CN211033119U - Full-automatic horizontal bagging machine with automatic upward bag sucking and placing mechanism - Google Patents

Abstract

The utility model relates to the technical field of horizontal bagging machines, in particular to a full-automatic horizontal bagging machine with an automatic bag feeding and placing mechanism, wherein the bag feeding and placing mechanism and a bag sealing device are both arranged above a bag conveying line; the upper suction bag placing mechanism is arranged at the input end of the bag conveying line; the bag sealing device is arranged at the conveying end of the bag conveying line; the product pushing device is arranged at one end of the product conveying belt close to the bag conveying line. When the utility model is used, in the first step, the bag feeding mechanism feeds a bag into the bag conveying line, and the bag is conveyed to the position right facing the product conveying belt through the bag conveying line; and secondly, the structure can realize automatic feeding, bagging and sealing of bags and products, realizes the automation of bagging, greatly improves the production efficiency and reduces the labor intensity.

Description

Full-automatic horizontal bagging machine with automatic upward bag sucking and placing mechanism

Technical Field

The utility model relates to a horizontal sack filling machine technical field, in particular to full-automatic horizontal sack filling machine with automatic upward inhale the bag and put a bag mechanism.

Background

With the rapid development of modern industry, the packaging requirements of products are rapidly increasing. The traditional production line adopts manual packaging, and the requirement for numerous packages is difficult to meet. Some packaging equipment also appears, but only single packaging processing can be carried out, the structure is simple, the function is single, and the automation degree is not high; integrated production is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic horizontal sack filling machine with automatic updraught bag puts a bag mechanism to prior art's defect and not enough.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model relates to a full-automatic horizontal bagging machine with an automatic bag-sucking and placing mechanism, which comprises a bottom frame; an upper suction bag placing mechanism, a product pushing device, a product conveying belt, a bag sealing device and a bag conveying line are fixed on the bottom frame; the upper suction bag placing mechanism and the bag sealing device are arranged above the bag conveying line; the upper suction bag placing mechanism is arranged at the input end of the bag conveying line; the bag sealing device is arranged at the conveying end of the bag conveying line; the output end of the product conveying belt is arranged between the bag sealing device and the upper bag sucking and placing mechanism; the product pushing device is arranged right above the product conveying belt; the product pushing device is arranged at one end of the product conveying belt close to the bag conveying line; the bag conveying line and the product conveying belt are both a conveying belt mechanism; a support frame is fixed on the bottom frame; a lower negative pressure adsorption plate is arranged at the edge of the bag conveying line; the upper negative pressure adsorption plate and the lower negative pressure adsorption plate are both communicated with negative pressure equipment; the adsorption plate lifting cylinder fixed on the support frame drives the upper negative pressure adsorption plate to press downwards until the upper negative pressure adsorption plate is attached to the upper surface of the bag, negative pressure equipment enables the upper negative pressure adsorption plate and the lower negative pressure adsorption plate to simultaneously generate negative pressure, the lower negative pressure adsorption plate adsorbs the bottom surface of the bag, the upper negative pressure adsorption plate adsorbs the upper surface of the bag, and the adsorption plate lifting cylinder drives the upper negative pressure adsorption plate to move upwards to open the bag opening; firstly, a bag is fed onto a bag conveying line by an upper suction bag placing mechanism, and the bag is conveyed to a position right opposite to a product conveying belt through the bag conveying line; secondly, the bottom surface of the bag is adsorbed by the lower negative pressure adsorption plate, and the upper surface of the bag is adsorbed by the upper negative pressure adsorption plate; the adsorption plate lifting cylinder drives the upper negative pressure adsorption plate to move upwards, so that the bag is opened; thirdly, the product pushing device opens the bag in a product conveying belt in the third step, the upper negative pressure adsorption plate descends to enable the bag opening to be closed, and negative pressures on the lower negative pressure adsorption plate and the upper negative pressure adsorption plate disappear; fourthly, the bag conveying line conveys the bags filled with the products to the position right below the bag sealing device, and the bags are sealed through the bag sealing device; the structure can realize automatic loading, bagging and sealing of bags and products, realize automation of bagging, greatly improve production efficiency and reduce labor intensity.

Furthermore, the upper suction bag placing mechanism comprises a bag warehouse bottom plate, a rack, a baffle plate, a rotating shaft, a rack lifting device, a lifting suction nozzle mechanism and two vertical plates; the rotating shaft is arranged right above the bag conveying line; the two vertical plates are fixed on the bottom frame; the bag warehouse bottom plate and the baffle plate are fixed between the two vertical plates; the bag warehouse bottom plate is arranged opposite to the baffle; a gap formed between the bag warehouse bottom plate and the baffle is a discharge chute; the lifting suction nozzle mechanism is arranged right below the discharge chute; the lifting suction nozzle mechanism is fixed on the vertical plate; two ends of the rotating shaft are respectively and rotatably connected with the two vertical plates; a turning bag clamping device is fixed on the shaft body of the rotating shaft; a gear meshed with the rack is fixed at one end of the rotating shaft; the gear is fixedly connected with the rotating shaft; one end of the rack lifting device is fixed on the rack; the other end of the rack lifting device is fixed on the vertical plate; the rack lifting device drives the rack to ascend or descend, so that the forward rotation and the reverse rotation of the gear are realized; the bags are stacked on the bottom plate of the bag warehouse, one end of each bag extends out of the discharge chute, and the head of one bag at the bottommost end of the bottom plate of the bag warehouse is sucked after the lifting suction nozzle mechanism rises; then the lifting suction nozzle mechanism descends to pull down the head of the bottommost bag, the rotating shaft rotates to drive the overturning bag clamping device to overturn upwards and clamp the bag adsorbed on the lifting suction nozzle mechanism, and after the bag is clamped, the rotating shaft rotates to drive the overturning bag clamping device to overturn downwards so that the bag is conveyed to the lower part; the automatic blanking of sack has been realized to this structure, greatly improves bagging-off mechanism's efficiency to the limit, reduces intensity of labour.

Furthermore, the lifting suction nozzle mechanism comprises a lifting cylinder and a suction nozzle fixing plate; one end of the lifting cylinder is fixed on the vertical plate; the other end of the lifting cylinder is fixedly connected with the suction nozzle fixing plate; a suction nozzle is fixed on the suction nozzle fixing plate; the suction nozzle is arranged right below the discharge chute; the lifting cylinder drives the suction nozzle on the suction nozzle fixing plate to move, so that the lifting of the suction nozzle is realized; the suction force of the suction nozzle enables the bag to be sucked, and the lifting cylinder moves downwards to enable one end of the bag to be pulled downwards.

Furthermore, the overturning bag clamping device consists of a swing rod, a clamping cylinder and a pressing plate; one end of the swing rod is fixed on the shaft body of the rotating shaft; a clamping plate is arranged at the other end of the oscillating bar; one end of the clamping cylinder is fixed on the rod body of the oscillating rod; the other end of the clamping cylinder is fixedly connected with the pressing plate; the pressing plate is arranged between the clamping plate and the clamping cylinder; after the swing rod is turned over, the bag is clamped between the pressing plate and the clamping plate, the clamping cylinder drives the bag, the pressing plate presses the bag on the clamping plate, and the swing rod is turned over downwards to convey the bag to the conveying belt below the swing rod.

Further, the rack lifting device comprises a first spring, a cam and a guide rail; a sliding block fixing block is fixedly arranged on the vertical plate; a sliding block matched with the guide rail is fixed on the sliding block fixing block; the sliding block is embedded into the guide rail; the rack is fixedly connected with the guide rail; a cam rotating shaft is fixed on the rotating center of the cam; the cam rotating shaft is rotatably connected with the vertical plate; a pressing block is fixed at the bottom of the rack; a pin is fixed on the vertical plate; one end of the first spring is fixed on the pressing block; the other end of the first spring is fixed on the pin; the pressing block is pressed on the surface of the cam; under the action of the first spring, the pressing block is pressed on the surface of the cam all the time; the motor is fixed on the motor fixing seat, the driven belt pulley is fixed on the cam rotating shaft, the motor, the driving belt pulley, the belt, the driven belt pulley and the cam rotating shaft drive the cam to rotate, the rack is enabled to do reciprocating motion along the direction of the guide rail, and the gear rotates back and forth, so that the bag turning and clamping device turns up or down around the rotating shaft.

Further, the product pushing device comprises a connecting rod assembly, a sliding block, a guide rail, a pushing block fixing seat, a disc fixing shaft, a straight rod driving cylinder, a straight rod and a rotating rod; the push block is arranged right above the product conveying belt; the guide rail is fixed on the bottom frame; one end of the disc fixing shaft is rotatably connected with the bottom frame; the other end of the disc fixing shaft is fixedly connected with the circle center of the disc; one end of the connecting rod component is hinged with the eccentric position of the disc; the other end of the connecting rod component is hinged with the push block fixing seat; the sliding block is matched with the guide rail; the sliding block is embedded into the guide rail; one end of the rotating rod is rotatably connected with the push block fixing seat; one end of the push block is fixed on the rod body of the rotating rod; one end of the straight rod is fixedly connected with the rod body of the rotating rod; the other end of the straight rod is hinged with one end of the driving cylinder; the other end of the driving cylinder is fixedly connected with the push block fixing seat; in an initial state, the lowest point of the push block is higher than the highest point of a product on the product conveying belt, the straight rod is driven by the straight rod driving cylinder to swing, and the rotating rod rotates to enable the height of the foremost end of the push block to be lower than the highest point of the product; the rotating device is a motor, and the motor drives the disc to rotate, so that the connecting rod component pushes the push block fixing seat to slide along the direction of the guide rail, and drives the push block on the rotating rod to move, and the push-out action of the product is realized; the connecting rod assembly; the connecting rod assembly comprises a front connecting piece, a connecting pipe, a movable shaft and a rear connecting piece; one end of the movable shaft is fixed on the rear connecting piece; a telescopic shaft is fixed at the other end of the movable shaft; the front connecting piece is fixedly connected with one end of the connecting pipe; a slotted hole is formed in the pipe body of the connecting pipe; the slotted hole is arranged along the length direction of the connecting pipe; a signal pin is arranged inside the slotted hole; the shaft body of the telescopic shaft is matched with the inner hole of the connecting pipe; the tail end of the telescopic shaft extends into the connecting pipe and then is fixedly connected with the signal pin; a spring is sleeved outside the telescopic shaft; one end of the spring is fixed on the connecting pipe; the other end of the spring is fixed on the movable shaft; a fixed bracket is fixed on the connecting pipe; a proximity switch is fixed on the fixed bracket; the proximity switch is arranged right opposite to the slot hole.

Furthermore, a waist-shaped hole is formed in the fixing support; the waist-shaped hole is arranged along the length direction of the connecting pipe; the proximity switch is arranged in the waist-shaped hole; nuts are arranged at the upper end and the lower end of the proximity switch; two ends of the proximity switch are respectively provided with an external thread matched with the nut; the two nuts are respectively in threaded connection with the external threads at the two ends of the proximity switch; the two nuts are respectively pressed on the upper side and the lower side of the fixed bracket; after the nut is loosened, the proximity switch can slide on the waist-shaped hole, the axial position of the proximity switch on the connecting pipe is controlled, and the triggering position of the proximity switch is controlled; when the proximity switch slides along the direction of the front connecting piece, the stroke for triggering the proximity switch is increased, so that the movable shaft needs larger resistance to align the control proximity switch with the signal pin.

Further, a first threaded rod is arranged between the front connecting piece and the connecting pipe; a first threaded hole matched with the first threaded rod is formed in the front connecting piece; one end of the first threaded rod is in threaded connection with the first threaded hole; a second threaded hole matched with the first threaded rod is formed in the connecting pipe; the other end of the first threaded rod is matched with the second threaded hole; the first threaded rod rotates on the first threaded hole or the first threaded rod rotates on the second threaded hole, the total length of the whole front connecting piece is adjusted, and the stroke of the push block is adjusted.

Further, a second threaded rod is arranged on the movable shaft and the rear connecting piece bracket; one end of the second threaded rod is fixedly connected with the movable shaft; the rear connecting piece is provided with a third threaded hole matched with the second threaded rod; the third threaded hole is in threaded connection with the second threaded rod; the two threaded rods rotate in the third threaded hole, the total length of the whole front connecting piece is adjusted, and the stroke of the push block is adjusted.

Furthermore, the bag sealing device comprises a lifting adjusting screw rod, a lifting block, a lifting guide shaft and a lower fixing block fixed on the bottom frame; the lifting block is provided with a lifting block guide hole matched with the lifting guide shaft; an upper fixing block is fixed at one end of the lifting guide shaft; the other end of the lifting guide shaft penetrates through the lifting block guide hole and then is fixed on the lower fixing block; a lifting adjusting nut matched with the lifting adjusting screw is fixed on the lifting block; the rod body of the lifting adjusting screw rod is rotationally connected with the upper fixing block; a handle is fixed at one end of the lifting adjusting screw rod; the other end of the lifting adjusting screw is in threaded connection with a lifting adjusting nut; a sealing cylinder is fixed on the lifting block; a cutter fixing plate is fixed at the piston rod end of the sealing cylinder; a cutter is fixed at the bottom of the cutter fixing plate; heating wire connecting rods are arranged on two sides of the cutter fixing plate; a connecting rod guide hole matched with the heating wire connecting rod is formed in the cutter fixing plate; one end of the heating wire connecting rod is provided with a first fixing ring; the other end of the heating wire connecting rod penetrates through the connecting rod guide hole and then is fixedly connected with the heating wire; a second fixing ring is arranged on the rod body of the heating wire connecting rod; a third spring is sleeved outside the hot wire connecting rod; one end of the third spring is tightly pressed on the cutter fixing plate; the other end of the third spring is arranged on the second fixing ring; the electrified heating wire generates heat, so that the heating wire is heated, the lifting adjusting screw rod is rotated through the handle, the lifting block is lifted on the lifting guide shaft, and the initial height of the lifting block is adjusted; the sealing cylinder drives the cutter fixing plate to do lifting motion, the heating wire is pressed on the bag, hot melting sealing of the bag is achieved, the cutter and the heating wire are arranged in a staggered mode, and the bag is cut to be neat through the cutter.

After the structure is adopted, the utility model discloses beneficial effect does: the utility model relates to a full-automatic horizontal bagging machine with an automatic bag feeding and discharging mechanism, wherein the bag feeding and discharging mechanism and the bag sealing device are both arranged above a bag conveying line; the upper suction bag placing mechanism is arranged at the input end of the bag conveying line; the bag sealing device is arranged at the conveying end of the bag conveying line; the output end of the product conveying belt is arranged between the bag sealing device and the upper bag sucking and placing mechanism; the product pushing device is arranged right above the product conveying belt; the product pushing device is arranged at one end of the product conveying belt close to the bag conveying line. When the utility model is used, in the first step, the bag feeding mechanism feeds a bag into the bag conveying line, and the bag is conveyed to the position right facing the product conveying belt through the bag conveying line; secondly, the bottom surface of the bag is adsorbed by the lower negative pressure adsorption plate, and the upper surface of the bag is adsorbed by the upper negative pressure adsorption plate; the adsorption plate lifting cylinder drives the upper negative pressure adsorption plate to move upwards, so that the bag is opened; thirdly, the product pushing device opens the bag in a product conveying belt in the third step, the upper negative pressure adsorption plate descends to enable the bag opening to be closed, and negative pressures on the lower negative pressure adsorption plate and the upper negative pressure adsorption plate disappear; fourthly, the bag conveying line conveys the bags filled with the products to the position right below the bag sealing device, and the bags are sealed through the bag sealing device; the structure can realize automatic loading, bagging and sealing of bags and products, realize automation of bagging, greatly improve production efficiency and reduce labor intensity.

Drawings

Fig. 1 is a first perspective view of the present invention;

FIG. 2 is a front view of the suction bag discharge mechanism;

FIG. 3 is a top view of the suction bag discharge mechanism;

FIG. 4 is a perspective view of the suction bag discharge mechanism;

FIG. 5 is a schematic view of the structure of the inverting bag-clamping device;

FIG. 6 is a schematic view of the structure of the product ejection device;

FIG. 7 is a schematic view of the product ejector with the rotary device and disk removed;

FIG. 8 is a perspective view of the connecting rod assembly;

FIG. 9 is a cross-sectional view of the connector rod assembly;

FIG. 10 is an enlarged view of the portion S of FIG. 1;

FIG. 11 is a schematic view of the construction of the bag closure apparatus;

description of reference numerals:

A. a bag-up and bag-down mechanism; a1, bag house bottom plate; a2, a vertical plate; a201, a pin;

a202, a sliding block fixing block; a3, gear; a4, a motor fixing seat; a5, a driving belt pulley;

a6, a belt; a7, a first spring; a8, cam; a801, a cam rotating shaft; a9, a rack;

a901, briquetting; a10, guide rails; a11, a slide block; a12, suction nozzle; a13, baffle;

a14, turning over the bag clamping device; a1401, a swing rod; a1401a, splint; a1402, clamping a cylinder;

a1403, pressing blocks; a15, a rotating shaft; a16, a motor; a17, a lifting cylinder;

a18, a suction nozzle fixing plate; a19, a discharge chute;

B. a support frame;

C. a product ejecting device;

c1, rotating device;

c2, connecting rod assembly; c201, a front connecting piece; c201a, first threaded hole;

c202, a first threaded rod; c203, fixing a bracket; c203a, kidney-shaped hole; c204, a nut;

c205, a connecting pipe; c205a, slotted hole; c205b, second threaded hole; c206, signal pin;

c207, a second spring; c208, a movable shaft; c209, a second threaded rod; c2010, a rear connecting piece;

c2010a, third threaded hole; c2011, proximity switch; c2012, a telescopic shaft;

c3, a sliding block; c4, guide rails; c5, a push block; c6, a push block fixing seat; c7, disc;

c8, a disc fixing shaft; c9, driving a cylinder by a straight rod; c10, straight rod; c11, rotating a rod;

D. a product conveyor belt;

E. a bag closure device; e1, handle; e2, an upper fixing block; e3, a lifting adjusting screw;

e4, a lifting adjusting nut; e5, a lifting block; e501, a lifting block guide hole; e6, sealing the cylinder;

e7, cutter fixing plate; e701, connecting rod guide holes; e8, a heating wire connecting rod;

e801, a first fixing ring; e802, a second fixing ring; e9, third spring; e10, cutting knife;

e11, a lifting guide shaft; e12, a lower fixing block; e13, a heating wire;

F. a bottom frame; G. a bag conveying line; H. a lower negative pressure adsorption plate; I. an upper negative pressure adsorption plate;

G. j, an adsorption plate lifting cylinder.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 11, the fully automatic horizontal bagging machine with an automatic bag feeding and discharging mechanism of the present invention comprises a bottom frame F; an upper suction bag placing mechanism A, a product pushing device C, a product conveying belt D, a bag sealing device E and a bag conveying line G are fixed on the bottom frame F; the upper suction bag placing mechanism A and the bag sealing device are both arranged above the bag conveying line G; the upper suction bag placing mechanism A is arranged at the input end of the bag conveying line G; the bag sealing device E is arranged at the conveying end of the bag conveying line G; the output end of the product conveying belt D is arranged between the bag sealing device E and the upper bag sucking and placing mechanism A; the product pushing device C is arranged right above the product conveying belt D; the product pushing device C is arranged at one end, close to the bag conveying line G, of the product conveying belt D; the bag conveying line G and the product conveying belt D are both a conveying belt mechanism; a support frame B is fixed on the bottom frame F; a lower negative pressure adsorption plate H is arranged at the edge of the bag conveying line G; the upper negative pressure adsorption plate I and the lower negative pressure adsorption plate H are both connected with a negative pressure device (not shown in the figure); an adsorption plate lifting cylinder J fixed on a support frame B drives an upper negative pressure adsorption plate I to press downwards until the upper negative pressure adsorption plate I is attached to the upper surface of the bag, negative pressure equipment enables the upper negative pressure adsorption plate I and a lower negative pressure adsorption plate H to simultaneously generate negative pressure, the lower negative pressure adsorption plate H adsorbs the bottom surface of the bag, the upper negative pressure adsorption plate I adsorbs the upper surface of the bag, and the adsorption plate lifting cylinder J drives the upper negative pressure adsorption plate I to move upwards to enable the bag opening to be opened; firstly, a bag is fed onto a bag conveying line G by an upper suction bag placing mechanism A, and the bag is conveyed to a position right opposite to a product conveying belt D by the bag conveying line G; secondly, the lower negative pressure adsorption plate H adsorbs the bottom surface of the bag, and the upper negative pressure adsorption plate I adsorbs the upper surface of the bag; the adsorption plate lifting cylinder J drives the upper negative pressure adsorption plate I to move upwards, so that the bag is opened; thirdly, the product pushing device C opens the bag in a product conveying belt D in the third step, the upper negative pressure adsorption plate I descends, the bag opening is closed, and negative pressures on the lower negative pressure adsorption plate H and the upper negative pressure adsorption plate I disappear; fourthly, the bag conveying line G conveys the bags filled with the products to the position right below the bag sealing device E, and the bags are sealed through the bag sealing device E; the structure can realize automatic loading, bagging and sealing of bags and products, realize automation of bagging, greatly improve production efficiency and reduce labor intensity.

As a preferable mode of the utility model, the bag feeding and discharging mechanism a comprises a bag warehouse bottom plate a1, a rack a9, a baffle a13, a rotating shaft a15, a rack lifting device, a lifting suction nozzle mechanism and two vertical plates a 2; the rotating shaft A15 is arranged right above the bag conveying line G; the two vertical plates A2 are fixed on the bottom frame F; the bag warehouse bottom plate A1 and the baffle A13 are both fixed between the two vertical plates A2; the bag warehouse bottom plate A1 is arranged opposite to the baffle A13; a gap formed between the bag warehouse bottom plate A1 and the baffle A13 is a discharge chute A19; the lifting suction nozzle mechanism is arranged right below the discharge chute A19; the lifting suction nozzle mechanism is fixed on the vertical plate A2; two ends of the rotating shaft A15 are respectively and rotatably connected with the two vertical plates A2; a turning bag clamping device A14 is fixed on the shaft body of the rotating shaft A15; one end of the rotating shaft A15 is fixed with a gear A3 meshed with the rack A9; the gear A3 is fixedly connected with the rotating shaft A15; one end of the rack lifting device is fixed on a rack A9; the other end of the rack lifting device is fixed on the vertical plate A2; the rack lifting device drives the rack A9 to ascend or descend, so that the forward rotation and the reverse rotation of the gear A3 are realized; bags are stacked on the bag warehouse bottom plate A1, one end of each bag extends out of the discharge chute A19, and the head of the bottommost bag on the bag warehouse bottom plate A1 is sucked after the lifting suction nozzle mechanism rises; then the lifting suction nozzle mechanism descends to pull down the head of the bottommost bag, the rotating shaft A15 rotates to drive the overturning bag clamping device A14 to overturn upwards and clamp the bag adsorbed on the lifting suction nozzle mechanism, and after the bag is clamped, the rotating shaft A15 rotates to drive the overturning bag clamping device A14 to overturn downwards, so that the bag is conveyed to the lower part; the automatic blanking of sack has been realized to this structure, greatly improves bagging-off mechanism's efficiency to the limit, reduces intensity of labour.

As a preferable mode of the present invention, the lifting nozzle mechanism includes a lifting cylinder a17 and a nozzle fixing plate a 18; one end of the lifting cylinder A17 is fixed on the vertical plate A2; the other end of the lifting cylinder A17 is fixedly connected with a suction nozzle fixing plate A18; a suction nozzle A12 is fixed on the suction nozzle fixing plate A18; the suction nozzle A12 is arranged right below the discharge chute A19; the lifting cylinder A17 drives the suction nozzle A12 on the suction nozzle fixing plate A18 to move, so that the lifting of the suction nozzle A12 is realized; the suction force of the suction nozzle A12 causes the bag to be sucked, and the lifting cylinder A17 moves downwards to cause one end of the bag to be pulled downwards.

As a preferred mode of the present invention, the turning bag clamping device a14 is composed of a swing rod a1401, a clamping cylinder a1402 and a pressing plate a 1403; one end of the swing rod A1401 is fixed on the shaft body of the rotating shaft A15; the other end of the swing rod A1401 is provided with a splint A1401 a; one end of the clamping cylinder A1402 is fixed on the rod body of the swing rod A1401; the other end of the clamping cylinder A1402 is fixedly connected with the pressing plate A1403; the pressure plate a1403 is arranged between the clamping plate a1401a and the clamping cylinder a 1402; after the swing rod A1401 is turned upwards, the bag is clamped between a pressure plate A1403 and a clamping plate A1401a, a clamping cylinder A1402 is driven, the pressure plate A1403 presses the bag on a clamping plate A1401a, and the swing rod A1401 is turned downwards to feed the bag onto a conveying belt (not shown in the figure) below.

As a preferable mode of the present invention, the rack lifting device includes a first spring a7, a cam A8, and a guide rail a 10; a sliding block fixing block A202 is fixedly arranged on the vertical plate A2; a sliding block A11 matched with the guide rail A10 is fixed on the sliding block fixing block A202; the slide block A11 is embedded on the guide rail A10; the rack A9 is fixedly connected with the guide rail A10; a cam rotating shaft A801 is fixed on the rotation center of the cam A8; the cam rotating shaft A801 is rotatably connected with the vertical plate A2; a pressing block A901 is fixed at the bottom of the rack A9; a pin A201 is fixed on the vertical plate A2; one end of the first spring A7 is fixed on the pressing block A901; the other end of the first spring A7 is fixed on the pin A201; the pressing block A901 is pressed on the surface of the cam A8; under the action of the first spring A7, the pressing block A901 is always pressed on the surface of the cam A8; the motor A16 is fixed on the motor fixing seat A4, the cam rotating shaft A801 is fixed with a driven pulley (not shown in the figure), the cam A8 is driven to rotate through the motor A16, the driving pulley A5, the belt A6, the driven pulley and the cam rotating shaft A801, the rack A9 is enabled to do reciprocating motion along the direction of the guide rail A10, the gear A3 rotates back and forth, and the bag overturning and clamping device A14 is enabled to overturn upwards or downwards around the rotating shaft A15.

As a preferable mode of the present invention, the product pushing device C includes a connecting rod assembly C2, a slider C3, a guide rail C4, a push block C5, a push block fixing seat C6, a disk C7, a disk fixing shaft C8, a straight rod driving cylinder C9, a straight rod C10, and a rotating rod C11; the pushing block C5 is arranged right above the product conveying belt D; the guide rail C4 is fixed on the bottom frame F; one end of the disc fixing shaft C8 is rotatably connected with the bottom frame F; the other end of the disc fixing shaft C8 is fixedly connected with the circle center of the disc C7; one end of the connecting rod component C2 is hinged with the eccentric position of the disc C7; the other end of the connecting rod component C2 is hinged with a push block fixing seat C6; the slide block C3 is matched with the guide rail C4; the slider C3 is embedded into the guide rail C4; one end of the rotating rod C11 is rotatably connected with the push block fixing seat C6; one end of the push block C5 is fixed on the shaft body of the rotating rod C11; one end of the straight rod C10 is fixedly connected with the rod body of the rotating rod C11; the other end of the straight rod C10 is hinged with one end of a driving cylinder C9; the other end of the driving cylinder C9 is fixedly connected with a push block fixing seat C6; in an initial state, the lowest point of the push block C5 is higher than the highest point of a product on the product conveyor belt D, the straight rod C10 is driven to swing by the straight rod driving cylinder C9, and the rotating rod C11 rotates, so that the height of the foremost end of the push block C5 is lower than the highest point of the product; the rotating device C1 is a motor, and the disc C7 is driven to rotate by the motor, so that the connecting rod assembly C2 pushes the push block fixing seat C6 to slide along the direction of the guide rail C4, and drives the push block C5 on the rotating rod C11 to move, thereby realizing the pushing action of the product; the connecting rod assembly C2; the connecting rod assembly C2 comprises a front connecting piece C201, a connecting pipe C205, a movable shaft C208 and a rear connecting piece C2010; one end of the movable shaft C208 is fixed on the rear connecting piece C2010; a telescopic shaft C2012 is fixed at the other end of the movable shaft C208; the front connecting piece C201 is fixedly connected with one end of the connecting pipe C205; a slotted hole C205a is formed in the tube body of the connecting tube C205; the slotted hole C205a is arranged along the length direction of the connecting pipe C205; a signal pin C206 is arranged inside the slotted hole C205 a; the shaft body of the telescopic shaft C2012 is matched with the inner hole of the connecting pipe C205; the tail end of the telescopic shaft C2012 extends into the connecting pipe C205 and is fixedly connected with the signal pin C206; a spring C207 is sleeved outside the telescopic shaft C2012; one end of the spring C207 is fixed on the connecting pipe C205; the other end of the spring C207 is fixed on the movable shaft C208; a fixed bracket C203 is fixed on the connecting pipe C205; a proximity switch C2011 is fixed on the fixed support C203; the proximity switch C2011 is disposed opposite the slot C205 a.

As a preferable mode of the present invention, a waist-shaped hole C203a is provided on the fixing bracket C203; the waist-shaped hole C203a is arranged along the length direction of the connecting pipe C205; the proximity switch C2011 is arranged in the waist-shaped hole C203 a; the upper end and the lower end of the proximity switch C2011 are both provided with nuts C204; two ends of the proximity switch C2011 are respectively provided with an external thread matched with the nut C204; the two nuts C204 are respectively in threaded connection with external threads at two ends of the proximity switch C2011; two nuts C204 are respectively pressed on the upper side and the lower side of the fixed support C203; after the nut 204 is loosened, the proximity switch C2011 can slide on the waist-shaped hole C203a, so that the axial position of the proximity switch 2011 on the connecting pipe C205 is controlled, and the triggering position of the proximity switch C2011 is controlled; when the proximity switch C2011 slides in the direction of the front connector C201, the stroke of the trigger proximity switch C2011 is increased, so a larger resistance is required for the movable shaft C208 to align the control proximity switch C2011 with the signal pin C206.

As a preferable mode of the present invention, a first threaded rod C202 is disposed between the front connecting member C201 and the connecting tube C205; a first threaded hole C201a matched with the first threaded rod C202 is formed in the front connecting piece C201; one end of the first threaded rod C202 is in threaded connection with a first threaded hole C201 a; a second threaded hole C205b matched with the first threaded rod C202 is formed in the connecting pipe C205; the other end of the first threaded rod C202 is matched with a second threaded hole C205 b; the stroke of the push block C5 is adjusted by adjusting the total length of the whole front connecting piece C201 through rotating the first threaded rod C202 on the first threaded hole C201a or rotating the first threaded rod C202 on the second threaded hole C205 b.

As a preferable mode of the present invention, the movable shaft C208 and the rear connecting member C2010 support are provided with a second threaded rod C209; one end of the second threaded rod C209 is fixedly connected with the movable shaft C208; the rear connecting piece C2010 is provided with a third threaded hole C2010a matched with the second threaded rod C209; the third threaded hole C2010a is in threaded connection with a second threaded rod C209; the two threaded rods C209 rotate in the third threaded holes C2010a, so that the total length of the whole front connecting piece C201 is adjusted, and the stroke of the push block C5 is adjusted.

As a preferable mode of the present invention, the bag sealing device E comprises a lifting adjusting screw E3, a lifting block E5, a lifting guide shaft E11, and a lower fixing block E12 fixed on the bottom frame F; the lifting block E5 is provided with a lifting block guide hole E501 matched with the lifting guide shaft E11; an upper fixed block E2 is fixed at one end of the lifting guide shaft E11; the other end of the lifting guide shaft E11 passes through the lifting block guide hole E501 and then is fixed on the lower fixing block E12; a lifting adjusting nut E4 matched with the lifting adjusting screw E3 is fixed on the lifting block E5; the rod body of the lifting adjusting screw rod E3 is rotationally connected with an upper fixed block E2; a handle E1 is fixed at one end of the lifting adjusting screw rod E3; the other end of the lifting adjusting screw E3 is in threaded connection with a lifting adjusting nut E4; a sealing air cylinder E6 is fixed on the lifting block E5; a cutter fixing plate E7 is fixed at the piston rod end of the sealing cylinder E6; the bottom of the cutter fixing plate E7 is fixed with a cutter E10; heating wire connecting rods E8 are arranged on two sides of the cutter fixing plate E7; the cutter fixing plate E7 is provided with a connecting rod guide hole E701 matched with the heating wire connecting rod E8; one end of the heating wire connecting rod E8 is provided with a first fixing ring E801; the other end of the heating wire connecting rod E8 penetrates through the connecting rod guide hole E701 and then is fixedly connected with the heating wire E13; a second fixing ring E802 is arranged on the rod body of the heating wire connecting rod E8; a third spring E9 is sleeved outside the hot wire connecting rod E8; one end of the third spring E9 is pressed on the cutter fixing plate E7; the other end of the third spring E9 is arranged on a second fixing ring E802; the electrified heating wire E13 generates heat, so that the heating wire E13 is heated, the lifting adjusting screw E3 is rotated through the handle E1, the lifting block E5 is lifted on the lifting guide shaft E11, and the initial height of the lifting block E5 is adjusted; the sealing cylinder E6 drives the cutter fixing plate E7 to do lifting movement, the heating wire E13 is pressed on the bag, hot melting sealing of the bag is achieved, the cutter E10 and the heating wire E13 are arranged in a staggered mode, and the bag is cut and neat through the cutter E10.

When the utility model is used, the bag conveying line and the product conveying belt are both a conveying belt mechanism; a support frame is fixed on the bottom frame; a lower negative pressure adsorption plate is arranged at the edge of the bag conveying line; the upper negative pressure adsorption plate and the lower negative pressure adsorption plate are both communicated with negative pressure equipment; the bagging process comprises the following steps: firstly, a rack lifting device drives a rack to ascend or descend to realize the forward rotation and the reverse rotation of a gear; bags are stacked on the bottom plate of the bag warehouse, one end of each bag extends out of the discharge chute, and the lifting cylinder drives the suction nozzle on the suction nozzle fixing plate to move so as to realize the lifting of the suction nozzle; the suction force of the suction nozzle enables the bag to be sucked, the lifting cylinder moves downwards to enable one end of the bag to be pulled downwards, and the pressing block is enabled to be pressed on the surface of the cam all the time under the action of the spring; the motor is fixed on the motor fixing seat, the cam rotating shaft is fixed with the driven belt pulley, the motor, the driving belt pulley, the belt, the driven belt pulley and the cam rotating shaft drive the cam to rotate, so that the rack can do reciprocating motion along the direction of the guide rail, the gear rotates back and forth, and the bag turning and clamping device can turn up or down around the rotating shaft; after the swing rod is turned over, the bag is clamped between the pressing plate and the clamping plate, the clamping cylinder drives the bag, the pressing plate presses the bag on the clamping plate, the swing rod is turned over downwards to convey the bag onto a bag conveying line below the swing rod, and the bag is conveyed to a position right facing the product conveying belt through the bag conveying line; secondly, the bottom surface of the bag is adsorbed by the lower negative pressure adsorption plate, and the upper surface of the bag is adsorbed by the upper negative pressure adsorption plate; the adsorption plate lifting cylinder drives the upper negative pressure adsorption plate to move upwards, so that the bag is opened; thirdly, in an initial state, the lowest point of the push block is higher than the highest point of the product on the product conveying belt, the straight rod is driven by the straight rod driving cylinder to swing, and the rotating rod rotates to enable the height of the foremost end of the push block to be lower than the highest point of the product; the rotating device is a motor, the motor drives the disc to rotate, so that the connecting rod assembly pushes the push block fixing seat to slide along the direction of the guide rail, the push block on the rotating rod is driven to move, the pushing action of a product is realized, a product on the product conveying belt is opened in the bag in three steps, the upper negative pressure adsorption plate descends, the bag opening is closed, and negative pressures on the lower negative pressure adsorption plate and the upper negative pressure adsorption plate disappear; when the connecting rod component is designed, the front connecting piece is hinged at the eccentric position of the disc, the rear connecting piece is hinged on the pushing block fixing seat, the rotating disc drives the front connecting piece to do circular motion, so that the front connecting piece sequentially pushes the connecting pipe, the spring, the movable shaft and the rear connecting piece to move, the pushing block fixing seat drives the pushing block to do reciprocating motion along the direction of the guide rail under the action of the sliding block, the spring provides thrust for the movable shaft in the process, when a product is pushed out, the spring provides enough supporting force, so that the connecting pipe and the movable shaft cannot slide relatively, the signal pin and the proximity switch are staggered, the electrical signal of the proximity switch is unchanged, when the product is blocked, the resistance borne by the pushing block is increased, the disc continues to move, the connecting pipe moves towards the movable shaft, the signal pin slides on the groove hole while the spring is compressed, until the signal pin is just opposite to the, the electric signal of the proximity switch changes to stop the equipment; the structure can automatically stop when the material is blocked, so that the product is prevented from being crushed by the push block, and the economic loss is reduced; after the nut is loosened, the proximity switch can slide on the waist-shaped hole, the axial position of the proximity switch on the connecting pipe is controlled, and the triggering position of the proximity switch is controlled; when the proximity switch slides along the direction of the front connecting piece, the stroke of triggering the proximity switch is increased, so that the movable shaft needs larger resistance to align the control proximity switch with the signal pin; fourthly, conveying the bag filled with the product to the position right below a bag sealing device by a bag conveying line, enabling an electrified heating wire to generate heat to enable the heating wire to be heated, driving a cutter fixing plate to do lifting motion by a sealing cylinder, pressing the heating wire on the bag to realize hot melting sealing of the bag, arranging the cutter and the heating wire in a staggered mode, and cutting the bag to be neat by the cutter; the structure can realize automatic loading, bagging and sealing of bags and products, realize automation of bagging, greatly improve production efficiency and reduce labor intensity.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (10)

1. The utility model provides a full-automatic horizontal sack filling machine with automatic upward inhale bag and put bag mechanism which characterized in that: it comprises a bottom frame (F); an upper suction bag placing mechanism (A), a product pushing device (C), a product conveying belt (D), a bag sealing device (E) and a bag conveying line (G) are fixed on the bottom frame (F); the upper suction bag placing mechanism (A) and the bag sealing device are both arranged above the bag conveying line (G); the upper suction bag placing mechanism (A) is arranged at the input end of the bag conveying line (G); the bag sealing device (E) is arranged at the conveying end of the bag conveying line (G); the output end of the product conveying belt (D) is arranged between the bag sealing device (E) and the upper suction bag placing mechanism (A); the product pushing device (C) is arranged right above the product conveying belt (D); the product pushing device (C) is arranged at one end, close to the bag conveying line (G), of the product conveying belt (D).

2. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 1: the upper suction bag placing mechanism (A) comprises a bag storehouse bottom plate (A1), a rack (A9), a baffle (A13), a rotating shaft (A15), a rack lifting device, a lifting suction nozzle mechanism and two vertical plates (A2); the rotating shaft (A15) is arranged right above the bag conveying line (G); the two vertical plates (A2) are fixed on the bottom frame (F); the bag warehouse bottom plate (A1) and the baffle plate (A13) are both fixed between the two vertical plates (A2); the bag warehouse bottom plate (A1) is arranged opposite to the baffle (A13); a gap formed between the bag warehouse bottom plate (A1) and the baffle plate (A13) is a discharge chute (A19); the lifting suction nozzle mechanism is arranged right below the discharge chute (A19); the lifting suction nozzle mechanism is fixed on the vertical plate (A2); two ends of the rotating shaft (A15) are respectively and rotatably connected with the two vertical plates (A2); a turning bag clamping device (A14) is fixed on the shaft body of the rotating shaft (A15); one end of the rotating shaft (A15) is fixed with a gear (A3) meshed with the rack (A9); the gear (A3) is fixedly connected with the rotating shaft (A15); one end of the rack lifting device is fixed on a rack (A9); the other end of the rack lifting device is fixed on the vertical plate (A2).

3. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 2: the lifting suction nozzle mechanism comprises a lifting cylinder (A17) and a suction nozzle fixing plate (A18); one end of the lifting cylinder (A17) is fixed on the vertical plate (A2); the other end of the lifting cylinder (A17) is fixedly connected with a suction nozzle fixing plate (A18); a suction nozzle (A12) is fixed on the suction nozzle fixing plate (A18); the suction nozzle (A12) is arranged right below the discharge chute (A19).

4. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 2: the overturning bag clamping device (A14) consists of a swing rod (A1401), a clamping cylinder (A1402) and a pressing plate (A1403); one end of the swing rod (A1401) is fixed on the shaft body of the rotating shaft (A15); a splint (A1401a) is arranged at the other end of the swing rod (A1401); one end of the clamping cylinder (A1402) is fixed on the rod body of the swing rod (A1401); the other end of the clamping cylinder (A1402) is fixedly connected with the pressure plate (A1403); the pressing plate (A1403) is arranged between the clamping plate (A1401a) and the clamping cylinder (A1402).

5. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 2: the rack lifting device comprises a first spring (A7), a cam (A8) and a guide rail (A10); a sliding block fixing block (A202) is fixedly arranged on the vertical plate (A2); a sliding block (A11) matched with a guide rail (A10) is fixed on the sliding block fixing block (A202); the slider (A11) is embedded on the guide rail (A10); the rack (A9) is fixedly connected with the guide rail (A10); a cam rotating shaft (A801) is fixed on the rotation center of the cam (A8); the cam rotating shaft (A801) is rotatably connected with the vertical plate (A2); a pressing block (A901) is fixed at the bottom of the rack (A9); a pin (A201) is fixed on the vertical plate (A2); one end of the first spring (A7) is fixed on the pressing block (A901); the other end of the first spring (A7) is fixed on the pin (A201); the pressing piece (A901) is pressed on the surface of the cam (A8).

6. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 1: the product pushing device (C) comprises a connecting rod assembly (C2), a sliding block (C3), a guide rail (C4), a push block (C5), a push block fixing seat (C6), a disc (C7), a disc fixing shaft (C8), a straight rod driving cylinder (C9), a straight rod (C10) and a rotating rod (C11); the push block (C5) is arranged right above the product conveying belt (D); the guide rail (C4) is fixed on the bottom frame (F); one end of the disc fixed shaft (C8) is rotationally connected with the bottom frame (F); the other end of the disc fixed shaft (C8) is fixedly connected with the circle center position of the disc (C7); one end of the connecting rod component (C2) is hinged with the eccentric position of the disc (C7); the other end of the connecting rod component (C2) is hinged with the push block fixing seat (C6); the sliding block (C3) is matched with the guide rail (C4); the sliding block (C3) is embedded into a guide rail (C4), one end of a rotating rod (C11) is rotatably connected with a push block fixing seat (C6), one end of a push block (C5) is fixed on the rod body of the rotating rod (C11), one end of a straight rod (C10) is fixedly connected with the rod body of the rotating rod (C11), the other end of the straight rod (C10) is hinged with one end of a driving cylinder (C9), the other end of the driving cylinder (C9) is fixedly connected with a push block fixing seat (C6), a connecting rod assembly (C2) is fixed at the other end of the connecting rod assembly (C2) and comprises a front connecting piece (C201), a connecting pipe (C205), a movable shaft (C208) and a rear connecting piece (C2010), one end of the movable shaft (C208) is fixed on the rear connecting piece (C2010), a telescopic shaft (C2012) is fixed at the other end of the movable shaft (C208), the front connecting piece (C201) is fixedly connected with one end of the connecting pipe (C205), a slotted hole (C85C a) is arranged on the connecting pipe body of the The pipe (C205) is arranged in the longitudinal direction; a signal pin (C206) is arranged inside the slotted hole (C205 a); the shaft body of the telescopic shaft (C2012) is matched with the inner hole of the connecting pipe (C205); the tail end of the telescopic shaft (C2012) extends into the connecting pipe (C205) and then is fixedly connected with the signal pin (C206); a spring (C207) is sleeved outside the telescopic shaft (C2012); one end of the spring (C207) is fixed on the connecting pipe (C205); the other end of the spring (C207) is fixed on the movable shaft (C208); a fixed bracket (C203) is fixed on the connecting pipe (C205); a proximity switch (C2011) is fixed on the fixed support (C203); the proximity switch (C2011) is arranged opposite to the slotted hole (C205 a).

7. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight: a waist-shaped hole (C203a) is formed in the fixing support (C203); the waist-shaped hole (C203a) is arranged along the length direction of the connecting pipe (C205); the proximity switch (C2011) is arranged in the waist-shaped hole (C203 a); nuts (C204) are arranged at the upper end and the lower end of the proximity switch (C2011); two ends of the proximity switch (C2011) are respectively provided with an external thread matched with the nut (C204); the two nuts (C204) are respectively in threaded connection with external threads at two ends of the proximity switch (C2011); two nuts (C204) are respectively pressed on the upper side and the lower side of the fixed support (C203).

8. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight: a first threaded rod (C202) is arranged between the front connecting piece (C201) and the connecting pipe (C205); a first threaded hole (C201a) matched with the first threaded rod (C202) is formed in the front connecting piece (C201); one end of the first threaded rod (C202) is in threaded connection with a first threaded hole (C201 a); a second threaded hole (C205b) matched with the first threaded rod (C202) is formed in the connecting pipe (C205); the other end of the first threaded rod (C202) is matched with the second threaded hole (C205 b).

9. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight: a second threaded rod (C209) is arranged on the movable shaft (C208) and the rear connecting piece (C2010) bracket; one end of the second threaded rod (C209) is fixedly connected with the movable shaft (C208); the rear connecting piece (C2010) is provided with a third threaded hole (C2010a) matched with the second threaded rod (C209); the third threaded hole (C2010a) is in threaded connection with the second threaded rod (C209).

10. The full-automatic horizontal bagging machine with the automatic bag feeding and placing mechanism comprises the following components in parts by weight according to claim 1: the bag sealing device (E) comprises a lifting adjusting screw (E3), a lifting block (E5), a lifting guide shaft (E11) and a lower fixing block (E12) fixed on the bottom frame (F); the lifting block (E5) is provided with a lifting block guide hole (E501) matched with the lifting guide shaft (E11); an upper fixing block (E2) is fixed at one end of the lifting guide shaft (E11); the other end of the lifting guide shaft (E11) passes through the lifting block guide hole (E501) and then is fixed on the lower fixing block (E12); a lifting adjusting nut (E4) matched with the lifting adjusting screw rod (E3) is fixed on the lifting block (E5); the rod body of the lifting adjusting screw rod (E3) is rotationally connected with an upper fixed block (E2); a handle (E1) is fixed at one end of the lifting adjusting screw rod (E3); the other end of the lifting adjusting screw rod (E3) is in threaded connection with a lifting adjusting nut (E4); a sealing cylinder (E6) is fixed on the lifting block (E5); a cutter fixing plate (E7) is fixed at the piston rod end of the sealing cylinder (E6); the bottom of the cutter fixing plate (E7) is fixed with a cutter (E10); heating wire connecting rods (E8) are arranged on two sides of the cutter fixing plate (E7); the cutter fixing plate (E7) is provided with a connecting rod guide hole (E701) matched with the heating wire connecting rod (E8); one end of the heating wire connecting rod (E8) is provided with a first fixing ring (E801); the other end of the heating wire connecting rod (E8) passes through the connecting rod guide hole (E701) and then is fixedly connected with the heating wire (E13); a second fixing ring (E802) is arranged on the rod body of the heating wire connecting rod (E8); the hot wire connecting rod (E8) is sleeved with a third spring (E9); one end of the third spring (E9) is pressed on the cutter fixing plate (E7); the other end of the third spring (E9) is arranged on a second fixing ring (E802).

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