding seat in a sliding mode, the fourth drive is connected with the guide block in a transmission mode through the output shaft, and the pressing rod is installed on the end face, close to the carrier track, of the guide block in an inclined mode.

9. The full-automatic hinge riveting, assembling and producing equipment of claim 1, wherein: hydro-cylinder positioner includes the locating rack and selects to the mechanism with the rotation, the locating rack install in riveting mechanism top, the locating rack is provided with the mounting panel of slope, rotatory selection includes roating seat, rotation axis, servo motor and adsorption component to the mechanism, the roating seat through lead slider slidable install in on the guide rail of mounting panel, the roating seat be provided with close to in the orbital directional head of carrier, the rotation axis rotationally set up in on the roating seat, the rotation axis with servo motor passes through belt pulley transmission and connects, the rotation axis extends to in the directional head, the both sides of directional head are provided with the elastic locating pin respectively, adsorption component fixed mounting in riveting mechanism is last.

10. The full-automatic hinge riveting, assembling and producing equipment of claim 5, wherein: the pressure is held positioning mechanism and is included from last fifth drive, transmission piece, sixth drive and the briquetting that sets gradually extremely down, fifth drive fixed mounting in on the mount, the transmission piece with but fifth drive interconnection with transmission ground to slidable ground card is located on the mount, sixth drive fixed mounting in on the transmission piece, the briquetting with but sixth drive interconnection with transmission ground, through the sixth drive makes the briquetting set up telescopically in the bottom of transmission piece.

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