CN114889362A - Continuous impression drive mechanism of single drive source - Google Patents

Abstract

The invention discloses a single-drive-source continuous-imprinting transmission mechanism which comprises a transmission frame, wherein a fixed frame is fixedly installed on the outer side wall of the transmission frame, a main adjusting pipe penetrating through the fixed frame is rotatably inserted on the outer side wall of the transmission frame, a transmission gear is fixedly sleeved on the main adjusting pipe, two auxiliary adjusting pipes penetrating through the fixed frame are symmetrically and rotatably inserted on the outer side wall of the transmission frame, one sides of the main adjusting pipe and one side of the two auxiliary adjusting pipes, which are close to the transmission frame, extend into the transmission frame and one side of the fixed frame, variable-diameter fluted discs are fixedly sleeved on the main adjusting pipe and the two auxiliary adjusting pipes, and speed-adjusting toothed discs are jointly installed on the three variable-diameter toothed discs. Through cooperating impression reciprocating motion and paper transport intermittent motion, reduce driving source and controlgear, increase the drive reliability and reduce the drive energy consumption, and the impression accuracy is higher, and the delay is lower, changes paper intermittent motion length of carrying through adjusting intermittent motion frequency, adapts to different impression specifications.

Description

Continuous impression drive mechanism of single drive source

Technical Field

The invention relates to the technical field of mechanical transmission, in particular to a continuous imprinting transmission mechanism with a single driving source.

Background

The existing stamping system is generally composed of paper conveying equipment, stamping equipment, control equipment and the like, wherein the stamping equipment mainly performs reciprocating extrusion motion, the paper conveying equipment mainly performs intermittent conveying motion, but the existing equipment generally controls stamping work and conveying work in modes of position control, distance control and the like, namely, a plurality of sensors are needed to detect the paper position and the running state of the equipment, and then the paper position and the running state of the equipment are controlled by the control equipment, but the mode is complex in control and more in sensor quantity, so that electrical faults are easy to occur, the energy consumption and the cost of the equipment are increased, the reciprocating stamping and the intermittent conveying cannot be linked, parameters are needed to be adjusted by the control equipment for matching, so that motion errors are easy to occur, the quality of stamping products is low, action delay exists in control matching among a plurality of equipment, namely, signals of the sensor or another equipment need to be obtained in the running of each equipment, reducing the production efficiency.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the control is complex, the faults are easy to occur, the motion errors influence the product quality, and the production efficiency is reduced due to action delay because the imprinting and the conveying are mutually independent.

In order to achieve the purpose, the invention adopts the following technical scheme:

a single-drive-source continuous-imprinting transmission mechanism comprises a transmission frame, wherein a fixed frame is fixedly installed on the outer side wall of the transmission frame, a main adjusting pipe penetrating through the fixed frame is inserted on the outer side wall of the transmission frame in a rotating mode, a transmission gear is fixedly sleeved on the main adjusting pipe, two auxiliary adjusting pipes penetrating through the fixed frame are inserted on the outer side wall of the transmission frame in a symmetrical rotating mode, one sides, close to the transmission frame, of the main adjusting pipe and one sides, close to the transmission frame, of the two auxiliary adjusting pipes extend into the transmission frame and the fixed frame, a variable-diameter fluted disc is fixedly sleeved on one side of the main adjusting pipe and one side of the two auxiliary adjusting pipes, close to the transmission frame, of the main adjusting pipe and the other side of the two auxiliary adjusting pipes, a speed-regulating toothed belt is commonly installed on the three variable-diameter fluted discs, a section, located between the variable-diameter fluted disc and the inner wall of the fixed frame, is fixedly sleeved with tooth-lacking gears, two transmission shafts are symmetrically installed on the fixed frame, each transmission shaft is respectively provided with an intermittent gear and a driving gear, each intermittent gear is matched with the corresponding tooth-lacking gear, two rollers are installed in the fixed frame in a symmetrical rotating mode, each driven gear is installed on each roller, each driven gear and a corresponding driving gear are installed between each driven gear and the corresponding driving gear, and each roller is installed on each roller.

Further, two extrusion grooves are symmetrically formed in the upper bottom wall and the lower bottom wall of the transmission frame, four extrusion shafts are symmetrically inserted into the transmission frame in a rotating mode, each extrusion shaft penetrates through the extrusion grooves and is located in the extrusion grooves to be provided with an extrusion cam, each extrusion shaft is provided with two ends extending to the outer side of the transmission frame and provided with a transmission extrusion gear, two extrusion gears are arranged on the same side from top to bottom, a transmission toothed belt is jointly arranged between the extrusion gears, an elastic pressing die is slidably arranged in the transmission frame, four pressing wheels are symmetrically arranged on the elastic pressing die, and each pressing wheel is tightly abutted to the corresponding extrusion cam.

Further, two transmission chambeies have been seted up to the symmetry in the bottom of transmission frame, the lateral wall below symmetry of transmission frame is rotated and is inserted and is equipped with two power shafts, every the one end of power shaft all extends to the transmission intracavity and fixed cover is equipped with two worm covers, every the extrusion axle all passes the transmission chamber and lies in the transmission intracavity and installs the transmission worm wheel, every the transmission worm wheel all cooperates with the worm cover that corresponds, every the one end of power shaft all extends to the outside of transmission frame and installs power gear, rotate on the lateral wall of transmission frame and install drive gear, drive gear respectively with drive gear and two power gear cooperations.

Further, every a plurality of grooves have been seted up to equal annular equidistance on the lateral wall of reducing fluted disc, every the reducing fluted disc is kept away from the equal annular equidistance in one side of fixed frame and has been seted up a plurality of sliding openings, every the plate inslot all slides and inserts and be equipped with the pinion rack, the speed governing cingulum cover is established on the flank of tooth that a plurality of pinion racks kept away from the groove, every the equal fixed mounting in one side that fixed frame was kept away from to the pinion rack has the threading board, every the spiral surface end of threading board all passes the sliding opening that corresponds and extends to the outside of reducing fluted disc, every the equal slidable mounting of threading board is in the sliding opening that corresponds.

Further, the intraductal rotation of main regulation is inserted and is equipped with main regulation pole, the one end that main regulation pole is close to the reducing fluted disc extends to the outside and fixed mounting of main regulation pipe has main helicoid dish, every all rotate in the vice regulation pipe and insert and be equipped with vice regulation pole, every the one end that vice regulation pole is close to the reducing fluted disc extends to the outside and fixed mounting of vice regulation pipe has vice helicoid dish, main helicoid dish and two vice helicoid dishes all cooperate with a plurality of thread plates that correspond.

Has the advantages that: through cooperating impression reciprocating motion and paper transport intermittent motion, reduce driving source and controlgear, increase the drive reliability and reduce the drive energy consumption, and the impression accuracy is higher, and the delay is lower, changes paper intermittent motion length of carrying through adjusting intermittent motion frequency, adapts to different impression specifications.

Drawings

FIG. 1 is a schematic structural diagram of a continuous imprinting transmission mechanism with a single driving source according to the present invention;

FIG. 2 is a schematic partially cut-away view of a transmission frame portion of a single-drive-source continuous imprinting transmission mechanism according to the present invention;

FIG. 3 is an enlarged view of a portion of a stationary frame of a single-drive-source continuous imprinting actuator according to the present invention;

FIG. 4 is an enlarged view of a portion of a timing belt of a single drive source continuous imprint transmission according to the present invention;

FIG. 5 is an enlarged view of a portion of a variable diameter fluted disc of a single-drive-source continuous imprinting transmission mechanism according to the present invention;

fig. 6 is an enlarged view of a portion a in fig. 2.

In the figure: 1 transmission frame, 11 extrusion grooves, 12 transmission cavities, 13 fixing frames, 14 driving gears, 2 extrusion shafts, 21 extrusion cams, 22 transmission worm gears, 23 extrusion gears, 24 transmission toothed belts, 3 power shafts, 31 power gears, 32 worm sleeves, 4 main adjusting pipes, 41 transmission gears, 42 main adjusting rods, 43 main spiral surface discs, 5 auxiliary adjusting pipes, 51 tooth-lacking gears, 52 auxiliary adjusting rods, 53 auxiliary spiral surface discs, 6 variable-diameter toothed discs, 61 plate grooves, 62 sliding openings, 63 toothed plates, 64 threaded plates, 65 speed-adjusting toothed belts, 7 transmission shafts, 71 intermittent gears, 72 driving gears, 73 driving toothed belts, 8 roll shafts, 81 material rollers, 82 driven gears, 9 elastic pressing dies and 91 pressing wheels.

Detailed Description

Referring to fig. 1, 3 and 4, a single-drive-source continuous imprinting transmission mechanism comprises a transmission frame 1, a fixed frame 13 is fixedly installed on the outer side wall of the transmission frame 1, a main adjusting pipe 4 penetrating through the fixed frame 13 is rotatably inserted on the outer side wall of the transmission frame 1, a transmission gear 41 is fixedly sleeved on the main adjusting pipe 4, two auxiliary adjusting pipes 5 penetrating through the fixed frame 13 are symmetrically and rotatably inserted on the outer side wall of the transmission frame 1, one sides of the main adjusting pipe 4 and the two auxiliary adjusting pipes 5 close to the transmission frame 1 extend into the transmission frame 1 and the fixed frame 13 and are fixedly sleeved with a variable-diameter fluted disc 6, speed-adjusting toothed discs 65 are jointly installed on the three variable-diameter fluted discs 6, a section of each auxiliary adjusting pipe 5 between the variable-diameter fluted disc 6 and the inner wall of the fixed frame 13 is fixedly sleeved with a tooth-lacking gear 51, two transmission shafts 7 are symmetrically and rotatably installed on the fixed frame 13, an intermittent gear 71 and a driving gear 72 are respectively installed on each transmission shaft 7, each intermittent gear 71 is matched with a corresponding gear 51 with missing teeth, two roll shafts 8 are symmetrically and rotatably mounted on the fixed frame 13, a driven gear 82 is mounted on each roll shaft 8, a driving toothed belt 73 is mounted between each driven gear 82 and a corresponding driving gear 72, and a material roller 81 is mounted on each roll shaft 8;

when the transmission gear 41 rotates, the corresponding variable-diameter fluted discs 6 can rotate through the main adjusting pipe 4, the variable-diameter fluted discs 6 rotate to enable three variable-diameter fluted discs 6 to synchronously rotate through the speed-adjusting toothed belt 65, so that the auxiliary adjusting pipe 5 rotates, the auxiliary adjusting pipe 5 drives the intermittent gear 71 to rotate through the tooth-lacking gear 51, the intermittent gear 71 enables the transmission shaft 7 to rotate, the transmission shaft 7 rotates to enable the driven gear 82 to rotate through the driving gear 72 and the driving toothed belt 73, so that the roller shaft 8 drives the material rollers 81 to rotate, the conveying and the transmission of paper rolls on the two material rollers 81 are realized, and the effect of continuous imprinting is achieved;

missing tooth gear 51 is when rotating, can make intermittent type gear 71 rotate, when the missing tooth part of missing tooth gear 51 rotated to one side of intermittent type gear 71, missing tooth gear 51 can't drive intermittent type gear 71 and rotates, then need the tooth part of missing tooth gear 51 to rotate drive intermittent type gear 71 when locating intermittent type gear 71 again, make intermittent type gear 71 can intermittent type rotate, then through the transmission of transmission shaft 7, driving gear 72 and drive cingulum 73, make roller 8 and material roller 81 intermittent type rotate, namely can realize when the impression, material roller 81 stall, avoid the impression atress to tear, increase the reliability of impression.

Referring to fig. 1 and 2, two extrusion grooves 11 are symmetrically formed in the upper and lower bottom walls of a transmission frame 1, four extrusion shafts 2 are symmetrically inserted into the transmission frame 1 in a rotating manner, each extrusion shaft 2 penetrates through the extrusion groove 11 and is located in the extrusion groove 11 to be provided with an extrusion cam 21, two ends of each extrusion shaft 2 extend to the outer side of the transmission frame 1 and are provided with transmission extrusion gears 23, a transmission toothed belt 24 is commonly arranged between the upper and lower extrusion gears 23 on the same side, an elastic pressing die 9 is slidably arranged in the transmission frame 1, four pressing wheels 91 are symmetrically arranged on the elastic pressing die 9, and each pressing wheel 91 is in tight contact with the corresponding extrusion cam 21;

when the extrusion shaft 2 rotates, the extrusion cam 21 can rotate, the extrusion cam 21 can be rotated to extrude and release the pressing wheel 91 in a reciprocating manner, so that the pressing wheel 91 can extrude and release the elastic pressing die 9 in a reciprocating manner, the elastic pressing die 9 can realize continuous pressing, and the pressing efficiency is improved;

the upper and lower extrusion gears 23 on the same side are connected through the transmission toothed belt 24, so that the rotation of the extrusion shafts 2 at the upper and lower symmetrical points is synchronous, the extrusion of the elastic pressing die 9 can be centered, the offset dragging such as downward pressing or upward pushing of paper is not caused, and the damage of the impressing to the paper is reduced.

Referring to fig. 2 and 6, two transmission cavities 12 are symmetrically formed in the bottom of the transmission frame 1, two power shafts 3 are symmetrically inserted below the side wall of the transmission frame 1 in a rotating manner, one end of each power shaft 3 extends into the transmission cavity 12 and is fixedly sleeved with two worm sleeves 32, each extrusion shaft 2 penetrates through the transmission cavity 12 and is provided with a transmission worm wheel 22 in the transmission cavity 12, each transmission worm wheel 22 is matched with the corresponding worm sleeve 32, one end of each power shaft 3 extends to the outer side of the transmission frame 1 and is provided with a power gear 31, a driving gear 14 is rotatably mounted on the outer side wall of the transmission frame 1, and the driving gear 14 is respectively matched with the transmission gear 41 and the two power gears 31;

when the driving gear 14 rotates, the transmission gear 41 and the power gear 31 can synchronously rotate, the power gear 31 rotates to enable the power shaft 3 to rotate, the worm sleeve 32 on the power shaft 3 rotates, the rotating worm sleeve 32 enables the transmission worm wheel 22 to rotate, the rotating transmission worm wheel 22 enables the extrusion shaft 2 to rotate, namely, extrusion work can be realized, the transmission gear 41 rotates, intermittent paper conveying can be realized, the driving gear 14 is mechanically connected with an external motor driving unit, single-driving-source driving is realized, multiple detection devices and driving device linkage control are not needed, the energy consumption is lower, and the reliability is higher.

Referring to fig. 4 and 5, a plurality of plate grooves 61 are uniformly and annularly arranged on the outer side wall of each variable diameter fluted disc 6 at equal intervals, a plurality of sliding openings 62 are uniformly and annularly arranged on one side of each variable diameter fluted disc 6 away from the fixed frame 13, a toothed plate 63 is slidably inserted in each plate groove 61, a speed regulating toothed belt 65 is sleeved on the tooth surfaces of the plurality of toothed plates 63 away from the plate grooves 61, a threaded plate 64 is fixedly arranged on one side of each toothed plate 63 away from the fixed frame 13, the threaded surface end of each threaded plate 64 penetrates through the corresponding sliding opening 62 and extends to the outer side of the variable diameter fluted disc 6, and each threaded plate 64 is slidably arranged in the corresponding sliding opening 62;

a main adjusting rod 42 is rotatably inserted in the main adjusting pipe 4, one end of the main adjusting rod 42, which is close to the reducing fluted disc 6, extends to the outer side of the main adjusting pipe 4 and is fixedly provided with a main helical surface disc 43, an auxiliary adjusting rod 52 is rotatably inserted in each auxiliary adjusting pipe 5, one end of each auxiliary adjusting rod 52, which is close to the reducing fluted disc 6, extends to the outer side of the auxiliary adjusting pipe 5 and is fixedly provided with an auxiliary helical surface disc 53, and the main helical surface disc 43 and the two auxiliary helical surface discs 53 are matched with a plurality of corresponding threaded plates 64;

through rotating main regulation pole 42 and vice regulation pole 52, make main helicoid dish 43 and vice helicoid dish 53 rotate, make pivoted main helicoid dish 43 and vice helicoid dish 53 make corresponding screw plate 64 slide in sliding opening 62, make pinion rack 63 slide in plate groove 61, make the diameter of contact change between pinion rack 63 and the speed governing cingulum 65, then can change the transmission ratio of reducing fluted disc 6 on main regulation pipe 4 and the reducing fluted disc 6 on vice regulation pipe 5, then can change the intermittent frequency that the paper was carried, and the impression frequency is unchangeable, then realize the intermittent type transport length that can adjust the paper according to the impression specification of elasticity moulding-die 9, in order to adapt to different elasticity moulding-die 9 impression specifications, increase its application scope.

The paper is pressed on two material rollers 81 and passes through the middle of the elastic pressing die 9, two ends of the paper are respectively fixed on rollers for receiving and feeding materials outside, the driving gear 14 is mechanically connected with an external motor driving unit, and in an initial state, the diameter of the reducing fluted disc 6 on the main adjusting pipe 4 is larger than that of the reducing fluted disc 6 on the auxiliary adjusting pipe 5, the intermittent paper conveying length is adjusted according to the stamping specification, i.e., the main adjustment lever 42 and the auxiliary adjustment lever 52, are rotated, so that the main screw disc 43 and the auxiliary screw disc 53 are rotated, the rotating main helical surface disk 43 and the secondary helical surface disk 53 are made to slide the corresponding helical plate 64 in the sliding opening 62, the toothed plate 63 is made to slide inside the plate slot 61, so that the contact diameter between the toothed plate 63 and the speed regulation toothed belt 65 varies, namely, the diameter of the reducing fluted disc 6 on the main adjusting pipe 4 is reduced, and the diameter of the reducing fluted disc 6 on the auxiliary adjusting pipe 5 is increased.

Then the equipment is started, so that the driving gear 14 rotates, so that the driving gear 14 makes the main adjusting pipe 4 rotate through the transmission gear 41, so that the three reducing fluted discs 6 synchronously rotate under the action of the speed regulating toothed belt 65 and the toothed plate 63, so that the two auxiliary adjusting pipes 5 rotate, so that the gear-lacking gear 51 drives the intermittent gear 71 to intermittently rotate, so that the transmission shaft 7 and the driving gear 72 intermittently rotate, so that the two roller shafts 8 drive the two material rollers 81 to intermittently rotate through the driving toothed belt 73 and the driven gear 82, and so that paper pressed on the two material rollers 81 is intermittently conveyed.

The driving gear 14 rotates to enable, so that the power gear 31 drives the power shaft 3 to rotate, then the two extrusion shafts 2 at the lower layer are driven to rotate through the worm sleeve 32 and the transmission worm wheel 22, then the four extrusion shafts 2 synchronously rotate through the extrusion gear 23 and the transmission toothed belt 24, so that the four extrusion cams 21 synchronously rotate, the elastic pressing die 9 synchronously presses paper through the four pressing wheels 91, and when the elastic pressing die 9 presses the paper, the paper is in a stop conveying state in an intermittent conveying process, after the pressing is completed, the elastic pressing die 9 resets and returns, the paper is in a conveying state in the intermittent conveying process, linkage matching of paper conveying and pressing is achieved, action delay and errors are reduced, and the pressing accuracy and speed are increased.

Claims (5)

1. The utility model provides a continuous impression drive mechanism in single drive source, includes transmission frame (1), its characterized in that, fixed mounting has fixed frame (13) on the lateral wall of transmission frame (1), rotate on the lateral wall of transmission frame (1) and insert main adjusting pipe (4) that are equipped with and pass fixed frame (13), fixed cover is equipped with drive gear (41) on main adjusting pipe (4), the symmetry rotates on the lateral wall of transmission frame (1) and inserts two vice adjusting pipes (5) that are equipped with and pass fixed frame (13), main adjusting pipe (4) and two vice adjusting pipes (5) are close to one side of transmission frame (1) and all extend to the inside and the fixed cover of transmission frame (1) and fixed frame (13) and are equipped with reducing fluted disc (6), three install speed governing cogged belt (65) jointly on reducing fluted disc (6), every vice adjusting pipe (5) are located one section between reducing fluted disc (6) and fixed frame (13) inner wall and all are equipped with on fixed cover and lack fluted wheel (51) Two transmission shafts (7) are installed, every to the symmetry rotation on fixed frame (13) install intermittent gear (71) and driving gear (72) on transmission shaft (7) respectively, every intermittent gear (71) all with the lacked tooth gear (51) cooperation that corresponds, two roller (8), every are installed to the symmetry rotation on fixed frame (13) all install driven gear (82) on roller (8), every all install drive cingulum (73) jointly between driven gear (82) and the driving gear (72) that corresponds, every all install material roller (81) on roller (8).

2. The continuous imprint lithography actuator of claim 1 wherein, two extrusion grooves (11) are symmetrically arranged on the upper and lower bottom walls of the transmission frame (1), four extrusion shafts (2) are symmetrically inserted into the transmission frame (1) in a rotating manner, each extrusion shaft (2) penetrates through an extrusion groove (11) and is positioned in the extrusion groove (11) to be provided with an extrusion cam (21), two ends of each extrusion shaft (2) extend to the outer side of the transmission frame (1) and are provided with transmission extrusion gears (23), a transmission toothed belt (24) is arranged between the upper extrusion gear (23) and the lower extrusion gear (23) on the same side, the elastic pressing die is characterized in that an elastic pressing die (9) is arranged in the transmission frame (1) in a sliding mode, four pressing wheels (91) are symmetrically arranged on the elastic pressing die (9), and each pressing wheel (91) is in tight abutting contact with a corresponding extrusion cam (21).

3. A single drive source continuous imprint drive mechanism according to claim 2, two transmission cavities (12) are symmetrically formed in the bottom of the transmission frame (1), two power shafts (3) are symmetrically inserted below the side wall of the transmission frame (1) in a rotating mode, one end of each power shaft (3) extends into the transmission cavity (12) and is fixedly sleeved with two worm sleeves (32), each extrusion shaft (2) penetrates through the transmission cavity (12) and is located in the transmission cavity (12) and is provided with a transmission worm wheel (22), each transmission worm wheel (22) is matched with the corresponding worm sleeve (32), one end of each power shaft (3) extends to the outer side of the transmission frame (1) and is provided with a power gear (31), a driving gear (14) is rotatably arranged on the outer side wall of the transmission frame (1), the driving gear (14) is respectively matched with the transmission gear (41) and the two power gears (31).

4. The continuous stamping transmission mechanism with a single driving source as claimed in claim 1, wherein a plurality of plate grooves (61) are formed in the outer side wall of each variable diameter fluted disc (6) in an annular equidistant manner, a plurality of sliding openings (62) are formed in one side, away from a fixed frame (13), of each variable diameter fluted disc (6) in an annular equidistant manner, a toothed plate (63) is inserted in each plate groove (61) in an all-sliding manner, a speed regulation toothed belt (65) is sleeved on the tooth surface, away from the plate grooves (61), of the plurality of toothed plates (63), a threaded plate (64) is fixedly installed on one side, away from the fixed frame (13), of each toothed plate (63), the end of the threaded surface of each threaded plate (64) penetrates through the corresponding sliding opening (62) and extends to the outer side of the variable diameter fluted disc (6), and each threaded plate (64) is slidably installed in the corresponding sliding opening (62).

5. The continuous stamping transmission mechanism with a single driving source as claimed in claim 4, wherein a main adjusting rod (42) is rotatably inserted in the main adjusting pipe (4), one end of the main adjusting rod (42) close to the variable diameter fluted disc (6) extends to the outer side of the main adjusting pipe (4) and is fixedly provided with a main helical surface disc (43), an auxiliary adjusting rod (52) is rotatably inserted in each auxiliary adjusting pipe (5), one end of each auxiliary adjusting rod (52) close to the variable diameter fluted disc (6) extends to the outer side of the auxiliary adjusting pipe (5) and is fixedly provided with an auxiliary helical surface disc (53), and the main helical surface disc (43) and the two auxiliary helical surface discs (53) are matched with a plurality of corresponding threaded plates (64).

Images