CN108500585B - Full-automatic intelligent assembly line of gearbox with automatic motor distribution device - Google Patents

Abstract

The invention relates to the field of gearbox production, in particular to a full-automatic intelligent assembly line of a gearbox with an automatic motor distribution device, which comprises a main body base frame, wherein one side of the main body base frame is provided with a containing cavity; the motor transports the loading disc; a transport vehicle detachably mounted in the accommodating chamber for transporting a motor transport loading tray, in which a motor is mounted, to the main body pedestal; the lifting mechanism is arranged in the main body pedestal, and a loading disc bracket for lifting the motor-mounted motor to transport the loading disc to the top of the accommodating cavity is arranged on the lifting mechanism; the motor transferring manipulator is used for distributing the motor in the motor transportation loading disc to the next assembly station; and the intelligent clamping mechanism is positioned above the main body base frame and used for transferring the motor transportation loading disc at the top of the accommodating cavity to the position below the motor transfer manipulator. The gearbox full-automatic intelligent assembly line with the automatic motor distribution device provided by the invention realizes automatic distribution of the motor to the assembly line.

Description

Full-automatic intelligent assembly line of gearbox with automatic motor distribution device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of gearbox production, in particular to a full-automatic intelligent assembly line of a gearbox with an automatic motor distribution device.

[ background of the invention ]

The micro motor gearbox is widely applied to various electromechanical devices, as shown in fig. 2, the gearbox mainly comprises a motor 10, a bottom shell 20, a shell cover 50 and a plurality of gears, the bottom shell 20 and the shell cover 50 are combined into a closed space, the plurality of gears are arranged in the closed space in an meshed manner, and a motor shaft of the motor 10 extends into the closed space to be assembled with one of the gears to provide power. At present, the degree of mechanization for producing the gearbox is low, most of the gearboxes are produced in a semi-manual mode, the labor intensity is high, the quality is difficult to control, the production efficiency is low, and the automatic distribution of the motor is one of the difficulties.

[ summary of the invention ]

In order to solve the technical problems, the invention aims to provide a gearbox full-automatic intelligent assembly line with an automatic motor distribution device, which realizes automatic distribution of a motor to the assembly line.

The invention is realized by the following technical scheme:

full-automatic intelligent assembly line of gearbox with automatic dispenser of motor, automatic dispenser of motor includes: a main body base frame, one side of which is provided with an accommodating cavity; the motor transportation loading disc is used for placing and transporting a plurality of motors; a transport vehicle detachably mounted in the accommodating chamber for transporting a motor transport loading tray, in which a motor is mounted, to the main body pedestal; the lifting mechanism is arranged in the main body pedestal, and a loading disc bracket for lifting the motor-mounted motor to transport the loading disc to the top of the accommodating cavity is arranged on the lifting mechanism; the motor transferring manipulator is used for distributing the motor in the motor transportation loading disc to the next assembly station; and the intelligent clamping mechanism is positioned above the main body base frame and used for transferring the motor transportation loading disc at the top of the accommodating cavity to the position below the motor transfer manipulator.

The gearbox full-automatic intelligent assembly line with the automatic motor distribution device is characterized in that the transport vehicle is provided with loading disc positioning seats positioned on two sides of the transport vehicle and a middle bearing part positioned between the loading disc positioning seats on the two sides, an avoiding part used for avoiding the loading disc bracket is arranged between the loading disc positioning seat and the middle bearing part, a transverse rolling pulley, a vertical rolling pulley and an in-place clamping seat used for ensuring the transport vehicle to distribute in place are arranged on the edge of the loading disc positioning seat, and in-place vertical grooves are formed in the in-place clamping seat.

According to the full-automatic intelligent assembly line for the gearbox with the automatic motor distribution device, the carrier vehicle distribution guide rail matched with the loading disc positioning seat is arranged on the main body base frame, and the spring pin extending into the in-place vertical groove when the carrier vehicle is distributed in place is arranged on the carrier vehicle distribution guide rail.

As above full-automatic intelligent assembly line of gearbox with automatic dispenser of motor, lifting mechanism includes the fixed bolster, is located lifting driving motor on the fixed bolster, establish driving wheel on lifting driving motor's the output, be located driving wheel top from the driving wheel, connect the driving wheel with from the hold-in range of driving wheel, the hold-in range is including making opposite direction motion's first sideband and second sideband, and the loading dish bracket is established follow on the first sideband the motion of first sideband reciprocates.

The gearbox full-automatic intelligent assembly line with the automatic motor distribution device is characterized in that the intelligent clamping mechanism comprises a motor transportation loading disc clamping mechanism which is located on the main body base frame and performs reciprocating translation motion, a first clamping head and a second clamping head which are symmetrically arranged and can be folded or opened are arranged on the motor transportation loading disc clamping mechanism, the first clamping head comprises a full-load disc clamping end and an empty-load disc clamping end, and clamping surfaces of the full-load disc clamping end and the empty-load disc clamping end are on the same plane.

The gearbox full-automatic intelligent assembly line with the automatic motor distribution device further comprises a loading disc intelligent unloading mechanism for unloading the motor transportation loading disc.

Compared with the prior art, the invention has the following advantages:

through the structure, the motor batch automatic transportation is realized, the degree of mechanization is high, the transportation of the motor can be more flexible due to the separable design of the transport vehicle, and the motor which is transported can be received from a plurality of places.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a fully-automatic intelligent assembly line for a transmission according to the present embodiment;

FIG. 2 is an exploded view of the transmission according to the present embodiment;

fig. 3 is an exploded view of the positioning socket with the transmission case according to the embodiment;

fig. 4 is a schematic structural diagram of an automatic motor dispensing device 1 according to the present embodiment;

fig. 5 is a schematic structural diagram of an automatic motor dispenser according to the present embodiment 2;

fig. 6 is a schematic structural diagram of an automatic motor dispenser according to the present embodiment 3;

fig. 7 is a schematic structural diagram of an automatic motor dispenser according to the present embodiment 4;

FIG. 8 is a schematic structural diagram of a transportation cart according to the present embodiment;

FIG. 9 is an enlarged view of portion A of FIG. 5 according to the present embodiment;

FIG. 10 is a schematic structural view of a screw driving mechanism according to the present embodiment;

FIG. 11 is a schematic structural view of an automatic gear assembling mechanism according to this embodiment;

fig. 12 is a schematic structural view of an automatic pin assembling mechanism according to the present embodiment;

fig. 13 is a schematic structural view of the press-fitting head according to the present embodiment;

fig. 14 is a partial structural schematic view of the automatic pin assembling mechanism according to the embodiment;

fig. 15 is a flowchart of a fully automatic intelligent assembling process of the transmission according to this embodiment.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the full-automatic intelligent assembly line for a transmission provided by the embodiment of the present invention includes a rack 1, wherein a turntable type assembly table 2 is disposed on the rack 1, and at least a motor bottom case assembly mechanism 3, a screw striking mechanism 4, a gear automatic assembly mechanism 5, a pin automatic assembly mechanism 6, a bottom case cover assembly mechanism 7, and a discharging mechanism 8 are disposed along an outer side of the turntable type assembly table 2. The full-automatic intelligent assembly line of gearbox degree of mechanization is high, promotes production efficiency when guaranteeing that the quality is reliable and stable.

The periphery of the turntable type assembly table 2 is further provided with a plurality of positioning seats a for positioning the assembled gearbox and conveying the assembled gearbox to each assembly station along with the rotation of the turntable type assembly table 2, and as shown in fig. 3, the positioning seats a are provided with a bottom shell positioning part a1 and a motor positioning part a 2. The bottom case positioning part A1 comprises a base A10, a bottom case positioning hole A11, a vacuum suction head A12 and a positioning pin A13 are arranged on the base A10, and the bottom case positioning hole A11 comprises a round hole A111 and three clearance gaps A112 uniformly distributed around the round hole A111; vacuum nozzle A12 is juxtaposed to base positioning hole A11. The positioning pins A13 are respectively arranged at two sides of the positioning hole A11 of the bottom shell and the vacuum suction head A12. Motor location portion A2 is established in drain pan locating hole a11 below, and motor location portion A2 includes base a21 and evenly distributed three projection a211 at base a21 upper surface, and projection a211 upwards stretches into in three clearance breach a112 respectively. In the assembling process, the motor 10 with the upward motor shaft is firstly placed on the motor positioning part A2, the motor 10 is limited by the three convex columns A211 at the moment, then the corresponding hole position on the bottom shell 20 is sleeved on the positioning pin A13, so that the corresponding part of the bottom shell 20 is arranged in the bottom shell positioning hole A11, and meanwhile, the motor shaft extends into the bottom shell 20, the vacuum suction head A12 is started to suck the bottom shell 20, and the positioning stability of the motor is improved. And the positioning seat A is fixed through multiple positioning, so that accurate and reliable positioning is realized.

The motor bottom shell assembling mechanism 3 is used for installing the motor 10 on the bottom shell 20, wherein the bottom shell 20 is delivered in place by a bottom shell vibration disk and is transferred and placed by a bottom shell assembling manipulator. The motor bottom shell assembling mechanism 3 is further provided with a motor automatic distribution device 9 for conveying the motor 10 onto the turntable type assembling table 2, as shown in fig. 4 to 10, the motor automatic distribution device 9 includes a main body base frame 91, a motor transportation loading tray 97, a transportation vehicle 92, a lifting mechanism 93, a motor transfer manipulator 94, an intelligent clamping mechanism 95 and a loading tray intelligent unloading mechanism 96.

Wherein, the main body base frame 91 is provided with a containing cavity 911 at one side thereof.

The motor transportation loading disc 97 is used for placing and transporting a plurality of motors 10, specifically, the motor transportation loading disc 97 is preferably made of foamed plastic and is preferably in a square disc shape in the embodiment, the motor transportation loading disc 97 serves as a transportation carrier of the motors, batch transportation can be carried out, the foamed plastic is used as a raw material for manufacturing, the shock absorption effect is good, the motors can be effectively protected in the transportation process, the foamed plastic is light in weight, and the transportation load is greatly reduced.

The transport cart 92 is detachably mounted in the accommodating cavity 911 and is used for transporting the motor transportation loading disc 97 provided with the motor 10 to the main body base frame 91, the transport cart 92 is provided with loading disc positioning seats A22 located on two sides of the transport cart 92 and a middle bearing part 921 located between the loading disc positioning seats A22 on two sides, an avoiding part 926 is arranged between the loading disc positioning seat A22 and the middle bearing part 921, a transverse rolling pulley 923, a vertical rolling pulley 924 and a in-place clamping seat 925 used for ensuring that the transport cart 92 is delivered in place are arranged on the edge of the loading disc positioning seat A22, and the middle bearing part 921 can effectively support the middle part of the motor transportation loading disc 97 and prevent the middle part of the motor transportation loading disc from falling down. The vertical groove 9251 that targets in place has been seted up on the cassette 925 that targets in place, be equipped with on the main part bed frame 91 with load the tray positioning seat A22 matched with transport vechicle delivery guide rail 91a, be equipped with spring catch 91b on the transport vechicle delivery guide rail 91a, stretch into when the delivery of transport vechicle 92 targets in place in the vertical groove 9251 that targets in place, the location is accurate reliable, for transporting on next step provide the basis, during the transportation, a plurality of motors are arranged in motor transportation load tray, a plurality of motor transportation load trays stack and transport on the transport vechicle, can transport in batches more so, reduce the transportation process, promote production efficiency, in addition, the separable design of transport vechicle can make the transportation of motor more nimble, can realize receiving the motor of transporting from a plurality of.

The lifting mechanism 93 is arranged in the main body base frame 91, a loading disc bracket 930 used for lifting the motor transportation loading disc 97 provided with the motor 10 to the top of the accommodating cavity 911 is arranged on the lifting mechanism 93, and a loading disc lifting detection device used for detecting whether the motor transportation loading disc 97 is lifted in place by the lifting mechanism 93 is arranged on the upper portion of the accommodating cavity 911. The lifting mechanism 93 includes a fixing bracket 931, a lifting driving motor provided on the fixing bracket 931, a driving wheel 933 provided at an output end of the lifting driving motor, a driven wheel provided above the driving wheel 933, and a timing belt 935 connecting the driving wheel 933 and the driven wheel, the timing belt 935 including a first side belt 9351 and a second side belt 9352 moving in opposite directions, a loading tray bracket 930 provided on the first side belt 9351 to move up and down in accordance with the movement of the first side belt 9351, the loading tray bracket being raised through an escape portion when the transport vehicle enters the accommodating chamber to lift the stacked motor transport loading trays and being suspended to be raised when the motor transport loading tray at the top layer reaches the top of the accommodating chamber 926 and being raised when the motor transport loading tray at the top layer is removed.

The motor transfer robot 94 for transferring the motor 10 in the motor transport loading tray 97 to the next assembly station, the motor transfer robot 94 comprising: a vertical bracket 941 fixedly attached to the main body base frame 91; a first radial moving arm 942, which is arranged on the vertical support 941, wherein a rotatable first screw rod is arranged inside the first radial moving arm 942, one end of the first screw rod is connected with a second driving motor for driving the first screw rod to rotate, a first slider which moves linearly on the first radial moving arm 942 is arranged on the first screw rod, and the first slider is in threaded connection with the first screw rod; the first tangential moving arm 943 can reciprocate along the length direction of the first radial moving arm 942, the first tangential moving arm 943 is fixedly connected with the upper surface of a first sliding block, a rotatable second screw rod is arranged inside the first tangential moving arm 943, one end of the second screw rod is connected with a third driving motor for driving the second screw rod to rotate, a second sliding block which linearly moves on the first tangential moving arm 943 is arranged on the second screw rod, and the second sliding block is in threaded connection with the second screw rod; the first axial moving arm 944 is provided with a first axial moving arm 944, the first axial moving arm 944 can reciprocate along the length direction of the first tangential moving arm 943, the first axial moving arm 944 is fixedly connected with the side surface of the second screw rod, a rotatable third screw rod is arranged in the first axial moving arm 944, one end of the third screw rod is connected with a fourth driving motor for driving the third screw rod to rotate, a third screw rod is provided with a third screw rod which linearly moves on the first axial moving arm 944, and the third screw rod is in threaded connection with the third screw rod; the fifth driving motor is arranged below the first axial moving arm 944, a motor chuck 945 for clamping the motor 10 in the motor transportation loading tray 97 is arranged at the output end of the fifth driving motor, and a motor detection device for detecting the clamping direction of the motor 10 is arranged on the motor chuck 945; the motor detection device can be an infrared probe, an ultrasonic probe or a camera, the direction of a motor shaft is detected downwards when the motor is clamped axially, and the motor chuck is rotated according to detection parameters to correct the direction of the motor chuck for conveying.

The intelligent clamping mechanism 95 is positioned above the main body pedestal 91 and used for transferring the motor transportation loading tray 97 at the top of the accommodating cavity 911 to the position below the motor transfer manipulator 94; the intelligent clamping mechanism 95 comprises a motor transportation loading disc clamping mechanism 951, the motor transportation loading disc clamping mechanism 951 is located on a main body base frame 91 and performs reciprocating translation, a first clamping head 952 and a second clamping head 953 which are symmetrically arranged and can be folded or opened are arranged on the motor transportation loading disc clamping mechanism 951, a loading disc waiting station, a motor clamping station and a loading disc unloading station are sequentially arranged on the main body base frame 91 at equal intervals, the first clamping head 952 spans the loading disc waiting station and the motor clamping station or the motor clamping station and the loading disc unloading station, the first clamping head 952 comprises a full-loading disc clamping end 9521 and an empty-loading disc clamping end 9522, and clamping surfaces of the full-loading disc clamping end 9521 and the empty-loading disc clamping end 9522 are on the same plane. Specifically, the first clamping head 952 is in the form of a long plate, the output end of the first driving unit is connected to the middle of the first clamping head 952, and the motor transporting and loading tray clamping mechanism 951 includes: the gantry 954 is transversely arranged in the translation direction of the motor transportation loading disc clamping mechanism 951, and the first clamping head 952 and the second clamping head 953 are respectively arranged on two sides below the gantry 954; the first driving unit used for driving the first clamping head 952 to move and the second driving unit used for driving the second clamping head 953 to move are respectively arranged at two sides below the portal frame 954, the output end of the first driving unit is connected with the first clamping head 952, and the output end of the second driving unit is connected with the second clamping head 953. And the third driving unit is used for driving the motor to transport the loading disc clamping mechanism 951 to perform reciprocating translational motion, the fixed end of the third driving unit is arranged on the main body base frame 91, and the output end of the third driving unit is connected with one side of the portal frame 954. Specifically, the first driving unit and the second driving unit are driven by air cylinders. The main body base frame 91 is provided with a linear guide rail 91c and a clamping mechanism sliding block interactively connected with the linear guide rail 91c, the motor transportation loading disc clamping mechanism 951 is fixed on the clamping mechanism sliding block, it should be noted that the motor transportation loading disc ascends to the top of the accommodating cavity, namely the motor transportation loading disc arrives at a loading disc waiting station, the motor clamping station is below a motor transfer manipulator, and the loading disc unloading station is used for conveying the empty motor transportation loading disc out of an assembly line. When the motor transportation loading disc clamping mechanism works, the motor transportation loading disc clamping mechanism is folded to simultaneously clamp the loading disc waiting station and the motor transportation loading disc on the motor clamping station, and then the motor transportation loading disc is opened after being translated in place, so that the motor transportation loading disc loaded with the motor on the loading disc waiting station falls on the motor clamping station, and meanwhile, the motor transportation loading disc on the motor clamping station, which is taken away with the motor, falls on the loading disc unloading station. With its simple structure, the mechanism is got to intelligence clamp can realize the switching between the three station through few mechanical action, convenient and fast.

The loading tray intelligent unloading mechanism 96 comprises a loading tray outlet 961 arranged on the side surface of the main body pedestal 91 and a guide channel 962 erected in the main body pedestal 91 and used for guiding the motor transportation loading tray 97 to freely fall, wherein the guide channel 962 is vertically arranged and is provided with a pushing mechanism for transversely pushing the motor transportation loading tray 97 to the loading tray outlet 961, in addition, the loading tray outlet 961 is provided with an outlet detection device for detecting whether the loading tray is pushed to the loading tray outlet 961, and the outlet detection device is preferably a photoelectric sensor; the intelligent unloading mechanism of the loading disc utilizes gravity to realize that the motor transports the loading disc to fall along the guide channel so that the pushing mechanism can push the loading disc to the outlet of the loading disc, and the loading disc is transported by matching with the motor made of foamed plastic, so that the unloading mechanism is simple, convenient and reliable;

the push mechanism includes: a bottom plate 9631 provided below the guide passage 962; a push rail group 9632 including a first push rail 9632a and a second push rail 9632b, the first push rail 9632a and the second push rail 9632b being provided in parallel on both sides of the bottom plate 9631 and leading to the loading tray outlet 961; a push slider group 9633 including a first push slider 9633a and a second push slider 9633b, the first push slider 9633a is slidably connected to the first push guide rail 9632a, the second push slider 9633b is slidably connected to the second push guide rail 9632b, a slider connecting portion 9633c is disposed between the first push slider 9633a and the second push slider 9633b, and a rear positioning member 9633d for positioning the motor transportation loading tray 97 is disposed on the slider connecting portion 9633 c; the rear positioning member 9633d comprises at least one push rod, the lowest point of the rear positioning member 9633d is lower than the bottom plate 9631, and the bottom plate 9631 is provided with an avoidance groove 9633f for avoiding a pushing path of the rear positioning member 9633 d; a push cylinder 9634 provided on the main body base frame 91, an output end of the push cylinder 9634 being directed to the loading tray outlet 961 and connected to the slider connecting portion 9633c to push the push slider group 9633; when the motor transportation loading disc stacking device works, a plurality of motor transportation loading discs fall to the bottom of the guide channel to be stacked, when the number of the motor transportation loading discs reaches a certain amount or after a set time is reached or when a sensor for detecting the height of the motor transportation loading disc acts, the pushing mechanism acts to push the motor transportation loading discs to the outlet of the loading disc, and then the guide channel can carry out the falling of the motor transportation loading disc of the next round. Simple structure, low requirement for stacking precision of motor transportation loading discs during pushing.

Accordingly, the first push slider 9633a is provided with a left positioning member 9633g for positioning one side of the motor transportation loading tray 97, the left positioning member 9633g is provided with a first bending portion 9633h and a second bending portion 9633i, the first bending portion 9633h is connected to the first push slider 9633a, and the second bending portion 9633i is provided with an upwardly extending positioning rod 9633 j. The second push slider 9633b is provided with a right positioning member symmetrically arranged with respect to the left positioning member 9633 g. A stopper 962a for stopping one side of the loading tray to accurately drop the loading tray into the guide passage 962 is fixed to the top of the guide passage 962. The structure is convenient to process and simple to assemble.

The screw driving mechanism 4 is shown in fig. 11 and is used for locking the motor 10 on the bottom shell 20 by screws, the screw driving mechanism 4 comprises a rotating disc type assembling table 2, a screw driving manipulator 41 arranged on one side outside the rotating disc type assembling table 2 and a screw vibrating disc used for distributing screws, and the screw vibrating disc is connected with an automatic screw driving device 42. The screw driving robot 41 is provided with a second radial moving arm for moving toward the turntable assembly table 2.

The automatic gear assembling mechanism 5 is, as shown in fig. 12, for mounting the gear 30 on the motor shaft of the motor 10, and the automatic gear assembling mechanism 5 includes: the gear positioning device 51 is provided with a gear positioning seat 513, the gear positioning seat 513 can be a groove provided with a gear inlet, the gear inlet is connected with a gear vibration disc, the gear positioning device 51 is also provided with a gear detection device for detecting whether the gear 30 is delivered in place, and specifically, the gear detection device can be an infrared probe, an ultrasonic probe or a camera; the gear assembling apparatus includes a gear assembling robot 521, and the gear assembling robot 521 includes a gear assembling radial moving arm 5211 and a gear assembling vertical moving arm 5212 provided on the gear assembling radial moving arm 5211 and moving relative to the gear assembling radial moving arm 5211. The gear train installation mechanical arm 521 is provided with a press-fitting head 522 for downwards clamping and press-fitting the gear 30, the lower end of the press-fitting head 522 is provided with a shaft head 523 for extending into a hub of the gear 30, the shaft head 523 is provided with a ring-shaped gear suction head 526 taking the shaft head 523 as a center, and the upper end of the press-fitting head 522 is provided with a driving device 524 connected with the shaft head 523 for driving the shaft head 523 to rotate; the driving means 524 is driven by a motor. The press-fitting head 522 is also provided with a lubricating device 525 for adding lubricant to the gear. During gear assembly, the shaft head 523 extends into the gear on the gear positioning seat, the gear is sucked by the annular gear sucker, then the sucked gear is transferred to the upper part of the assembly station, and then the shaft head is rotated and pressed down simultaneously, so that the gear is smoothly meshed with other gears in the reduction gearbox. The automatic gear assembling mechanism is simple in structure and high in mechanization degree, the gears are sucked through suction force and assembled by utilizing the rotating gears, and the assembling mode is effective and reliable.

The pin automatic assembling mechanism 6 is shown in fig. 13 to 15, and is used for installing the pin 40 on the bottom case 20, and includes: a pin assembling robot 61; a pressing device 62 fixed on the pin assembling manipulator 61, wherein a pressing shaft 621 for pressing the pin downwards is arranged at the lower part of the pressing device 62, and is used for pressing the pin 40 into the assembled gear box; a pressing shaft guide 63 provided below the pressing shaft 621, the pressing shaft guide 63 having a guide hole corresponding to the pressing shaft 621; the pin aligning device 64 is used for sequentially and transversely aligning a plurality of vertically placed pins 40 and enabling the single pin 40 to face the guide hole, the pin aligning device 64 is arranged below the pressing shaft guide device 63, the pin aligning device 64 comprises an aligning hole 541 vertically communicated with the guide hole and a pin pushing device 542 used for transversely pushing the pin 40, the pin aligning device 64 is further provided with a pin outlet hole communicated with the aligning hole 541 and facing the guide hole, the pin outlet hole is arranged below the end of the aligning hole, the pin pushing device 542 comprises a pushing driving device 543, the output end of the pushing driving device 543 is connected with a pushing head 544 extending into the aligning hole 541, in the embodiment, the number of the pin aligning devices is three, correspondingly, the number of the pressing shafts 621 is 3, the automatic pin assembling mechanism can assemble three pins simultaneously, and the assembling efficiency is high; and a conveying channel 651 for conveying the pins 40 into the aligning holes 541 is arranged between the pin automatic feeding disc 65 and the pin aligning device 64, and specifically, the pin automatic feeding disc is a pin vibrating disc.

When the pins are installed, the pin outlet holes are correspondingly arranged at the corresponding positions of the bottom shell by the pin assembling mechanical arm, the jacking device presses downwards, the pressing shaft jacks the pins in the position arranging holes in the bottom shell through the guide holes, then the pins are pushed to the tail ends by the pin pushing device, the position arranging holes vacate vacant positions at the moment, and the pins in the conveying channel freely fall to supplement the vacant positions to prepare for the next round of pin assembling. The automatic pin assembling mechanism can realize automatic and continuous pin conveying and installation, and is ingenious in structure, sensitive in action and high in assembling efficiency.

And the bottom shell cover assembling mechanism 7 is used for pressing the bottom shell 20 and the shell cover 50 together, wherein the shell cover is transported by the shell cover vibration plate and is clamped and moved by the shell cover manipulator for assembling, a shell cover clamping head for clamping the shell cover can be a vacuum suction head, and the shell cover and the bottom shell are naturally buckled only by aligning the shell cover and the bottom shell.

The unloading mechanism 8 is used for disassembling the assembled gearbox from the rotating disc type assembling table 2, and can grab the assembled gearbox through an unloading manipulator and then place the assembled gearbox on a production line belt line to be transported to the outside of the assembling line.

It should be noted that the robot mentioned in the present embodiment and not described in detail may be an ABB industrial robot.

The gearbox as shown in the figure 2 can be assembled by using the gearbox full-automatic intelligent assembly line, and the gearbox full-automatic intelligent assembly process comprises the following steps:

positioning the motor 10: the method comprises the following steps that a motor 10 conveyed from a motor automatic distribution device 9 is placed on a positioning seat A through a motor assembling manipulator, a motor shaft of the motor 10 is placed upwards, the positioning seats A are distributed on a rotating disc type assembling table 2, switching between adjacent assembling steps is carried out through rotation of the rotating disc type assembling table 2, the rotating disc type assembling table 2 comprises a first rotating disc and a second rotating disc, and a rotating disc handover manipulator used for transferring workpieces on the first rotating disc to the second rotating disc is arranged between the first rotating disc and the second rotating disc;

a bottom housing 20: placing the bottom shell 20 conveyed from the bottom shell vibration disk in the positioning seat A through a bottom shell manipulator to combine the motor 10 and the bottom shell 20 together;

and (3) driving a first screw 601: the motor 10 and the bottom shell 20 are locked downwards by a first screw 601 on a first screw driving mechanism;

and (3) screwing a second screw 602: the motor 10 and the bottom shell 20 are further locked and fixed downwards by the first screws 601 on the second screwing mechanism, in the embodiment, the first screws 601 and the second screws 602 are screws with the same specification, and the waiting time of a single station can be reduced by separating two stations for installation, so that the assembly efficiency is improved;

gear assembly 30: the gear 30 conveyed from the first gear vibration disc is pressed on a motor shaft through the automatic gear assembling mechanism 5;

and (4) installing the pin 40: the pins 40 comprise a first pin 401, a second pin 402 and a third pin 403, and the first pin 401, the second pin 402 and the third pin 403 are pressed together to corresponding positions of the bottom case 20 by the automatic pin assembling mechanism 6;

mounting the second gear 302: a second gear 302 conveyed from a second gear vibration disc is sleeved on the first pin 401 through a second gear automatic assembly mechanism;

mounting a third gear 303: a third gear 303 conveyed from a third gear vibration disc is sleeved on the second pin 402 through a third gear automatic assembly mechanism;

mounting the fourth gear 304: a fourth gear 304 conveyed from a fourth gear vibration disc is sleeved on the third pin 403 through a fourth gear automatic assembly mechanism;

the housing cover 50: pressing the cover 50 transferred from the cover vibration tray onto the bottom chassis 20 to clamp the cover 50 and the bottom chassis 20 to each other;

disassembling the gearbox: and (4) disassembling the assembled gearbox from the turntable assembly table 2.

The full-automatic intelligent assembling process for the gearbox is high in mechanization degree, stable and reliable in quality and high in assembling efficiency.

The structures of the three mechanisms, namely the second gear automatic assembly mechanism, the third gear automatic assembly mechanism and the fourth gear automatic assembly mechanism, are similar to the structure of the gear automatic assembly mechanism 5, and only the adaptability difference exists between the chucks and the assembly paths due to the difference of the specifications and the assembly positions of the gears.

In conclusion, the invention has the following beneficial effects through the improvement on the structure:

1. the full-automatic intelligent assembly line of gearbox is high in mechanization degree, stable and reliable in quality and high in assembly efficiency.

2. When automatic dispenser of motor transported the motor, a plurality of motors were arranged in motor transportation load dish, and a plurality of motor transportation load dish stack and transport on the transport vechicle, can transport more in batches like this, reduce the transportation, promote production efficiency, in addition, the separable design of transport vechicle can make the transportation of motor more nimble, can also directly transport between motor production line and the full-automatic intelligent assembly line of gearbox.

3. With its simple structure, the mechanism is got to intelligence clamp can realize the switching between the three station through few mechanical action, convenient and fast.

4. The intelligent unloading mechanism for the loading disc utilizes gravity to realize that the motor transports the loading disc to fall along the guide channel so that the pushing mechanism can push the loading disc to the outlet of the loading disc, and the motor transporting loading disc made of foamed plastic is matched, so that the intelligent unloading mechanism is simple, convenient and reliable.

5. The positioning seat is fixed through multiple location when assembling, realizes accurate reliable location.

6. The automatic gear assembling mechanism is simple in structure and high in mechanization degree, the gears are sucked through suction force and assembled by utilizing the rotating gears, and the assembling mode is effective and reliable.

7. The automatic pin assembling mechanism can realize automatic and continuous pin conveying and installation, and is ingenious in structure, sensitive in action and high in assembling efficiency.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the practice of the invention to the particular forms disclosed. Similar or identical methods, structures and the like, or several technical deductions or substitutions on the premise of the conception of the invention, are considered to be the protection scope of the invention.

Claims (6)

1. Full-automatic intelligent assembly line of gearbox with automatic dispenser of motor, its characterized in that, automatic dispenser of motor includes:

a main body base frame (91) with an accommodating cavity (911) arranged on one side;

a motor transport loading tray (97) for receiving and transporting a plurality of motors (10);

the transport vehicle (92) is detachably arranged in the accommodating cavity (911) and is used for transporting a motor transportation loading disc (97) provided with a motor (10) to the main body pedestal (91), the motor transportation loading disc (97) is made of foamed plastic, and the transport vehicle (92) is provided with loading disc positioning seats (922) positioned at two sides of the transport vehicle (92) and a middle bearing part (921) positioned between the loading disc positioning seats (922) at the two sides;

a lifting mechanism (93) provided in the main body base frame (91), the lifting mechanism (93) being provided with a loading tray bracket (930) for lifting the motor-carrying loading tray (97) equipped with the motor (10) to the top of the accommodating chamber (911), the lifting mechanism (93) including a fixed bracket (931), a lifting driving motor provided on the fixed bracket (931), a driving wheel (933) provided at an output end of the lifting driving motor, a driven wheel provided above the driving wheel (933), a timing belt (935) connecting the driving wheel (933) and the driven wheel, the timing belt (935) including a first side belt (9351) and a second side belt (9352) moving in opposite directions, the loading tray bracket (930) being provided on the first side belt (9351) to move up and down with the movement of the first side belt (9351);

a motor transfer robot (94) for distributing the motor (10) within the motor transport loading tray (97) to a next assembly station;

the intelligent clamping mechanism (95) is located above the main body base frame (91) and used for transferring the motor transportation loading tray (97) at the top of the accommodating cavity (911) to the position below the motor transfer manipulator (94), the intelligent clamping mechanism (95) comprises a motor transportation loading tray clamping mechanism (951) which is located on the main body base frame (91) and performs reciprocating translation movement, the motor transportation loading tray clamping mechanism (951) is provided with a first clamping head (952) and a second clamping head (953) which are symmetrically arranged and can be folded or opened, the first clamping head (952) comprises a full loading tray clamping end (9521) and an empty loading tray clamping end (9522), and clamping surfaces of the full loading tray clamping end (9521) and the empty loading tray clamping end (9522) are on the same plane;

the full-automatic intelligent assembly line for the gearbox further comprises a loading disc intelligent unloading mechanism (96), the loading disc intelligent unloading mechanism (96) comprises a loading disc outlet (961) formed in the side face of the main body base frame (91) and a guide channel (962) erected in the main body base frame (91) and used for guiding the motor transportation loading disc (97) to fall freely, the guide channel (962) is vertically arranged, and a pushing mechanism used for transversely pushing the motor transportation loading disc (97) to the loading disc outlet (961) is arranged below the guide channel (962).

2. The gearbox full-automatic intelligent assembly line with the automatic motor distribution device according to claim 1, wherein an avoiding portion (926) for avoiding the loading disc bracket (930) is arranged between the loading disc positioning seat (922) and the intermediate support portion (921), a transverse rolling pulley (923), a vertical rolling pulley (924) and an in-place clamping seat (925) for ensuring the in-place distribution of the transport vehicle (92) are arranged on the edge of the loading disc positioning seat (922), and an in-place vertical groove (9251) is formed in the in-place clamping seat (925).

3. The gearbox full-automatic intelligent assembly line with the automatic motor distribution device according to claim 2, wherein a transport vehicle distribution guide rail (91a) matched with the loading disc positioning seat (922) is arranged on the main body pedestal (91), and a spring pin (91b) extending into the in-place vertical groove (9251) when the transport vehicle (92) is distributed in place is arranged on the transport vehicle distribution guide rail (91 a).

4. The gearbox automated intelligent assembly line with automated motor dispenser of claim 1, wherein the pushing mechanism comprises:

a bottom plate (9631) provided below the guide passage (962);

a push rail group (9632) including a first push rail (9632a) and a second push rail (9632b), the first push rail (9632a) and the second push rail (9632b) being provided in parallel on both sides of the bottom plate (9631) and leading to the loading tray outlet (961);

a push slider group (9633) including a first push slider (9633a) and a second push slider (9633b), the first push slider (9633a) being slidably connected to the first push rail (9632a), the second push slider (9633b) being slidably connected to the second push rail (9632b), a slider connecting portion (9633c) being provided between the first push slider (9633a) and the second push slider (9633b), and a rear positioning member (9633d) for positioning the motor transportation loading disk (97) being provided on the slider connecting portion (9633 c);

a push cylinder (9634) provided on the main body base frame (91), an output end of the push cylinder (9634) being directed to the loading tray outlet (961) and connected with the slider connecting part (9633c) to push the push slider group (9633).

5. The gearbox full-automatic intelligent assembly line with the automatic motor distribution device according to any one of claims 1 to 4, characterized in that a loading plate lifting detection device for detecting whether the motor transportation loading plate (97) is lifted in place by the lifting mechanism (93) is arranged at the upper part of the accommodating cavity (911).

6. The gearbox automated intelligent assembly line with automatic motor dispenser of claim 1, wherein the motor transfer robot (94) comprises:

a vertical bracket (941) fixedly attached to the main body base frame (91);

a first radial moving arm (942) disposed on the vertical support (941), a rotatable first screw rod disposed inside the first radial moving arm (942), one end of the first screw rod being connected to a second driving motor for driving the first screw rod to rotate, a first slider disposed on the first screw rod and moving linearly on the first radial moving arm (942), the first slider being in threaded connection with the first screw rod;

the first tangential moving arm (943), the first tangential moving arm (943) can reciprocate along the length direction of the first radial moving arm (942), the first tangential moving arm (943) is fixedly connected with the upper surface of the first sliding block, a rotatable second screw rod is arranged inside the first tangential moving arm (943), one end of the second screw rod is connected with a third driving motor for driving the second screw rod to rotate, a second sliding block which linearly moves on the first tangential moving arm (943) is arranged on the second screw rod, and the second sliding block is in threaded connection with the second screw rod;

the first axial moving arm (944) can reciprocate along the length direction of the first tangential moving arm (943), the first axial moving arm (944) is fixedly connected with the side surface of the second sliding block, a rotatable third screw rod is arranged in the first axial moving arm (944), one end of the third screw rod is connected with a fourth driving motor for driving the third screw rod to rotate, a third sliding block which linearly moves on the first axial moving arm (944) is arranged on the third screw rod, and the third sliding block is in threaded connection with the third screw rod;

and the fifth driving motor is arranged below the first axial moving arm (944), and a motor chuck (945) used for clamping the motor (10) in the motor transportation loading tray (97) is arranged at the output end of the fifth driving motor.

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