CN104192598A - Paperboard conveying mechanism of carton non-woven fabric hand strap forming machine - Google Patents

Abstract

The invention belongs to mechanical equipment components for making cartons, and discloses a paperboard conveying mechanism of a carton non-woven fabric hand strap forming machine. The paperboard conveying mechanism comprises a paperboard suction and feeding device, a paperboard receiving and feeding device, a paperboard adsorption device and a complete machine electrical control box with a single board machine. The paperboard suction and feeding device comprises baffles, paper output tools, vertical adjusting handles of the paper output tools, an upper supporting rod, a lower supporting rod, paper output sliding blocks, adjusting lead screws, paper conveying belts, a paper conveying roller, a pull shaft roller, a paper conveying motor and a pull shaft. The paperboard receiving and feeding device comprises a main motor, a main shaft, a driving paper output shaft, a pressing wheel, driving paper output wheels, driven paper output wheels and a driven paper output shaft. The paper adsorption device comprises a high-pressure air blower, an air exchange barrel, an air storage box, air suction boxes and small air suction holes in the paper conveying belts. Through the tryout, stacked paperboards at an initial inlet of a main engine can be conveyed to the next process ceaselessly, and necessary conditions are created for automatic and continuous production of the carton non-woven fabric hand strap forming machine.

Description

The paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine

Technical field: the present invention relates to a kind of mechanical equipment parts of making carboard, particularly a kind of paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine.

Background technology: the various dairy products hand baggage cartonings of prior art and various beverage hand baggage cartoning are of a great variety, and most of on portable carton what use is all formed in mould plastics hand-strap, first this plastics hand-strap is manually-operated mould of plastics moulding in self-formed shaping production process, secondly on the ground paper that is installed on dairy products hand baggage cartoning and various beverage hand baggage cartonings time, can only be completed by personnel's manual operations, not only recruitment cost is high, and inefficiency.For the defect of the plastics hand-strap of prior art, environmental-protecting material, intensity is high, the nonwoven fabrics hand-strap of good hand touch becomes the good selection of substituted for plastic hand-strap.But simultaneously also bring the problem on the ground paper that how nonwoven fabrics hand-strap is installed on to dairy products hand baggage cartoning and various beverage hand baggage cartonings.

As can be seen here, study and design that a kind of to substitute the carton nonwoven fabrics hand-strap forming machine that artificial manual operations completes the continuous and automatic operation on the ground paper that nonwoven fabrics hand-strap is installed on dairy products Packaging Box and various beverage packaging cartons be necessary.For this reason, first need research and design a kind of by the stacked cardboard of the initial entrance of main frame through paperboard conveying mechanism, be continuously transported to next process, be carton nonwoven fabrics hand-strap forming machine automatic continuous production create necessary condition.

Summary of the invention: the defect and the deficiency that the object of the invention is to overcome prior art, studying and design a kind of paperboard conveying mechanism that the stacked cardboard of the initial entrance of main frame is continuously transported to next process, is that the automatic continuous production of carton nonwoven fabrics hand-strap forming machine is created necessary condition.

The object of the present invention is achieved like this: a kind of paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine, comprise frame, be positioned at the stacked cardboard for moulding carton of the initial end of frame, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device, cardboard is picked device, cardboard adsorption plant, is provided with the complete machine electric control box of single board computer (SBC).

Cardboard is inhaled and is sent device, described cardboard is inhaled 2 baffle plates that send device to comprise to be erected in stacked cardboard both sides, for vertically block 2 groups of paper delivery cuttves and the up-down adjustment handle thereof except bottom 1 more than cardboard stacked cardboard from front, two ends are fixed in frame, for supporting 2 baffle plates and 2 groups of paper delivery cuttves and up-down adjustment handle thereof, lower supporting rod, on described, lower supporting rod is through 2 baffle plates, be linked in 2 paper delivery slide blocks of paper delivery cutter and up-down adjustment handle thereof, described 2 paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in respectively 2 adjusting screw mandrels on 2 paper delivery slide blocks, on described, through cross-under actively, the 2 paper delivery slide blocks that are linked in paper delivery cutter and up-down adjustment handle thereof on it limit the position of paper delivery cutter and up-down adjustment handle thereof lower supporting rod, through nut transfer baffle plate slide block, paper delivery slide position and top are linked in 2 adjusting screw mandrels on paper delivery slide block, be positioned at 7 defeated leatheroid bands with air draught aperture below bottom 1 cardboard of stacked cardboard, defeated leatheroid band is socketed on delivery cylinder and coordinates and be socketed and tighten the pulling shaft cylinder that defeated leatheroid band is used with it, the defeated reel passing and be fixed on delivery cylinder center is integrated, be coupling in the defeated paper motor of defeated reel end, pass and be fixed on the pulling shaft of pulling shaft centre of the drum,

Cardboard is picked device, described cardboard is picked device and is comprised the main motor being fixed in frame, move the main shaft on main machine shaft through main belt duplicate invoice, move the paper delivery imput shaft in main shaft through synchronous belt duplicate invoice, synchronous belt pair disposes controls the pinch roller that belt tension is used, coordinate cardboard to inhale to be evenly equipped with between 6 adjacent gaps of 7 defeated leatheroid bands of sending device in paper delivery imput shaft 6 initiatively paper output wheels, with 6 initiatively paper output wheels be radially abutted against and dispose 6 passive paper output wheels, pass and be fixed on passive paper output wheel center passive go out reel; Between described 6 pairs of active and passive paper output wheels, be abutted against the plane at the place, gap of formation, the plane of inhaling the upper surface formation of 7 defeated leatheroid bands that send device with cardboard is same plane;

Cardboard adsorption plant, described cardboard adsorption plant comprises the high pressure blower being fixed in frame, be connected with high pressure blower inlet scoop through pipeline, axle core is semi-round ventilation cylinder, the semicircle oblique crank Z core of described ventilation cylinder moves in cardboard and picks the main shaft in device through ventilation belt duplicate invoice, be connected in the gas storage box of ventilation cylinder inlet end through pipeline, be connected in respectively 7 air draught boxes of gas storage box through being distributed on 7 pipelines on gas storage box, described 7 air draught boxes communicate correspondingly with the air draught aperture that cardboard is inhaled on 7 defeated leatheroid bands that send in device

Object of the present invention can also realize by following further technical measures:

Described cardboard is inhaled and is sent the two ends of the pulling shaft in device to dispose the belt regulating block for regulating 7 defeated leatheroid band level of tightness, and belt regulating block is fixed in frame.

The pinch roller that described cardboard is picked in device is linked with the briquetting that stage clip is pushed down, and briquetting is fixed in frame through minor axis.

Described cardboard is inhaled the defeated paper motor sending in device, and the main motor that cardboard is picked in device is all selected the servomotor with electric cam by module controls in industrial single board computer (SBC).

Described defeated paper motor, the main motor of paperboard conveying mechanism, high pressure blower are electrically connected in respectively the complete machine electric control box that is provided with industrial single board computer (SBC).

Dynamic use procedure of the present invention is described as follows:

1, the debugging before operation: cardboard is inhaled and sent the cutter of the paper delivery in device, use its up-down adjustment handle make by the lower edge of paper delivery cutter adjust to just leave absorption the distance of the defeated leatheroid band upper surface of next cardboard be a piece of paper plate thickness, after next cardboard is transferred away, bottom 1 more than cardboard stacked cardboard is blocked by 2 groups of paper delivery cuttves;

Regulate 2 adjusting screw mandrels, by being socketed in 2 baffle plate slide blocks on screw mandrel 2 baffle limitings to stacked cardboard both sides, adjusted and fixed with the position, left and right to baffle plate, through the paper delivery slide block that is socketed in screw mandrel top, the position, left and right of 2 groups of paper delivery cuttves and up-down adjustment handle thereof is adjusted and fixed simultaneously;

Regulate the belt regulating block for 7 defeated leatheroid band level of tightness, the spacing between pulling shaft and the defeated reel of 7 defeated leatheroid band other ends is adjusted, so that the delivery cylinder on pulling shaft cylinder and the defeated reel on it is tightened 7 defeated leatheroid bands;

Regulate the briquetting that has stage clip to push down on minor axis, together with the pinch roller on its top, the synchronous belt in synchronous belt pair is played to compression effect, prevent that it from shaking or jumping tooth because crossing pine, cause the rotation of paper delivery imput shaft asynchronous with the rotation of main shaft;

Regulate the velocity of rotation of main motor, defeated paper motor synchronous, so that the cardboard of defeated paper driven by motor is inhaled the rotation of sending 7 defeated leatheroid bands in device, with move through ventilation belt duplicate invoice on main motor-driven main shaft, axle core is the rotation synchronised of semi-round ventilation cylinder, hold bottom 1 cardboard of stacked cardboard and send into cardboard and pick in the half turn in gap of being abutted against formation between the active and passive paper output wheel of device at defeated leatheroid band, ventilation cylinder just rotates and communicates and produce strong negative-pressure in high pressure blower inlet scoop at air-flow; In back to back half turn, ventilation cylinder just rotates and ends in high pressure blower inlet scoop and do not produce negative pressure at air-flow, so that 7 defeated leatheroid bands are turned to original reference position;

Regulate the velocity of rotation of main motor, defeated paper motor synchronous, send device to have intermittence under coordinating with the cardboard adsorption plant in main driven by motor and hold continuously again and again stacked cardboard 1 cardboard in bottom and send into cardboard and pick the gap of being abutted against formation between the active and passive paper output wheel of device so that the cardboard of defeated paper driven by motor is inhaled, picking to next procedure by picking device.

2, operational process: simultaneously start main motor, defeated paper motor and high pressure blower, the cardboard of defeated paper driven by motor is inhaled the rotation of sending 7 defeated leatheroid bands in device, holding bottom 1 cardboard of stacked cardboard and sending into cardboard and pick the half cycle that is abutted against the gap of formation between the active and passive paper output wheel of device, main motor is accepted and is sent into stacked cardboard 1 cardboard in bottom in gap between active and passive paper output wheel and deliver to next procedure through the moving active and passive paper output wheel of 6 couple of synchronous belt subband; In 7 back to back half turn of defeated leatheroid band, ventilation cylinder just rotates and ends in high pressure blower inlet scoop and do not produce negative pressure at air-flow, so that 7 defeated leatheroid bands turn to original reference position; So go round and begin again, continuously one by one by bottom stacked cardboard 1 cardboard through the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine of the present invention in order and Shunda deliver to next procedure.

The paperboard conveying mechanism of the carton nonwoven fabrics hand-strap forming machine that the invention process obtains, through on probation, realize the stacked cardboard of the initial entrance of main frame, be continuously transported to next process, for the automatic continuous production of carton nonwoven fabrics hand-strap forming machine has been created necessary condition.

Brief description of the drawings: Fig. 1 is the structural representation that meets theme of the present invention; Fig. 2 is the rigging position schematic diagram of the present invention in carton nonwoven fabrics hand-strap forming machine complete machine structure.Number in the figure:

1, cardboard is inhaled and is sent device 2, cardboard to pick device; 3, cardboard adsorption plant; 218, complete machine electric control box;

11, baffle plate, 12, paper delivery cutter and up-down adjustment handle thereof, 13a, upper strut, 13b, lower supporting rod, 13c, adjusting screw mandrel, 14a, baffle plate slide block, 14b, paper delivery slide block, 15, defeated leatheroid band, 16a, delivery cylinder, 16b, pulling shaft cylinder, 17, defeated reel, 18, defeated paper motor, 19, pulling shaft, 19a, belt regulating block; 21, main motor, 22, main belt pair, 23, main shaft, 24, synchronous belt pair, 24a, pinch roller, 24b, briquetting, 24c, minor axis, 25, paper delivery imput shaft, 26, paper output wheel initiatively, 27, passive paper output wheel, 28, passive go out reel 31, high pressure blower, 32, ventilation cylinder, 33, ventilation belt pair, 34, gas storage box, 35, air draught box; 100, frame, 101, stacked cardboard.

Detailed description of the invention: implementation detail of the present invention is described as follows below in conjunction with accompanying drawing:

As shown in Figure 1, 2, a kind of paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine, comprise frame 100, be positioned at the stacked cardboard 101 for moulding carton of the initial end of frame, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device 1, cardboard is picked device 2, and cardboard adsorption plant 3 is provided with the complete machine electric control box 218 of single board computer (SBC).

As shown in Figure 1, cardboard is inhaled and is sent device 1, described cardboard is inhaled 2 baffle plates 11 that send device to comprise to be erected in stacked cardboard both sides, the effect of 2 baffle plates of both sides is to block stacked cardboard from both sides, make it continuously bottom a piece of paper plate being adsorbed on while carrying on defeated leatheroid band forward, can be crooked not at random;

As shown in Figure 1, for vertically block 2 groups of paper delivery cuttves and the up-down adjustment handle 12 thereof except bottom 1 more than cardboard stacked cardboard from front, the effect of paper delivery cutter and up-down adjustment handle thereof is: utilize up-down adjustment handle by the lower edge of paper delivery cutter adjust to the distance of just leaving defeated leatheroid band upper surface be a piece of paper plate thickness, after next cardboard is transferred away, bottom 1 more than cardboard stacked cardboard is blocked by 2 groups of paper delivery cuttves;

As shown in Figure 1, two ends are fixed in frame, for supporting the upper strut 13a of 2 baffle plates and 2 groups of paper delivery cuttves and up-down adjustment handle thereof, lower supporting rod 13b, on described, lower supporting rod is through 2 baffle plates, be connected to actively, 2 baffle plate slide block 14a that are positioned at 2 baffle plate outsides on lower supporting rod, be linked in 2 paper delivery slide block 14b of paper delivery cutter and up-down adjustment handle thereof, described 2 paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in respectively 2 adjusting screw mandrel 13c on 2 paper delivery slide blocks, described adjusting screw mandrel is through nut transfer baffle plate slide block, paper delivery slide position, on, the two ends of lower supporting rod are fixed in frame, 2 baffle plate slide blocks by cross-under on it and 2 paper delivery slide blocks respectively to 2 baffle plates and 2 groups of paper delivery cuttves and up-down adjustment handle thereof in the effect of being supported, through 2 adjusting screw mandrels, their position, left and right is adjusted and fixed,

As Fig. 1, shown in 2, be positioned at 7 defeated leatheroid bands 15 with air draught aperture below bottom 1 cardboard of stacked cardboard, defeated leatheroid band is socketed on delivery cylinder 16a and coordinates and be socketed and tighten the pulling shaft cylinder 16b that defeated leatheroid band is used with it, the defeated reel 17 passing and be fixed on delivery cylinder center is integrated, be coupling in the defeated paper motor 18 of defeated reel end, pass and be fixed on the pulling shaft 19 of pulling shaft centre of the drum, article 7, on defeated leatheroid band, with the effect of air draught aperture be: pipeline and air draught box that air draught aperture is connected with the inlet scoop of the high pressure blower of following cardboard adsorption plant communicate, when the strong negative-pressure producing after high pressure blower operation firmly holds bottom stacked cardboard 1 cardboard from its lower surface in defeated leatheroid band, now start defeated paper motor, ordering about defeated reel rotates, thereby bottom 1 cardboard of the stacked cardboard that drives defeated leatheroid band and held moves forward, send into following cardboard and pick 6 pairs of actives of device, between passive paper output wheel, be abutted against in the gap of formation, pick device by cardboard and send into next process,

As shown in Figure 1, cardboard is picked device 2, described cardboard is picked device and is comprised the main motor 21 being fixed in frame, the main shaft 23 linking on main machine shaft through main belt pair 22, link in the paper delivery imput shaft 25 of main shaft through synchronous belt pair 24, synchronous belt pair disposes controls the pinch roller 24a that belt tension is used, and the object of the pinch roller of the secondary configuration of synchronous belt is to control belt tension, to guarantee the synchronous rotation of main shaft, paper delivery imput shaft;

As shown in Figure 1, coordinate cardboard to inhale to be evenly equipped with between 6 adjacent gaps of 7 defeated leatheroid bands of sending device in paper delivery imput shaft 6 initiatively paper output wheels 26,7 defeated leatheroid bands of gap cross-over configuration with 6 initiatively the object of paper output wheels be: the rotation that ensures defeated leatheroid band can not interfered the rotation of active paper output wheel and following passive paper output wheel;

As shown in Figure 1, radially be abutted against and dispose 6 passive paper output wheels 27 with 6 active paper output wheels, pass and be fixed on passive paper output wheel center passive go out reel 28, passive go out the two ends configurations bearing of reel, be fixed in frame with this, and passive paper output wheel 27 the active paper output wheel 26 that be radially abutted against between the friction force band of cross-under on it makes a movement and and then freely rotates;

As Fig. 1, shown in 2, described 6 pairs of actives, between passive paper output wheel, be abutted against the plane at the place, gap of formation, the plane of inhaling the upper surface formation of 7 defeated leatheroid bands that send device with cardboard is same plane, the technique effect of this design is: when the defeated paper motor of aforementioned startup, ordering about defeated reel rotates, thereby bottom 1 cardboard of the stacked cardboard that drives defeated leatheroid band and held moves forward, send into following cardboard and pick 6 pairs of actives of device, while being abutted against in the gap of formation between passive paper output wheel, can be successfully through 6 pairs of actives, between passive paper output wheel, being abutted against the gap of formation picks to next procedure,

As shown in Figure 1, cardboard adsorption plant 3, described cardboard adsorption plant comprises the high pressure blower 31 being fixed in frame, be connected with high pressure blower inlet scoop through pipeline, axle core is semi-round ventilation cylinder 32, axle core is that semi-round ventilation cylinder is the prior art that those of ordinary skill in the art knows, therefore briefly elliptically do not draw separately, its effect is to make to become in the time that turns over upper half and pass through smoothly through the air-flow of ventilation cylinder, in the time of back to back lower half, air-flow is cut off and cannot passes through, air draught aperture on these 7 defeated leatheroid bands that just can make to communicate with it through pipeline and air draught box, within the time of upper half, producing negative pressure holds bottom 1 cardboard of stacked cardboard and moves forward, and then the time internal cause air-flow of lower half is cut off and can produce negative pressure, turned to smoothly original position, for holding bottom 1 cardboard of stacked cardboard, the upper half generation negative pressure of next one circulation gets ready,

As shown in Figure 1, the semicircle oblique crank Z core of described ventilation cylinder links and picks the main shaft in device in cardboard through ventilation belt pair 33, be connected in the gas storage box 34 of ventilation cylinder inlet end through pipeline, be connected in respectively 7 air draught boxes 35 of gas storage box through being distributed on 7 pipelines on gas storage box, described 7 air draught boxes communicate correspondingly with the air draught aperture that cardboard is inhaled on 7 defeated leatheroid bands that send in device.Consider 7 air draught boxes and air draught aperture on 7 defeated leatheroid bands one by one corresponding communicating be the prior art that those of ordinary skill in the art knows, therefore briefly elliptically do not draw separately.

As shown in Figure 1, described cardboard is inhaled and is sent the two ends of the pulling shaft 19 in device 1 to dispose the belt regulating block 19a for regulating 7 defeated leatheroid band level of tightness to use, belt regulating block is fixed in frame 100, the effect of belt regulating block is the mutual spacing between transfer pulling shaft and the defeated reel 17 of 7 defeated leatheroid band other ends, so that the delivery cylinder 16a on pulling shaft cylinder 16b and the defeated reel on it can tighten 7 defeated leatheroid bands.

As Fig. 1, shown in 2, the pinch roller 24a that described cardboard is picked in device 2 is linked with the briquetting 24b that stage clip is pushed down, briquetting is fixed in frame 100 through minor axis 24c, because briquetting is fixed in frame through minor axis, the briquetting that stage clip is pushed down that has on minor axis plays compression effect together with the pinch roller on its top to the synchronous belt in synchronous belt pair, prevent that it from shaking or jumping tooth because crossing pine, cause the rotation of paper delivery imput shaft asynchronous with the rotation of main shaft, the unit construction of considering the synchronous belt pair that this kind of pinch roller transfer be held down is the prior art that the those of ordinary skill in this field is known, therefore briefly elliptically do not draw separately the stage clip of the briquetting 24b pushing down.

As Fig. 1, shown in 2, described cardboard is inhaled the defeated paper motor 18 sending in device 1, the main motor 21 that cardboard is picked in device 2 is all selected the servomotor with electric cam by module controls in industrial single board computer (SBC), main motor, the velocity of rotation of defeated paper motor should synchronously could realize the cardboard suction of defeated paper driven by motor and send device to have intermittently under the cardboard adsorption plant of main driven by motor coordinates and hold continuously again and again bottom 1 cardboard of stacked cardboard and send into cardboard the active of picking device, between passive paper output wheel, be abutted against the gap of formation, picking device by the cardboard of main driven by motor again picks to next procedure, common electric machine also can be achieved, can fasterly be achieved exactly but select by the servomotor of module controls in industrial single board computer (SBC).

As shown in Figure 1, 2, described defeated paper motor 18, the main motor 21 of paperboard conveying mechanism, high pressure blower 31 are electrically connected in respectively the complete machine electric control box 218 that is provided with industrial single board computer (SBC).

Claims (8)

1. the paperboard conveying mechanism of a carton nonwoven fabrics hand-strap forming machine, comprise frame (100), be positioned at the stacked cardboard (101) for moulding carton of the initial end of frame, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device (1), cardboard is picked device (2), cardboard adsorption plant (3), is provided with the complete machine electric control box (218) of single board computer (SBC).

2. the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine according to claim 1, it is characterized in that described cardboard is inhaled send device (1) to comprise: 2 baffle plates (11) that are erected in stacked cardboard both sides, for vertically block 2 groups of paper delivery cuttves and the up-down adjustment handle (12) thereof except bottom 1 more than cardboard stacked cardboard from front, two ends are fixed in frame for supporting 2 baffle plates and 2 groups of paper delivery cuttves and up-down adjustment handle thereof, lower supporting rod (13a, 13b), on described, lower supporting rod is through 2 baffle plates, be connected to actively, the 2 baffle plate slide blocks (14a) that are positioned at 2 baffle plate outsides on lower supporting rod, be linked in 2 paper delivery slide blocks (14b) of paper delivery cutter and up-down adjustment handle thereof, described 2 paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in respectively the 2 adjusting screw mandrels (13c) on 2 paper delivery slide blocks, be positioned at 7 defeated leatheroid bands (15) with air draught aperture below bottom 1 cardboard of stacked cardboard, defeated leatheroid band is socketed on delivery cylinder (16a) and coordinates and be socketed and tighten the pulling shaft cylinder (16b) that defeated leatheroid band is used with it, pass and be fixed on the defeated reel (17) at delivery cylinder center, be coupling in the defeated paper motor (18) of defeated reel end, pass and be fixed on the pulling shaft (19) of pulling shaft centre of the drum.

3. the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine according to claim 1, it is characterized in that described cardboard picks device (2) and comprising: be fixed on the main motor of paperboard conveying mechanism (21) in frame, the main shaft (23) linking on main machine shaft through main belt pair (22), link in the paper delivery imput shaft (25) of main shaft through synchronous belt pair (24), synchronous belt pair disposes controls the pinch roller (24a) that belt tension is used, coordinate cardboard to inhale to be evenly equipped with between 6 adjacent gaps of 7 defeated leatheroid bands of sending device in paper delivery imput shaft 6 initiatively paper output wheels (26), radially be abutted against and dispose 6 passive paper output wheels (27) with 6 active paper output wheels, pass and be fixed on passive paper output wheel center passive go out reel (28), between described 6 pairs of active and passive paper output wheels, be abutted against the plane at the place, gap of formation, the plane of inhaling the upper surface formation of 7 defeated leatheroid bands that send device with cardboard is same plane.

4. the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine according to claim 1, it is characterized in that described cardboard adsorption plant (3) comprising: be fixed on the high pressure blower (31) in frame, be connected with high pressure blower inlet scoop through pipeline, axle core is semi-round ventilation cylinder (32), the semicircle oblique crank Z core of described ventilation cylinder links and picks the main shaft in device in cardboard through ventilation belt pair (33), be connected in the gas storage box (34) of ventilation cylinder inlet end through pipeline, be connected in respectively 7 air draught boxes (35) of gas storage box through being distributed on 7 pipelines on gas storage box, described 7 air draught boxes communicate correspondingly with the air draught aperture that cardboard is inhaled on 7 defeated leatheroid bands that send in device.

5. the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine according to claim 2, it is characterized in that described cardboard is inhaled send the two ends of the pulling shaft (19) in device (1) to dispose the belt regulating block (19a) for regulating 7 defeated leatheroid band level of tightness, and belt regulating block is fixed in frame (100).

6. the paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine according to claim 3, it is characterized in that the pinch roller (24a) that described cardboard is picked in device (2) is linked with the briquetting (24b) that stage clip is pushed down, briquetting is fixed in frame (100) through minor axis (24c).

7. according to the paperboard conveying mechanism of the carton nonwoven fabrics hand-strap forming machine described in claim 2 or 3, it is characterized in that described cardboard inhales the defeated paper motor (18) sending in device (1), the main motor (21) that cardboard is picked in device (2) is all selected the servomotor with electric cam by module controls in single board computer (SBC).

8. according to the paperboard conveying mechanism of the carton nonwoven fabrics hand-strap forming machine described in claim 1,4, it is characterized in that described defeated paper motor (18), the main motor of paperboard conveying mechanism (21), high pressure blower (31) are electrically connected in respectively the complete machine electric control box (218) that is provided with single board computer (SBC).