CN202011182U - Multifunctional bag making machine - Google Patents

Abstract

The utility model discloses a multifunctional bag making machine which consists of a frame, a feeding mechanism, a transitional frame, at least one machining device and a portal frame; a feeding mechanism installation position, a transitional frame installation position and a plurality of machining device installation positions are arranged on the frame according to working sequence; a spindle connected with a power source is arranged on the machining device installation positions, and a cam is fixedly sleeved on the spindle; the feeding mechanism, the transitional frame and the machining device are installed on the frame according to the working sequence, and the machining device is connected with the cam sleeved on the spindle by a cam connecting rod; and the portal frame is installed on the frame. As the machining device installation positions are arranged on the frame, various machining devices can be quickly installed on the machining device installation positions and connected with the cam sleeved on the spindle by the cam connecting rod to realize power transmission, so as to finish different machining functions as needed, therefore, the multifunctional bag making machine has the advantage of diverse machining functions.

Description

Multi-functional Bag Making Machine

Technical field

The utility model relates to a kind of polybag production equipment, particularly relates to a kind of multi-functional Bag Making Machine.

Background technology

Polybag has number of different types, and as refuse bag, these all are flat mouthful polybags for freshness protection packages etc., and the shopping bag in the supermarket because two handles are arranged, and is convenient for people to handling, and we are referred to as plastic bag.

For the production of polybag, based on the collection mode difference of finished product, the technical process of its processing is also different.Then need in process of production for polybag (as plastic bag), it is carried out the punch die moulding, form last finished product.So, need a kind of device that is used for film is carried out punch die.For the production of some special bag types, in process of production, it is bonding to allow film carry out layering, so that reach the finished product of final needs.For this reason, the dealer need research and develop a kind of above function all can being integrated, the disposable machinery equipment of producing needed finished product.

The utility model content

The purpose of this utility model is to provide a kind of and has multiple machining functions, operates steadily, automation is efficient, the multi-functional Bag Making Machine of reliable in action.

For achieving the above object, technical solution of the present utility model is:

The utility model is a kind of multi-functional Bag Making Machine, and it mainly is made up of frame, feed mechanism, transition frame, at least one processing unit (plant), portal frame; Described feed mechanism, transition frame, at least one processing unit (plant) are installed on the frame according to job order, and portal frame is installed on the frame; Be provided with feed mechanism installation position, transition frame installation position, a plurality of processing unit (plant)s installation position according to job order on the described frame, on a plurality of processing unit (plant)s installation position, all be provided with the main shaft that is connected with power source, fixedly sleeved cam on this main shaft; Described at least one processing unit (plant) is connected with cam on being socketed in main shaft by cam link.

Described a plurality of processing unit (plant)s installation position is three, between the first processing unit (plant) installation position and the second processing unit (plant) installation position, be provided with portal frame between the second processing unit (plant) installation position and the 3rd processing unit (plant) installation position; On the first processing unit (plant) installation position of frame, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position, all be provided with the main shaft that is connected with power source, fixedly sleeved cam on this main shaft.

Described at least one processing unit (plant) is respectively layering adhering device, heat seal device, die set, and described layering adhering device, heat seal device, die set are installed on the first processing unit (plant) installation position, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position of frame respectively and are connected with cam on being socketed in main shaft by cam link respectively.

Described at least one processing unit (plant) is a heat seal device, and described heat seal device is installed on the 3rd processing unit (plant) installation position of frame and is connected with cam on being socketed in main shaft by cam link respectively.

Described at least one processing unit (plant) is respectively heat seal device, die set, and described heat seal device, die set are installed on the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position of frame respectively and are connected with cam on being socketed in main shaft by cam link respectively.

Described at least one processing unit (plant) is respectively die set, heat seal device, is connected with cam on being socketed in main shaft by cam link on the first processing unit (plant) installation position that described die set and heat seal device are installed in frame respectively and the 3rd processing unit (plant) installation position and respectively.

Described layering adhering device mainly by the guiding mount pad, go up the heat-fastening knife mount pad, down the heat-fastening knife mount pad, go up heat-fastening knife, down heat-fastening knife, dividing plate, go up guide post, down guide post, overhead cam connecting rod, cam link, cam, main shaft are formed down; The described heat-fastening knife of going up is oppositely arranged and is installed in respectively on heat-fastening knife mount pad and the following heat-fastening knife mount pad with following heat-fastening knife, and described dividing plate is arranged between heat-fastening knife and the following heat-fastening knife opposite face, offers a groove respectively on the upper and lower surface of dividing plate; The described affixed respectively guide post of going up in two ends of going up the heat-fastening knife mount pad is gone up guide post for these two and is passed down through behind guiding mount pad and the following heat-fastening knife mount pad and two overhead cam rod hinge connections, and the lower end of overhead cam connecting rod is connected with cam; Described heat-fastening knife mount pad slip cap down is connected on two following guide posts, and the upper end of two following guide posts is fixed on the guiding mount pad, and the lower end of two following guide posts is hinged with two following cam links respectively, and the lower end of following cam link is connected with cam; Described cam is fixedly sleeved on main shaft.

Described upward guide post, following guide post all are set in down on the heat-fastening knife mount pad by the guide bearing activity.

One end of described main shaft is provided with the duplex chain wheel that is connected with power source.

The described heat-fastening knife of going up is oppositely arranged with following heat-fastening knife and is set on heat-fastening knife mount pad and the following heat-fastening knife mount pad by the activity of knife rest pressure ring swivel nut respectively.

Described die set mainly by knife plate mount pad, knife plate, template, template mount pad, guiding mechanism, heat seal push rod, cam link, cam, main shaft, initiatively rubber roll, driven rubber roll, on blow afloat pipe, time gas blow pipe is formed; Described active rubber roll and driven rubber roll are oppositely arranged and rubber roll and driven rubber roll is rotating is installed on the template mount pad initiatively, and initiatively an end of rubber roll passes framework lateral plate and this traversing through end is connected with power source by synchronous pulley; Blow afloat on described pipe, down gas blow pipe and rubber roll initiatively, driven rubber roll be arranged in parallel and be installed on the template mount pad; Described template mount pad is installed on the frame, and the knife plate mount pad connects with the template mount pad by guiding mechanism and can move up and down by relative template mount pad, and knife plate and template are oppositely arranged and are installed in respectively on knife plate mount pad and the template mount pad; Described two heat seal push rods are located in the two ends of template mount pad by the bearing activity, the upper end of two heat seal push rods is affixed with the two ends of knife plate mount pad respectively, the lower end of two heat seal push rods and the upper end of cam link are hinged, and the lower end of cam link is connected on the cam; Described cam is socketed on the main shaft, and main shaft is rotatable to be installed on the framework lateral plate.

The utility model also comprises counting gear, encoder, encoder mount pad; Described counting gear is installed in an end of main shaft, and encoder is fixed on the frame by the encoder mount pad and encoder gear and counting gear engagement on the encoder.

Described guiding mechanism is made of guide post and guide pin bushing; Described guide post is installed on the template mount pad, and guide pin bushing is installed in the knife plate mount pad, and the guide post activity is placed through in the guide pin bushing.

The utility model also comprises a waste material bucket, and this waste material bucket is fixed on the framework lateral plate, and its waste material inlet is over against the die mouth of template, and outlet reaches outside the framework lateral plate.

Described feed mechanism mainly is made up of feeding side plate, active roll, driven running roller, feeding motor, plain bearing housing, depression bar, Pressure-bar spring; Described feeding side plate has two, is oppositely arranged and is installed on the frame; Described active roll and driven running roller are oppositely arranged, the two ends of active roll are rotating to be installed on the feeding side plate, on the feeding side plate, slip plain bearing housing is arranged, depression bar middle part fixedly be located on the feeding side plate and slip on plain bearing housing its end, Pressure-bar spring is socketed on the depression bar and the two ends of Pressure-bar spring lean respectively on the annular lip of plain bearing housing and depression bar; Described feeding motor is connected with active roll by transmission mechanism, drives the active roll rotation.

After adopting such scheme, because the utility model is provided with a plurality of processing unit (plant)s installation position on frame, various processing unit (plant)s can be installed on the processing unit (plant) installation position fast, and be connected with cam on being socketed in main shaft by cam link, realize the transmission of power, can finish different machining functions according to needs, have the various advantage of machining functions.In addition, go up heat-fastening knife and the action of following heat-fastening knife, can effectively reach the bonding purpose of layering, well reach the production technology demand because layering adhering device of the present utility model adopts cam structure to drive.Again because die set of the present utility model passes through the upper and lower motion of knife plate on cam, cam link, the heat seal top rod driving knife plate mount pad, the knife plate of upper and lower motion cooperates with template realizes the punch die action, makes the utility model work operation stable more, reliable.In addition, produce polybag, can reach the purpose of punch die, make that adopting machine of the present utility model can carry out automation produces efficiently by adopting die stamping mode of the present utility model.

Below in conjunction with the drawings and specific embodiments the utility model is further described.

Description of drawings

Fig. 1 is an axonometric drawing of the present utility model;

Fig. 2 is a three-dimensional exploded view of the present utility model;

Fig. 3 is the axonometric drawing of the utility model feed mechanism;

Fig. 4 is the axonometric drawing of overlooking of the utility model layering adhering device;

Fig. 5 is the axonometric drawing of looking up of the utility model layering adhering device;

Fig. 6 is the right ward axis mapping of the utility model die set;

Fig. 7 is the left-hand axonometric drawing of the utility model die set;

Fig. 8 is the back to axonometric drawing of the utility model die set;

Fig. 9 is the front view of the utility model die set;

Figure 10 is the side view of the utility model die set;

Figure 11 is the vertical view of the utility model die set;

Figure 12 is the cutaway view of Fig. 9 along the A-A line.

The specific embodiment

As shown in Figure 1 and Figure 2, the utility model is a kind of multi-functional Bag Making Machine, and it mainly is made up of frame 1, feed mechanism 2, transition frame 3, first processing unit (plant) 4, second processing unit (plant) 5, the 3rd processing unit (plant) 6, portal frame 71,72.

Be provided with feed mechanism installation position, transition frame installation position, the first processing unit (plant) installation position, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position according to job order on the described frame 1.Be provided with portal frame 72 being provided with between portal frame 71, the second processing unit (plant) installation positions and the 3rd processing unit (plant) installation position between the first processing unit (plant) installation position and the second processing unit (plant) installation position.

On the first processing unit (plant) installation position of frame 1, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position, all be provided with the main shaft 12 that is connected with power source, fixedly sleeved cam 13 on this main shaft 12.

Described first processing unit (plant) 4, second processing unit (plant) 5, the 3rd processing unit (plant) 6 are respectively layering adhering device 4, heat seal device 5, die set 6.Described feed mechanism 2, transition frame 3, layering adhering device 4, heat seal device 5, die set 6 are installed on the frame 1 according to job order, and layering adhering device 4, heat seal device 5, die set 6 are connected with cam 13 by cam link respectively.

As shown in Figure 3, described feed mechanism 2 mainly is made up of feeding side plate 21, active roll 22, driven running roller 23, feeding motor 24, plain bearing housing 25, depression bar 26, Pressure-bar spring 27.Described feeding side plate 21 has two, is oppositely arranged and is installed on the frame 1; Described active roll 22 and driven running roller 23 are oppositely arranged, the two ends of active roll 22 are rotating to be installed on the feeding side plate 21, slipping on feeding side plate 21 has plain bearing housing 25, depression bar 26 middle parts fixedly be located on the feeding side plate 21 and slip on plain bearing housing 25 its end, Pressure-bar spring 27 is socketed on the depression bar 26 and the two ends of Pressure-bar spring 27 lean respectively on the annular lip 261 of plain bearing housing 25 and depression bar 26; Described feeding motor 24 is connected with active roll 22 by transmission mechanism 28, drives active roll 22 rotations.

As Fig. 4, shown in Figure 5, described layering adhering device 4 mainly by guiding mount pad 41, go up heat-fastening knife mount pad 42, down heat-fastening knife mount pad 43, go up heat-fastening knife 44, down heat-fastening knife 45, knife rest pressure ring swivel nut 46, dividing plate 47, silica gel strip 48, go up guide post 49, guide post 410, guide bearing 420, cam link (comprising overhead cam connecting rod 430 and following cam link 440), duplex chain wheel 470, heat seal cloth roll bar 480 are formed down.

The described heat-fastening knife 44 of going up is oppositely arranged with following heat-fastening knife 45 and is set on heat-fastening knife mount pad 42 and the following heat-fastening knife mount pad 43 by 46 activities of knife rest pressure ring swivel nut respectively.Because knife rest pressure ring swivel nut 46 inside are provided with spring, when heat-fastening knife presses down, can play cushioning effect.

Described dividing plate 47 is arranged between heat-fastening knife 44 and following heat-fastening knife 45 opposite faces, offers a groove 471 respectively on dividing plate 47 upper and lower surfaces, is provided with silica gel strip 48 on the groove 471 on dividing plate 47 upper and lower surfaces.On last heat-fastening knife 44, following heat-fastening knife 45, be provided with heat seal cloth roll bar 480.

The described affixed respectively guide post 49 of going up in two ends of going up heat-fastening knife mount pad 42, go up guide post 49 to pass guiding mount pad 41 and following heat-fastening knife mount pad 43 backs and two overhead cam connecting rods 430 by guide bearing 420 activities downwards hinged for these two, the lower end of overhead cam connecting rod 430 is connected with cam 13; Described heat-fastening knife mount pad 43 down is connected on two following guide posts 410 by guide bearing 420 slip caps, the upper end of two following guide posts 410 is fixed on the guiding mount pad 41, the following cam link of the lower end of two following guide posts 410 and two 440 is hinged, and the lower end of following cam link 440 is connected with cam 13; Described cam 13 is fixedly sleeved on main shaft 12, is provided with the duplex chain wheel 470 that is connected with power source at an end of main shaft 12.

Described layering adhering device 4 operation principles are as follows:

1, film is entering into the process of the utility model, can be divided into two parts up and down by a dividing plate 47 earlier, is entering into the utility model then.

2, in the utility model, respectively film is carried out heat seal by last heat-fastening knife 44, following heat-fastening knife 45.Last heat-fastening knife 44 and moving up and down of following heat-fastening knife 45 are driven by cam 13, and cam 13 rotates a circle, and last heat-fastening knife 44 and following heat-fastening knife 45 carry out heat seal once respectively.When the invariablenes turning speed of main shaft 12, the time of last heat-fastening knife 44 and following heat-fastening knife 45 each heat seals is constant, like this need be according to the needs of bag length, the speed of change film movement, can change production bag length.

3, in the process of heat seal, heat seal is carried out simultaneously up and down.The drive device cam 13 of last heat- fastening knife 44 and 45 motions of following heat-fastening knife is contained on the same main shaft 12, to guarantee the synchronism of this process.

As Fig. 6-shown in Figure 11, described polybag die set 6 mainly by knife plate mount pad 62, knife plate 63, template 64, template mount pad 65, guiding mechanism 66, heat seal push rod 67, cam link 68, initiatively rubber roll 620, driven rubber roll 630, on blow afloat pipe 640, gas blow pipe 650, counting gear 660, encoder 670, encoder mount pad 680, waste material bucket 690 are formed down.

With reference to shown in Figure 12, described active rubber roll 620 and driven rubber roll 630 are oppositely arranged and active rubber roll 620 and driven rubber roll 630 rotating being installed on the template mount pad 65, and an end of active rubber roll 630 passes frame 1 side plate 11 and this traversing through end passes through synchronous pulley 6301(as shown in Figure 7) be connected with power source.Blow afloat on described pipe 640, down gas blow pipe 650 and rubber roll 620 initiatively, driven rubber roll 630 be arranged in parallel and be installed on the template mount pad 65.

Described template mount pad 65 is installed on the frame 1, knife plate mount pad 62 connects with template mount pad 65 by guiding mechanism 66 and can move up and down by relative template mount pad 65, and knife plate 63 and template 64 are oppositely arranged (as shown in Figure 9) and are installed in respectively on knife plate mount pad 62 and the template mount pad 65.Described guiding mechanism 66 is made of guide post 661 and guide pin bushing 662; Described guide post 661 is installed on the template mount pad 65, and guide pin bushing 662 is installed in knife plate mount pad 62, and guide post 661 activities are placed through in the guide pin bushing 662.

Described two heat seal push rods 67 are located in the two ends of template mount pad 65 by the bearing activity, the upper end of two heat seal push rods 67 is affixed with the two ends of knife plate mount pad 62 respectively, the upper end of the lower end of two heat seal push rods 67 and cam link 68 is hinged, and the lower end of cam link 68 is connected on the cam 13; Described cam 13 is fixedly sleeved on main shaft 12, main shaft 12 rotatable being installed on frame 1 side plate 11.

Described counting gear 660 is installed in an end of main shaft 12, and encoder 670 is fixed on the frame 1 by encoder mount pad 680 and encoder gear 6701 and counting gear 660 engagements (showing as Figure 10) on the encoder 670

Described waste material bucket 690 is fixed on frame 1 side plate 11, and its waste material inlet is over against the die mouth (as Fig. 9, shown in Figure 12) of template 64, and outlet reaches outside frame 1 side plate 11, so that waste material is discharged.

The operation principle of described polybag die set 6:

1, film forms one hot thread through behind the heat seal device on film.Enter into the utility model then.

2, when entering the utility model, having initiatively on the utility model, rubber roll 620, driven rubber roll 630 carry out feeding initiatively.Detect and configure the parameters such as length of feeding by electric eye, initiatively rubber roll 620 and driven rubber roll 630 can be delivered to film between knife plate 63 and the template 64, cut punch forming.

3, after film comes out from active rubber roll 620 and driven rubber roll 630, on blow afloat pipe 640 and following gas blow pipe 650 can be started working, make dropping on the template 64 that film can be smooth.

4, knife plate 63 punching presses then, punch forming on the position that configures of film forms the product of expecting, allows film enter into gathering-device then.

5, in the course of the work, can produce some waste materials, waste material is discharged from waste material bucket 690.

Present embodiment can be used as the production of eight folding polybags.But individual can even be rolled up, and extendable functions: the layering adhering device 4 on the first processing unit (plant) installation position is installed (heat-fastening knife respectively can be shared one up and down) in frame 1 bilateral symmetry, become the two-wire production model.

In addition, in the utility model, first processing unit (plant) 4, second processing unit (plant) 5, the 3rd processing unit (plant) 6 can be selected to use according to needs, form following different embodiment:

Embodiment 1: only select for use heat seal device 5 as second processing unit (plant) 5, this heat seal device 5 is installed on the 3rd processing unit (plant) installation position of frame, and be connected with cam 13 on being socketed in main shaft 12 by cam link.Present embodiment can be made flat pocket.Simultaneously, according to the difference of these heat seal device 5 heat-fastening knifes, can be individual, after connect punch press, make whole polybag, also can be that polybag is rolled up by the company of doing, after connect winder.

Embodiment 2: select for use heat seal device 5, die set 6 as second processing unit (plant) 5, the 3rd processing unit (plant) 6, described heat seal device 5, die set 6 are installed in respectively on the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position of frame 1, and are connected with cam 13 on being socketed in main shaft 12 by cam link respectively.Connect folding bag machine behind the present embodiment, the punch die of can saying good-bye.If the die set of present embodiment 6 connects winder after adopting different blanking knife models also, can the company's of doing volume bag.

Embodiment 3: select for use die set 6, heat seal device 5 as second processing unit (plant) 5, the 3rd processing unit (plant) 6, described die set 6 and heat seal device 5 are installed in respectively on the first processing unit (plant) installation position and the 3rd processing unit (plant) installation position of frame, and are connected with cam 13 on being socketed in main shaft 12 by cam link.In this embodiment, what die set 6 was installed is the waveform cutting die, the S shape bag of can companys of production rolling up.

Invention of the present utility model focuses on: be provided with a plurality of processing unit (plant)s installation position on frame, various processing unit (plant)s can be connected with cam on being socketed in main shaft by cam link, realize the transmission of power.

Claims (15)

1. multi-functional Bag Making Machine, it mainly is made up of frame, feed mechanism, transition frame, at least one processing unit (plant), portal frame; Described feed mechanism, transition frame, at least one processing unit (plant) are installed on the frame according to job order, and portal frame is installed on the frame; It is characterized in that: be provided with feed mechanism installation position, transition frame installation position, a plurality of processing unit (plant)s installation position according to job order on the described frame, on a plurality of processing unit (plant)s installation position, all be provided with the main shaft that is connected with power source, fixedly sleeved cam on this main shaft; Described at least one processing unit (plant) is connected with cam on being socketed in main shaft by cam link.

2. multi-functional Bag Making Machine according to claim 1, it is characterized in that: described a plurality of processing unit (plant)s installation position is three, between the first processing unit (plant) installation position and the second processing unit (plant) installation position, be provided with portal frame between the second processing unit (plant) installation position and the 3rd processing unit (plant) installation position; On the first processing unit (plant) installation position of frame, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position, all be provided with the main shaft that is connected with power source, fixedly sleeved cam on this main shaft.

3. multi-functional Bag Making Machine according to claim 1, it is characterized in that: described at least one processing unit (plant) is respectively layering adhering device, heat seal device, die set, and described layering adhering device, heat seal device, die set are installed on the first processing unit (plant) installation position, the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position of frame respectively and are connected with cam on being socketed in main shaft by cam link respectively.

4. multi-functional Bag Making Machine according to claim 1, it is characterized in that: described at least one processing unit (plant) is a heat seal device, and described heat seal device is installed on the 3rd processing unit (plant) installation position of frame and is connected with cam on being socketed in main shaft by cam link respectively.

5. multi-functional Bag Making Machine according to claim 1, it is characterized in that: described at least one processing unit (plant) is respectively heat seal device, die set, and described heat seal device, die set are installed on the second processing unit (plant) installation position, the 3rd processing unit (plant) installation position of frame respectively and are connected with cam on being socketed in main shaft by cam link respectively.

6. multi-functional Bag Making Machine according to claim 1, it is characterized in that: described at least one processing unit (plant) is respectively die set, heat seal device, is connected with cam on being socketed in main shaft by cam link on the first processing unit (plant) installation position that described die set and heat seal device are installed in frame respectively and the 3rd processing unit (plant) installation position and respectively.

7. multi-functional Bag Making Machine according to claim 3 is characterized in that: described layering adhering device mainly by the guiding mount pad, go up the heat-fastening knife mount pad, down the heat-fastening knife mount pad, go up heat-fastening knife, down heat-fastening knife, dividing plate, go up guide post, down guide post, overhead cam connecting rod, cam link, cam, main shaft are formed down; The described heat-fastening knife of going up is oppositely arranged and is installed in respectively on heat-fastening knife mount pad and the following heat-fastening knife mount pad with following heat-fastening knife, and described dividing plate is arranged between heat-fastening knife and the following heat-fastening knife opposite face, offers a groove respectively on the upper and lower surface of dividing plate; The described affixed respectively guide post of going up in two ends of going up the heat-fastening knife mount pad is gone up guide post for these two and is passed down through behind guiding mount pad and the following heat-fastening knife mount pad and two overhead cam rod hinge connections, and the lower end of overhead cam connecting rod is connected with cam; Described heat-fastening knife mount pad slip cap down is connected on two following guide posts, and the upper end of two following guide posts is fixed on the guiding mount pad, and the lower end of two following guide posts is hinged with two following cam links respectively, and the lower end of following cam link is connected with cam; Described cam is fixedly sleeved on main shaft.

8. multi-functional Bag Making Machine according to claim 7 is characterized in that: described upward guide post, following guide post all are set in down on the heat-fastening knife mount pad by the guide bearing activity.

9. multi-functional Bag Making Machine according to claim 7 is characterized in that: an end of described main shaft is provided with the duplex chain wheel that is connected with power source.

10. multi-functional Bag Making Machine according to claim 7 is characterized in that: the described heat-fastening knife of going up is oppositely arranged with following heat-fastening knife and is set on heat-fastening knife mount pad and the following heat-fastening knife mount pad by the activity of knife rest pressure ring swivel nut respectively.

11. multi-functional Bag Making Machine according to claim 3 is characterized in that: described die set mainly by knife plate mount pad, knife plate, template, template mount pad, guiding mechanism, heat seal push rod, cam link, cam, main shaft, initiatively rubber roll, driven rubber roll, on blow afloat pipe, time gas blow pipe is formed; Described active rubber roll and driven rubber roll are oppositely arranged and rubber roll and driven rubber roll is rotating is installed on the template mount pad initiatively, and initiatively an end of rubber roll passes framework lateral plate and this traversing through end is connected with power source by synchronous pulley; Blow afloat on described pipe, down gas blow pipe and rubber roll initiatively, driven rubber roll be arranged in parallel and be installed on the template mount pad; Described template mount pad is installed on the frame, and the knife plate mount pad connects with the template mount pad by guiding mechanism and can move up and down by relative template mount pad, and knife plate and template are oppositely arranged and are installed in respectively on knife plate mount pad and the template mount pad; Described two heat seal push rods are located in the two ends of template mount pad by the bearing activity, the upper end of two heat seal push rods is affixed with the two ends of knife plate mount pad respectively, the lower end of two heat seal push rods and the upper end of cam link are hinged, and the lower end of cam link is connected on the cam; Described cam is socketed on the main shaft, and main shaft is rotatable to be installed on the framework lateral plate.

12. multi-functional Bag Making Machine according to claim 10 is characterized in that: it also comprises counting gear, encoder, encoder mount pad; Described counting gear is installed in an end of main shaft, and encoder is fixed on the frame by the encoder mount pad and encoder gear and counting gear engagement on the encoder.

13. multi-functional Bag Making Machine according to claim 10 is characterized in that: described guiding mechanism is made of guide post and guide pin bushing; Described guide post is installed on the template mount pad, and guide pin bushing is installed in the knife plate mount pad, and the guide post activity is placed through in the guide pin bushing.

14. multi-functional Bag Making Machine according to claim 10 is characterized in that: it also comprises a waste material bucket, and this waste material bucket is fixed on the framework lateral plate, and its waste material inlet is over against the die mouth of template, and outlet reaches outside the framework lateral plate.

15. multi-functional Bag Making Machine according to claim 1 is characterized in that: described feed mechanism mainly is made up of feeding side plate, active roll, driven running roller, feeding motor, plain bearing housing, depression bar, Pressure-bar spring; Described feeding side plate has two, is oppositely arranged and is installed on the frame; Described active roll and driven running roller are oppositely arranged, the two ends of active roll are rotating to be installed on the feeding side plate, on the feeding side plate, slip plain bearing housing is arranged, depression bar middle part fixedly be located on the feeding side plate and slip on plain bearing housing its end, Pressure-bar spring is socketed on the depression bar and the two ends of Pressure-bar spring lean respectively on the annular lip of plain bearing housing and depression bar; Described feeding motor is connected with active roll by transmission mechanism, drives the active roll rotation.

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