CN204160813U - The semi-automatic carton nailing machine of full machinery - Google Patents

Abstract

The utility model provides a kind of complete mechanical semi-automatic carton nailing machine, comprise frame, crimp head, crimp head drive part, carton board drive part and charging lifting platform part, wherein carton board drive part adopts chain-driving carton board to transmit, and the gutter pos of carton board is controlled by the transmission of mechanical stepper control chain, by mechanical counter engagement clutch, crimp head is controlled, do not need to be equipped with air compressor machine, do not need to adopt expensive servomotor and control system thereof, its manufacturing cost is only equivalent to 1/4th of conventional nailing machine, and owing to adopting full Mechanical course, the software program relying on PLC or industrial computer is not needed to control, this nailing machine can be adapted to various severe working environment, complete machine controlling run is steady, reliability is high, failure rate is low.

Description

The semi-automatic carton nailing machine of full machinery

Technical field

The utility model relates to a kind of carton nailing machine, and especially a kind of complete mechanical semi-automatic carton nailing machine, belongs to carton packaging machinery technical field.

Background technology

Carton nailing machine is used for carrying out bookbinding operation to the carton board cut, make the important rear road process equipment of carton, it is mainly divided into manual, semi-automatic and full-automatic three classes, wherein manual carton nailing machine due to nailing efficiency lower, labor strength is large, gradually by semi-automatic and full-automatic paper box nailing machine replace.The carton board transmission mechanism of current semi-automatic and full-automatic paper box nailing machine on the market generally all adopts running roller to coordinate the form of belt, transmitted by the cardboard relatively rotated being clamped between running roller of running roller, and by servomotor, stepper drive is carried out to running roller, thus reach the object controlling carton board nailing position and nailing pitch of nails, but because servomotor is expensive, also need to be equipped with PLC or industrial computer carries out Collaborative Control by corresponding software program to the running of servomotor and nailing quantity, cause price that is semi-automatic and full-automatic paper box nailing machine general higher, and need depended software program due to its control system, when the environment of plant is severe, control stability is poor, fault rate is also higher.

Utility model content

In order to solve the problem, the utility model provides a kind of complete mechanical semi-automatic carton nailing machine, this nailing machine adopts chain-driving carton to transmit, and the transmission location of carton is controlled by the transmission of mechanical stepper control chain, by mechanical counter engagement clutch, crimp head is controlled, do not need to adopt servomotor and control system thereof, can be greatly cost-saving, and owing to adopting full Mechanical course, this nailing machine operates steadily, and effectively reduces fault rate.

The concrete technical scheme that the utility model is taked is as follows:

A kind of complete mechanical semi-automatic carton nailing machine, is characterized in that: comprise frame, crimp head, crimp head drive part, carton board drive part and charging lifting platform part, wherein:

The oblique position being arranged on frame front center of crimp head, crimp head drive part is arranged in the control cabinet on the left of frame front end, crimp head drive part is provided with drive motors, rotated by belt drives belt wheel and belt shaft by drive motors, belt shaft is connected with main shaft by a clutch, clutch is manipulated by electromagnet, and simultaneously by the control of a mechanical counter, the other end of main shaft forms oblique angle by a differential mechanism and the driving shaft of crimp head and is connected.

Carton board drive part to be arranged in frame and longitudinally arrangement before and after frame, carton board drive part is provided with adjustable speed motor, rotated by the large belt wheel of belt drives and large belt shaft by adjustable speed motor, large belt shaft is also installed with the first sprocket wheel and the second sprocket wheel, wherein the first sprocket wheel is connected with the input sprocket on mechanical stepper power shaft by the first chain, output chain gear on machinery stepper output shaft is connected with the first intermediate chain wheel by the second chain, be connected with the 3rd sprocket wheel by the 3rd chain again with the second intermediate chain wheel of the first intermediate chain wheel coaxial rotation, by the front axis of the 3rd chain wheel drive frame front, the middle part of front axle is provided with two front sprocket wheels, the rear axle at frame rear portion is provided with two corresponding rear sprocket wheels, front sprocket wheel and rear sprocket wheel are connected respectively by two parallel carton board chain drive-belts, the same position of two carton board chain drive-belt outers is also equipped with several right angle push pedals with chain operation respectively, coordinate carton board chain drive-belt to position carton board by right angle push pedal and drive, the second sprocket wheel on large belt shaft is connected with first transition sprocket wheel by the 4th chain, to be connected with the left sprocket wheel of front lower roll wheel by the 5th chain with the first little transition sprocket wheel of first transition sprocket coaxiality and lower roll wheel rotates before driving, the right sprocket wheel of front lower roll wheel is connected with the right sprocket wheel of rear lower roll wheel by the 6th chain, make front and back lower roll wheel synchronous axial system, front and back lower roll wheel is supported in frame by bearing block, the outside of the first chain is also engaged with second largest transition sprocket wheel, be connected with upper roll wheel driving shaft left end sprocket wheel by the 7th chain with the second little transition sprocket wheel of second largest transition sprocket coaxiality, upper roll wheel driving shaft extends central rack, upper roll wheel driving shaft right-hand member sprocket wheel is connected with front and back upper roll wheel sprocket wheel by the 8th chain simultaneously, and the synchronous front and back upper roll wheel that drives rotates, front and back upper roll wheel is supported on the rear end of a bar shaped bearing, the front end of bar shaped bearing is hinged in frame, the side, middle part of bar shaped bearing is provided with the adjustment hand handle of band screw rod, the screw rod end of hand handle is regulated to be against in frame, thus the support formed bar shaped bearing, rotate and regulate hand the gap between adjustable upper roll wheel and lower roll wheel.

Described mechanical stepper adopts friction clutch to carry out step motion control, crimp head drive shaft above machinery stepper is fixedly connected with an eccentric sector, sector side-lower is provided with movable fork, when sector is with main axis, its flabellum part protruded can drive movable fork to deflect certain angle, the clutch controlling friction clutch in mechanical stepper is stretched in the lower end of movable fork, and the stepping realization of the rotation of crimp head drive shaft and mechanical stepper is linked.

Charging lifting platform part is arranged on the rear end of frame, frame is provided with carton board delivery chute, the right-angle side groove be oppositely arranged by both sides and the clip slot at middle part form, the front end of carton board delivery chute is provided with travel switch assembly, and travel switch assembly comprises rotating crotch, movable cam and travel switch, movable cam is movably connected in crotch upper end, when crotch rotates forward, movable cam can trigger travel switch, and the circuit of travel switch is connected with the electromagnet of crimp head drive part.

Described charging lifting platform part is provided with lifting motor, and drive reductor by lifting motor, reductor drives elevating chain by central links, drives lifting platform oscilaltion by elevating chain;

Described travel switch assembly is movable by sliding in frame, and the position slided in frame is regulated by a screw mandrel and screw-operated hand handle.

The rotatable crotch of described travel switch assembly is provided with balancing weight, makes crotch can self-return under gravity, and the movable cam upper end on crotch can rotation backward, and rotation is limited forward.

The right-angle side groove on described carton board delivery chute both sides is also movably hinged with the edge of edge-pressing strip to carton board flatten.

Described frame is also provided with tensioning shaft and tensioning is carried out to two parallel carton board chain drive-belts.

Compare with common semi-automatic full-automatic paper box nailing machine, advantage of the present utility model is:

This complete mechanical semi-automatic carton nailing machine adopts chain-driving propelling movement carton board to transmit, and the gutter pos of carton board is controlled by the transmission of mechanical stepper control chain, by mechanical counter engagement clutch, crimp head is controlled, do not need to be equipped with air compressor machine, do not need to adopt expensive servomotor and control system thereof, its manufacturing cost is only equivalent to 1/4th of conventional nailing machine, and owing to adopting full Mechanical course, the software program relying on PLC or industrial computer is not needed to control, this nailing machine can be adapted to various severe working environment, complete machine controlling run is steady, reliability is high, failure rate is low.

Accompanying drawing explanation

Fig. 1 is the front view of this complete mechanical semi-automatic carton nailing machine.

Fig. 2 is the left view of this complete mechanical semi-automatic carton nailing machine.

Fig. 3 is the top view of this complete mechanical semi-automatic carton nailing machine.

Fig. 4 is the stereogram of this complete mechanical semi-automatic carton nailing machine.

Fig. 5 is the A partial enlarged drawing of Fig. 4.

Fig. 6 is the stereogram that Fig. 4 rotates to another angle.

Fig. 7 is the stereogram that Fig. 4 rotates to another angle.

Fig. 8 is that Fig. 2 removes switch board cabinet view behind the door.

Fig. 9 is each chain annexation schematic diagram of carton board drive part.

Figure 10 is the link gear schematic diagram of main shaft and mechanical stepper.

In figure: 1-frame, 2-crimp head, 3-control cabinet, 4-drive motors, 5-belt wheel, 6-belt shaft, 7-clutch, 8-mechanical counter, 9-main shaft, 10-differential mechanism, 11-adjustable speed motor, the large belt wheel of 12-, the large belt shaft of 13-, 14-first sprocket wheel, 15-second sprocket wheel, 16-first chain, 17-machinery stepper, 18-input sprocket, 19-output chain gear, 20-second chain, 21-first intermediate chain wheel, 22-second intermediate chain wheel, 23-the 3rd chain, 24-the 3rd sprocket wheel, 25-front axle, sprocket wheel before 26-, sprocket wheel before 27-, sprocket wheel after 28-, sprocket wheel after 29-, 30-chain drive-belt, 31-chain drive-belt, the push pedal of 32-right angle, 33-the 4th chain, the first transition sprocket wheel of 34-, the little transition sprocket wheel of 35-first, 36-the 5th chain, the left sprocket wheel of lower roll wheel before 37-, the right sprocket wheel of lower roll wheel before 38-, 39-the 6th chain, the right sprocket wheel of lower roll wheel after 40-, the second largest transition sprocket wheel of 41-, the little transition sprocket wheel of 42-second, 43-the 7th chain, 44-upper roll wheel driving shaft left end sprocket wheel, 45-upper roll wheel driving shaft, 46-upper roll wheel driving shaft right-hand member sprocket wheel, 47-the 8th chain, upper roll wheel sprocket wheel before 48-, upper roll wheel sprocket wheel after 49-, 50-rear axle, 51-electromagnet, 52-bar shaped bearing, 53-regulates handle, 54-lifting motor, 55-reductor, 56-central links, 57-elevating chain, 58-lifting platform, 59-right-angle side groove, 60-clip slot, 61-sliding sleeve, 62-crotch, 63-movable cam, 64-travel switch, 65-screw mandrel, 66-screw-operated hand handle, 67-balancing weight, 68-edge-pressing strip, 69-tensioning shaft, 70-mechanical counter operator handle, lower roll wheel before 71-, lower roll wheel after 72-, upper roll wheel before 73-, upper roll wheel after 74-, 75-sector, the movable fork of 76-.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

As shown in figs 1-9, a kind of complete mechanical semi-automatic carton nailing machine, is characterized in that: comprise frame 1, crimp head 2, crimp head drive part, carton board drive part and charging lifting platform part.

The oblique position being arranged on frame 1 front center of crimp head 2, crimp head drive part is arranged in the control cabinet 3 on the left of frame 1 front end, crimp head drive part is provided with drive motors 4, rotated by belt drives belt wheel 5 and belt shaft 6 by drive motors 4, belt shaft 6 is connected with main shaft 9 by a clutch 7, clutch 7 is manipulated by electromagnet 51, and simultaneously by the control of a mechanical counter 8, the other end of main shaft 9 forms oblique angle by a differential mechanism 10 and the driving shaft of crimp head 2 and is connected.

Carton board drive part to be arranged in frame 1 and longitudinally arrangement before and after frame 1, carton board drive part is provided with adjustable speed motor 11, rotated by the large belt wheel of belt drives 12 and large belt shaft 13 by adjustable speed motor 11, large belt shaft 13 is also installed with the first sprocket wheel 14 and the second sprocket wheel 15, wherein the first sprocket wheel 14 is connected with the input sprocket 18 on mechanical stepper 17 power shaft by the first chain 16, output chain gear 19 on machinery stepper 17 output shaft is connected with the first intermediate chain wheel 21 by the second chain 20, be connected with the 3rd sprocket wheel 24 by the 3rd chain 23 again with the second intermediate chain wheel 22 of the first intermediate chain wheel 21 coaxial rotation, rotated by the front axle 25 of the 3rd sprocket wheel 24 drive chassis 1 front portion, the middle part of front axle 25 is provided with two front sprocket wheels 26, 27, the rear axle 50 at frame 1 rear portion is provided with two corresponding rear sprocket wheels 28, 29, front sprocket wheel 26, 27 and rear sprocket wheel 28, 29 respectively by two parallel carton board chain drive-belts 30, 31 are connected, frame 1 is also provided with tensioning shaft 69 to two carton board chain drive-belts 30, 31 carry out tensioning, two carton board chain drive-belts 30, the same position of 31 outers is also equipped with several right angle push pedals 32 with chain operation respectively, carton board chain drive-belt 30 is coordinated by right angle push pedal 32, 31 pairs of carton board position and drive, the second sprocket wheel 15 on large belt shaft 13 is connected with first transition sprocket wheel 34 by the 4th chain 33, to be connected by the left sprocket wheel 37 of the 5th chain 36 and front lower roll wheel with coaxial the first little transition sprocket wheel 35 of first transition sprocket wheel 34 and lower roll wheel 71 rotates before driving, the right sprocket wheel of front lower roll wheel 38 is connected by the right sprocket wheel 40 of the 6th chain 39 and rear lower roll wheel, make front and back lower roll wheel 71,72 synchronous axial system, front and back lower roll wheel 71,72 is supported in frame 1 by bearing block, the outside of the first chain 16 is also engaged with second largest transition sprocket wheel 41, the second little transition sprocket wheel 42 coaxial with second largest transition sprocket wheel 41 is connected with upper roll wheel driving shaft left end sprocket wheel 44 by the 7th chain 43, upper roll wheel driving shaft 45 extends in the middle part of frame 1, upper roll wheel driving shaft right-hand member sprocket wheel 46 is connected with front and back upper roll wheel sprocket wheel 48,49 by the 8th chain 47 simultaneously, and the synchronous front and back upper roll wheel 73,74 that drives rotates, front and back upper roll wheel 73,74 is supported on the rear end of a bar shaped bearing 52, the front end of bar shaped bearing 52 is hinged in frame 1, the side, middle part of bar shaped bearing 52 is provided with the adjustment hand of band screw rod 53, regulate hand that the screw rod end of 53 is against in frame 1, thus the support formed bar shaped bearing 52, rotate and regulate hand the gap between 53 adjustable upper roll wheels 73,74 and lower roll wheel 71,72.

Described mechanical stepper 17 adopts friction clutch to carry out step motion control, crimp head drive shaft 9 above machinery stepper 17 is fixedly connected with an eccentric sector 75, sector 75 side-lower is provided with movable fork 76, when sector 75 is rotated with main shaft 9, its flabellum part protruded can drive movable fork 76 to deflect certain angle, the clutch controlling friction clutch in mechanical stepper 17 is stretched in the lower end of movable fork 76, as shown in Figure 10.When main shaft 9 drive crimp head 2 carry out downwards beat order action while, movable fork 76 can be driven to deflect with the flabellum part of the sector 75 of main shaft 9 synchronous axial system, thus the friction clutch handled in mechanical stepper 17 is separated, machinery stepper 17 power shaft is separated with the transmission between output shaft, output chain gear 19 on output shaft stops operating, carton board stops advancing, after beating conclude or make bundle, main shaft 9 drives crimp head 2 upwards return, the flabellum part of sector 75 is followed and is upwards turned, movable fork 76 return, friction clutch in machinery stepper 17 recovers to combine, carton board is recovered to advance, the stepping realization of the rotation of crimp head drive shaft 9 and mechanical stepper 17 so just can be made to link, ensure that carton is static when nailing.Change the flabellum subtended angle of sector 75, the time of movable fork 76 deflection can also be controlled, thus the time that the stopping that can controlling carton board is advanced.

Charging lifting platform part is arranged on the rear end of frame 1, and charging lifting platform part is provided with lifting motor 54, drives reductor 55 by lifting motor 54, and reductor 55 drives elevating chain 57 by central links 56, drives lifting platform 58 oscilaltion by elevating chain 57.

Frame 1 is provided with carton board delivery chute, and the right-angle side groove 59 be oppositely arranged by both sides and the clip slot 60 at middle part form, and edge right-angle side groove 59 being also movably hinged with edge-pressing strip 68 pairs of carton board flattens, and prevents the edge of carton board from tilting impact conveying.The front end of carton board delivery chute is provided with travel switch assembly, travel switch assembly comprises rotating crotch 62, movable cam 63 and travel switch 64, movable cam 63 is movably connected in crotch 62 upper end, when crotch 62 rotates forward, movable cam 63 can trigger travel switch 64, and the circuit of travel switch 64 is connected with the electromagnet 51 of crimp head drive part.Travel switch assembly is movable in frame 1 by sliding sleeve 61, and the position of sliding sleeve 61 in frame 1 is regulated 66 by a screw mandrel 65 and screw-operated hand.The rotatable crotch 62 of travel switch assembly is provided with balancing weight 67, makes crotch 62 can self-return under gravity, and movable cam 63 upper end on crotch 62 can rotation backward, but rotation is then limited forward.When crotch 62 rotates forward, movable cam 63 upper end swings touching travel switch 64 backward, because of its limited can not rotation forward, thus trigger travel switch 64, when crotch 62 rotates backward return, movable cam 63 upper end forward rocking motion touching travel switch 64, because of its backward rotation by spacing, movable cam 63 upper end can rotate backward, thus does not trigger travel switch 64.

The workflow using this complete mechanical semi-automatic carton nailing machine to carry out binding is as follows:

1), the quantity of nailing is needed to insert position, corresponding hole 70 by each carton board the operator of mechanical counter 8.

2), will the carton board of bookbinding be needed to be placed on charging lifting platform 58, adjustment charging lifting platform 58, to suitable height, then takes out from lifting platform 58 the carton board delivery chute that a carton board puts into frame rear end.

3), under the driving of upper and lower running roller 73,74,71,72, carton board is transported to the top of two parallel carton board chain drive-belts 30,31 and waits for, when the right angle push pedal 32 on carton board chain drive-belt 30,31 march to carton board rear along time, just can promote carton board and be fed forward in carton board delivery chute with carton board chain drive-belt 30,31.

4), when carton board marches to corresponding position with chain drive-belt 30,31, the crotch 62 that the forward position of carton board can promote on travel switch assembly rotates forward, thus trigger travel switch 64, closed by travel switch 64 solenoidoperated cluthes 7, mechanical counter 8 starts counting, crimp head 2 starts to carry out nailing work, mechanical stepper 17 also coordinates the nailing of crimp head 2 to carry out step-by-step movement driving simultaneously, when needs adjustment pitch of nails, can by adjusting the speed of adjustable speed motor 11 thus the actuating speed changing mechanical stepper 17 realizes.

5) after, mechanical counter 8 has counted, can solenoidoperated cluthes 7 dropout unclamp, thus crimp head 2 stops spiking action, stapled carton board is sent from frame 1 front end, the crotch 62 of travel switch assembly rotates backward return, thus completes the bookbinding operation of a carton board.

Claims (6)

1. a complete mechanical semi-automatic carton nailing machine, is characterized in that: comprise frame (1), crimp head (2), crimp head drive part, carton board drive part and charging lifting platform part, wherein:

The oblique position being arranged on frame (1) front center of crimp head (2), crimp head drive part is arranged in the control cabinet (3) on the left of frame (1) front end, crimp head drive part is provided with drive motors (4), rotated by belt drives belt wheel (5) and belt shaft (6) by drive motors (4), belt shaft (6) is connected with main shaft (9) by a clutch (7), clutch (7) is manipulated by electromagnet (51), and simultaneously by the control of a mechanical counter (8), the other end of main shaft (9) forms oblique angle by a differential mechanism (10) with the driving shaft of crimp head (2) and is connected,

The frame (1) that is arranged on carton board drive part goes up and longitudinally arrangement before and after frame (1), carton board drive part is provided with adjustable speed motor (11), rotated by the large belt wheel of belt drives (12) and large belt shaft (13) by adjustable speed motor (11), large belt shaft (13) is also installed with the first sprocket wheel (14) and the second sprocket wheel (15), wherein the first sprocket wheel (14) is connected with the input sprocket (18) on mechanical stepper (17) power shaft by the first chain (16), output chain gear (19) on machinery stepper (17) output shaft is connected with the first intermediate chain wheel (21) by the second chain (20), be connected with the 3rd sprocket wheel (24) by the 3rd chain (23) again with second intermediate chain wheel (22) of the first intermediate chain wheel (21) coaxial rotation, the front axle (25) anterior by the 3rd sprocket wheel (24) drive chassis (1) rotates, the middle part of front axle (25) is provided with two front sprocket wheels (26, 27), the rear axle (50) at frame (1) rear portion is provided with two corresponding rear sprocket wheels (28, 29), front sprocket wheel (26, 27) and rear sprocket wheel (28, 29) respectively by two parallel carton board chain drive-belts (30, 31) be connected, two carton board chain drive-belts (30, 31) same position of outer is also equipped with several right angle push pedals (32) with chain operation respectively, carton board chain drive-belt (30 is coordinated by right angle push pedal (32), 31) carton board positioned and drive, the second sprocket wheel (15) on large belt shaft (13) is connected with first transition sprocket wheel (34) by the 4th chain (33), to be connected with the left sprocket wheel of front lower roll wheel (37) by the 5th chain (36) with coaxial the first little transition sprocket wheel (35) of first transition sprocket wheel (34) and lower roll wheel (71) rotates before driving, the right sprocket wheel of front lower roll wheel (38) is connected with the right sprocket wheel of rear lower roll wheel (40) by the 6th chain (39), make front and back lower roll wheel (71,72) synchronous axial system, front and back lower roll wheel (71,72) is supported in frame (1) by bearing block, the outside of the first chain (16) is also engaged with second largest transition sprocket wheel (41), the second little transition sprocket wheel (42) coaxial with second largest transition sprocket wheel (41) is connected with upper roll wheel driving shaft left end sprocket wheel (44) by the 7th chain (43), upper roll wheel driving shaft (45) extends frame (1) middle part, upper roll wheel driving shaft right-hand member sprocket wheel (46) is connected with front and back upper roll wheel sprocket wheel (48,49) by the 8th chain (47) simultaneously, and synchronous front and back upper roll wheel (73,74) that drive are rotated, front and back upper roll wheel (73,74) are supported on the rear end of a bar shaped bearing (52), the front end of bar shaped bearing (52) is hinged in frame (1), the side, middle part of bar shaped bearing (52) is provided with the adjustment hand of band screw rod (53), regulate hand that the screw rod end of (53) is against in frame (1), thus the support formed bar shaped bearing (52), rotate and regulate hand the gap between adjustable to (53) upper roll wheel (73,74) and lower roll wheel (71,72),

Described mechanical stepper (17) adopts friction clutch to carry out step motion control, the crimp head drive shaft (9) of machinery stepper (17) top is fixedly connected with an eccentric sector (75), sector (75) side-lower is provided with movable fork (76), when sector (75) is rotated with main shaft (9), its flabellum part protruded can drive movable fork (76) to deflect certain angle, the clutch controlling friction clutch in mechanical stepper (17) is stretched in the lower end of movable fork (76), make the rotation of crimp head drive shaft (9) and the stepping realization interlock of mechanical stepper (17),

Charging lifting platform part is arranged on the rear end of frame (1), frame (1) is provided with carton board delivery chute, the right-angle side groove (59) be oppositely arranged by both sides and the clip slot (60) at middle part form, the front end of carton board delivery chute is provided with travel switch assembly, travel switch assembly comprises rotating crotch (62), movable cam (63) and travel switch (64), movable cam (63) is movably connected in crotch (62) upper end, when crotch (62) rotates forward, movable cam (63) can trigger travel switch (64), the circuit of travel switch (64) is connected with the electromagnet (51) of crimp head drive part.

2. the semi-automatic carton nailing machine of full machinery according to claim 1, it is characterized in that: described charging lifting platform part is provided with lifting motor (54), reductor (55) is driven by lifting motor (54), reductor (55) drives elevating chain (57) by central links (56), drives lifting platform (58) oscilaltion by elevating chain (57).

3. the semi-automatic carton nailing machine of full machinery according to claim 1, it is characterized in that: described travel switch assembly is upper movable in frame (1) by sliding sleeve (61), the position of sliding sleeve (61) in frame (1) is regulated (66) by a screw mandrel (65) and screw-operated hand.

4. the semi-automatic carton nailing machine of full machinery according to claim 1, it is characterized in that: the rotatable crotch (62) of described travel switch assembly is provided with balancing weight (67), make crotch (62) can self-return under gravity, movable cam (63) upper end on crotch (62) can rotation backward, and rotation is limited forward.

5. the semi-automatic carton nailing machine of full machinery according to claim 1, is characterized in that: the right-angle side groove (59) on described carton board delivery chute both sides is also movably hinged with edge-pressing strip (68) edge to carton board and flattens.

6. the semi-automatic carton nailing machine of full machinery according to claim 1, is characterized in that: described frame (1) is also provided with tensioning shaft (69) and carries out tensioning to two parallel carton board chain drive-belts (30,31).