CN204137958U - The paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine - Google Patents

Abstract

The paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine.Belong to the mechanical equipment component making carboard.Comprise: cardboard is inhaled and sent device, cardboard transfer device, cardboard adsorption plant, is provided with the complete machine electric control box of single board computer (SBC); Described cardboard is inhaled and is sent device to comprise baffle plate, paper delivery cutter and up-down adjustment handle thereof, upper and lower strut, and paper delivery slide block regulates screw mandrel, defeated leatheroid band, delivery cylinder and pulling shaft cylinder, defeated paper motor, pulling shaft; Described cardboard transfer device comprises mair motor, main shaft, paper delivery imput shaft, pinch roller, initiatively paper output wheel, passive paper output wheel, passive go out reel; Described cardboard adsorption plant comprises high pressure blower, ventilation cylinder, gas storage box, air draught box, the air draught aperture on defeated leatheroid band.Through on probation: achieve the stacked cardboard of main frame initial inlet, be continuously transported to next process, for the automatic continuous production of carton nonwoven fabrics hand-strap forming machine creates necessary condition.

Description

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

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

Background technology: various dairy products hand baggage cartoning and the various beverage hand baggage cartoning of prior art are of a great variety, and on portable carton major part what use is all formed in mould plastics hand-strap, first this plastics hand-strap is that manually-operated mould of plastics is shaping in self-formed shaping production process, secondly time on the ground paper being installed on dairy products hand baggage cartoning and various beverage hand baggage cartoning, 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 also bring the problem how be installed on by nonwoven fabrics hand-strap on the ground paper of dairy products hand baggage cartoning and various beverage hand baggage cartoning simultaneously.

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

Utility model content: the purpose of this utility model is the defect and the deficiency that overcome prior art, studying and design the paperboard conveying mechanism that a kind of stacked cardboard by main frame initial inlet is continuously transported to next process, is that the automatic continuous production of carton nonwoven fabrics hand-strap forming machine creates necessary condition.

The purpose of this utility model is achieved in that a kind of paperboard conveying mechanism of carton nonwoven fabrics hand-strap forming machine, comprise frame, be positioned at the stacked cardboard for shaping carton of frame starting ends, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device, cardboard transfer 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, the 2 pieces of baffle plates sending device to comprise to be erected in stacked cardboard both sides inhaled by described cardboard, for vertically blocking 2 groups of paper delivery cuttves in the stacked cardboard more than except bottom 1 cardboard and up-down adjustment handle thereof from front, two ends are fixed in frame, for supporting 2 pieces of 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 pieces of baffle plates, be linked in 2 pieces of paper delivery slide blocks of paper delivery cutter and up-down adjustment handle thereof, described 2 pieces of paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in 2 adjustment screw mandrels on 2 pieces of paper delivery slide blocks respectively, on described, lower supporting rod limits through the position of the 2 pieces of paper delivery slide blocks being linked in paper delivery cutter and up-down adjustment handle thereof to paper delivery cutter and up-down adjustment handle thereof of cross-under actively on it, through nut transfer baffle plate slide block, paper delivery slide position and top is linked in 2 adjustment 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 with it and is socketed and tightens the pulling shaft cylinder of defeated leatheroid band, to pass and the defeated reel being 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 transfer device, described cardboard transfer device comprises the mair motor be fixed in frame, through the main shaft that main belt duplicate invoice moves in mair motor rotating shaft, the paper delivery imput shaft in main shaft is moved through synchronous belt duplicate invoice, synchronous belt pair is configured with the pinch roller controlling belt tension, coordinate cardboard to inhale to send and between 6 adjacent gaps of 7 of device defeated leatheroid bands, to be evenly equipped with in paper delivery imput shaft 6 initiatively paper output wheels, with 6 initiatively paper output wheel radial directions be abutted against and be configured with 6 passive paper output wheels, pass and be fixed on passive paper output wheel center passive go out reel; Described 6 to the plane at place, gap of being abutted against formation between active and passive paper output wheel, and inhaling with cardboard the plane sending the upper surface of 7 of device defeated leatheroid bands to be formed is same plane;

Cardboard adsorption plant, described cardboard adsorption plant comprises the high pressure blower be 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 the main shaft in cardboard transfer device through ventilation belt duplicate invoice, the gas storage box of ventilation cylinder inlet end is connected to through pipeline, be connected to 7 air draught boxes of gas storage box respectively through 7 pipelines be distributed on gas storage box, described 7 air draught boxes and cardboard are inhaled and are sent the air draught aperture in device 7 defeated leatheroid bands to communicate correspondingly

The purpose of this utility model 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 be configured with belt regulating block for regulating 7 defeated leatheroid band level of tightness, and belt regulating block is fixed in frame.

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

The defeated paper motor sent in device inhaled by described cardboard, and the mair motor in cardboard transfer device all selects the servomotor with electric cam by module controls in industrial single board computer (SBC).

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

Dynamic use procedure of the present utility model is described as follows:

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

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

Regulate the belt regulating block being used for 7 defeated leatheroid band level of tightness, the spacing between the defeated reel of pulling shaft and 7 defeated leatheroid band other ends is adjusted, tightens 7 defeated leatheroid bands to make the pulling shaft cylinder on it and the delivery cylinder on defeated reel;

Regulate the briquetting having stage clip to push down on minor axis, the pinch roller together with its top plays compression effect to the synchronous belt in synchronous belt pair, prevents it from shaking because crossing pine or jumping tooth, causes the rotation of the rotation of paper delivery imput shaft and main shaft asynchronous;

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

Regulate the velocity of rotation of mair motor, defeated paper motor synchronous, inhale to make the cardboard of defeated paper driven by motor and have intermittently under sending device to coordinate with the cardboard adsorption plant driven at mair motor and hold stacked cardboard 1 cardboard in bottom again and again continuously and between the active and passive paper output wheel sending into cardboard transfer device, be abutted against the gap of formation, picked to next procedure by transfer device.

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

The utility model implements the paperboard conveying mechanism of the carton nonwoven fabrics hand-strap forming machine obtained, through on probation, achieve the stacked cardboard of main frame initial inlet, be continuously transported to next process, for the automatic continuous production of carton nonwoven fabrics hand-strap forming machine creates necessary condition.

Accompanying drawing illustrates: Fig. 1 is the structural representation meeting the utility model theme; Fig. 2 is the rigging position schematic diagram of the utility model 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 transfer 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, regulate 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, mair motor, 22, main belt is secondary, 23, main shaft, 24, synchronous belt is secondary, 24a, pinch roller, 24b, briquetting, 24c, minor axis, 25, paper delivery imput shaft, 26, initiatively paper output wheel, 27, passive paper output wheel, 28, passive go out reel 31, high pressure blower, 32, ventilation cylinder, 33, ventilation belt is secondary, 34, gas storage box, 35, air draught box, 100, frame, 101, stacked cardboard.

Detailed description of the invention: implementation detail of the present utility model 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 shaping carton of frame starting ends, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device 1, cardboard transfer device 2, 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, the 2 pieces of baffle plates 11 sending device to comprise to be erected in stacked cardboard both sides inhaled by described cardboard, the effect of 2 pieces of baffle plates of both sides blocks stacked cardboard from both sides, make its continuously bottom a piece of paper plate is adsorbed on defeated leatheroid band is carried forward time, can not be crooked at random;

As shown in Figure 1, for vertically blocking 2 groups of paper delivery cuttves and the up-down adjustment handle 12 thereof of the stacked cardboard more than except bottom 1 cardboard from front, the effect of paper delivery cutter and up-down adjustment handle thereof is: utilize up-down adjustment handle the lower edge of paper delivery cutter is adjusted to the distance just leaving defeated leatheroid band upper surface be a piece of paper plate thickness, after next cardboard is transferred away, stacked cardboard more than bottom 1 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 pieces of 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 pieces of baffle plates, be connected to actively, the 2 pieces of baffle plate slide block 14a be positioned at outside 2 pieces of baffle plates on lower supporting rod, be linked in 2 pieces of paper delivery slide block 14b of paper delivery cutter and up-down adjustment handle thereof, described 2 pieces of paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in 2 adjustment screw mandrel 13c on 2 pieces of paper delivery slide blocks respectively, described adjustment 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, by the 2 piece baffle plate slide blocks of cross-under on it and 2 pieces of paper delivery slide blocks respectively to 2 pieces of baffle plates and 2 groups of paper delivery cuttves and up-down adjustment handle thereof while the effect of being supported, adjusted through the right position of 2 adjustment screw mandrels to them 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 with it and is socketed and tightens the pulling shaft cylinder 16b of defeated leatheroid band, to pass and the defeated reel 17 being 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, the effect with air draught aperture on defeated leatheroid band is: the pipeline that air draught aperture is connected with the inlet scoop of the high pressure blower of following cardboard adsorption plant and air draught box communicate, bottom for stacked cardboard 1 cardboard firmly holds in defeated leatheroid band from its lower surface by the strong negative-pressure produced after high pressure blower runs, now start defeated paper motor, order about defeated reel to rotate, thus drive defeated leatheroid band and moved forward by bottom 1 cardboard of stacked cardboard held, send into 6 couple of following cardboard transfer device initiatively, be abutted against between passive paper output wheel in the gap of formation, next process is sent into by cardboard transfer device,

As shown in Figure 1, cardboard transfer device 2, described cardboard transfer device comprises the mair motor 21 be fixed in frame, through the main shaft 23 that main belt pair 22 links in mair motor rotating shaft, link in the paper delivery imput shaft 25 of main shaft through synchronous belt pair 24, synchronous belt pair is configured with the pinch roller 24a controlling belt tension, and the object of the pinch roller of synchronous belt pair configuration controls belt tension, to guarantee the synchronous axial system of main shaft, paper delivery imput shaft;

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

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

As Fig. 1, shown in 2, described 6 to active, the plane at the place, gap of formation is abutted against between passive paper output wheel, inhaling with cardboard the plane sending the upper surface of 7 of device defeated leatheroid bands to be formed is same plane, the technique effect of this design is: when the defeated paper motor of aforementioned startup, order about defeated reel to rotate, thus drive defeated leatheroid band and moved forward by bottom 1 cardboard of stacked cardboard held, send into 6 couple of following cardboard transfer device initiatively, when being abutted against between passive paper output wheel in the gap of formation, can successfully through 6 to initiatively, the gap of being abutted against formation between passive paper output wheel is picked to next procedure,

As shown in Figure 1, cardboard adsorption plant 3, described cardboard adsorption plant comprises the high pressure blower 31 be fixed in frame, be connected with high pressure blower inlet scoop through pipeline, axle core is semi-round ventilation cylinder 32, axle core is 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 be make through the air-flow of cylinder of ventilation become turn over upper half time in pass through smoothly, in the time of back to back lower half, air-flow is cut off and cannot passes through, this just can make the air draught aperture on 7 defeated leatheroid bands communicating with it through pipeline and air draught box, within the time of upper half, produce negative pressure hold bottom 1 cardboard of stacked cardboard and move forward, and then the time internal cause air-flow of lower half is cut off and can not produces negative pressure, be able to smooth rotation to original position, upper half generation negative pressure for next one circulation holds bottom 1 cardboard of stacked cardboard and gets ready,

As shown in Figure 1, the main shaft that the semicircle oblique crank Z core of described ventilation cylinder links in cardboard transfer device through ventilation belt pair 33, the gas storage box 34 of ventilation cylinder inlet end is connected to through pipeline, be connected to 7 air draught boxes 35 of gas storage box respectively through 7 pipelines be distributed on gas storage box, described 7 air draught boxes and cardboard are inhaled and are sent the air draught aperture in device 7 defeated leatheroid bands to communicate correspondingly.Considering that 7 air draught boxes communicate with the air draught aperture one_to_one corresponding on 7 defeated leatheroid bands is the prior art that those of ordinary skill in the art knows, therefore does not briefly elliptically 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 be configured with belt regulating block 19a for regulating 7 defeated leatheroid band level of tightness, belt regulating block is fixed in frame 100, the effect of belt regulating block is the mutual spacing between the defeated reel 17 of transfer pulling shaft and 7 defeated leatheroid band other ends, tightens 7 defeated leatheroid bands to enable the pulling shaft cylinder 16b on it and the delivery cylinder 16a on defeated reel.

As Fig. 1, shown in 2, pinch roller 24a in described cardboard transfer 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 having stage clip to push down on minor axis plays compression effect together with the pinch roller on its top to the synchronous belt in synchronous belt pair, prevent it from shaking because crossing pine or jumping tooth, cause the rotation of the rotation of paper delivery imput shaft and main shaft asynchronous, consider that the unit construction of the synchronous belt pair that this kind of pinch roller transfer is 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 pushed down.

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

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

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 shaping carton of frame starting ends, it is characterized in that described paperboard conveying mechanism also comprises: cardboard is inhaled and sent device (1), cardboard transfer 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: the 2 pieces of baffle plates (11) being erected in stacked cardboard both sides, for vertically blocking 2 groups of paper delivery cuttves and the up-down adjustment handle (12) thereof of the stacked cardboard more than except bottom 1 cardboard from front, two ends are fixed in frame for supporting 2 pieces of 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 pieces of baffle plates, be connected to actively, the 2 pieces of baffle plate slide blocks (14a) be positioned at outside 2 pieces of baffle plates on lower supporting rod, be linked in 2 pieces of paper delivery slide blocks (14b) of paper delivery cutter and up-down adjustment handle thereof, described 2 pieces of paper delivery slide blocks are connected to actively, on lower supporting rod, top is linked in 2 adjustment screw mandrels (13c) on 2 pieces of paper delivery slide blocks respectively, 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 with it and is socketed and tightens the pulling shaft cylinder (16b) of defeated leatheroid band, 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 transfer device (2) comprising: be fixed on the paperboard conveying mechanism mair motor (21) in frame, through the main shaft (23) that main belt pair (22) is linked in mair motor rotating shaft, link in the paper delivery imput shaft (25) of main shaft through synchronous belt pair (24), synchronous belt pair is configured with the pinch roller (24a) controlling belt tension, coordinate cardboard to inhale to send and between 6 adjacent gaps of 7 of device defeated leatheroid bands, to be evenly equipped with in paper delivery imput shaft 6 initiatively paper output wheels (26), be abutted against with 6 active paper output wheel radial directions and be configured with 6 passive paper output wheels (27), pass and be fixed on passive paper output wheel center passive go out reel (28), described 6 to the plane at place, gap of being abutted against formation between active and passive paper output wheel, and inhaling with cardboard the plane sending the upper surface of 7 of device defeated leatheroid bands to be formed 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 main shaft that the semicircle oblique crank Z core of described ventilation cylinder links in cardboard transfer device through ventilation belt pair (33), the gas storage box (34) of ventilation cylinder inlet end is connected to through pipeline, 7 air draught boxes (35) of gas storage box are connected to respectively through 7 pipelines be distributed on gas storage box, described 7 air draught boxes and cardboard are inhaled and are sent the air draught aperture in device 7 defeated leatheroid bands to communicate correspondingly.

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 be configured with 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, the pinch roller (24a) that it is characterized in that in described cardboard transfer device (2) is linked with the briquetting (24b) that stage clip is pushed down, and briquetting is fixed in frame (100) through minor axis (24c).

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

8. the paperboard conveying mechanism of the carton nonwoven fabrics hand-strap forming machine according to claim 2 or 3 or 4, is characterized in that described defeated paper motor (18), paperboard conveying mechanism mair motor (21), high pressure blower (31) are electrically connected in the complete machine electric control box (218) being provided with single board computer (SBC) respectively.