CN204353382U - A kind of automatic press bottoming system - Google Patents

Abstract

The utility model discloses a kind of automatic press bottoming system, comprise forcing press, the two sides of forcing press are uncovered setting, the side of forcing press is provided with roll-over conveying system, the outside of roll-over conveying system is provided with oven, the opposite side of forcing press is provided with conveying body, manipulator in coaxial mould is provided with in forcing press, move to roll-over conveying system from the oven product that out Open Side Down, carried by roll-over conveying system and overturn and make product opening upwards, the product of opening upwards is delivered to the side of forcing press the most at last, capturing product by manipulator in coaxial mould to move on in forcing press on product mold, by forcing press, punching press bottoming is carried out to product, product after punching press bottoming is captured by manipulator in coaxial mould and is transferred to conveying body, by conveying body, product is delivered to finished product district.The utility model automatic press bottoming system have that efficiency is high, quality good and can automatic transport, upset, gripping and placement advantage.

Description

A kind of automatic press bottoming system

Technical field

The utility model relates to product punching press bottoming technical field, specifically refers to a kind of automatic press bottoming system.

Background technology

At present, the punching press bottoming operation of stainless steel tableware comprises butt-joint, high-temperature baking, feeding, be placed on the product mold in forcing press and by the product after punching press bottoming and be placed to the operations such as finished product district from forcing press taking-up, and above-mentioned each operation majority is by manual operation, a forcing press carries out two the people's operations of bottoming need of production, two people are placed in the front and back of forcing press, the product toasted in high-temperature baking stove takes out and overturns by last individual, then artificial feeding is to forcing press, and product is placed on the product mold in forcing press, then starting pressure machine carries out punching press bottoming, product after punching press bottoming takes out and is placed to finished product district by a rear people in forcing press.Production efficiency is low on the one hand, labour intensity large and quality cannot ensure for this kind of manual mode of operation, is especially not suitable for producing in enormous quantities; Another aspect is artificial takes out product in high-temperature baking stove, manually product is put into forcing press, easily occurs industrial injury, there is potential safety hazard.

Utility model content

The purpose of this utility model is to provide that a kind of efficiency is high, quality good, and automatically can complete the automatic press bottoming system of conveying, upset, material folding and placement.

The utility model can be achieved through the following technical solutions:

A kind of automatic press bottoming system, comprise roll-over conveying system, manipulator in coaxial mould, electrical control cubicles, forcing press, conveying body and operating console, described forcing press, roll-over conveying system, in coaxial mould, manipulator is connected with electrical control cubicles with the electronic or pneumatic part in conveying body, electrical control cubicles is electrically connected with operating console, the two sides of described forcing press are uncovered setting, the side of forcing press is provided with roll-over conveying system, the outside of roll-over conveying system is provided with oven, the opposite side of forcing press is provided with conveying body, manipulator in coaxial mould is provided with in forcing press, move to roll-over conveying system from the oven product that out Open Side Down, carried by roll-over conveying system and overturn and make product opening upwards, the product of opening upwards is delivered to the side of forcing press the most at last, capturing product by manipulator in coaxial mould to move on in forcing press on product mold, by forcing press, punching press bottoming is carried out to product, product after punching press bottoming is captured by manipulator in coaxial mould and is transferred to conveying body, by conveying body, product is delivered to finished product district.Roll-over conveying system in the utility model automatic press bottoming system, manipulator in coaxial mould, electrical control cubicles, forcing press, the setting of conveying body and operating console, described roll-over conveying system, manipulator in coaxial mould, pneumatic or electric device in forcing press and conveying body is connected with electrical control cubicles and is operated by operating console and controls, to be carried by roll-over conveying system and before overturning product to forcing press, then put on the product mold in forcing press by manipulator gripping product in coaxial mould, carry out spiral punching press bottoming by forcing press to operate, product after punching press bottoming completes is transferred on conveying body by manipulator gripping in coaxial mould again, finished product district is delivered to by conveying body, its whole process controls each mechanism by operating console and carries out automation mechanized operation, it has easy and simple to handle, safety, automaticity is high, production efficiency is high, constant product quality and the measured advantage of matter, reduce cost of labor simultaneously, avoid the problem that manual operation produces industrial injury, easy and simple to handle, suitable batchization is produced.

Further, described roll-over conveying system comprises the first feed mechanism, switching mechanism and the second feed mechanism, switching mechanism is provided with between the first described feed mechanism and the second feed mechanism, the first described feed mechanism comprises the first feeding frame, the both ends of the first feeding frame are respectively equipped with the first driving shaft and the first driven shaft, the first described driving shaft is connected with the first driven shaft by the first grid chain band, the first described driving shaft is connected with the first driving mechanism, first driving mechanism drives the first driving shaft to rotate, first driving shaft drives the first grid chain band on it to move with it to carry out conveying products, the second described feed mechanism comprises the second feeding frame, the height of the second feeding frame is lower than the height of the first feeding frame, the both ends of the second feeding frame are respectively equipped with the second driving shaft and the second driven shaft, the second described driving shaft is connected with the second driven shaft by the second grid chain band, the second described driving shaft is connected with the second driving mechanism, second driving mechanism drives the second driving shaft to rotate, and the second driving shaft drives the second grid chain band on it to move with it to carry out conveying products, described switching mechanism comprises upset fixed block, described upset fixed block is two, be separately fixed at the both sides, end of the first feeding frame, trip shaft is provided with between two upset fixed blocks, trip shaft is provided with feeding jaw cylinder, and feeding jaw cylinder is connected with feeding jaw, and one end of trip shaft is connected with the 3rd driving mechanism, 3rd driving mechanism drives trip shaft to rotate, trip shaft and then drive feeding jaw from gripping product the first grid chain band and turn on the second grid chain band.

Further, the first described driving mechanism comprises the first motor, first motor mounting plate, first driving wheel, first belt and the first driven pulley, the first described motor mounting plate is arranged on one end sidepiece that the first feeder erection has the first driving shaft, first motor mounting plate is provided with the first motor, first motor is connected with the first driving wheel, first driving wheel is connected with the first driven pulley by the first belt, first driven pulley is connected with the first driving shaft, first motor drives the first driving wheel to rotate, and then after the first belt and the first driven pulley, drive the first driving shaft to rotate by the first driving wheel, the second described driving mechanism comprises the second motor, second motor mounting plate, second driving wheel, second belt and the second driven pulley, the second described motor mounting plate is arranged on one end sidepiece that the second feeder erection has the second driving shaft, second motor mounting plate is provided with the second motor, second motor is connected with the second driving wheel, second driving wheel is connected with the second driven pulley by the second belt, second driven pulley is connected with the second driving shaft, second motor drives the second driving wheel to rotate, and then after the second belt and the second driven pulley, drive the second driving shaft to rotate by the second driving wheel, the 3rd described driving mechanism comprises the 3rd motor, 3rd motor mounting plate, 3rd driving wheel, 3rd belt and the 3rd driven pulley, the 3rd described motor mounting plate is arranged on one end sidepiece that the first feeder erection has the first driven shaft, 3rd motor mounting plate is provided with the 3rd motor, 3rd motor is connected with the 3rd driving wheel, 3rd driving wheel is connected with the 3rd driven pulley by the 3rd belt, 3rd driven pulley is connected with trip shaft, 3rd motor drives the 3rd driving wheel to rotate, and then after the 3rd belt and the 3rd driven pulley, drive trip shaft to rotate by the 3rd driving wheel.

Further, the first feeding frame both sides of one end distance end a distance close with switching mechanism are equipped with backgauge cylinder, and be provided with material blocking rod between two backgauge cylinders, backgauge air cylinder driven material blocking rod moves downward and carries out backgauge.

Further, the first described feeding frame is provided with the first stock guide, and the first stock guide is positioned at by the material blocking rod on the first feed mechanism, and the second described feeding frame is provided with the second stock guide, and the second stock guide is positioned at the conveying end of the second feed mechanism.

Further, in described coaxial mould, manipulator comprises main frame in coaxial mould, arm in coaxial mould, slave and handgrip mechanism in coaxial mould, in described coaxial mould, the two ends of arm to be respectively equipped with in coaxial mould slave in main frame and coaxial mould, in coaxial mould, in main frame and coaxial mould, slave is oppositely arranged the both sides laying respectively at forcing press, in coaxial mould, in main frame and coaxial mould, slave carries out synchronously driving arm in coaxial mould to move up and down, in described coaxial mould, the front of arm is provided with Liang Ge handgrip mechanism, Liang Ge handgrip mechanism all moves left and right in forcing press, the handgrip mechanism of side to be moved left and right along arm in coaxial mould by host driven in coaxial mould and carries out crawl product and to be transferred in forcing press on product mold, the handgrip mechanism of opposite side is moved left and right the product carried out in crawl forcing press after punching press bottoming along arm in coaxial mould by host driven in coaxial mould, be transferred to conveying body.Undertaken capturing and placing product by handgrip mechanism, efficiency is high, precision is high, handgrip mechanism is located in forcing press, be convenient to forcing press and change product mold, when more mold exchange, handgrip mechanism is moved in the space between mould and mould (that is to say and avoid mould), it does not affect punching press, and die change is convenient.

Further, in described coaxial mould, main frame comprises mainframe box and the first slide in the uncovered mould in side, in described mould, mainframe box top is provided with the first servomotor, the first shaft coupling, the first screw mandrel and first feed screw nut's seat is provided with in mainframe box in mould, the first described servomotor is connected with the first screw mandrel by the first shaft coupling, first screw mandrel is provided with the first feed screw nut's seat moved up and down along the first screw mandrel, and the both sides of the first screw mandrel are provided with two the first slide rails be set up in parallel; The side panel of the first described slide is connected with first feed screw nut's seat, the both sides of the side panel that the first slide is connected with first feed screw nut's seat are provided with the first slide block matched with the first slide rail, the bottom of the first slide is provided with arm connecting plate in the first mould, in first mould, arm connecting plate is connected with an end of arm in coaxial mould, and in coaxial mould, arm is moved up and down by the first driven by servomotor; The end of the first described slide is provided with carrying motor cover, carrying motor and synchronizing wheel is provided with in carrying motor cover, carrying motor is connected with synchronizing wheel, and synchronizing wheel is connected with arm in coaxial mould, and synchronizing wheel moves arm in coaxial mould move left and right by carrying motor driven belts.

Further, in described coaxial mould, slave comprises slave case and the second slide in the uncovered mould in side, in described mould, slave box top is provided with the second servomotor, the second shaft coupling, the second screw mandrel and second feed screw nut's seat is provided with in slave case in mould, the second described servomotor is connected with the second screw mandrel by the second shaft coupling, second screw mandrel is provided with the second feed screw nut's seat moved up and down along the second screw mandrel, and the both sides of the second screw mandrel are provided with two the second slide rails be set up in parallel; The side panel of the second described slide is connected with second feed screw nut's seat, the both sides of the side panel that the second slide is connected with second feed screw nut's seat are provided with the second slide block matched with the second slide rail, the bottom of the second slide is provided with arm connecting plate in the second mould, in second mould, arm connecting plate is connected with the other end of arm in coaxial mould, and in coaxial mould, arm is moved up and down by the second driven by servomotor; Be provided with the magnetic valve controlling handgrip mechanism in the second described slide, magnetic valve is connected with handgrip mechanism.

Further, in described coaxial mould, arm comprises Timing Belt, Timing Belt protective cover, arm main body, be in transmission connection plate, Timing Belt pressing plate, handgrip mechanism installing plate and horizontal slide rail, horizontal slide rail and handgrip mechanism installing plate is provided with before described arm main body, described handgrip mechanism installing plate is connected with horizontal slide rail by transverse slider, the top of described arm main body is provided with Timing Belt, described Timing Belt is connected with synchronizing wheel, Timing Belt is provided with Timing Belt protective cover, Timing Belt inner surface is provided with teeth, Timing Belt pressing plate is provided with the teeth groove matched with Timing Belt teeth, Timing Belt is pressed to and is in transmission connection on plate by Timing Belt pressing plate, the plate that is in transmission connection is connected with handgrip mechanism installing plate, handgrip mechanism installing plate moves left and right with synchronous band by carrying motor driving, the two ends of described horizontal slide rail are respectively equipped with left limit block and right limit block, and the two ends of described arm main body are respectively equipped with the left limit inductive switch and right limit inductive switch that match with left limit block and right limit block.

Further, described handgrip mechanism comprises handgrip cylinder and feeding jaw, and described handgrip cylinder is connected with handgrip mechanism installing plate by cylinder connecting plate, and feeding jaw is connected with handgrip cylinder, and handgrip cylinder control feeding jaw carries out clamping or unclamping product.

The beneficial effect of the utility model automatic press bottoming system: roll-over conveying system in the utility model automatic press bottoming system, manipulator in coaxial mould, electrical control cubicles, forcing press, the setting of conveying body and operating console, described roll-over conveying system, manipulator in coaxial mould, pneumatic or electric device in forcing press and conveying body is connected with electrical control cubicles and is operated by operating console and controls, to be carried by roll-over conveying system and before overturning product to forcing press, then put on the product mold in forcing press by manipulator gripping product in coaxial mould, carry out spiral punching press bottoming by forcing press to operate, product after punching press bottoming completes is transferred on conveying body by manipulator gripping in coaxial mould again, finished product district is delivered to by conveying body, its whole process controls each mechanism by operating console and carries out automation mechanized operation, it has easy and simple to handle, safety, automaticity is high, production efficiency is high, constant product quality and the measured advantage of matter, reduce cost of labor simultaneously, avoid the problem that manual operation produces industrial injury, easy and simple to handle, suitable batchization is produced.

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of the utility model automatic press bottoming system;

Accompanying drawing 2 is the structural representation of roll-over conveying system in the utility model automatic press bottoming system;

Accompanying drawing 3 is the structural representation of manipulator in coaxial mould in the utility model automatic press bottoming system;

Accompanying drawing 4 is the stereogram of main frame in coaxial mould in accompanying drawing 3;

Accompanying drawing 5 is the front view of main frame in the coaxial mould of accompanying drawing 4;

Accompanying drawing 6 is the stereogram of slave in coaxial mould in accompanying drawing 3;

Accompanying drawing 7 is the front view of slave in the coaxial mould of accompanying drawing 6;

Accompanying drawing 8 is the stereogram of arm in coaxial mould in accompanying drawing 3;

Accompanying drawing 9 is the stereogram of handgrip mechanism in accompanying drawing 3;

Reference numeral is:

1, roll-over conveying system, 2, manipulator in coaxial mould, 3, electrical control cubicles, 4, forcing press, 5, conveying body, 6, operating console;

11, the first grid chain band, the 12, first feeding frame, the 13, first stock guide, 14, material blocking rod, 15, backgauge cylinder, 16, trip shaft, 17, fixed block is overturn, 18, feeding jaw cylinder, 19, feeding jaw, 110, the second feeding frame, 111, the second grid chain band, the 112, second stock guide, the 113, second driving mechanism, 114, the 3rd driving mechanism, the 115, first driving mechanism;

21, main frame in coaxial mould, the 211, first servomotor, 212, mainframe box in mould, 213, carrying motor, 214, synchronizing wheel, arm connecting plate in the 215, first mould, the 216, first slide rail, the 217, first screw mandrel, 218, the first slide, 219, shaft coupling, 2110, carrying motor cover;

22, arm in coaxial mould, 221, Timing Belt, 222, Timing Belt protective cover, 223, arm main body, 224, left limit inductive switch, 225, left limit block, 226, be in transmission connection plate, 227, Timing Belt pressing plate, 228, handgrip mechanism installing plate, 229, horizontal slide rail, 2210, right limit block, 2211, right limit inductive switch;

23, slave in coaxial mould, the 231, second servomotor, 232, slave case in mould, 233, shaft coupling, the 234, second slide, arm connecting plate in the 235, second mould, the 236, second slide rail, the 237, second screw mandrel;

24, handgrip mechanism, 241, handgrip cylinder, 242, feeding jaw.

Detailed description of the invention

In order to make those skilled in the art person understand the technical solution of the utility model better, below in conjunction with embodiment and accompanying drawing, the utility model product is described in further detail.

As Fig. 1, shown in Fig. 2 and Fig. 3, a kind of automatic press bottoming system, comprise roll-over conveying system 1, manipulator 2 in coaxial mould, electrical control cubicles 3, forcing press 4, conveying body 5 and operating console 6, described forcing press 4, roll-over conveying system 1, in coaxial mould, manipulator 2 is connected with electrical control cubicles 3 with the electronic or pneumatic part in conveying body 5, electrical control cubicles 3 is electrically connected with operating console 6, the two sides of described forcing press 4 are uncovered setting, the side of forcing press 4 is provided with roll-over conveying system 1, the outside of roll-over conveying system 1 is provided with oven, the opposite side of forcing press 4 is provided with conveying body 5, manipulator 2 in coaxial mould is provided with in forcing press 4, move to roll-over conveying system 1 from the oven product that out Open Side Down, carried by roll-over conveying system 1 and overturn and make product opening upwards, the product of opening upwards is delivered to the side of forcing press 4 the most at last, capturing product by manipulator 2 in coaxial mould to move on in forcing press 4 on product mold, punching press bottoming is carried out by forcing press 4 pairs of products, product after punching press bottoming is captured by manipulator 2 in coaxial mould and is transferred to conveying body 5, by conveying body 5, product is delivered to finished product district.

As Fig. 1, shown in Fig. 2, described roll-over conveying system 1 comprises the first feed mechanism, switching mechanism and the second feed mechanism, switching mechanism is provided with between the first described feed mechanism and the second feed mechanism, the first described feed mechanism comprises the first feeding frame 12, the both ends of the first feeding frame 12 are respectively equipped with the first driving shaft and the first driven shaft, the first described driving shaft is connected with the first driven shaft by the first grid chain band 11, the first described driving shaft is connected with the first driving mechanism 115, first driving mechanism 115 drives the first driving shaft to rotate, first driving shaft drives the first grid chain band 11 on it to move with it to carry out conveying products, the second described feed mechanism comprises the second feeding frame 110, the height of the second feeding frame 110 is lower than the height of the first feeding frame 12, the both ends of the second feeding frame 110 are respectively equipped with the second driving shaft and the second driven shaft, the second described driving shaft is connected with the second driven shaft by the second grid chain band 111, the second described driving shaft is connected with the second driving mechanism 113, second driving mechanism 113 drives the second driving shaft to rotate, the second driving shaft drive on it the second grid chain band 111 move with it and carry out conveying products, described switching mechanism comprises upset fixed block 17, described upset fixed block 17 is two, be separately fixed at the both sides, end of the first feeding frame 12, trip shaft 16 is provided with between two upset fixed blocks 17, trip shaft 16 is provided with feeding jaw 19 cylinder 18, feeding jaw 19 cylinder 18 is connected with feeding jaw 19, one end of trip shaft 16 is connected with the 3rd driving mechanism 114,3rd driving mechanism 114 drives trip shaft 16 to rotate, trip shaft 16 and then drive feeding jaw 19 from gripping product the first grid chain band 11 and turn on the second grid chain band 111.

As shown in Figure 2, the first described driving mechanism 115 comprises the first motor, first motor mounting plate, first driving wheel, first belt and the first driven pulley, the first described motor mounting plate is arranged on one end sidepiece that the first feeding frame 12 is provided with the first driving shaft, first motor mounting plate is provided with the first motor, first motor is connected with the first driving wheel, first driving wheel is connected with the first driven pulley by the first belt, first driven pulley is connected with the first driving shaft, first motor drives the first driving wheel to rotate, and then after the first belt and the first driven pulley, drive the first driving shaft to rotate by the first driving wheel, the second described driving mechanism 113 comprises the second motor, second motor mounting plate, second driving wheel, second belt and the second driven pulley, the second described motor mounting plate is arranged on one end sidepiece that the second feeding frame 110 is provided with the second driving shaft, second motor mounting plate is provided with the second motor, second motor is connected with the second driving wheel, second driving wheel is connected with the second driven pulley by the second belt, second driven pulley is connected with the second driving shaft, second motor drives the second driving wheel to rotate, and then after the second belt and the second driven pulley, drive the second driving shaft to rotate by the second driving wheel, the 3rd described driving mechanism 114 comprises the 3rd motor, 3rd motor mounting plate, 3rd driving wheel, 3rd belt and the 3rd driven pulley, the 3rd described motor mounting plate is arranged on one end sidepiece that the first feeding frame 12 is provided with the first driven shaft, 3rd motor mounting plate is provided with the 3rd motor, 3rd motor is connected with the 3rd driving wheel, 3rd driving wheel is connected with the 3rd driven pulley by the 3rd belt, 3rd driven pulley is connected with trip shaft 16, 3rd motor drives the 3rd driving wheel to rotate, and then after the 3rd belt and the 3rd driven pulley, drive trip shaft 16 to rotate by the 3rd driving wheel.First feeding frame 12 both sides of one end distance end a distance close with switching mechanism are equipped with between backgauge cylinder 15, two backgauge cylinders 15 and are provided with material blocking rod 14, and backgauge cylinder 15 drives material blocking rod 14 to move downward to carry out backgauge.The first described feeding frame 12 is provided with the first stock guide 13, the material blocking rod 14 that first stock guide 13 is positioned on the first feed mechanism is other, the second described feeding frame 110 is provided with the conveying end that the second stock guide 112, second stock guide 112 is positioned at the second feed mechanism.

As Fig. 1, shown in Fig. 3, in described coaxial mould, manipulator 2 comprises main frame 21 in coaxial mould, arm 22 in coaxial mould, slave 23 and handgrip mechanism 24 in coaxial mould, in described coaxial mould, the two ends of arm 22 to be respectively equipped with in coaxial mould slave 23 in main frame 21 and coaxial mould, in coaxial mould, in main frame 21 and coaxial mould, slave 23 is oppositely arranged the both sides laying respectively at forcing press 4, in coaxial mould, in main frame 21 and coaxial mould, slave 23 is carried out Timing Belt 221 and is moved arm 22 in coaxial mould and move up and down, in described coaxial mould, the front of arm 22 is provided with Liang Ge handgrip mechanism 24, the handgrip mechanism 24 of side is driven to move left and right along arm 22 in coaxial mould by main frame 21 in coaxial mould and carries out crawl product and to be transferred in forcing press 4 on product mold, the handgrip mechanism 24 of opposite side is driven by main frame 21 in coaxial mould and moves left and right along arm 22 in coaxial mould the product carried out in crawl forcing press 4 after punching press bottoming, be transferred to conveying body 5.

As Fig. 3, shown in Fig. 4 and Fig. 5, in described coaxial mould, main frame 21 comprises mainframe box 212 and the first slide 218 in the uncovered mould in side, in described mould, mainframe box 212 top is provided with the first servomotor 211, the first shaft coupling 219 is provided with in mainframe box 212 in mould, first screw mandrel 217 and first feed screw nut's seat, the first described servomotor 211 is connected with the first screw mandrel 217 by the first shaft coupling 219, first screw mandrel 217 is provided with the first feed screw nut's seat moved up and down along the first screw mandrel 217, the both sides of the first screw mandrel 217 are provided with two the first slide rails 216 be set up in parallel, the side panel of the first described slide 218 is connected with first feed screw nut's seat, the both sides of the side panel that the first slide 218 is connected with first feed screw nut's seat are provided with the first slide block matched with the first slide rail 216, the bottom of the first slide 218 is provided with arm connecting plate 215 in the first mould, in first mould, arm connecting plate 215 is connected with an end of arm 22 in coaxial mould, and in coaxial mould, arm 22 is driven by the first servomotor 211 and moves up and down, the end of the first described slide 218 is provided with carrying motor 213 and covers 2110, carrying motor 213 covers in 2110 and is provided with carrying motor 213 and synchronizing wheel 214, carrying motor 213 is connected with synchronizing wheel 214, synchronizing wheel 214 is connected with arm 22 in coaxial mould, and synchronizing wheel 214 is driven by carrying motor 213 and drives arm 22 in coaxial mould to move left and right.

As Fig. 3, shown in Fig. 6 and Fig. 7, in described coaxial mould, slave 23 comprises slave case 232 and the second slide 234 in the uncovered mould in side, in described mould, slave case 232 top is provided with the second servomotor 231, the second shaft coupling 233 is provided with in slave case 232 in mould, second screw mandrel 237 and second feed screw nut's seat, the second described servomotor 231 is connected with the second screw mandrel 237 by the second shaft coupling 233, second screw mandrel 237 is provided with the second feed screw nut's seat moved up and down along the second screw mandrel 237, the both sides of the second screw mandrel 237 are provided with two the second slide rails 236 be set up in parallel, the side panel of the second described slide 234 is connected with second feed screw nut's seat, the both sides of the side panel that the second slide 234 is connected with second feed screw nut's seat are provided with the second slide block matched with the second slide rail 236, the bottom of the second slide 234 is provided with arm connecting plate 235 in the second mould, in second mould, arm connecting plate 235 is connected with the other end of arm 22 in coaxial mould, and in coaxial mould, arm 22 is driven by the second servomotor 231 and moves up and down, be provided with the magnetic valve controlling handgrip mechanism 24 in the second described slide 234, magnetic valve is connected with handgrip mechanism 24.

As Fig. 3, shown in Fig. 8, in described coaxial mould, arm 22 comprises Timing Belt 221, Timing Belt protective cover 222, arm main body 223, be in transmission connection plate 226, Timing Belt pressing plate 227, handgrip mechanism installing plate 228 and horizontal slide rail 229, horizontal slide rail 229 and handgrip mechanism installing plate 228 is provided with before described arm main body 223, described handgrip mechanism installing plate 228 is connected with horizontal slide rail 229 by transverse slider, the top of described arm main body 223 is provided with Timing Belt 221, described Timing Belt 221 is connected with synchronizing wheel 214, Timing Belt 221 is provided with Timing Belt protective cover 222, Timing Belt 221 inner surface is provided with teeth, Timing Belt pressing plate 227 is provided with the teeth groove matched with Timing Belt 221 teeth, Timing Belt 221 is pressed to and is in transmission connection on plate 226 by Timing Belt pressing plate 227, the plate 226 that is in transmission connection is connected with handgrip mechanism installing plate 228, handgrip mechanism installing plate 228 is driven by carrying motor 213 and moves left and right with Timing Belt 221, the two ends of described horizontal slide rail 229 are respectively equipped with left limit block 225 and right limit block 2210, and the two ends of described arm main body 223 are respectively equipped with the left limit inductive switch 224 and right limit inductive switch 2211 that match with left limit block 225 and right limit block 2210.

As shown in Fig. 3, Fig. 9, described handgrip mechanism 24 comprises handgrip cylinder 241 and feeding jaw 242, described handgrip cylinder 241 is connected with handgrip mechanism installing plate 228 by cylinder connecting plate, feeding jaw 242 is connected with handgrip cylinder 241, and handgrip cylinder 241 controls feeding jaw 242 to carry out clamping or unclamping product.

The course of work of the utility model automatic press bottoming system is as follows: the product that Open Side Down after baking in high-temperature baking stove is put on the first grid chain band of the first feed mechanism switching mechanism, operating console controls before the first feed mechanism is delivered to material blocking rod, control switching mechanism is carried out upset makes product opening upwards, and the product after upset is put on the second grid chain band on the second feed mechanism, before being delivered to forcing press by the second feed mechanism, then product is captured by the handgrip mechanism of manipulator side in coaxial mould, and be transferred on the product mold in forcing press, then starting pressure machine carries out spiral punching press bottoming operation, after punching press bottoming completes, product is captured by the handgrip mechanism of manipulator opposite side in coaxial mould, and be transferred to the conveying body of forcing press opposite side, finished product district is delivered to by conveying body.Its feeding conveying of the utility model automatic press bottoming system, rotary movement, crawl transfer and discharging carry whole process to control each mechanism by means of only operating console to carry out automation mechanized operation, easy and simple to handle, safety, automaticity is high, production efficiency is high, constant product quality and the measured advantage of matter, reduce cost of labor simultaneously, avoids the problem that manual operation produces industrial injury, easy and simple to handle, suitable batchization is produced.

The above, be only preferred embodiment of the present utility model, not does any pro forma restriction to the utility model; The those of ordinary skill of all industry all can shown in by specification accompanying drawing and the above and implement the utility model swimmingly; But all those skilled in the art are not departing within the scope of technical solutions of the utility model, disclosed above technology contents can be utilized and make a little change, modify with differentiation equivalent variations, be Equivalent embodiments of the present utility model; Meanwhile, all according to substantial technological of the present utility model to the change of any equivalent variations that above embodiment is done, modify and differentiation etc., within the protection domain all still belonging to the technical solution of the utility model.

Claims (10)

1. an automatic press bottoming system, it is characterized in that: comprise roll-over conveying system (1), manipulator (2) in coaxial mould, electrical control cubicles (3), forcing press (4), conveying body (5) and operating console (6), described forcing press (4), roll-over conveying system (1), in coaxial mould, manipulator (2) is connected with electrical control cubicles (3) with the electronic or pneumatic part in conveying body (5), electrical control cubicles (3) is electrically connected with operating console (6), the two sides of described forcing press (4) are uncovered setting, the side of forcing press (4) is provided with roll-over conveying system (1), the outside of roll-over conveying system (1) is provided with oven, the opposite side of forcing press (4) is provided with conveying body (5), manipulator (2) in coaxial mould is provided with in forcing press (4), move to roll-over conveying system (1) from the oven product that out Open Side Down, carried by roll-over conveying system (1) and overturn and make product opening upwards, the product of opening upwards is delivered to the side of forcing press (4) the most at last, capturing product by manipulator (2) in coaxial mould moves on on forcing press (4) interior product mold, by forcing press (4), punching press bottoming is carried out to product, product after punching press bottoming is captured by manipulator (2) in coaxial mould and is transferred to conveying body (5), by conveying body (5), product is delivered to finished product district.

2. automatic press bottoming system according to claim 1, it is characterized in that: described roll-over conveying system (1) comprises the first feed mechanism, switching mechanism and the second feed mechanism, switching mechanism is provided with between the first described feed mechanism and the second feed mechanism, the first described feed mechanism comprises the first feeding frame (12), the both ends of the first feeding frame (12) are respectively equipped with the first driving shaft and the first driven shaft, the first described driving shaft is connected with the first driven shaft by the first grid chain band (11), the first described driving shaft is connected with the first driving mechanism (115), first driving mechanism (115) drives the first driving shaft to rotate, first driving shaft drives the first grid chain band (11) on it to move with it to carry out conveying products,

The second described feed mechanism comprises the second feeding frame (110), the height of the second feeding frame (110) is lower than the height of the first feeding frame (12), the both ends of the second feeding frame (110) are respectively equipped with the second driving shaft and the second driven shaft, the second described driving shaft is connected with the second driven shaft by the second grid chain band (111), the second described driving shaft is connected with the second driving mechanism (113), second driving mechanism (113) drives the second driving shaft to rotate, second driving shaft drive on it the second grid chain band (111) move with it and carry out conveying products,

Described switching mechanism comprises upset fixed block (17), described upset fixed block (17) is two, be separately fixed at the both sides, end of the first feeding frame (12), trip shaft (16) is provided with between two upsets fixed block (17), trip shaft (16) is provided with feeding jaw (19) cylinder (18), feeding jaw (19) cylinder (18) is connected with feeding jaw (19), one end of trip shaft (16) is connected with the 3rd driving mechanism (114), 3rd driving mechanism (114) drives trip shaft (16) to rotate, trip shaft (16) and then drive feeding jaw (19) to turn on the second grid chain band (111) from gripping product the first grid chain band (11).

3. automatic press bottoming system according to claim 2, it is characterized in that: described the first driving mechanism (115) comprises the first motor, first motor mounting plate, first driving wheel, first belt and the first driven pulley, the first described motor mounting plate is arranged on one end sidepiece that the first feeding frame (12) is provided with the first driving shaft, first motor mounting plate is provided with the first motor, first motor is connected with the first driving wheel, first driving wheel is connected with the first driven pulley by the first belt, first driven pulley is connected with the first driving shaft, first motor drives the first driving wheel to rotate, and then after the first belt and the first driven pulley, drive the first driving shaft to rotate by the first driving wheel,

Described the second driving mechanism (113) comprises the second motor, second motor mounting plate, second driving wheel, second belt and the second driven pulley, the second described motor mounting plate is arranged on one end sidepiece that the second feeding frame (110) is provided with the second driving shaft, second motor mounting plate is provided with the second motor, second motor is connected with the second driving wheel, second driving wheel is connected with the second driven pulley by the second belt, second driven pulley is connected with the second driving shaft, second motor drives the second driving wheel to rotate, and then after the second belt and the second driven pulley, drive the second driving shaft to rotate by the second driving wheel,

The 3rd described driving mechanism (114) comprises the 3rd motor, 3rd motor mounting plate, 3rd driving wheel, 3rd belt and the 3rd driven pulley, the 3rd described motor mounting plate is arranged on one end sidepiece that the first feeding frame (12) is provided with the first driven shaft, 3rd motor mounting plate is provided with the 3rd motor, 3rd motor is connected with the 3rd driving wheel, 3rd driving wheel is connected with the 3rd driven pulley by the 3rd belt, 3rd driven pulley is connected with trip shaft (16), 3rd motor drives the 3rd driving wheel to rotate, and then after the 3rd belt and the 3rd driven pulley, drive trip shaft (16) to rotate by the 3rd driving wheel.

4. automatic press bottoming system according to claim 3, it is characterized in that: first feeding frame (12) both sides of one end distance end a distance close with switching mechanism are equipped with backgauge cylinder (15), be provided with material blocking rod (14) between two backgauge cylinders (15), backgauge cylinder (15) driving material blocking rod (14) moves downward and carries out backgauge.

5. automatic press bottoming system according to claim 4, it is characterized in that: the first described feeding frame (12) is provided with the first stock guide (13), the material blocking rod (14) that first stock guide (13) is positioned on the first feed mechanism is other, the second described feeding frame (110) is provided with the second stock guide (112), and the second stock guide (112) is positioned at the conveying end of the second feed mechanism.

6. the automatic press bottoming system according to any one of claim 1 to 5 claim, it is characterized in that: in described coaxial mould, manipulator (2) comprises main frame (21) in coaxial mould, arm (22) in coaxial mould, slave (23) and handgrip mechanism (24) in coaxial mould, in described coaxial mould, the two ends of arm (22) to be respectively equipped with in coaxial mould slave (23) in main frame (21) and coaxial mould, in coaxial mould, in main frame (21) and coaxial mould, slave (23) is oppositely arranged the both sides laying respectively at forcing press (4), in coaxial mould, in main frame (21) and coaxial mould, slave (23) is carried out arm (22) in the dynamic coaxial mould of Timing Belt (221) and is moved up and down, in described coaxial mould, the front of arm (22) is provided with Liang Ge handgrip mechanism (24), the handgrip mechanism (24) of side is driven to move left and right along arm (22) in coaxial mould by main frame (21) in coaxial mould and carries out crawl product and be transferred on forcing press (4) interior product mold, the handgrip mechanism (24) of opposite side is driven by main frame (21) in coaxial mould and moves left and right the product after carrying out crawl forcing press (4) interior punching press bottoming along arm (22) in coaxial mould, be transferred to conveying body (5).

7. automatic press bottoming system according to claim 6, it is characterized in that: in described coaxial mould, main frame (21) comprises mainframe box (212) and the first slide (218) in the uncovered mould in side, in described mould, mainframe box (212) top is provided with the first servomotor (211), the first shaft coupling (219) is provided with in mainframe box (212) in mould, first screw mandrel (217) and first feed screw nut's seat, described the first servomotor (211) is connected with the first screw mandrel (217) by the first shaft coupling (219), first screw mandrel (217) is provided with the first feed screw nut's seat moved up and down along the first screw mandrel (217), the both sides of the first screw mandrel (217) are provided with two the first slide rails (216) be set up in parallel,

The side panel of described the first slide (218) is connected with first feed screw nut's seat, the both sides of the side panel that the first slide (218) is connected with first feed screw nut's seat are provided with the first slide block matched with the first slide rail (216), the bottom of the first slide (218) is provided with arm connecting plate (215) in the first mould, in first mould, arm connecting plate (215) is connected with an end of arm (22) in coaxial mould, and in coaxial mould, arm (22) is driven by the first servomotor (211) and moves up and down;

The end of described the first slide (218) is provided with carrying motor (213) cover (2110), carrying motor (213) and synchronizing wheel (214) is provided with in carrying motor (213) cover (2110), carrying motor (213) is connected with synchronizing wheel (214), synchronizing wheel (214) is connected with arm (22) in coaxial mould, and synchronizing wheel (214) is driven by carrying motor (213) and drives arm (22) in coaxial mould to move left and right.

8. automatic press bottoming system according to claim 7, it is characterized in that: in described coaxial mould, slave (23) comprises slave case (232) and the second slide (234) in the uncovered mould in side, in described mould, slave case (232) top is provided with the second servomotor (231), the second shaft coupling (233) is provided with in slave case (232) in mould, second screw mandrel (237) and second feed screw nut's seat, described the second servomotor (231) is connected with the second screw mandrel (237) by the second shaft coupling (233), second screw mandrel (237) is provided with the second feed screw nut's seat moved up and down along the second screw mandrel (237), the both sides of the second screw mandrel (237) are provided with two the second slide rails (236) be set up in parallel,

The side panel of described the second slide (234) is connected with second feed screw nut's seat, the both sides of the side panel that the second slide (234) is connected with second feed screw nut's seat are provided with the second slide block matched with the second slide rail (236), the bottom of the second slide (234) is provided with arm connecting plate (235) in the second mould, in second mould, arm connecting plate (235) is connected with the other end of arm (22) in coaxial mould, and in coaxial mould, arm (22) is driven by the second servomotor (231) and moves up and down;

Be provided with the magnetic valve controlling handgrip mechanism (24) in described the second slide (234), magnetic valve is connected with handgrip mechanism (24).

9. automatic press bottoming system according to claim 7, it is characterized in that: in described coaxial mould, arm (22) comprises Timing Belt (221), Timing Belt protective cover (222), arm main body (223), be in transmission connection plate (226), Timing Belt pressing plate (227), handgrip mechanism installing plate (228) and horizontal slide rail (229), horizontal slide rail (229) and handgrip mechanism installing plate (228) is provided with before described arm main body (223), described handgrip mechanism installing plate (228) is connected with horizontal slide rail (229) by transverse slider, the top of described arm main body (223) is provided with Timing Belt (221), described Timing Belt (221) is connected with synchronizing wheel (214), Timing Belt (221) is provided with Timing Belt protective cover (222), Timing Belt (221) inner surface is provided with teeth, Timing Belt pressing plate (227) is provided with the teeth groove matched with Timing Belt (221) teeth, Timing Belt (221) is pressed on the plate that is in transmission connection (226) by Timing Belt pressing plate (227), the plate (226) that is in transmission connection is connected with handgrip mechanism installing plate (228), handgrip mechanism installing plate (228) is driven by carrying motor (213) and moves left and right with Timing Belt (221),

The two ends of described horizontal slide rail (229) are respectively equipped with left limit block (225) and right limit block (2210), and the two ends of described arm main body (223) are respectively equipped with the left limit inductive switch (224) and right limit inductive switch (2211) that match with left limit block (225) and right limit block (2210).

10. automatic press bottoming system according to claim 7, it is characterized in that: described handgrip mechanism (24) comprises handgrip cylinder (241) and feeding jaw (242), described handgrip cylinder (241) is connected with handgrip mechanism installing plate (228) by cylinder connecting plate, feeding jaw (242) is connected with handgrip cylinder (241), and handgrip cylinder (241) controls feeding jaw (242) to carry out clamping or unclamping product.