CN203415805U - Equipment of automatic double-layer rotary-type installation glue camera obscura iron component - Google Patents

Abstract

Equipment of an automatic double-layer rotary-type installation glue camera obscura iron component is characterized in that the equipment comprises an engine base; a main shaft is installed on the engine base; the main shaft is driven by power; an upper rotating disk and a lower rotating disk are installed on the main shaft; the upper rotating disk and the lower rotating disk are provided with six groups of die s respectively; each die is provided with a long iron component installation groove and a short iron component installation groove; a long iron component and a short iron component are arranged in the long iron component installation groove and a short iron component installation groove; the engine base surrounding the upper rotating disk and the lower rotating disk is respectively provided with upper layer and lower layer of upper long iron component apparatuses, an upper short iron component apparatus, a material loading and blanking conveying apparatus, a long iron component bending apparatus, a long iron component pressing apparatus and a layer changing apparatus. By using the equipment of the automatic double-layer rotary-type installation glue camera obscura iron component of the utility model, each operation is automatically completed; manual operation is not needed; working is easy; working efficiency is high; installation precision is good.

Description

The equipment of the rotary installation glue of automatic double-layer camera bellows ironware

Technical field

The utility model relates to the equipment of the rotary installation glue of automatic double-layer camera bellows ironware, belongs to electrical accessorie manufacture field.

Background technology

The installation of civil mains switch and socket, there is a glue camera bellows to be embedded in the body of wall in building (house), the end of a thread of power line is received in glue camera bellows, again the panel of switch or socket and the end of a thread are connected, then panel and glue camera bellows are screwed, this is fixing need to arrange long ironware and short ironware in glue camera bellows, in short ironware, has screw thread, and screw is threaded through its head after the fixing hole of panel and short ironware.Prior art adopts punch press, gets by hand on the mould that glue camera bellows is put into punch press, then gets the installation place that long ironware is placed on glue camera bellows, then getting short ironware is stacked on long ironware, start punch press, by drift, long ironware punching bending is embraced to short ironware, then take out the glue camera bellows after long and short ironware has been installed, the shortcoming that above-mentioned technology exists is that labor intensity of operating staff is large, it is fast that action is wanted, very nervous, and easily accidents happened, inefficiency hand-manipulated, installation accuracy is poor, and quality is difficult to ensure card.

Summary of the invention

The purpose of this utility model is the shortcoming existing in order to overcome prior art, a kind of automatic conveying ironware and glue camera bellows are provided, and ironware is installed on glue camera bellows, operating efficiency is high, labour intensity is low, the equipment of the rotary installation glue of the automatic double-layer camera bellows ironware that assembly precision is good.

The technical scheme of the equipment of the rotary installation glue of the utility model automatic double-layer camera bellows ironware is: it is characterized in that comprising support, be arranged on main shaft on support, main shaft is driven by power, the top rotary table of installing on main shaft and lower rotary table, on, 6 groups of moulds are respectively installed on lower rotary table, in mould, have long ironware mounting groove and short ironware mounting groove, in long ironware mounting groove and short ironware mounting groove, long ironware and short ironware are set, upper, upper and lower two-layer long ironware device is set respectively on lower rotary table support around, upper short ironware device, material conveying device under material loading, long ironware bending device, long ironware pressuring flat device and layer-changing device, described long ironware device comprises long ironware hopper, long ironware vibrating disk and first holder, long ironware vibrating disk connects long ironware feed track, in first holder, have first lifting groove, in first lifting groove, first guide post is installed, first lifter plate is set on first guide post, in first holder one side, first lift cylinder is installed, the piston rod of first lift cylinder is connected with first lifter plate, in first lifter plate one side, first rotary cylinder is installed, first rotary cylinder connects first cursor, first sucker is installed under first cursor, the long ironware of long ironware feed track outlet is delivered in the long ironware mounting groove of mould through first sucker, described short ironware device comprises short ironware hopper, short ironware vibrating disk and second holder, short ironware vibrating disk connects short ironware feed track, in second holder, have second lifting groove, in second lifting groove, second guide post is installed, second lifter plate is set on second guide post, in second holder one side, second lift cylinder is installed, the piston rod of second lift cylinder is connected with second lifter plate, in second lifter plate one side, second rotary cylinder is installed, second rotary cylinder connects second cursor, second sucker is installed under second cursor, the short ironware of short ironware feed track outlet is delivered in the short ironware mounting groove of mould through second sucker, under described material loading, material conveying device comprises material loading conveying slideway and blanking conveying slideway, material loading is carried in slideway glue camera bellows, at material loading, carry the delivery outlet rear side of slideway to have material loading blanking cylinder, the piston rod of material loading blanking cylinder connects support plate, pusher dish is installed on support plate top, suction dish is installed in support plate bottom, pusher dish carries the bottom surface of glue camera bellows in slideway delivery outlet to contact with material loading, suction dish carries the bottom surface of glue camera bellows in slideway input port to contact with blanking, described long ironware bending device comprises the third holder, the third holder sidewall is installed the third guiding pole socket, in the third guiding pole socket, the third guide post and third time air cylinder are set, the piston rod of third time air cylinder connects the third lower platen through the third guiding pole socket, above the third lower platen, connect the third guide post, before connect the bending briquetting of long ironware, under bending briquetting, be shaped with the trapezoidal indent of indent, described long ironware pressuring flat device comprises fourth holder, fourth holder sidewall is installed fourth guiding pole socket, in fourth guiding pole socket, air cylinder under fourth guide post and fourth is set, under fourth, the piston rod of air cylinder connects fourth lower platen through fourth guiding pole socket, before fourth lower platen, connect the pressing briquetting of long ironware, flatten the parallel indent that is shaped with indent under briquetting, described layer-changing device is included in installation advance and retreat cylinder on support, the piston rod connection of rotating cylinder of advance and retreat cylinder, rotation cylinder connection of rotating plate, on rotor plate, install and change a layer sucker, changing layer sucker contacts with the bottom surface of glue camera bellows.

The utility model discloses the equipment of the rotary installation glue of a kind of automatic double-layer camera bellows ironware, this equipment is upper and lower double-layer structure, long ironware device and upper short ironware device are wherein set on the support on top rotary table right side, long ironware bending device and long ironware pressuring flat device are set on the support in left side, and long ironware bending device and long ironware pressuring flat device be set on the support on lower rotary table right side, on the support in left side, long ironware device and upper short ironware device (each setting position that is the bilevel left and right sides is exchanged mutually) are set, during work, first by workman, pour long ironware into upper long ironware hopper, short ironware is poured short ironware hopper into, hopper will be grown, short ironware is transported to respectively (concrete structure of long ironware vibrating disk and short ironware vibrating disk is prior art) on long ironware vibrating disk and short ironware vibrating disk, long ironware vibrating disk arranges long ironware (long ironware is comprised of the flap of 90 ° of bendings of base plate and two), make the flap of the 90 ° of bendings in long ironware two upward from long ironware feed track output, short ironware vibrating disk arranges short ironware (short ironware is comprised of barb and the screw plate of 90 ° of bendings of panel and two), short ironware vibrating disk is exported the barb of the 90 ° of bendings in short ironware two and screw plate down from short ironware feed track, then the first rotary cylinder by upper long ironware device drives the rotation of first cursor to the top, exit of long ironware feed track, the piston rod of first lift cylinder drives first lifter plate to move down on first guide post, first lifter plate drives first rotary cylinder, first cursor and first sucker move down, when first sucker moves to while contacting with the base plate of long ironware, now vacuum pump work, make first sucker hold long ironware, the piston rod of first lift cylinder drives first lifter plate to move up, first lifter plate drives first cursor and first sucker to move up, first sucker takes out long ironware, first rotary cylinder drives first cursor back to rotate to mould top, then first lift cylinder drives first cursor and first sucker to decline, long ironware on first sucker is placed in the long ironware mounting groove of mould, now vacuum pump quits work, first sucker is no longer adsorbed on long ironware, first cursor and first sucker are driven and are again got back to long ironware feed track top by first rotary cylinder and first lift cylinder, prepare the action of upper long ironware next time, place the mould of long ironware by top rotary table driven rotary, top rotary table by power through 60 ° of separator driven rotary, the mould rotation supreme short ironware device place top rotary table of long ironware is stopped, then the second rotary cylinder by upper short ironware device drives the rotation of second cursor to the top, exit of short ironware feed track, the piston rod of second lift cylinder drives second lifter plate to move down on second guide post, second lifter plate drives second rotary cylinder, second cursor and second sucker move down, when second sucker moves to while contacting with the panel of short ironware, now vacuum pump work, make second sucker hold short ironware, the piston rod of second lift cylinder drives second lifter plate to move up, second lifter plate drives second cursor and second sucker to move up, second sucker takes out short ironware, second rotary cylinder drives second cursor back to rotate to mould top, then second lift cylinder drives second cursor and second sucker to decline, short ironware on second sucker is placed in the short ironware mounting groove of mould, now vacuum pump quits work, second sucker is no longer adsorbed on short ironware, second cursor and second sucker are driven and are again got back to short ironware feed track top by second rotary cylinder and second lift cylinder, prepare the action of upper short ironware next time, after long ironware and short ironware are all placed on mould, top rotary table continues driven mold rotation, top rotary table by power through 60 ° of separator driven rotary, the mould of long ironware and short ironware is rotated to material loading blanking conveying device place top rotary table to stop, under material loading, material conveying device has upper and lower two-layer conveying slideway, upper strata is that material loading is carried slideway, lower floor is that slideway is carried in blanking, the material loading that glue camera bellows opening is put into upper strata is forward carried in slideway, material loading carries slideway that glue camera bellows is delivered to delivery outlet, piston rod by material loading blanking cylinder drives support plate again, support plate drives pusher dish and suction dish to move forward simultaneously, pusher dish pushes the glue camera bellows of delivery outlet forward, the opening of glue camera bellows is snapped on mould, and the flap that makes the long ironware on mould snaps in the groove of glue camera bellows wall, completing after material loading the piston rod of material loading blanking cylinder returns and prepares next material loading, and be provided with glue camera bellows, the mould of long ironware and short ironware continues by top rotary table driven rotary, top rotary table by power through 60 ° of separator driven rotary, when the extremely long ironware bending device of rotation below, top rotary table stops, the piston rod of third time air cylinder promotes the third lower platen downwards, the third lower platen moves down under the effect of the third guide post, the third lower platen drives bending briquetting to move down, bending briquetting pushes the flap at 90 °, long ironware two downwards, make flap be tilted to inner bending along the trapezoidal indent of bending briquetting, the angle that now flap tilts is consistent with the angle that trapezoidal indent inwall tilts, then the piston rod of third time air cylinder drives the third lower platen and bending briquetting to move up and prepares action next time, and be extruded long ironware and the short ironware of bending, glue camera bellows continues rotation under mould drives, top rotary table by power through 60 ° of separator driven rotary, when mould rotation to long ironware pressuring flat device below top rotary table stops, under fourth, the piston rod of air cylinder promotes fourth lower platen downwards, fourth lower platen moves down under the effect of fourth guide post, fourth lower platen drives pressing briquetting to move down, flatten briquetting and push the flap that long ironware two has been extruded generation inclination bending downwards, the parallel indent that now flattens briquetting contacts with the flap of the bending of tilting, continued the wall that presses down with glue camera bellows equal, so just, can make long ironware embrace short ironware and glue camera bellows fixes, and complete long ironware and short ironware at the wall of glue camera bellows one side, and the flap bending of long ironware is embraced after short ironware and glue camera bellows, top rotary table continues driven mold rotation, top rotary table by power through 60 ° of separator driven rotary, when mould rotates to layer-changing device position, top rotary table stops, piston rod by advance and retreat cylinder drives rotation cylinder, rotor plate and change layer sucker forward, change the bottom surface that layer sucker holds glue camera bellows, layer sucker moved by advance and retreat cylinder band and glue camera bellows moves the mould that exits top rotary table backward, then by rotation cylinder, drive rotor plate to rotate, layer sucker moved by rotor plate band and glue camera bellows is rotated down 180 °, make the opening of glue camera bellows and the mould of lower rotary table corresponding, advance and retreat cylinder drives glue camera bellows to snap into forward on the mould of lower rotary table, and be upper long ironware device and upper short ironware device due to what install on the support of lower rotary table left side, therefore the mould of lower rotary table is when rotating to left side, by upper long ironware device and upper short ironware device, carry out upper long ironware and short ironware, when mould rotates to layer-changing device the place ahead, on mould, there are long ironware and short ironware on, layer-changing device has the glue camera bellows opposite side on upper strata on not the wall rotation of long ironware and short ironware make progress and snap on the mould of lower rotary table, the opposite side that makes glue camera bellows has long ironware and short ironware on also, then go up, lower rotary table continues by power through separator driven rotary, upper long ironware and short ironware are carried out in the mould rotation of top rotary table to right side, the mould of lower rotary table has length on driving, the glue camera bellows rotation of short ironware is long ironware bending and pressing to right side, the glue camera bellows that last both sides all complete processing by lower rotary table driven rotary to material loading blanking conveying device place, the piston rod of material loading blanking cylinder drives support plate forward, support plate drives pusher dish and suction dish forward, the pusher dish on upper strata promotes material loading and carries the glue camera bellows of slideway to carry out material loading, and the suction dish of lower floor holds forward glue camera bellows, then material loading blanking cylinder drives support plate to return, drive blanking to carry the input port of slideway in glue camera bellows, by blanking, carry slideway that the glue camera bellows processing is exported to a side, finally fall into collecting box.This programme adopts vibrating disk automatic arranging long, short ironware, then by upper long ironware device and upper short ironware device, will be grown, short ironware is placed on mould, by material conveying device under material loading, glue camera bellows is placed on mould again, and make the flap of long ironware through the groove on glue camera bellows wall, then by long ironware bending device and long ironware pressuring flat device, the flap through glue camera bellows wall groove is bent inwards and embraces glue camera bellows, make long, short ironware and glue camera bellows are fixed, then by layer-changing device, glue camera bellows is changed to lower floor, and make glue camera bellows opposite side have length on not, the wall of short ironware upward, to long on the opposite side wall of glue camera bellows, short ironware and the bending of long ironware and pressing, last glue camera bellows both sides all being processed by material conveying device under material loading takes out and is put on blanking conveying slideway, upper, on lower rotary table, automatically complete each operation, need not be hand-manipulated, work easily, operating efficiency is high, installation accuracy is good.

The equipment of the rotary installation glue of the utility model automatic double-layer camera bellows ironware, described the third guiding pole socket one side mounting bracket, detector is in place on support.Had to bit detector, when mold movement leads pole socket below to third of long ironware bending device, to bit detector, detecting mold movement puts in place, rotating disk just stops the rotation, a mold movement puts in place, other mould on rotating disk also all moves into place, thereby guarantees the precision of the actions such as upper long ironware, upper short ironware, material loading, flap bending, discharging.Under described the third lower platen, buffer spring is installed, buffer spring contacts with glue camera bellows.There is buffer spring, avoided the third lower platen to press down too fast and flap is out of shape.On the support of described delivery outlet front side, slide is installed.There is slide, in the time of making glue camera bellows input mould, the internal face on its top is higher than the flap of long ironware, thereby avoid long ironware to be knocked over by glue camera bellows, and after glue camera bellows input mould, along with top rotary table rotation is to a Slideslip, now glue camera bellows, along slide down sliding slightly, snaps in the groove of glue camera bellows wall the flap of long ironware.On the support of described long ironware bending device and long ironware pressuring flat device, curved baffle is installed, curved baffle contacts with glue camera bellows.Curved baffle plays positioning action to glue camera bellows.

Accompanying drawing explanation

Fig. 1 is the schematic top plan view of the equipment of the rotary installation glue of automatic double-layer camera bellows ironware;

Fig. 2 is the schematic perspective view of upper long ironware device and upper short ironware device;

Fig. 3 is the schematic perspective view of upper long ironware device;

Fig. 4 is the schematic perspective view of upper short ironware device;

Fig. 5 is the schematic perspective view of long ironware bending device;

Fig. 6 is that the master of layer-changing device looks schematic diagram;

Fig. 7 is the schematic top plan view of long ironware vibrating disk and short ironware vibrating disk;

Fig. 8 installs the schematic perspective view of long ironware and short ironware on glue camera bellows;

Fig. 9 is the schematic perspective view of glue camera bellows;

Figure 10 is the schematic cross-section of bending briquetting;

Figure 11 is the schematic cross-section that flattens briquetting;

Figure 12 is the schematic perspective view of long ironware;

Figure 13 is the schematic perspective view of short ironware;

Figure 14 is that under material loading, the master of material conveying device looks schematic diagram;

Figure 15 is the structural representation that power drives main shaft and upper and lower rotating disk.

Embodiment

The utility model relates to the equipment of the rotary installation glue of a kind of automatic double-layer camera bellows ironware, as shown in Fig. 1-Figure 15, it is characterized in that: comprise support, be arranged on main shaft 17 on support 10, main shaft is driven by power 18, the top rotary table 1 of installing on main shaft and lower rotary table 19, on, 6 groups of moulds 11 are respectively installed on lower rotary table, in mould, have long ironware mounting groove 12 and short ironware mounting groove 13, in long ironware mounting groove and short ironware mounting groove, long ironware 14 and short ironware 15 are set, upper, lower rotary table 1, upper and lower two-layer long ironware device 2 is set respectively on the support 10 around 19, upper short ironware device 3, under material loading, material conveying device 4, long ironware bending device 5, long ironware pressuring flat device 6 and layer-changing device 7, described long ironware device 2 comprises long ironware hopper 20, long ironware vibrating disk 21 and first holder 22, long ironware vibrating disk 21 connects long ironware feed track 211, in first holder, have first lifting groove 23, in first lifting groove, first guide post 24 is installed, first lifter plate 25 is set on first guide post, in first holder one side, first lift cylinder 26 is installed, the piston rod of first lift cylinder is connected with first lifter plate 25, in first lifter plate one side, first rotary cylinder 27 is installed, first rotary cylinder connects first cursor 28, first sucker 29 is installed under first cursor, the long ironware 14 of long ironware feed track 211 outlets is delivered in the long ironware mounting groove 12 of mould 11 through first sucker, described short ironware device 3 comprises short ironware hopper 30, short ironware vibrating disk 31 and second holder 32, short ironware vibrating disk 31 connects short ironware feed track 311, in second holder, have second lifting groove 33, in second lifting groove, second guide post 34 is installed, second lifter plate 35 is set on second guide post, in second holder one side, second lift cylinder 36 is installed, the piston rod of second lift cylinder is connected with second lifter plate 35, in second lifter plate one side, second rotary cylinder 37 is installed, second rotary cylinder connects second cursor 38, second sucker 39 is installed under second cursor, the short ironware 15 of short ironware feed track 311 outlets is delivered in the short ironware mounting groove 13 of mould 11 through second sucker, under described material loading, material conveying device 4 comprises material loading conveying slideway 41 and blanking conveying slideway 45, material loading is carried in slideway glue camera bellows 8, at material loading, carry delivery outlet 42 rear sides of slideway to have material loading blanking cylinder 43, the piston rod of material loading blanking cylinder connects support plate 46, pusher dish 47 is installed on support plate top, suction dish 48 is installed in support plate bottom, pusher dish 47 carries the bottom surface of glue camera bellows 8 in slideway 41 delivery outlets to contact with material loading, suction dish 48 carries the bottom surface of glue camera bellows in slideway 45 input ports to contact with blanking, described long ironware bending device 5 comprises the third holder 51, the third holder sidewall is installed the third guiding pole socket 52, in the third guiding pole socket, the third guide post 53 and third time air cylinder 54 are set, the piston rod of third time air cylinder connects the third lower platen 55 through the third guiding pole socket 52, above the third lower platen, connect the third guide post 53, before connect the bending briquetting 56 of long ironware, under bending briquetting, be shaped with the trapezoidal indent 57 of indent, described long ironware pressuring flat device 6 comprises fourth holder 61, fourth holder sidewall is installed fourth guiding pole socket 62, in fourth guiding pole socket, air cylinder 64 under fourth guide post 63 and fourth is set, under fourth, the piston rod of air cylinder connects fourth lower platen 65 through fourth guiding pole socket 62, before fourth lower platen, connect the pressing briquetting 66 of long ironware, flatten the parallel indent 67 that is shaped with indent under briquetting, described layer-changing device 7 is included in installation advance and retreat cylinder 71 on support 10, the piston rod connection of rotating cylinder 72 of advance and retreat cylinder, rotation cylinder connection of rotating plate 73, on rotor plate, install and change layer sucker 74, changing layer sucker contacts with the bottom surface of glue camera bellows 8.This equipment is upper and lower double-layer structure, long ironware device 2 and upper short ironware device 3 are wherein set on the support 10 on top rotary table 1 right side, long ironware bending device 5 and long ironware pressuring flat device 6 are set on the support in left side, and long ironware bending device and long ironware pressuring flat device be set on the support on lower rotary table 19 right sides, on the support in left side, long ironware device and upper short ironware device (each setting position that is the bilevel left and right sides is exchanged mutually) are set, during work, first by workman, pour long ironware 14 into upper long ironware hopper 20, short ironware 15 is poured short ironware hopper 30 into, hopper will be grown, short ironware is transported to respectively (concrete structure of long ironware vibrating disk and short ironware vibrating disk is prior art) on long ironware vibrating disk 21 and short ironware vibrating disk 31, 21 pairs of long ironwares of long ironware 14(of long ironware vibrating disk are comprised of the flap of 90 ° of bendings of base plate and two) arrange, make the flap of the 90 ° of bendings in long ironware two upward from long ironware feed track 211 outputs, short ironware vibrating disk arranges short ironware (short ironware is comprised of barb and the screw plate of 90 ° of bendings of panel and two), short ironware vibrating disk 31 is exported the barb of the short ironware 15 90 ° of bendings in two and screw plate down from short ironware feed track 311, then the first rotary cylinder 27 by upper long ironware device 2 drives 28 rotations of first cursor to the top, exit of long ironware feed track 211, the piston rod of first lift cylinder 26 drives first lifter plate 25 to move down on first guide post 24, first lifter plate drives first rotary cylinder, first cursor and first sucker 29 move down, when first sucker moves to while contacting with the base plate of long ironware 14, now vacuum pump work, make first sucker 29 hold long ironware, the piston rod of first lift cylinder 26 drives first lifter plate 25 to move up, first lifter plate drives first cursor 28 and first sucker to move up, first sucker takes out long ironware 14, first rotary cylinder 27 drives first cursor back to rotate to mould 11 tops, then first lift cylinder 26 drives first cursor 28 and first sucker 29 to decline, long ironware on first sucker is placed in the long ironware mounting groove 12 of mould 11, now vacuum pump quits work, first sucker is no longer adsorbed on long ironware, first cursor 28 and first sucker 29 are driven and are again got back to long ironware feed track 211 tops by first rotary cylinder 27 and first lift cylinder 26, prepare the action of upper long ironware 14 next time, place the mould 11 of long ironware by top rotary table 1 driven rotary, top rotary table by power 18 through 60 ° of separator driven rotary, the supreme short ironware device 3 place's top rotary tables 1 of mould rotation of long ironware are stopped, then the second rotary cylinder 37 by upper short ironware device drives 38 rotations of second cursor to the top, exit of short ironware feed track 311, the piston rod of second lift cylinder 36 drives second lifter plate 35 to move down on second guide post 34, second lifter plate drives second rotary cylinder 37, second cursor 38 and second sucker 39 move down, when second sucker moves to while contacting with the panel of short ironware 15, now vacuum pump work, make second sucker hold short ironware, the piston rod of second lift cylinder 36 drives second lifter plate 35 to move up, second lifter plate drives second cursor 38 and second sucker 39 to move up, second sucker takes out short ironware 15, second rotary cylinder 37 drives second cursor back to rotate to mould 11 tops, then second lift cylinder drives second cursor and second sucker to decline, short ironware on second sucker is placed in the short ironware mounting groove 13 of mould, now vacuum pump quits work, second sucker 39 is no longer adsorbed on short ironware 15, second cursor 38 and second sucker 39 are driven and are again got back to short ironware feed track 311 tops by second rotary cylinder 37 and second lift cylinder 36, prepare the action of upper short ironware next time, after long ironware 14 and short ironware 15 are all placed on mould 11, top rotary table 1 continues driven mold rotation, top rotary table by power 18 through 60 ° of separator driven rotary, the mould of long ironware and short ironware is rotated to material loading blanking conveying device 4 place's top rotary tables to stop, under material loading, material conveying device has upper and lower two-layer conveying slideway, upper strata is that material loading is carried slideway 41, lower floor is that slideway 45 is carried in blanking, the material loading that glue camera bellows 8 openings is put into upper strata is forward carried in slideway, material loading carries slideway that glue camera bellows is delivered to delivery outlet 42, piston rod by material loading blanking cylinder 43 drives support plate 46 again, support plate drives pusher dish 47 and suction dish 48 to move forward simultaneously, pusher dish pushes the glue camera bellows 8 of delivery outlet 42 forward, the opening of glue camera bellows is snapped on mould 11, and the flap that makes the long ironware 14 on mould snaps in the groove of glue camera bellows wall, completing after material loading the piston rod of material loading blanking cylinder 43 returns and prepares next material loading, and be provided with glue camera bellows 8, 11 continuation of mould of long ironware 14 and short ironware 15 are by top rotary table 1 driven rotary, top rotary table by power 18 through 60 ° of separator driven rotary, when rotating to long ironware bending device 5 below, top rotary table stops, the piston rod of third time air cylinder 54 promotes the third lower platen 55 downwards, the third lower platen moves down under the effect of the third guide post 53, the third lower platen drives bending briquetting 56 to move down, bending briquetting pushes the flap at 90 °, long ironware 14 two downwards, make flap be tilted to inner bending along the trapezoidal indent 57 of bending briquetting, the angle that now flap tilts is consistent with the angle that trapezoidal indent inwall tilts, then the piston rod of third time air cylinder 54 drives the third lower platen 55 and bending briquetting 56 to move up and prepares action next time, and be extruded long ironware 14 and the short ironware 15 of bending, glue camera bellows 8 continues rotation under mould 11 drives, top rotary table 1 by power 18 through 60 ° of separator driven rotary, when mould rotation to long ironware pressuring flat device 6 below top rotary tables stop, under fourth, the piston rod of air cylinder 64 promotes fourth lower platen 65 downwards, fourth lower platen moves down under the effect of fourth guide post 63, fourth lower platen drives pressing briquetting 66 to move down, flatten briquetting and push the flap that long ironware 14 two have been extruded generation inclination bending downwards, the parallel indent 67 that now flattens briquetting contacts with the flap of the bending of tilting, continued the wall that presses down with glue camera bellows 8 equal, so just, can make long ironware 14 embrace short ironware 15 and glue camera bellows fixes, and complete long ironware and short ironware at the wall of glue camera bellows one side, and the flap bending of long ironware is embraced after short ironware and glue camera bellows, top rotary table 1 continues driven mold 11 rotations, top rotary table by power 18 through 60 ° of separator driven rotary, when mould rotates to layer-changing device 7 position, top rotary table stops, piston rod by advance and retreat cylinder 71 drives rotation cylinder 72, rotor plate 73 and change layer sucker 74 forward, change the bottom surface that layer sucker holds glue camera bellows 8, layer sucker moved by advance and retreat cylinder band and glue camera bellows moves the mould 11 that exits top rotary table 1 backward, then by rotation cylinder 72, drive rotor plate 73 rotations, layer sucker 74 moved by rotor plate band and glue camera bellows is rotated down 180 °, make the opening of glue camera bellows and the mould 11 of lower rotary table 19 corresponding, advance and retreat cylinder 71 drives glue camera bellows 8 to snap into forward on the mould of lower rotary table, and be upper long ironware device 2 and upper short ironware device 3 due to what install on lower rotary table 19 left side supports 10, therefore the mould 11 of lower rotary table is when rotating to left side, by upper long ironware device and upper short ironware device, carry out upper long ironware 14 and short ironware 15, when mould rotates to layer-changing device 7 the place ahead, on mould, there are long ironware and short ironware on, layer-changing device has glue camera bellows 8 opposite sides on upper strata on not the wall rotation of long ironware and short ironware make progress and snap on the mould 11 of lower rotary table 19, the opposite side that makes glue camera bellows has long ironware and short ironware on also, then go up, lower rotary table 1, 19 continue by power 18 through separator driven rotary, upper long ironware and short ironware are carried out in the mould rotation of top rotary table to right side, the mould of lower rotary table has length on driving, the glue camera bellows rotation of short ironware is long ironware bending and pressing to right side, the glue camera bellows 8 that last both sides all complete processing by lower rotary table 19 driven rotary to material loading blanking conveying device 4 places, the piston rod of material loading blanking cylinder 43 drives support plate 46 forward, support plate drives pusher dish 47 and suction dish 48 forward, the pusher dish on upper strata promotes material loading and carries the glue camera bellows 8 of slideway 41 to carry out material loading, and the suction dish 48 of lower floor holds forward glue camera bellows, then material loading blanking cylinder 43 drives support plate 46 to return, drive blanking to carry the input port of slideway 45 in glue camera bellows, by blanking, carry slideway that the glue camera bellows 8 processing is exported to a side, finally fall into collecting box.This programme adopts vibrating disk automatic arranging long, short ironware 14, 15, then by upper long ironware device 2 and upper short ironware device 3, will be grown, short ironware is placed on mould 11, by material conveying device under material loading 4, glue camera bellows 8 is placed on mould again, and make the flap of long ironware through the groove on glue camera bellows wall, then by long ironware bending device 5 and long ironware pressuring flat device 6, the flap through glue camera bellows wall groove is bent inwards and embraces glue camera bellows, make long, short ironware and glue camera bellows are fixed, then by layer-changing device 7, glue camera bellows is changed to lower floor, and make glue camera bellows opposite side have length on not, short ironware 14, 15 wall upward, to long on the opposite side wall of glue camera bellows 8, short ironware and the bending of long ironware and pressing, last glue camera bellows both sides all being processed by material conveying device under material loading 4 takes out and is put on blanking conveying slideway 45, upper, lower rotary table 1, on 19, automatically complete each operation, need not be hand-manipulated, work easily, operating efficiency is high, installation accuracy is good.Described the third guiding pole socket 52 1 side mounting brackets 58, the detector 59(that is in place on support is prior art to the concrete structure of bit detector).Had to bit detector 59, when mould 11 moves to the third guiding pole socket 52 below of long ironware bending device 5, to bit detector 59, detecting mold movement puts in place, rotating disk just stops the rotation, a mold movement puts in place, other mould on rotating disk also all moves into place, thereby guarantees the precision of the actions such as upper long ironware, upper short ironware, material loading, flap bending, discharging.55 times installation buffer springs 50 of described the third lower platen, buffer spring contacts with glue camera bellows 8.There is buffer spring 50, avoided the third lower platen 55 to press down too fast and flap is out of shape.On the support 10 of described delivery outlet 42 front sides, slide 44 is installed.There is slide 44, in the time of making glue camera bellows 8 input mould 11, the internal face on its top is higher than the flap of long ironware 14, thereby avoid long ironware to be knocked over by glue camera bellows, and after glue camera bellows input mould, along with top rotary table 1 rotation is to a Slideslip, now glue camera bellows 8, along slide 44 down sliding slightly, snaps in the groove of glue camera bellows wall the flap of long ironware.On the support 10 of described long ironware bending device 5 and long ironware pressuring flat device 6, curved baffle 16 is installed, curved baffle contacts with glue camera bellows 8.16 pairs of glue camera bellows 8 of curved baffle play positioning action.

Claims (5)

1. the equipment of the rotary installation glue of automatic double-layer camera bellows ironware, it is characterized in that: comprise support, be arranged on the upper main shaft (17) of support (10), main shaft is driven by power (18), the top rotary table of installing on main shaft (1) and lower rotary table (19), on, 6 groups of moulds (11) are respectively installed on lower rotary table, in mould, have long ironware mounting groove (12) and short ironware mounting groove (13), long ironware (14) and short ironware (15) are set in long ironware mounting groove and short ironware mounting groove, upper, lower rotary table (1, 19) upper and lower two-layer long ironware device (2) is set respectively on support (10) around, upper short ironware device (3), material conveying device under material loading (4), long ironware bending device (5), long ironware pressuring flat device (6) and layer-changing device (7), described long ironware device (2) comprises long ironware hopper (20), long ironware vibrating disk (21) and first holder (22), long ironware vibrating disk (21) connects long ironware feed track (211), in first holder, have first lifting groove (23), first guide post (24) is installed in first lifting groove, first lifter plate (25) is set on first guide post, in first holder one side, first lift cylinder (26) is installed, the piston rod of first lift cylinder is connected with first lifter plate (25), first rotary cylinder (27) is installed in first lifter plate one side, first rotary cylinder connects first cursor (28), first sucker (29) is installed under first cursor, the long ironware (14) of long ironware feed track (211) outlet is delivered in the long ironware mounting groove (12) of mould (11) through first sucker, described short ironware device (3) comprises short ironware hopper (30), short ironware vibrating disk (31) and second holder (32), short ironware vibrating disk (31) connects short ironware feed track (311), in second holder, have second lifting groove (33), second guide post (34) is installed in second lifting groove, second lifter plate (35) is set on second guide post, in second holder one side, second lift cylinder (36) is installed, the piston rod of second lift cylinder is connected with second lifter plate (35), second rotary cylinder (37) is installed in second lifter plate one side, second rotary cylinder connects second cursor (38), second sucker (39) is installed under second cursor, the short ironware (15) of short ironware feed track (311) outlet is delivered in the short ironware mounting groove (13) of mould (11) through second sucker, material conveying device under described material loading (4) comprises material loading conveying slideway (41) and blanking conveying slideway (45), material loading is carried in slideway glue camera bellows (8), at material loading, carry delivery outlet (42) rear side of slideway to have material loading blanking cylinder (43), the piston rod of material loading blanking cylinder connects support plate (46), pusher dish (47) is installed on support plate top, suction dish (48) is installed in support plate bottom, pusher dish (47) carries the bottom surface of glue camera bellows (8) in slideway (41) delivery outlet to contact with material loading, suction dish (48) carries the bottom surface of glue camera bellows in slideway (45) input port to contact with blanking, described long ironware bending device (5) comprises the third holder (51), the third holder sidewall is installed the third guiding pole socket (52), in the third guiding pole socket, the third guide post (53) and third time air cylinder (54) are set, the piston rod of third time air cylinder connects the third lower platen (55) through the third guiding pole socket (52), above the third lower platen, connect the third guide post (53), before connect the bending briquetting (56) of long ironware, under bending briquetting, be shaped with the trapezoidal indent (57) of indent, described long ironware pressuring flat device (6) comprises fourth holder (61), fourth holder sidewall is installed fourth guiding pole socket (62), in fourth guiding pole socket, air cylinder (64) under fourth guide post (63) and fourth is set, under fourth, the piston rod of air cylinder connects fourth lower platen (65) through fourth guiding pole socket (62), before fourth lower platen, connect the pressing briquetting (66) of long ironware, flatten the parallel indent (67) that is shaped with indent under briquetting, described layer-changing device (7) is included in the upper advance and retreat cylinder (71) of installing of support (10), the piston rod connection of rotating cylinder (72) of advance and retreat cylinder, rotation cylinder connection of rotating plate (73), on rotor plate, install and change a layer sucker (74), changing layer sucker contacts with the bottom surface of glue camera bellows (8).

2. the equipment of the rotary installation glue of automatic double-layer as claimed in claim 1 camera bellows ironware, is characterized in that: described the third guiding pole socket (52) one side mounting brackets (58), detector (59) is in place on support.

3. the equipment of the rotary installation glue of automatic double-layer as claimed in claim 1 camera bellows ironware, is characterized in that: the lower installation buffer spring (50) of described the third lower platen (55), buffer spring contacts with glue camera bellows (8).

4. the equipment of the rotary installation glue of automatic double-layer as claimed in claim 1 camera bellows ironware, is characterized in that: the upper slide (44) of installing of support (10) of described delivery outlet (42) front side.

5. the equipment of the rotary installation glue of automatic double-layer as claimed in claim 1 camera bellows ironware, it is characterized in that: the upper curved baffle (16) of installing of support (10) of described long ironware bending device (5) and long ironware pressuring flat device (6), curved baffle contacts with glue camera bellows (8).

Images