CN212952946U - Conveying and transferring device of integrated offset press - Google Patents

Abstract

The utility model discloses a conveying transfer device of integral type offset press, including material feeding unit, first transfer device, first conveyer, second transfer device and second conveyer, material feeding unit includes the arc wall, has placed both ends on the arc wall and be open-ended cylindrical body, and first slide removes to be close to the carousel and drives first push pedal removes to establish body propelling movement cover on first transfer bar, and the body that second push pedal propelling movement cover was established on first transfer bar is close to the carousel simultaneously, and the second slide removes to be close to the transfer portion, and the third push pedal is established body propelling movement cover on the second transfer bar, and the fourth push pedal is located between connecting block and the body, promotes the fourth push pedal and pushes away the body on the second conveyer. The utility model discloses a propelling movement that several devices linked, had realized the body shifts, and simple structure is reasonable, and is with low costs, and is efficient, and the practicality is good.

Description

Conveying and transferring device of integrated offset press

Technical Field

The utility model belongs to the technical field of transfer apparatus technique and specifically relates to a conveying transfer device of integral type offset press is related to.

Background

The body is before the printing, need transfer the printing on the printing machine with the body from material feeding unit, generally still need carry on gloss oil after the printing is accomplished, stoving and refrigerated operation, consequently, need convey the body on each process one by one, and at present most all carry on next step with the body through manual operation, intangibly increased the material loading, the number of times of unloading, not only reduced production efficiency, and easy fish tail body surface in operation process, cause badly, some then convey each process with the body through intelligent control, although production efficiency has been improved, this kind of equipment structure is complicated, and is with high costs, difficult maintenance, consequently, need to improve urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide an integral type offset press's conveying transfer device, through motor drive, gear, belt drive realize that the conveying of body shifts, convenient and fast, efficient, the practicality is good.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a conveying and transferring device of an integrated offset press comprises a feeding device, a first transferring device, a first conveying device, a second transferring device and a second conveying device, wherein the feeding device comprises an arc-shaped groove, cylindrical pipes with two open ends are placed on the arc-shaped groove, the first transferring device comprises a second support, a first guide shaft is arranged on the second support, a first sliding seat capable of moving along the first guide shaft is arranged on the first guide shaft, the first sliding seat extends upwards and is respectively provided with a first push plate and a second push plate, the first conveying device comprises a conveying disc, a plurality of first conveying rods which are perpendicular to the conveying disc and are uniformly distributed along the axial direction of the conveying disc are arranged on the conveying disc, a first buffer block is sleeved on the first conveying rods and fixed on the conveying disc, and the first push plate and the second push plate are opposite to two adjacent first conveying rods, the first push plate is positioned above the arc-shaped groove, the pipe body is arranged between the first transmission rod and the first push plate, the pipe body and the first transmission rod are on the same straight line, the first sliding seat moves to be close to the transmission disc to drive the first push plate to move and push the pipe body to be sleeved on the first transmission rod, and meanwhile, the second push plate pushes the pipe body sleeved on the first transmission rod to be close to the first buffer block again;

the second transfer device comprises a third support, a second guide shaft is arranged on the third support, a second sliding seat capable of moving along the second guide shaft is arranged on the second guide shaft, the second sliding seat comprises a connecting part, a first arc-shaped stop block, a second arc-shaped stop block and a shaft, the shaft is fixed on the connecting part, a third push plate capable of rotating along the shaft is sleeved on the shaft, an arc-shaped claw is arranged on the side surface of the third push plate, the bottom surface of the pipe body close to one side of the conveying disc is abutted to the arc-shaped stop block, the arc of the arc-shaped stop block is coaxial with the first conveying rod, the diameter of the arc is larger than that of the first conveying rod and smaller than that of the pipe body, the first arc-shaped stop block and the second arc-shaped stop block are fixed on the second guide shaft and are respectively positioned on two sides of the third push plate, and when the third push plate is abutted to the first arc-shaped stop block and moves along the, when the third push plate abuts against the second arc-shaped stop block and moves along the arc surface of the third push plate, the third push plate is far away from the first conveying rod, the second transfer device further comprises a second support rod capable of axially rotating, a transfer part is fixed on the second support rod, four connecting blocks which are uniformly distributed extend outwards from the side wall of the transfer part, a second conveying rod which faces the direction of the conveying disc and is perpendicular to the connecting blocks is arranged on the connecting blocks, the second conveying rod and the first conveying rod are on the same straight line, the second sliding seat moves to be close to the transfer part, and the third push plate pushes and sleeves the pipe body on the second conveying rod;

the connecting block still is equipped with the fourth push pedal that can follow the second transfer bar direction and remove and can block the body, the fourth push pedal is located between connecting block and the body, promotes the fourth push pedal pushes away the body on the second conveyer.

The conveying disc is provided with a plurality of bearings corresponding to the first conveying rod, the first conveying rod is sleeved in the bearings and penetrates through the conveying disc, and one end, exceeding the back face of the conveying disc, of the first conveying rod is connected with a third motor capable of driving the first conveying rod to rotate.

The first transfer device further comprises a second rocker, a second rotary table, a first transmission chain and a second motor, one end of the second rocker is connected with the lower part of the first sliding seat, the other end of the second rocker is connected with the position, close to the annular side face, of the upper surface of the second rotary table, a first transmission shaft which is vertically downward is fixed in the middle of the second rotary table, a first transmission wheel and a second transmission wheel which drive the first transmission shaft to rotate are fixed on the first transmission shaft, a first driving wheel which is at the same height as the second transmission wheel is arranged on a shaft of the second motor, and the first transmission chain is sleeved on the second transmission wheel and the first driving wheel;

the second transfer device comprises a third rotary table, a third rocker and a fourth transmission chain, one end of the third rocker is connected to the upper portion of the second sliding seat, the other end of the third rocker is connected to the position, close to the annular side face, of the upper surface of the third rotary table, a vertical downward second transmission shaft is fixed in the middle of the third rotary table, a fifth transmission wheel which is as high as the first transmission wheel is fixed on the second transmission shaft, and the fourth transmission chain is sleeved on the first transmission wheel and the fifth transmission wheel.

The transmission ratio of the first transmission wheel to the fifth transmission wheel is 1: 1.

The first conveying device further comprises a fourth motor, a second conveying chain and a third conveying chain, a third conveying wheel and a fourth conveying wheel which drive the conveying disc to rotate are fixed on a shaft behind the conveying disc, a second driving wheel is fixed on a shaft of the fourth motor, the second conveying chain is sleeved on the second driving wheel and the third conveying wheel, a sixth conveying wheel which drives the second supporting rod to rotate is further arranged on the second supporting rod, and the third conveying chain is sleeved on the fourth conveying wheel and the sixth conveying wheel.

The number ratio of the first conveying rods to the second conveying rods is 4:1, and the transmission ratio of the fourth conveying wheels to the sixth conveying wheels is 1: 4.

Still be equipped with the telescopic push rod on the connecting block, fourth push pedal is connected to push rod one end.

The first sliding seat further comprises a second through hole, and the second through hole is sleeved on the first guide shaft.

The second sliding seat further comprises a third through hole, and the third through hole is sleeved on the second guide shaft.

The diameter of the first buffer block is larger than that of the pipe body.

The utility model has the advantages that: on first push pedal was with body propelling movement to first transfer bar, the third push pedal was with the body propelling movement to the second transfer bar from first transfer bar on, the fourth push pedal with the body propelling movement to the second conveyer from the second transfer bar in, simple structure is reasonable, production efficiency is high, and is with low costs.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

fig. 3 is a schematic structural view of the feeding device of the present invention;

FIG. 4 is an enlarged view of FIG. 3 at B;

FIG. 5 is a schematic view of a partition mechanism from a first perspective;

FIG. 6 is a schematic view of the partition mechanism from a second perspective;

fig. 7 is a schematic structural diagram of a first transfer device according to the present invention;

fig. 8 is a partial structural schematic diagram of a first viewing angle of the present invention;

fig. 9 is a partial structural schematic diagram of a second viewing angle of the present invention;

FIG. 10 is a partial cross-sectional view of FIG. 9 at C-C;

fig. 11 is a partial structural schematic diagram of a third viewing angle of the present invention;

FIG. 12 is an enlarged view of FIG. 11 at D;

fig. 13 is a partial schematic view of a first conveyor chain;

FIG. 14 is a schematic view of the structure of the cooling device;

FIG. 15 is an enlarged view at E of FIG. 14;

FIG. 16 is a front view of the cooling device;

FIG. 17 is a cross-sectional view at F-F of FIG. 16;

FIG. 18 is an enlarged view at G of FIG. 17;

FIG. 19 is a schematic view of the fan;

FIG. 20 is a schematic structural view of a spacing mechanism;

FIG. 21 is a schematic structural view of a blanking device;

FIG. 22 is an enlarged view at H of FIG. 21;

FIG. 23 is a front view of the blanking device;

FIG. 24 is a schematic structural view of a guide post;

FIG. 25 is a schematic view of the discharge part.

In the figure: the feeding device comprises a feeding device 1, a conveying frame 101, a discharging end 1011, a conveying belt 102, a first limiting plate 103, a first limiting bolt 104, a first guide groove 105, a first support 106, a second limiting bolt 107, an arc-shaped groove 108, a second limiting plate 109, a second guide groove 110, a first through hole 111, a separating mechanism 112, a first support rod 1121, a rotating part 1122, a first motor 1123, a support part 1124, a convex rib 1125, a first rocker 1126, a first rotating disc 1127, a first vertical rib 1128, a control panel 113, a first transfer device 2, a second support 201, a first sliding seat 202, a first guide shaft 203, a second through hole 204, a first push plate 205, a second push plate 206, a second rocker 207, a second rotating disc 208, a first transmission shaft 209, a first transmission wheel 210, a second transmission wheel 211, a first transmission chain 212, a second motor 213, a first driving wheel 214, a first transmission device 3, a conveying disc 301, a first transmission rod 302, A first buffer block 303, a third motor 304, a bearing 305, a fourth motor 306, a second driving wheel 307, a second conveying chain 308, a third conveying wheel 309, a fourth conveying wheel 310, a third conveying chain 311, an offset printing device 4, an offset printing machine 401, a light curing device 402, a varnishing device 403, a high-temperature dust removal device 404, a sensor 405, a second transfer device 5, a third bracket 501, a second guide shaft 502, a second sliding seat 503, a connecting part 5031, a third push plate 5032, an arc-shaped claw 5033, a first arc-shaped stopper 5034, a second arc-shaped stopper 5035, a shaft 5036, a third through hole 5037, a third rotating disc 504, a third rocker 505, a second supporting rod 506, a transfer part 507, a connecting block 5071, a second conveying rod 5072, a push rod 5073, a fourth push plate 5074, a second transmission shaft 508, a fifth conveying wheel 509, a fourth conveying chain 510, a sixth conveying wheel 511, a second conveying device 6, a seventh conveying wheel 601, an eighth conveying wheel 602, a fourth conveying, The device comprises a fifth conveying chain 603, a second buffer block 604, a third conveying rod 605, a drying device 7, a hot air port 701, a hinge 702, a groove 7021, a cooling device 8, a limiting mechanism 801, a first limiting groove 802, a fan group 803, a fan 804, a second limiting groove 805, a guide rib 806, a rubber sheet 807, an upper movable support 808, a lower movable support 809, a limiting rod 810, a fourth through hole 8101, a boss 8102, a third limiting bolt 811, a blanking device 9, a ninth conveying wheel 901, a blanking part 902, a baffle 9021, a notch 9022, a fourth guide shaft 903, a guide column 904, a spiral groove 9041, a blanking baffle 905, a third sliding seat 906, a fifth through hole 9061, a guide block 9062, a fifth motor 907, a roller 908 and a pipe body 10.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1 to 25, a conveying and transferring device of an integrated offset printing press includes a feeding device 1, a first transferring device 2, a first conveying device 3, a second transferring device 5 and a second conveying device 6, where the feeding device 1 includes an arc-shaped groove 108, a cylindrical pipe 10 with two open ends is placed on the arc-shaped groove 108, the feeding device 1 further includes a conveying rack 101 and a separating mechanism 112, the conveying rack 101 includes a discharging end 1011, a conveying belt 102 moving toward the discharging end 1011 is further disposed on the conveying rack 101, the upper surface of the discharging end 1011 is an inclined surface inclining downwards, the arc-shaped groove 108 is lower than the upper surface of the discharging end 1011, a plurality of first through holes 111 uniformly distributed and penetrating through the upper and lower surfaces of the discharging end 1011 are disposed on the discharging end 1011, the separating mechanism 112 includes a first supporting rod 1121 and a first motor 1123, the first supporting rod is fixed on the lower portion of the discharging end 1011, the rotating part 1122 capable of rotating along the axial direction of the first supporting rod 1121 is sleeved on the first supporting rod 1121 in a sleeved mode, the rotating part 1122 extends upwards to form a supporting part 1124, the supporting part 1124 is located on two sides of the first supporting rod 1121 respectively, a plurality of first vertical ribs 1128 corresponding to the first through holes 111 are arranged on the upper portion of the supporting part 1124, the distance between the first vertical ribs 1128 on two sides is larger than the double radius of the pipe body 10 and smaller than the triple radius of the pipe body 10, a convex rib 1125 extends downwards from the lower portion of the supporting part 1124 on one side, a first rotating disc 1127 is arranged on the shaft of the first motor 1123, a first rocker 1126 is connected to the disc surface of the first rotating disc 1127 close to the annular side face of the first rocker, and the other end of the first rocker.

Specifically, the conveying frame 101 is further provided with a control panel 113 for controlling the operation of the conveying belt 102 and the first motor 1123, the control panel 113 starts the conveying belt 102 to drive the pipe body 10 to move towards the discharging end 1011, starts the first motor 1123, rotates the first rotating disc 1127, the first vertical rib 1128 swings up and down along the axial direction of the first supporting rod 1121, when the first vertical rib 1128 on one side penetrates through and exceeds the upper surface of the first through hole 111, the first vertical rib 1128 on the other side is lower than the upper surface of the first through hole 111, specifically, the first vertical rib 1128 on one side close to the conveying belt 102 penetrates through and is higher than the upper surface of the first through hole 111, and the pipe body 10 is blocked on the conveying belt 102; secondly, the first vertical rib 1128 on the side close to the conveyor belt 102 is lower than the upper surface of the first through hole 111, and the pipe body 10 passes through the first vertical rib 1128 on the side and abuts against the first vertical rib 1128 on the side far from the conveyor belt 102; finally, the first vertical rib 1128 far away from one side of the conveyor belt 102 is lower than the upper surface of the first through hole 111, the pipe body 10 falls on the arc-shaped groove 108, the first vertical rib 1128 near one side of the conveyor belt 102 penetrates out of the arc-shaped groove and is higher than the upper surface of the first through hole 111, and other pipe bodies 10 behind the falling pipe body 10 are blocked, the pipe body 10 in the arc-shaped groove 108 pushes and discharges materials through the first transfer device 2, so that the circular reciprocating motion is performed, the pipe body 10 is separated and conveyed independently through a simple structure, the efficiency is high, the cost is low, and the practicability is good.

The feeding device 1 can also perform limiting on pipe bodies 10 with different lengths in the length direction, specifically, the feeding device 1 includes a first limiting plate 103, a first limiting bolt 104 and a first support 106, a first guide groove 105 is arranged on the upper portion of the first support 106, the first limiting bolt 104 penetrates through the first guide groove 105 and is connected to the first limiting plate 103 in an excess portion, the first limiting plate 103 can move along the first guide groove 105 through the first limiting bolt 104, the feeding device 1 further includes a second limiting bolt 107, a second limiting plate 109 and a second guide groove 110, the second limiting plate 109 abuts against the upper portion of the second guide groove 110, the second limiting bolt 107 penetrates through the upper and lower surfaces of the second limiting plate 109 and is inserted into the second guide groove 110 in an excess portion of the lower surface of the second limiting plate 109, and the second limiting plate 109 can move along the second guide groove 110 through the second limiting bolt 107, when the length of the pipe body 10 is short, the first limiting bolt 104 is unscrewed, the first limiting plate 103 is moved to be close to the pipe body 10, when the proper position is adjusted, the first limiting bolt 104 is screwed, the distance between the second limiting plate 109 and the pipe body 10 can be adjusted by the same method after the first limiting plate 103 is adjusted, when the length of the pipe body 10 is long, the first limiting plate 103 and the second limiting plate 109 are moved in opposite directions and fixed, the distance between the first limiting plate 103 and the pipe body 10 and the distance between the first limiting plate 103 and the second limiting plate 109 and the pipe body 10 can meet the requirements of pipe bodies 10 of more sizes, and the practicability of the feeding device 1 is improved.

The first transfer device 2 comprises a second support 201, a first guide shaft 203 is arranged on the second support 201, a first sliding seat 202 capable of moving along the first guide shaft 203 is arranged on the first guide shaft 203, specifically, the first sliding seat 202 further comprises a second through hole 204, the second through hole 204 is sleeved on the first guide shaft 203, the first sliding seat 202 extends upwards and is respectively provided with a first push plate 205 and a second push plate 206, the first transmission device 3 comprises a transmission disc 301, the transmission disc 301 is provided with a plurality of first transmission rods 302 which are perpendicular to the transmission disc 301 and are uniformly distributed along the axial direction of the transmission disc 301, the first transmission rods 302 are sleeved with a first buffer block 303, the first buffer block 303 is fixed on the transmission disc 301, the diameter of the first buffer block 303 is larger than that of the pipe body 10, so that the pipe body 10 can be prevented from touching the transmission disc 301, the first push plate 205 and the second push plate 206 are just opposite to the two adjacent first transmission rods 302, the first push plate 205 is located above the arc-shaped groove 108, the tube 10 is located between the first transmission rod 302 and the first push plate 205, the tube 10 and the first transmission rod 302 are on the same straight line, the first slide carriage 202 moves to be close to the transmission disc 301 to drive the first push plate 205 to move and push the tube 10 to be sleeved on the first transmission rod 302, and the second push plate 206 pushes the tube 10 sleeved on the first transmission rod 302 to be close to the first buffer block 303 again, specifically, because the first push plate 205 and the second push plate 206 are both fixed on the first slide carriage 202, and the straight line distance between the second push plate 206 and the first transmission rod 302 is smaller than the straight line distance between the first push plate 205 and the first transmission rod 302, when the equipment is started for the first time, the first slide carriage 202 moves to the transmission disc 301, the first push plate 205 pushes the tube 10 on the arc-shaped groove 108 to the first transmission rod 302, at this time, only a part of the tube body 10 is sleeved on the first transmission rod 302, and the second push plate 206 is pushed empty; the first slide 202 resets, the transmission disc 301 rotates, the first transmission rod 302 which is previously sleeved with the tube body 10 moves to the front of the second push plate 206, the transmission disc 301 stops rotating, at the moment, the first slide 202 moves the first push plate 205 to the transmission disc 301 again to push the tube body 10 which falls onto the arc-shaped groove 108 to the first transmission rod 302 which is right opposite to the first push plate, meanwhile, the second push plate 206 is located at the front and is not completely sleeved on the first transmission rod 302 to push the tube body 10 so that the tube body 10 is completely sleeved on the first transmission rod 302, and the secondary pushing and resetting are realized through the two push plates, so that the tube body 10 can be pushed to a specific position more accurately and effectively, and the consequences of poor printing and the like caused by the deviation of the position are prevented.

The utility model discloses an integral type offset press includes material feeding unit 1, first transfer device 2, first conveyer 3, offset printing device 4, second transfer device 5, second conveyer 6, drying device 7, cooling device 8 and unloader 9.

Offset printing device 4 includes offset press 401, photocuring device 402 and gloss oil device 403, offset printing machine 401 be prior art, body 10 on the first conveying pole 302 is through offset printing machine 401, photocuring device 402 and gloss oil device 403 in proper order, offset printing device 4 still includes high temperature dust collector 404, high temperature dust collector 404 is located between first conveyor 3 and the offset printing machine 401, high temperature dust collector 404 upper portion is just facing first conveying pole 302, and high temperature dust collector 404 removes dust to body 10 earlier, and rethread offset printing machine 401 prints, and the gloss oil after accomplishing the primary solidification is carried out with paint to photocuring device 402 again, prints body 10 through simple reasonable process, has improved the printing efficiency and the quality of body 10.

The conveying disc 301 is provided with a plurality of bearings 305 corresponding to the first conveying rods 302, the first conveying rods 302 are sleeved in the bearings 305 and penetrate through the conveying disc 301, one end of each first conveying rod 302, which exceeds the back of the conveying disc 301, is connected with a third motor 304 capable of driving the first conveying rods 302 to rotate, each first conveying rod 302 can rotate independently as required, specifically, when the first conveying rods 302 drive the pipe bodies 10 to be conveyed above the high-temperature dust removal device 404, the high-temperature dust removal device 404 is started, and meanwhile, the pipe bodies 10 are driven to rotate by rotating the first conveying rods 302 above the high-temperature dust removal device through the third motors 304, so that dust can be removed on the surfaces of the pipe bodies 10 in an all-directional manner, and the dust removal quality is improved; when the first transmission rod 302 drives the tube 10 to transmit to the photo-curing device 402, the first transmission rod 302 drives the tube 10 to rotate, so that the surface of the tube 10 is fully irradiated, and the curing effect is improved.

The second transfer device 5 includes a third bracket 501, a second guide shaft 502 is disposed on the third bracket 501, a second sliding seat 503 capable of moving along the second guide shaft 502 is disposed on the second guide shaft 502, the second sliding seat 503 further includes a third through hole 5037, the third through hole 5037 is sleeved on the second guide shaft 502, specifically, the second sliding seat 503 includes a connection portion 5031, a first arc-shaped stopper 5034, a second arc-shaped stopper 5035 and a shaft 5036, the shaft 5036 is fixed on the connection portion 5031, a third push plate 5032 capable of rotating along the shaft 5036 is sleeved on the shaft 5036, an arc-shaped claw 5033 is disposed on a side surface of the third push plate 5032, a bottom surface of the tube 10 close to one side of the transmission disc 301 abuts against the arc-shaped stopper 5033, an arc of the arc-shaped stopper 5033 is coaxial with the first transmission rod 302, and the diameter of the arc-shaped stopper 302 is smaller than that of the tube 10, and the first arc-shaped stopper 4 and the second arc-shaped stopper 5035 are fixed on the second guide shaft 502 and located on the third guide shaft 502 respectively On both sides of the push plate 5032, when the third push plate 5032 abuts against the first arc stopper 5034 and moves along the arc surface of the first arc stopper 5034, the third push plate 5032 approaches the first transmission rod 302, when the third push plate 5032 abuts against the second arc-shaped stopper 5035 and moves along the arc surface of the third push plate 5032, the third push plate 5032 is far away from the first transmission rod 302, and the second transfer device 5 further comprises a second support rod 506 capable of axially rotating, a transfer part 507 is fixed on the second support bar 506, four connecting blocks 5071 which are uniformly distributed extend outwards from the side wall of the transfer part 507, the connection block 5071 is provided with a second transfer bar 5072 facing the transfer plate 301 and perpendicular to the connection block 5071, the second transfer bar 5072 is in line with the first transfer bar 302, the second carriage 503 moves close to the transfer portion 507, the third push plate 5032 pushes the tube 10 to fit on the second transmission rod 5072.

Specifically, the arc-shaped claw 5032 moves away from the transmission plate 301 to push the tube body 10 away from the first transmission rod 302 and to be sleeved on the second transmission rod 5072, when a part of the tube body 10 is sleeved on the second transmission rod 5072, one side of the third push plate 5032 close to the arc-shaped claw 5032 abuts against the arc surface of the second arc-shaped stopper 5035, when the tube body 10 is completely sleeved on the second transmission rod 5072, the third push plate 5032 moves along the arc surface of the second arc-shaped stopper 5035 and is separated from the tube body 10 through the rotation of the shaft 5036 to rotate the transmission plate 301, and at the same time, the arc-shaped claw 5032 returns to be close to the transmission plate 301 after pushing the tube body 10, when one side of the third push plate 5032 away from the arc-shaped claw 5032 abuts against the arc surface of the first arc-shaped stopper 5034, the third push plate 5032 again approaches to the transmission plate 301, and the third push plate 5032 moves along the arc-shaped surface of the first arc-shaped stopper 5034 and rotates through the rotation of the shaft 5036 to return the arc-shaped stopper, and pushes the next tube 10 to the second transfer rod 5072 again to reciprocate back and forth.

The first transfer device 2 further comprises a second rocker 207, a second rotary table 208, a first transmission chain 212 and a second motor 213, one end of the second rocker 207 is connected with the lower part of the first sliding base 202, the other end of the second rocker 207 is connected with the position, close to the annular side, of the upper surface of the second rotary table 208, a first transmission shaft 209 which is vertically downward is fixed in the middle of the second rotary table 208, a first transmission wheel 210 and a second transmission wheel 211 which drive the first transmission shaft 209 to rotate are fixed on the first transmission shaft 209, a first driving wheel 214 which is at the same height as the second transmission wheel 211 is arranged on the second motor 213 shaft, the first transmission chain 212 is sleeved on the second transmission wheel 211 and the first driving wheel 214, the second transfer device 5 comprises a third rotary table 504, a third rocker 505 and a fourth transmission chain 510, one end of the third rocker 505 is connected with the upper part of the second sliding base 503, the other end of the third rocker 505 is connected with the position, close to, a second vertical transmission shaft 508 is fixed in the middle of the third turntable 504, a fifth transmission wheel 509 with the same height as the first transmission wheel 210 is fixed on the second transmission shaft 508, and the fourth transmission chain 510 is sleeved on the first transmission wheel 210 and the fifth transmission wheel 509.

The first transmission device 3 further includes a fourth motor 306, a second transmission chain 308 and a third transmission chain 311, a third transmission wheel 309 and a fourth transmission wheel 310 for driving the transmission disc 301 to rotate are fixed on a shaft behind the transmission disc 301, a second driving wheel 307 is fixed on a shaft of the fourth motor 306, the second transmission chain 308 is sleeved on the second driving wheel 307 and the third transmission wheel 309, a sixth transmission wheel 511 for driving the second support bar 506 to rotate is further arranged on the second support bar 506, and the third transmission chain 311 is sleeved on the fourth transmission wheel 310 and the sixth transmission wheel 511.

Specifically, the connecting block 5071 is further provided with a fourth push plate 5074 capable of moving along the direction of the second transmitting rod 5072 and blocking the tube 10, the fourth push plate 5074 is located between the connecting block 5071 and the tube 10, the second motor 213 and the fourth motor 306 are started, the second motor 213 drives the first transmitting shaft 209 to rotate via the first transmitting chain 212, the second rocking bar 207 rotates eccentrically via the second rotating disc 208 and drives the first sliding seat 202 to reciprocate along the first guiding shaft 203, the first push plate 205 pushes the tube 10 from the arc-shaped slot 108 to the first transmitting rod 302, the fourth motor 306 drives the transmitting disc 301 to rotate via the second transmitting chain 308, the first transmitting shaft 209 drives the second transmitting shaft 508 to rotate simultaneously via the fourth transmitting chain 510, the third rocking bar 505 drives the second sliding seat 503 to reciprocate along the second guiding shaft 502 via the third rotating disc 504, when the first transferring rod 302 and the second transferring rod 5072 are located on the same straight line, the arc-shaped claw 5032 on the second sliding seat 503 pushes the tube 10 from the first transferring rod 302 to the second transferring rod 5072, the fourth transferring wheel 310 drives the second supporting rod 506 to rotate through the third transferring chain 311, and the second supporting rod 506 drives the transferring portion 507 to rotate.

A sensor 405 is further disposed between the first transfer device 2 and the high temperature dust removing device 404, the sensor 405 is located right below the first conveying rod 302, when the first conveying rod 302 rotates to a position above the sensor 405, the rotation of the conveying plate 301 and the transfer portion 507 is stopped, and after several seconds, the conveying plate 301 rotates and conveys again, specifically, the transmission ratio of the first conveying wheel 210 to the fifth conveying wheel 509 is 1:1, the number ratio of the first conveying rod 302 to the second conveying rod 5072 is 4:1, the transmission ratio of the fourth conveying wheel 310 to the sixth conveying wheel 511 is 1:4, that is, when the first conveying wheel 210 rotates for one circle, the fifth conveying wheel 509 rotates for one circle, when the conveying plate 301 rotates for one circle, the sixth conveying wheel 511 rotates for four circles, and when the conveying plate 301 and the transfer portion 507 stop rotating, the first conveying rod 302 always faces the first push plate 205, the second push plate 206 and the second push plate 5072, the first push plate 205 and the second push plate 206 push the tube bodies 10 to the first conveying rod 302, the arc-shaped claw 5032 on the third push plate 5032 pushes the tube bodies 10 away from the first conveying rod 302 and conveys the tube bodies 10 to the second conveying rod 5072, then the conveying disc 301 and the transfer part 507 rotate, the first push plate 205, the second push plate 206 and the third push plate 5032 are reset, the first vertical rib 1128 on one side far away from the conveying belt 102 is lower than the upper surface of the first through hole 111, and the tube bodies 10 between the first vertical ribs 1128 on two sides fall onto the arc-shaped groove 108, so that the circular reciprocating motion is performed.

The connecting block 5071 is further provided with a telescopic push rod 5073, one end of the push rod 5073 is connected with a fourth push plate 5074, the fourth push plate 5074 is pushed to push the pipe body 10 to the second conveying device 6, the second conveying device 6 comprises a seventh conveying wheel 601 and a fifth conveying chain 603, the fifth conveying chain 603 is sleeved on the seventh conveying wheel 601, the side surface of the fifth conveying chain 603 is provided with a plurality of second buffer blocks 604 which are uniformly distributed, each second buffer block 604 is provided with a third conveying rod 605 which is perpendicular to the second buffer block 604, the diameter of each second buffer block 604 is larger than that of the pipe body 10, specifically, when the transfer part 507 stops rotating, the second conveying rod 5072 and the third conveying rod 605 are in the same straight line, the fourth push plate 5074 moves close to the fifth conveying chain 603, the fourth push plate 5074 pushes the pipe body 10 to be sleeved on the third conveying rod 605, and through a reasonable structure, the conveying and transferring of the pipe bodies 10 are simply and effectively completed, the complication of equipment is prevented, the cost is reduced, the stability of the equipment is improved, the second buffer blocks 604 separate the pipe bodies 10 from the fifth conveying chain 603, and the pipe bodies 10 can be prevented from contacting the fifth conveying chain 603.

The transmission of fifth transfer chain 603 passes through drying device 7, cooling device 8 and unloader 9 in proper order, specifically does, the transmission of fifth transfer chain 603 through the eighth transfer gear 602 that distributes on each device, be equipped with a plurality of hot-blast mouths 701 that can go out hot-blast on the drying device 7 inner wall, fifth transfer chain 603 gets into the opposite side from one side of drying device 7 and goes out, fifth transfer chain 603 is the S type distribution inside drying device 701, and hot-blast simple effectual body 10 after the printing through hot-blast mouth 701 dries, improves the surface adhesion of paint, and fifth transfer chain 603 is the S type and distributes and can carry out abundant stoving to body 10 when reducing drying device 7 area.

The fifth conveying chain 603 drives the tube 10 to enter the cooling device 8 to cool the tube 10 after passing through the drying device 7, specifically, the cooling device 8 includes a limiting mechanism 801 and a fan set 803, the limiting mechanism 801 is provided with three first limiting grooves 802 communicating the upper surface and the lower surface, the fifth conveying chain 603 sequentially passes through each first limiting groove 802, rubber sheets 807 are arranged on the inner walls of the two sides of the first limiting groove 802, the fifth conveying chain 603 is located between the two rubber sheets 807, not only the fifth conveying chain 603 is effectively prevented from wearing the limiting mechanism 801 in the conveying process, but also the rubber hardness is low and wear-resistant, the service life of the limiting mechanism 801 can be prolonged, the fan set 803 is located on the front surface of the limiting mechanism 801, the tube 10 is located between the fan set 803 and the limiting mechanism 801, and the cooling of the tube 10 can be accelerated by blowing air to the tube 10 through the fan set 803, the adhesive force of the surface paint is improved.

Drying device 7 includes a plurality of hinge pages 702 and is located recess 7021 on hinge page 702, cooling device 8 still includes activity support 808, activity support 809 down, is located gag lever post 810 and the third spacing bolt 811 of fan group 803 both sides, fan group 803 comprises a plurality of fans 804, the fan 804 cross-section is square, fan 804 just right two sides are equipped with second spacing groove 805 and direction muscle 806 respectively, and is a plurality of fan 804 forms fan group 803 through second spacing groove 805 and the mutual concatenation of direction muscle 806, and every fan 804 all can be controlled alone, is favorable to the change of fan 804, also can adjust the quantity of fan 804 as required, and is convenient and fast, and the practicality is high.

The guide ribs 806 on the upper portion of the fan set 803 are inserted into the upper movable support 808, the lower portion of the fan set 803 is inserted into the lower movable support 809, each limiting rod 810 is provided with a plurality of fourth through holes 8101 which penetrate through the front and rear surfaces of the limiting rod 810 and are uniformly distributed along the length direction of the limiting rod 810, the distance between every two adjacent fourth through holes 8101 is consistent with the height of the fan 804, the third limiting bolt 811 penetrates through the fourth through holes 8101 to fix the upper movable support 808 and the lower movable support 809, the upper movable support 808 and the lower movable support 809 can be close to or far away from each other through the fourth through holes 8101, specifically, when a row of fans 804 need to be reduced, the third limiting bolt 811 is screwed out to take the upper movable support 808 down, the fan set 803 is lifted upwards to exceed the distance of at least one fan 804 of the limiting rod 810, the fans 804 located at the uppermost row are taken out in sequence, and the fan set 803 is put back, the upper movable support 808 is fixed on the adjacent fourth through hole 8101 below the original fourth through hole 8101 through the third limiting bolt 811, and the fan groups 803 formed by the fans 804 in different quantities can be limited through the different fourth through holes 8101, so that the operation is convenient, the structure is simple, the practicability is good, and the production efficiency is greatly improved.

A boss 8102 corresponding to the hinge 702 is arranged on the limiting rod 810 close to one side of the drying device 7, the boss 8102 is inserted into the groove 7021 and is hinged with the hinge 702, when the limiting mechanism 801 or the pipe body 10 in the cooling device 8 needs to be observed, the limiting rod 810 only needs to be rotated outwards to drive the fan set 803 to be far away from the limiting mechanism 801 or the pipe body 10, and at the moment, the limiting mechanism 801 or the pipe body 10 can be observed.

The fifth conveying chain 603 drives the tube 10 to enter the blanking device 9 for blanking after passing through the cooling device 8, specifically, the blanking device 9 includes a ninth conveying wheel 901, fourth guide shafts 903 and guide columns 904, every two fourth guide shafts 903 are uniformly distributed along the ninth conveying wheel 901 and perpendicular to the ninth conveying wheel 901, each two fourth guide shafts 903 are sleeved with a third slide carriage 906 capable of moving along the fourth guide shafts 903, specifically, each third slide carriage 906 further includes two fifth through holes 9061, the two fifth through holes 9061 are respectively sleeved on the fourth guide shafts 903, the lower portion of the third slide carriage 906 extends downwards to form a guide block 9062, the annular side wall of the guide column 904 is provided with a circle of spiral grooves 9041, the guide block 9062 is inserted into the spiral grooves 9041, the upper portion of the third slide carriage 906 is connected with a material placing portion 902, a baffle 21 is integrally formed on one side of the material placing portion 902 close to the ninth conveying wheel 901, the upper portion of the baffle 9021 is provided with a notch 9022, the fifth conveying chain 603 is sleeved on the ninth conveying wheel 901, the material placing part 902 rotates upwards to be close to the ninth conveying wheel 901 through a spiral groove 9041, the third conveying rod 605 is inserted into the notch 9022, the baffle 9021 is located between the second buffer block 604 and the tube body 10, the material placing part 902 rotates downwards to be far away from the ninth conveying wheel 901 through the spiral groove 9041, the tube body 10 is pushed away from the third conveying rod 605 by the baffle 9021, the blanking device 9 further comprises a fifth motor 907, a roller 908 capable of rotating together is fixedly installed on a shaft of the fifth motor 907, the annular side wall of the roller 908 is abutted against the annular side wall of the tube body 10, the roller 908 rotates forwards to drive the tube body 10 to be far away from the second buffer block 604, the surface of the roller 908 is made of a rubber material, the rubber material is soft and cannot damage paint, the roller 908 rotates forwards to move the tube body 10 for a distance along the, but the third conveying rod 605 is not separated, so that the third conveying rod 605 can be conveniently inserted into the gap 9022, the blanking device 9 further comprises a blanking baffle 905, the blanking baffle 905 is located on the side face of the material placing part 902, a gap formed between the blanking baffle 905 and the material placing part 902 is smaller than the diameter of the tube 10, and the tube 10 located in the material placing part 902 can be blanked to a designated area through the blanking baffle 905.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The conveying and transferring device of the integrated offset press comprises a feeding device (1), a first transferring device (2), a first conveying device (3), a second transferring device (5) and a second conveying device (6), and is characterized in that the feeding device (1) comprises an arc-shaped groove (108), a cylindrical pipe body (10) with two open ends is placed on the arc-shaped groove (108), the first transferring device (2) comprises a second support (201), a first guide shaft (203) is arranged on the second support (201), a first sliding seat (202) capable of moving along the first guide shaft (203) is arranged on the first guide shaft (203), the first sliding seat (202) extends upwards to be provided with a first push plate (205) and a second push plate (206) respectively, the first conveying device (3) comprises a conveying disc (301), a plurality of first conveying rods (302) which are perpendicular to the conveying disc (301) and are uniformly distributed along the axial direction of the conveying disc (301) are arranged on the conveying disc (301), the first conveying rod (302) is sleeved with a first buffer block (303), the first buffer block (303) is fixed on the conveying disc (301), the first push plate (205) and the second push plate (206) are opposite to two adjacent first conveying rods (302), the first push plate (205) is located above the arc-shaped groove (108), the pipe body (10) is arranged between the first conveying rod (302) and the first push plate (205), the pipe body (10) and the first conveying rod (302) are located on the same straight line, the first sliding seat (202) moves to be close to the conveying disc (301) to drive the first push plate (205) to move and sleeve the pipe body (10) on the first conveying rod (302), and meanwhile the second push plate (206) pushes the pipe body (10) sleeved on the first conveying rod (302) to be close to the first buffer block (303) again;

the second transfer device (5) comprises a third bracket (501), a second guide shaft (502) is arranged on the third bracket (501), a second sliding seat (503) capable of moving along the second guide shaft (502) is arranged on the second guide shaft (502), the second sliding seat (503) comprises a connecting part (5031), a first arc-shaped stop block (5034), a second arc-shaped stop block (5035) and a shaft (5036), the shaft (5036) is fixed on the connecting part (5031), a third push plate (5032) capable of rotating along the shaft (5036) is sleeved on the shaft (5036), an arc-shaped claw (5033) is arranged on the side surface of the third push plate (5032), the bottom surface of the pipe body (10) close to one side of the conveying disc (301) is abutted to the arc-shaped claw (5033), the arc of the arc-shaped claw (5033) is coaxial with the first conveying rod (302), the diameter of the arc-shaped claw (5033) is larger than that of the first conveying rod (302) and is smaller, the first arc-shaped stopper (5034) and the second arc-shaped stopper (5035) are fixed on the second guide shaft (502) and located at two sides of the third push plate (5032), respectively, when the third push plate (5032) abuts against the first arc-shaped stopper (5034) and moves along the arc-shaped surface of the first arc-shaped stopper (5034), the third push plate (5032) is close to the first transmission rod (302), when the third push plate (5032) abuts against the second arc-shaped stopper (5035) and moves along the arc-shaped surface of the third push plate (5032), the third push plate (5032) is far away from the first transmission rod (302), the second transfer device (5) further comprises a second support rod (506) capable of axially rotating, a transfer part (507) is fixed on the second support rod (506), four connection blocks (5071) uniformly distributed extend outwards from the side wall of the transfer part (507), a second transmission rod (5072) facing towards the direction of the transmission disk (301) and perpendicular to the connection block (5071) is arranged on the connection block (5071), the second transmission rod (5072) and the first transmission rod (302) are in the same straight line, the second sliding seat (503) moves to be close to the transfer part (507), and the third push plate (5032) pushes and sleeves the tube body (10) on the second transmission rod (5072);

the connecting block (5071) is further provided with a fourth push plate (5074) which can move along the direction of the second conveying rod (5072) and can block the pipe body (10), the fourth push plate (5074) is located between the connecting block (5071) and the pipe body (10) to push the fourth push plate (5074) to push the pipe body (10) to the second conveying device (6).

2. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the conveying disc (301) is provided with a plurality of bearings (305) corresponding to the first conveying rod (302), the first conveying rod (302) is sleeved in the bearings (305) and penetrates through the conveying disc (301), and one end, exceeding the back face of the conveying disc (301), of the first conveying rod (302) is connected with a third motor (304) capable of driving the first conveying rod (302) to rotate.

3. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the first transfer device (2) further comprises a second rocker (207), a second rotary table (208), a first transmission chain (212) and a second motor (213), one end of the second rocker (207) is connected with the lower part of the first sliding seat (202), the other end of the second rocker (207) is connected with the position, close to the annular side face, of the upper surface of the second rotary table (208), a first transmission shaft (209) which faces vertically downwards is fixed in the middle of the second rotary table (208), a first transmission wheel (210) and a second transmission wheel (211) which drive the first transmission wheel to rotate are fixed on the first transmission shaft (209), a first driving wheel (214) which is on the same height as the second transmission wheel (211) is arranged on the shaft of the second motor (213), and the first transmission chain (212) is sleeved on the second transmission wheel (211) and the first driving wheel (214);

the second transfer device (5) comprises a third rotating disc (504), a third rocker (505) and a fourth transmission chain (510), one end of the third rocker (505) is connected to the upper portion of the second sliding seat (503), the other end of the third rocker is connected to the upper surface of the third rotating disc (504) and is close to the annular side face, a second transmission shaft (508) which is vertically downward is fixed in the middle of the third rotating disc (504), a fifth transmission wheel (509) which is as high as the first transmission wheel (210) is fixed on the second transmission shaft (508), and the fourth transmission chain (510) is sleeved on the first transmission wheel (210) and the fifth transmission wheel (509).

4. The transfer device of one-piece offset printing press as set forth in claim 3, wherein: the first transfer wheel (210) and the fifth transfer wheel (509) have a transmission ratio of 1: 1.

5. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the first conveying device (3) further comprises a fourth motor (306), a second conveying chain (308) and a third conveying chain (311), a third conveying wheel (309) and a fourth conveying wheel (310) which drive the conveying disc (301) to rotate are fixed on a shaft behind the conveying disc, a second driving wheel (307) is fixed on a shaft of the fourth motor (306), the second conveying chain (308) is sleeved on the second driving wheel (307) and the third conveying wheel (309), a sixth conveying wheel (511) which drives the second supporting rod (506) to rotate is further arranged on the second supporting rod (506), and the fourth conveying wheel (310) and the sixth conveying wheel (511) are sleeved with the third conveying chain (311).

6. The transfer device of one-piece offset printing press as set forth in claim 5, wherein: the number ratio of the first transfer rod (302) to the second transfer rod (5072) is 4:1, and the transmission ratio of the fourth transfer wheel (310) to the sixth transfer wheel (511) is 1: 4.

7. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the connecting block (5071) is further provided with a telescopic push rod (5073), and one end of the push rod (5073) is connected with a fourth push plate (5074).

8. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the first sliding seat (202) further comprises a second through hole (204), and the second through hole (204) is sleeved on the first guide shaft (203).

9. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the second sliding seat (503) further comprises a third through hole (5037), and the third through hole (5037) is sleeved on the second guide shaft (502).

10. The transfer device of one-piece offset printing press as set forth in claim 1, wherein: the diameter of the first buffer block (303) is larger than that of the pipe body (10).

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