CN218087718U - Flat push mechanism of continuous feed - Google Patents

Abstract

The utility model relates to a flat push mechanism of continuous feeding, which comprises a push plate, a push plate flat push mechanism and a push plate turnover mechanism, wherein the push plate flat push mechanism is connected with a cylindrical cam, the push plate turnover mechanism is connected with a planar cam, the centers of the planar cam and the cylindrical cam run through a power rod, and the planar cam and the cylindrical cam are driven by the power rod to synchronously rotate; push pedal tilting mechanism includes interior pin, the push pedal is connected through the drive case to the one end of interior pin, but the other end rotary interlude is in the end seat, the end seat is fixed motionless, the one end that interior pin inserted the drive case is provided with the bevel gear, the face and the interior pin of push pedal are perpendicular, it is provided with and embraces the connecting rod tightly to run through the drive case, the push pedal is on a parallel with and embraces the connecting rod tightly, it is fixed with the push pedal respectively to embrace the both ends that the connecting rod is located the drive case outside, it is equipped with oblique awl tooth to be located the inside connecting rod cover of embracing of drive case, oblique awl tooth and bevel gear meshing. The utility model discloses but the rotatory level of push pedal in-process that resets, the back that targets in place returns to vertical state automatically.

Description

Flat push mechanism of continuous feed

Technical Field

The utility model relates to a flat push mechanism of continuous feed belongs to tobacco bale equipment for packing's technical field.

Background

Traditional mechanism that relies on flat push unloading all is intermittent type execution action, is about to material propelling movement down the back, waits for the push pedal back that resets, resets at least to certain distance after, carries out the material loading again, prevents that the push pedal from resetting the in-process, dials the material out the conveyer belt. Intermittent type mechanical motion needs the cycle to open and stops, and is great to the damage of equipment, and the feed existence time is poor, has longer waiting for the material loading time, is unfavorable for high-efficient production, how at the in-process of flat push unloading, realizes continuous feed, lets the feed go on in succession, is the industry new direction that awaits for a long time.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a flat push mechanism of continuous feed, its concrete technical scheme is as follows:

a continuous feeding horizontal pushing mechanism comprises a pushing plate, a pushing plate horizontal pushing mechanism and a pushing plate turnover mechanism, wherein the pushing plate horizontal pushing mechanism is connected with a cylindrical cam, the pushing plate turnover mechanism is connected with a planar cam, the planar cam is positioned on one end face of the cylindrical cam, the centers of the planar cam and the cylindrical cam penetrate through a power rod, and the planar cam and the cylindrical cam are driven by the power rod to synchronously rotate;

push pedal tilting mechanism includes interior pin, the push pedal is connected through the drive case to the one end of interior pin, but the other end rotary interlude is in the end seat, and the end seat is fixed motionless, the one end that interior pin inserted the drive case is provided with the bevel gear, the face and the interior pin of push pedal are perpendicular, run through the drive case and be provided with and hold the connecting rod tightly, and the push pedal is on a parallel with and holds the connecting rod tightly, and it is fixed with the push pedal respectively to hold the both ends that the connecting rod is located the drive case outside tightly, and the connecting rod cover of holding tightly that is located the drive case inside is equipped with oblique awl tooth, oblique awl tooth and bevel gear meshing.

Further, push pedal horizontal pushing mechanism includes outer sleeve, fixed block and pull rod assembly, the fixed block is fixed in the outer sleeve and is kept away from the one end of push pedal, the fixed block is connected to the cylindrical cam through link assembly, the cylindrical cam groove has been seted up to the cylindrical cam surface, be provided with gyro wheel II in the cylindrical cam groove, gyro wheel II and link assembly's one end rotatable coupling, when the cylindrical cam is rotatory, pull rod assembly takes the outer sleeve translation.

Furthermore, the push plate turnover mechanism further comprises a warping plate, a pull rod and a driven rod assembly, the inner driving rod can be freely and circumferentially inserted into the outer sleeve in a rotating mode, two ends of the inner driving rod extend out of the corresponding ends of the outer sleeve, and the driven rod assembly is parallelly located beside the outer sleeve;

the rocker is in a V shape, one end of the internal driving rod close to the end seat penetrates through the corner part of the rocker, one end of the rocker is provided with a roller III, the roller III is arranged in a slide way of the driven rod component,

the one end of passive pole subassembly and swing arm is connected to the pull rod, and the swing arm middle part is the strong point, and the other end is provided with gyro wheel I, in the planar cam groove of planar cam is arranged in to gyro wheel I can be the free slip, when planar cam is rotatory, drives passive pole subassembly through swing arm and pull rod and produces displacement from top to bottom, and the displacement about the one end synchronous production of gyro wheel III and wane, and then the internal drive pole is rotatory, through the upset of drive case drive push pedal.

Furthermore, the one end that is close to the end cover of driven pole subassembly is provided with vertical chute board, and this end of driven pole subassembly can remove in the vertical slide of vertical chute board, and the one end that is close to the push pedal of driven pole subassembly is provided with the pivot, driven pole subassembly can use the pivot as the center rotation, and when the pull rod is drawing driven subassembly and is reciprocating, driven subassembly uses the pivot as the center rotation, and the one end that is close to the end cover slides from top to bottom in vertical chute board.

Furthermore, driven rod subassembly includes two parallel passive poles, leaves the interval between two passive poles, forms gyro wheel III's removal passageway, the position that is close to both ends between the passive pole is provided with the locating lever respectively, and the one end that is close to the pivot still is provided with the connecting plate, the pivot runs through the connecting plate.

Furthermore, a fixed plate is arranged in front of the wane and the end seat, the internal driving rod penetrates through the fixed plate,

the fixed suppression piece II that is provided with of free end of wane perk, the fixed suppression piece I that is provided with of fixed plate, suppression piece I and suppression piece II all are located between wane and the fixed plate, wane and interior fencing fixed connection, fixed plate and end socket fixed connection, interior fencing are still overlapped and are equipped with the jump ring, jump ring lower extreme and fixed block are fixed, and suppression piece II is hooked to the upper end, and when gyro wheel III moved down, it is rotatory as the center to drive the interior fencing of wane, and the jump ring lower extreme is motionless, and upper end area suppression piece II moves towards suppression piece I, when suppression piece II with suppression piece I support the pressure contact, forms the lock, reaches the displacement limit, when gyro wheel III shifts up, and the jump ring upper end area suppression piece II was kept away from suppression piece I and is removed, and the jump ring is pulling suppression piece II, plays stroke limiting displacement.

Furthermore, the cylindrical cam groove is spirally wound for half a turn from the position of the cylindrical surface close to one end to the other end, and then spirally wound back to the starting point to form a closed channel.

Furthermore, one half of the plane cam groove is semicircular, the other half of the plane cam groove is semicircular and oval formed by cutting along the long diameter or the short diameter, and the semicircular oval are communicated to form a closed channel.

Further, the connecting rod assembly comprises a connecting rod I, a connecting rod II, a connecting rod III and a connecting rod IV which are connected in sequence, one end of the connecting rod I is connected with one end of a connecting shaft, the other end of the connecting shaft transversely penetrates through the fixing block and is provided with a roller IV, and the roller IV is arranged in a sliding groove of the horizontal sliding chute plate;

and the tail end of the connecting rod IV is provided with a roller II, and the roller II is arranged in the cylindrical cam groove.

Furthermore, a guide rod is arranged beside the outer sleeve in parallel, the guide rod penetrates through the fixing block, and the end part of the guide rod is fixed with the end seat.

The utility model has the advantages that:

the utility model discloses the back is released in the push pedal, and at the farthest stroke in-process that removes the release, is vertical downwards, realizes the function that pushes away the material, when pushing away the material and accomplishing the back, when reseing, the conveyer belt of its rear is for lasting the feed, if the push pedal does not upwards overturn to the level, will dial the material on the conveyer belt off, the utility model discloses an ingenious mechanical design for the push pedal resets in-process, and automatic upwards upset is waited to remove behind the conveyer belt, and it is vertical to rotate again, gets into the next and pushes away the material cycle.

Drawings

Figure 1 is a schematic perspective view of the present invention,

figure 2 is a schematic view of the opposite side perspective of figure 1 of the present invention,

figure 3 is a side view of the present invention,

figure 4 is an enlarged view of a portion of figure 3 at a,

figure 5 is a partial enlarged view of the push plate of the utility model,

figure 6 is an end view of the translating bar of the present invention,

figure 7 is another perspective view of the present invention,

in the figure: 1-push plate, 2-drive box, 3-driven rod component, 301-locating rod, 302-driven rod, 303-connecting plate, 4-connecting head, 5-pull rod, 6-connecting rod I, 7-connecting rod II, 8-connecting rod III, 9-mounting end cover, 10-plane cam groove, 11-plane cam, 12-cylinder cam, 13-cylinder cam groove, 14-power rod, 15-roller I, 16-swing arm, 17-connecting frame, 18-mounting plate, 19-roller II, 20-connecting rod IV, 21-guide component, 22-outer sleeve, 23-mounting seat, 24-rotating shaft, 25-roller III, 26-rocker, 27-horizontal sliding chute plate, 28-fixed block, 29-roller IV, 30-connecting shaft, 31-end seat, 32-bevel gear, 33-bevel gear, 34-holding mounting block, 35-holding connecting rod, 36-internal driving rod, 37-guide rod, 38-clamp spring, 39-vertical clamp spring, 40-fixed plate, 41-oblique bevel gear, 34-holding block I, 42-holding block II.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

With reference to fig. 1-7, the patent refers to the field of' machines or engines for processing liquids, or for processing liquids, and includes: the device comprises a push plate 1, a driving box 2, a driven rod assembly 3, a positioning rod 301, a driven rod 302, a connecting plate 303, a connector 4, a pull rod 5, a connecting rod I6, a connecting rod II 7, a connecting rod III 8, a mounting end cover 9, a plane cam groove 10, a plane cam 11, a cylindrical cam 12, a cylindrical cam groove 13, a power rod 14, a roller I15, a swing arm 16, a connecting frame 17, a mounting plate 18, a roller II 19, a connecting rod IV 20, a guide assembly 21, an outer sleeve 22, a mounting seat 23, a rotating shaft 24, a roller III 25, a wane 26, a horizontal chute plate 27, a fixing block 28, a roller IV 29, a connecting shaft 30, an end seat 31, oblique conical teeth 32, a conical gear 33, a holding mounting block 34, a holding connecting rod 35, an inner driving rod 36, a guide rod 37, a clamp spring 38, a vertical chute plate 39, a fixing plate 40, a holding block I41 and a holding block II 42.

As shown in fig. 1-7, the utility model discloses a flat push mechanism of continuous feed mainly includes push pedal and the 1 flat push mechanism of push pedal 1 that takes place translational movement of control push pedal, and control push pedal 1 is after the translation is released, the 1 tilting mechanism of push pedal of the 1 upset of in-process push pedal of resetting, the application scene of this patent does, push pedal 1 dead ahead is the tobacco bale conveyer belt, 10 package tobacco bale is two-layer 5 and arranges (just in time for the mode of arranging into the tobacco rod) the emission on the conveyer belt, during via push pedal 1 dead ahead, the action of the 1 flat push mechanism of push pedal, push pedal 1 moves forward, release the conveyer belt with the tobacco bale, the tobacco bale that enters into the next door goes into a strip mechanism, and then send the tobacco bale into the strip box, realize that the tobacco bale goes into a strip packing.

Because the conveyer belt is continuous operation, does not have and is interrupted, when push pedal 1 is pushing away the cigarette and is moving forward, the tobacco bale also is normally conveying forward on the conveyer belt, when push pedal 1 need reset, has had the tobacco bale on the conveyer belt at push pedal 1 rear, if push pedal 1 does not upwards overturn, tobacco bale on the conveyer belt can be touch to push pedal 1, and then can not ensure whether the list of tobacco bale warp to and whether the tobacco bale can originally take out the conveyer belt. In order to overcome the problem, when the push plate 1 is reset, the push plate 1 is turned over by 90 degrees to avoid the cigarette packet on the conveyor belt, and after the cigarette packet passes through the upper part of the conveyor belt, the push plate 1 is turned over again for resetting; entering the next smoke pushing circulation.

The push plate 1 horizontal pushing mechanism is specifically described below, the push plate 1 horizontal pushing mechanism comprises a cylindrical cam 12, a pull rod assembly, an outer sleeve 22 and a fixing block 28, the fixing block 28 is fixed at one end, away from the push plate 1, of the outer sleeve 22, the fixing block 28 is connected to the cylindrical cam 12 through a connecting rod assembly, a cylindrical cam groove 13 is formed in the surface of the cylindrical cam 12, a roller II 19 is arranged in the cylindrical cam groove, the roller II 19 is rotatably connected with one end of the connecting rod assembly, and when the cylindrical cam 12 rotates, the pull rod assembly drives the outer sleeve 22 to move horizontally.

The following concrete introduction push pedal 1 tilting mechanism, push pedal 1 tilting mechanism includes planar cam 11, interior pin 36, wane 26, pull rod 5 and driven rod subassembly 3, but interior pin 36 free circumference ground interlude in outer sleeve 22, the both ends of interior pin 36 all stretch out from the corresponding end of outer sleeve 22, driven rod subassembly 3 parallel bit is on one side of outer sleeve 22, push pedal 1 is connected through drive case 2 to the one end of interior pin 36, but the other end rotary interlude is in end seat 31, end seat 31 is fixed, end seat 31 is used for with quick-witted case fixed mounting, it is neat for holistic outward appearance when this patent mechanism uses, pleasing to the eye, and dustproof, the outside quick-witted case that has sealed usually, also provide each link through quick-witted case and provide fixed installation position.

The plane cam 11 is positioned on one end face of the cylindrical cam 12, the centers of the plane cam 11 and the cylindrical cam 12 penetrate through the power rod 14, and the plane cam 11 and the cylindrical cam 12 are driven by the power rod 14 to rotate synchronously. One end of the power rod 14 is connected with a power source, and the other end of the power rod is fixedly installed on the case through the installation end cover 9, so that a stable supporting point is provided.

The rocker 26 is in a V shape, one end of the internal driving rod 36, which is close to the end seat 31, penetrates through the corner part of the rocker 26, one end of the rocker 26 is provided with a roller III 25, and the roller III 25 is arranged in the slide way of the driven rod assembly 3.

Driven rod subassembly 3 and swing arm 16's one end is connected to pull rod 5, and 16 middle parts of swing arm are the strong point, and the other end is provided with gyro wheel I15, but in the plane cam groove of planar cam (11) is arranged in to gyro wheel I15 free sliding, when planar cam 11 was rotatory, drive driven rod subassembly 3 through pull rod 5 produced displacement from top to bottom, and the displacement about the synchronous production of the one end of gyro wheel III 25 and wane 26, and then interior catch bar 36 is rotatory, through the upset of drive case 2 drive push pedal 1.

In fig. 1, the middle of the swing arm 16 is shown as a supporting point, and is a connecting frame 17 for clamping the swing arm 16 from two sides, a mounting plate 18 is arranged at the top of the connecting frame 17, the mounting plate 18 is fixedly mounted with the chassis, and the swing arm 16 can swing up and down around the connecting point of the swing arm and the connecting frame 17.

The end of the driven rod component 3 close to the end cover 31 is provided with a vertical chute plate 39, the end of the driven rod component 3 can move in a vertical slide way of the vertical chute plate 39, the end of the driven rod component 3 close to the push plate 1 is provided with a rotating shaft 24, the driven rod component 3 can rotate by taking the rotating shaft 24 as a center, when the pull rod 5 pulls the driven component 3 to move up and down, the driven component 3 rotates by taking the rotating shaft 24 as a center, and the end close to the end cover 31 slides up and down in the vertical chute plate 39. The rotating shaft 24 penetrates through the mounting seat 23, the mounting seat 23 is fixedly mounted with the chassis, and the rotating shaft 24 can freely rotate in the mounting seat 23 and can be realized by sleeving a bearing outside the rotating shaft 24.

The specific structure of the passive rod assembly 3 is as follows: (with reference to fig. 2 and 4) the roller assembly comprises two parallel passive rods 302, a space is reserved between the two passive rods 302 to form a moving channel of the roller iii 25, positioning rods 301 are respectively arranged between the passive rods 302 at positions close to two ends, a connecting plate 303 is further arranged at one end close to the rotating shaft 24, and the rotating shaft 24 penetrates through the connecting plate 303.

Referring to fig. 5, one end of the inner driving rod 36 inserted into the driving box 2 is provided with a bevel gear 33, the plate surface of the push plate 1 is perpendicular to the inner driving rod 36, a holding connecting rod 35 penetrates through the driving box 2, the push plate 1 is parallel to the holding connecting rod 35, two ends of the holding connecting rod 35 located outside the driving box 2 are fixed to the push plate 1 respectively, the holding connecting rod 35 located inside the driving box 2 is sleeved with oblique tapered teeth 32, and the oblique tapered teeth 32 are meshed with the bevel gear 33.

The rocker 26 and the end seat 31 are also provided with a fixing plate 40 in front, the inner driving rod 36 penetrates through the fixing plate 40, the fixing plate 40 and the end seat 31 are both fixed with the chassis, the inner driving rod 36 and the fixing plate 40 can penetrate in a non-contact manner or are connected through a sleeve bearing, the inner driving rod 36 and the end seat 31 are embedded in the end seat 31 through a bearing to be connected, and the inner driving rod 36 can rotate.

In order to further improve the operation stability of the equipment and provide the locking function of the upper limit and the lower limit of the movement stroke, referring to fig. 4, a pressing block ii 42 is fixedly arranged at the tilted free end portion of the rocker 26, a pressing block i 41 is fixedly arranged on the fixing plate 40, the pressing block i 41 and the pressing block ii 42 are both located between the rocker 26 and the fixing plate 40, the rocker 26 is fixedly connected with the inner driving rod 36, the fixing plate 40 is fixedly connected with the end seat 31, the inner driving rod 36 is further sleeved with a snap spring 38, the lower end of the snap spring 38 is fixed with the fixing block 28, the upper end of the snap spring hooks the pressing block ii 42, when the roller iii 25 moves downwards, the rocker 26 is driven to rotate around the inner driving rod 36, the lower end of the snap spring 38 does not move, the upper end drives the pressing block ii 42 to move towards the pressing block i 41, when the pressing block ii 42 is in pressing contact with the pressing block i 41, the locking is formed, the displacement limit is reached, and when the roller iii 25 moves upwards, the upper end of the snap spring 38 drives the pressing block ii 42 to move away from the pressing block i 41, and the pressing block ii pulls the pressing block 42, so as to play a limit function of limiting the stroke.

Specifically describing the 2 cam grooves in the patent, the cylindrical cam groove 13 is spirally wound from the position of the cylindrical surface close to one end as a starting point to the other end, and then is spirally wound back to the starting point to form a closed channel; the cylindrical cam groove 13 rotates for half a cycle, the push plate 1 advances to the maximum stroke from the original position, and then the rotation is continued for half a cycle, and the push plate 1 resets in the original way.

Half of the plane cam groove 10 is semicircular, and the other half is semicircular ellipse formed by cutting along the major diameter or the minor diameter, and the semicircular ellipse are penetrated to form a closed channel. The plane cam groove 10 rotates for a half circle, the inner driving rod and the outer sleeve synchronously move forwards to the farthest stroke, at the moment, the roller I15 moves in the semicircular groove channel, the height position is unchanged, the rotation for the half circle is continued, the roller I15 moves in the semi-elliptic groove channel, the pull rod 5 moves up and down, the roller III 25 is driven to synchronously move up and down, the wane 26 is connected with the roller III 25 to press down or lift up, the inner driving rod 36 rotates, the bevel gear 33 is driven to rotate, the bevel gear 32 is driven to rotate in a meshing manner, the locking connecting rod 35 rotates, and the push plate 1 is synchronously driven to rotate.

The upper end of pull rod 5 is passed through connector 4 fixed mounting at passive subassembly 3's middle part, and connector 4 middle part is seted up the same breach of passive subassembly 3 passageway, link up around the passageway of passive subassembly 3 of being convenient for, do not influence the removal of gyro wheel III 25.

Here, the push plate 1 can be designed to be turned toward the inner drive rod or in the opposite direction, and only the corresponding trajectory of the planar cam groove 10 and the inclined tapered teeth 32 need to be selected.

The embodiment of the connecting rod assembly is provided below, and comprises a connecting rod I6, a connecting rod II 7, a connecting rod III 8 and a connecting rod IV 20 which are connected in sequence, wherein one end of the connecting rod I6 is connected with one end of a connecting shaft 30, the other end of the connecting shaft transversely penetrates through a fixed block 28 and is provided with a roller IV 29, and the roller IV 29 is arranged in a sliding chute of a horizontal sliding chute plate 27; and a roller II 20 is arranged at the tail end of the connecting rod IV 20, and the roller II 20 is arranged in the cylindrical cam groove 13. According to the space of an installation site, the outer diameter of the cylindrical cam groove 13 and the displacement distance of the push plate 1, turning connection is designed comprehensively, and linkage control of the cylindrical cam and the roller IV 29 is achieved.

A guide rod 37 is arranged in parallel beside the outer sleeve 22, the guide rod 37 penetrates through the fixing block 28, and the end part of the guide rod 37 is fixed with the end seat 31. Ensuring linear movement of the anchor block 28 and the outer sleeve 22, providing horizontal support.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a flat push mechanism of continuous feed which characterized in that: the device comprises a push plate (1), a push plate horizontal pushing mechanism and a push plate turnover mechanism, wherein the push plate horizontal pushing mechanism is connected with a cylindrical cam (12), the push plate turnover mechanism is connected with a planar cam (11), the planar cam (11) is positioned on one end surface of the cylindrical cam (12), the centers of the planar cam (11) and the cylindrical cam (12) penetrate through a power rod (14), and the planar cam (11) and the cylindrical cam (12) are driven by the power rod (14) to synchronously rotate;

push pedal tilting mechanism includes internal drive pole (36), the one end of internal drive pole (36) is passed through drive case (2) and is connected push pedal (1), but the other end rotation interlude in end seat (31), and end seat (31) are fixed motionless, the one end that internal drive pole (36) inserted drive case (2) is provided with bevel gear (33), the face and internal drive pole (36) of push pedal (1) are perpendicular, run through drive case (2) and are provided with and hold connecting rod (35) tightly, push pedal (1) are on a parallel with hold connecting rod (35 tightly, hold the both ends that connecting rod (35) are located the drive case (2) outside and are fixed with push pedal (1) respectively, are located the inside holding connecting rod (35) cover of drive case (2) and are equipped with oblique awl tooth (32), oblique awl tooth (32) and bevel gear (33) meshing.

2. The continuous feed flat push mechanism of claim 1, wherein: the push pedal horizontal pushing mechanism comprises an outer sleeve (22), a fixing block (28) and a pull rod assembly, the fixing block (28) is fixed at one end of the outer sleeve (22) far away from the push pedal (1), the fixing block (28) is connected to a cylindrical cam (12) through a connecting rod assembly, a cylindrical cam groove (13) is formed in the surface of the cylindrical cam (12), a roller II (19) is arranged in the cylindrical cam groove, the roller II (19) is rotatably connected with one end of the connecting rod assembly, and when the cylindrical cam (12) rotates, the pull rod assembly drives the outer sleeve (22) to translate.

3. The continuous feed flat push mechanism of claim 2, wherein: the push plate turnover mechanism further comprises a warping plate (26), a pull rod (5) and a driven rod assembly (3), the inner driving rod (36) can be freely and circularly rotatably inserted in the outer sleeve (22), two ends of the inner driving rod (36) extend out of corresponding ends of the outer sleeve (22), and the driven rod assembly (3) is parallelly located beside the outer sleeve (22);

the rocker (26) is V-shaped, one end of the internal driving rod (36) close to the end seat (31) penetrates through the corner part of the rocker (26), one end of the rocker (26) is provided with a roller III (25), the roller III (25) is arranged in a slide way of the driven rod assembly (3),

the one end of passive pole subassembly (3) and swing arm (16) is connected in pull rod (5), and swing arm (16) middle part is the strong point, and the other end is provided with gyro wheel I (15), among the plane cam groove of arranging in planar cam (11) that gyro wheel I (15) can freely slide, when planar cam (11) are rotatory, drive passive pole subassembly (3) through swing arm (16) and pull rod (5) and produce displacement from top to bottom, displacement from top to bottom is produced in step to the one end of gyro wheel III (25) and wane (26), and then interior driving lever (36) are rotatory, through upset of drive case (2) drive push pedal (1).

4. The continuous feed flat push mechanism of claim 3, wherein: driven pole subassembly (3) are close to the one end of end socket (31) and are provided with vertical chute board (39), and this end of driven pole subassembly (3) can remove in the vertical slide of vertical chute board (39), and the one end that is close to push pedal (1) of driven pole subassembly (3) is provided with pivot (24), driven pole subassembly (3) can use pivot (24) to rotate as the center, when pull rod (5) are drawing driven pole subassembly (3) and are reciprocating, and driven pole subassembly (3) use pivot (24) to rotate as the center, and the one end that is close to end socket (31) slides from top to bottom in vertical chute board (39).

5. The continuous feed flat push mechanism of claim 4, wherein: the driven rod assembly (3) comprises two parallel driven rods (302), a distance is reserved between the two driven rods (302), a moving channel of the roller III (25) is formed, positioning rods (301) are respectively arranged at positions close to two ends between the driven rods (302), a connecting plate (303) is further arranged at one end close to the rotating shaft (24), and the rotating shaft (24) penetrates through the connecting plate (303).

6. The continuous feed flat push mechanism of claim 3, wherein: a fixing plate (40) is arranged in front of the rocker (26) and the end seat (31), the inner driving rod (36) penetrates through the fixing plate (40),

the free end portion of wane (26) perk is fixed and is provided with abutting block II (42), fixed plate (40) is fixed and is provided with abutting block I (41), abutting block I (41) and abutting block II (42) all lie in wane (26) and fixed plate (40), wane (26) and inner driving rod (36) fixed connection, fixed plate (40) and end seat (31) fixed connection, inner driving rod (36) still overlap and are equipped with jump ring (38), jump ring (38) lower extreme and fixed block (28) are fixed, abutting block II (42) is hooked to the upper end, when gyro wheel III (25) move down, drive wane (26) and inner driving rod (36) are rotatory as the center, jump ring (38) lower extreme motionless, the upper end takes abutting block II (42) to move towards abutting block I (41), when abutting block II (42) and abutting block I (41) contact, form the lock, reach the displacement limit, when gyro wheel (25) move up, jump ring II (38) take upper end II (42) to move towards abutting block I (41), abutting block II (41) moves, and moving block II (38) is kept away from the spacing effect.

7. The continuous feed flat push mechanism of claim 2, wherein: and the cylindrical cam groove (13) is spirally wound for half a turn from the position of the cylindrical surface close to one end to the other end, and then is spirally wound back to the starting point to form a closed channel.

8. The continuous feed flat push mechanism of claim 3, wherein: one half of the plane cam groove (10) is semicircular, the other half of the plane cam groove is semicircular oval formed by cutting along the major diameter or the minor diameter, and the semicircular oval are communicated to form a closed channel.

9. The continuous feed flat push mechanism of claim 2, wherein: the connecting rod assembly comprises a connecting rod I (6), a connecting rod II (7), a connecting rod III (8) and a connecting rod IV (20) which are sequentially connected, one end of the connecting rod I (6) is connected with one end of a connecting shaft (30), the other end of the connecting shaft transversely penetrates through a fixed block (28) and is provided with a roller IV (29), and the roller IV (29) is arranged in a sliding groove of a horizontal sliding chute plate (27);

and the tail end of the connecting rod IV (20) is provided with a roller III (25), and the roller III (25) is arranged in the cylindrical cam groove (13).

10. The continuous feed flat push mechanism of claim 4, wherein: and a guide rod (37) is arranged beside the outer sleeve (22) in parallel, the guide rod (37) penetrates through the fixing block (28), and the end part of the guide rod (37) is fixed with the end seat (31).

Images