CN203714216U - Automatic supersonic packaging machine - Google Patents

Abstract

The utility model discloses an automatic supersonic packaging machine, which is used for performing film packaging on a tetragonal material. The automatic supersonic packaging machine comprises a rack, film laminating devices, an X direction supersonic sealing cutting device, a Y direction supersonic sealing cutting device, a Z direction supersonic sealing cutting device and a transfer device; the rack is provided with a machining channel for allowing the tetragonal material to penetrate; the film laminating devices are arranged at the up and down sides of the machining channel; the machining channel is provided with a first station and a second station along the penetrating direction of the tetragonal material; the X direction supersonic sealing cutting device is arranged at the charging side of the first station; one of the Y direction supersonic sealing cutting device and the Z direction supersonic sealing cutting device is vertically movably arranged at the upside of the second station while the other is vertically movably arranged at the downside of the second station; the transfer device is used for driving the tetragonal material to penetrate in the machining channel. One single layer of film uniformly wraps the surface of the tetragonal material subjected to the film packaging.

Description

Super sonic automatic-packaging

Technical field

The utility model relates to a kind of packaging machine, relates in particular to a kind of for tetragonal body material being carried out to the super sonic automatic-packaging of thin-film package.

Background technology

To the packing of product, generally adopt profile to be the packing box of tetragonal body at present, the product design size after tetragonal body packing box packing is unified, conveniently picks and places location, has good shock-proof shatter-resistant performance simultaneously.In tetragonal body packing box outer cladding one plastics sealer, so that the product after packing can be waterproof and dampproof, extend pot life, ensure properties of product.

On tetragonal body packing box, be generally printed with product information, such as brand, shelf-life, name of product, purposes, usage etc.Color and luster is beautiful, pack gratifying packing box can also play good the effect of publicity, improves user's desire to buy.And the plastics sealer in tetragonal body packing box outside has multilayer folding conventionally, folding laminated plastics sealer is not easy to user and reads product information, can not play good publicity and description effect.

To this, need badly and a kind ofly can carry out to tetragonal body packing box the automatic-packaging of single thin film encapsulation.

Utility model content

The purpose of this utility model is to provide a kind ofly can carry out to tetragonal body packing box the automatic-packaging of single thin film encapsulation.

To achieve these goals, the utility model discloses a kind of super sonic automatic-packaging, for tetragonal body material is carried out to thin-film package, described super sonic automatic-packaging comprises frame, film covering device, X-direction super sonic sealing-cutting device, Y-direction super sonic sealing-cutting device, Z-direction super sonic sealing-cutting device and transfer device, described erecting is equipped with the processing channel passing for described tetragonal body material, described film covering device is arranged at the both sides up and down of described processing channel, and described processing channel is provided with the first station and the second station along the direction of walking of described tetragonal body material; Described X-direction super sonic sealing-cutting device is arranged at the feed side of described the first station, one in described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device can be arranged at the upside of described the second station up or down, and the another one in described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device can be arranged at the downside of described the second station up or down; Described transfer device is used for driving described tetragonal body material to walk in described processing channel.

Compared with prior art, the super sonic automatic-packaging that the utility model provides has X-direction super sonic sealing-cutting device, Y-direction super sonic sealing-cutting device and Z-direction super sonic sealing-cutting device, tetragonal body material is walked under transfer device drives in processing channel, when tetragonal body material is transferred to the first station, X-direction super sonic sealing-cutting device carries out sealing to the film of tetragonal body material feeding side, after sealing, be coated on the phase of the film up and down sealing-in of this tetragonal body material, and after sealing, depart from the also phase sealing-in of film up and down of this tetragonal body material one side; Be covered with the tetragonal body material of film from the first station is transferred to the second station, Y-direction super sonic sealing-cutting device moves to the second station, the film that both sides before and after tetragonal body material are protruded carries out sealing, both sides, the front and back film phase sealing-in of this tetragonal body material after sealing, subsequently, Y-direction super sonic sealing-cutting device moves reset; Z-direction super sonic sealing-cutting device moves to the second station, and the film of four seamed edges of tetragonal body material Z-direction is carried out to sealing, four seamed edge film phase sealing-ins of this tetragonal body material after sealing, and subsequently, Z-direction super sonic sealing-cutting device moves reset; Transfer device drives the tetragonal body material after having encapsulated to leave processing channel.By the tetragonal body material after this super sonic automatic-packaging encapsulation overlay film, coated with uniform has single thin film, thereby user can see through single thin film and read easily product information, thereby plays good publicity and description effect.

Preferably, described film covering device comprises upside film-covering mechanism, downside film-covering mechanism and synchronous driving mechanism, described upside film-covering mechanism and described downside film-covering mechanism are arranged at respectively the both sides up and down of described processing channel, and described upside film-covering mechanism and described downside film-covering mechanism comprise respectively film support assembly and film tension assembly; Described synchronous driving mechanism comprises the first guide in the membrane direction that is arranged at described upside film-covering mechanism, be arranged at the second guide and synchronous driving part in the membrane direction of described downside film-covering mechanism, described the first guide and described the second guide offer respectively vertical guide groove, described synchronous driving part is four rectangular bar frameworks, and the upper boom of described synchronous driving part and lower beam are arranged in respectively the vertical guide groove of described the first guide and described the second guide; The rate of feed of synchronous driving institutional adjustment upside film-covering mechanism and downside film-covering mechanism, the rate of feed of upside film-covering mechanism and downside film-covering mechanism is equated, the sealing-in seam of X-direction super sonic sealing-cutting device is positioned at the center line of tetragonal body material, thereby make the sealing-in seam of X-direction super sonic sealing-cutting device and Y-direction super sonic sealing-cutting device be connected to form a circumferential seam, improve overlay film intensity.

Particularly, the upper boom of described synchronous driving part and the cross-sectional plane of lower beam are all rounded; The upper boom of synchronous driving part and the cross-sectional plane of lower beam are rounded, and the friction being subject to the film reducing through synchronous driving part reduces deformation of thin membrane.

Particularly, the upper boom of described synchronous driving part and lower beam are all connected in front bar and the rear bar of described synchronous driving part rotationally; The upper boom of synchronous driving part and lower beam are connected in front bar and the rear bar of synchronous driving part rotationally, making the friction between film and synchronous driving part is friction of rolling, further reduce the friction force that film is subject to, prevent deformation of thin membrane, improve the packaging effect of tetragonal body material.

Preferably, the transfer direction of described transfer device is parallel to described processing channel.

Preferably, described X-direction super sonic sealing-cutting device, described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device comprise respectively X-direction cutting tool, Y-direction cutting tool and Z-direction cutting tool; Described X-direction cutting tool, described Y-direction cutting tool and described Z-direction cutting tool are connected to ultrasonic vibration mechanism.

Particularly, described X-direction cutting tool, described Y-direction cutting tool and described Z-direction cutting tool are roller cutter.

Preferably, the automatic sealing machine of described super sonic also comprises shell, described shell shrouds in described film covering device, described X-direction super sonic sealing-cutting device, described Y-direction super sonic sealing-cutting device, described Z-direction super sonic sealing-cutting device and described transfer device, and described shell offers inlet point in the inlet side of described processing channel, described shell offers discharging opening in the outlet side of described processing channel.

Accompanying drawing explanation

Fig. 1 is the structural representation of the automatic sealing machine of the utility model super sonic.

Fig. 2 is the structural representation in automatic another angle of sealing machine of the utility model super sonic.

Fig. 3 is that the automatic sealing machine of the utility model super sonic is removed the structural representation after shell.

Fig. 4 is the enlarged drawing of A portion in Fig. 3.

Fig. 5 is the structural representation in another angle after the automatic sealing machine removal of the utility model super sonic shell.

Fig. 6 is the enlarged drawing of B portion in Fig. 5.

Fig. 7 is the structural representation of film covering device.

Fig. 8 is the view after Y-direction super sonic sealing-cutting device sealing completes.

Fig. 9 is the view of Z-direction super sonic sealing-cutting device when the second station sealing.

Figure 10 is for to carry out the tetragonal body material after thin-film package by the automatic sealing machine of the utility model super sonic.

Figure 11 is the enlarged drawing of C portion in Figure 10.

The specific embodiment

By describing technology contents of the present utility model, structural attitude in detail, being realized object and effect, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.

As depicted in figs. 1 and 2, the utility model super sonic automatic-packaging is overmolding to a tetragonal body structure by the shell 100 of a tetragonal body, and a side of shell 100 has the control desk 110 of controlling this super sonic automatic-packaging work; On the side in these shell 100 relative control desk 110 left sides, offer an inlet point 120, as shown in Figure 1, on the side on these shell 100 relative control desk 110 right sides, offer a discharging opening 130, as shown in Figure 2; Tetragonal body material W enters super sonic automatic-packaging from inlet point 120, and after super sonic automatic-packaging carries out thin-film package, the tetragonal body material W after encapsulation leaves super sonic automatic-packaging from discharging opening 130.

Shown in Fig. 3-Fig. 6, super sonic automatic-packaging comprises frame 200, film covering device 300, X-direction super sonic sealing-cutting device 400, Y-direction super sonic sealing-cutting device 500, Z-direction super sonic sealing-cutting device 600 and transfer device 700, shell 100(is as depicted in figs. 1 and 2) coated frame 200, film covering device 300, X-direction super sonic sealing-cutting device 400, Y-direction super sonic sealing-cutting device 500, Z-direction super sonic sealing-cutting device 600 and transfer device 700, to prevent super sonic automatic-packaging to be subject to external disturbance in tetragonal body material W is carried out to thin-film package process, affect production quality.

As shown in Figure 3, frame 200 is provided with the processing channel 210 passing for tetragonal body material W, and film covering device 300 is arranged at the both sides up and down of processing channel 210; Processing channel 210 is walked direction from inlet point 120 to discharging opening 130, along tetragonal body material W in processing channel 210, is provided with the first station 211 and the second station 212; Transfer device 700 is arranged at the upside of processing channel 210, and the transfer direction of transfer device 700 is parallel to processing channel 210, and transfer device 700 is for driving tetragonal body material W to walk in processing channel 210; X-direction super sonic sealing-cutting device 400 is arranged at the feed side of the first station 211, Y-direction super sonic sealing-cutting device 500 is arranged at the downside of the second station 212, Z-direction super sonic sealing-cutting device 600 is arranged at the upside of the second station 212, and X-direction super sonic sealing-cutting device 400, Y-direction super sonic sealing-cutting device 500 and Z-direction super sonic sealing-cutting device 600 all can relative frame 200 move up and down that the film of the X-direction of tetragonal body material W, Y-direction and Z-direction is carried out to sealing.Certainly, Y-direction super sonic sealing-cutting device 500 is arranged at the upside of the second station 212, the downside that Z-direction super sonic sealing-cutting device 600 is arranged at the second station 212 also can.

Shown in Fig. 7, film covering device 300 comprises upside film-covering mechanism 310, downside film-covering mechanism 320He synchronous driving mechanism 330, upside film-covering mechanism 310 is arranged at the top of the first station 211, downside film-covering mechanism 320 is arranged at the below of the first station 211, and the film of upside film-covering mechanism 310 and downside film-covering mechanism 320 is all towards the vertical direction membrane between inlet point 120 and the first station 211; Synchronous driving mechanism 330 is arranged between inlet point 120 and the first station 211, for adjusting the rate of feed of upside film-covering mechanism 310 and downside film-covering mechanism 320, the rate of feed of upside film-covering mechanism 310 and downside film-covering mechanism 320 is equated.Particularly: upside film-covering mechanism 310 comprises upside film support assembly 311 and upside film tension assembly 312, downside film-covering mechanism 320 comprises downside film support assembly 321 and downside film tension assembly 322, upside film support assembly 311 and downside film support assembly 321 are respectively used to locate film roll, the film of upside stretches out by upside film tension assembly 312 and stretches into downwards between inlet point 120 and the first station 211 from film roll, extend into subsequently the first station 211, the film of downside stretches out by downside film tension assembly 322 and upwards stretches between inlet point 120 and the first station 211 from film roll, stretches into subsequently the first station 211, when being arranged at the X-direction super sonic sealing-cutting device 400 sealing film between inlet point 120 and the first station 211, make upper and lower two film phase sealing-ins, synchronous driving mechanism 330 is arranged between inlet point 120 and the first station 211, synchronous driving mechanism 330 comprises the first guide 331 of the membrane direction that is arranged at upside film-covering mechanism 310, be arranged at the second guide 332 and the synchronous driving part 333 of the membrane direction of downside film-covering mechanism 320, the first guide 331 and the second guide 332 are all fixed on frame 200, and the first guide 331 and the second guide 332 offer respectively the first vertical guide groove 331a and the second vertical guide groove 332a, synchronous driving part 333 is four rectangular bar frameworks, the upper boom 333a of synchronous driving part 333 and lower beam 333b are respectively through the first vertical guide groove 331a and the second vertical guide groove 332a, synchronous driving mechanism 330 is moved up and down along the first vertical guide groove 331a and the second vertical guide groove 332a, wherein, upside film passes the downside of upper boom 333a, downside film also passes the downside of lower beam 333b, in film covering device 300 transport process, upside film-covering mechanism 310 and downside film-covering mechanism 320 all transmit film, while transmitting through the upside film of upper boom 333a downside, drive upper boom 333a, the synchronous downside film that passes lower beam 333b that drives of upper boom 333a, thereby make upside film-covering mechanism 310 and downside film-covering mechanism 320 synchronous driving films, make the sealing seam of X-direction super sonic sealing-cutting device 400 be positioned at the center line of tetragonal body material W, the sealing seam of X-direction super sonic sealing-cutting device 400 and Y-direction super sonic sealing-cutting device 500 is connected to form a circumferential seam, thereby improve overlay film intensity.

Further, the upper boom 333a of synchronous driving part 333 and the cross-sectional plane of lower beam 333b are all rounded, and the upper boom 333a of synchronous driving part 333 and lower beam 333b are connected in front bar and the rear bar of synchronous driving mechanism 330 rotationally, the film and the friction force between synchronous driving part 333 that make to pass upper boom 333a and lower beam 333b are less, effectively prevent deformation of thin membrane, improve the packaging effect to tetragonal body material W.

As shown in Figure 3 and Figure 4, X-direction super sonic sealing-cutting device 400 can be arranged at the both sides up and down between inlet point 120 and the first station 211 up or down, when a tetragonal body material W is transferred to the first station 211, the X-direction super sonic sealing-cutting device 400 of upper and lower both sides folds mutually, so that X-direction super sonic sealing-cutting device 400 moves between inlet point 120 and the first station 211, X-direction super sonic sealing-cutting device 400 is along left side sealing two films of tetragonal body material W, and sealing seam is positioned at the midline of tetragonal body material W left lateral sides.Further, X-direction super sonic sealing-cutting device 400 comprises the cutting tool that is connected in ultrasonic vibration mechanism (not shown), and cutting tool is roller cutter.

As shown in Figure 5 and Figure 6, Y-direction super sonic sealing-cutting device 500 can be arranged at the downside of the second station 212 up or down, and Y-direction super sonic sealing-cutting device 500 comprises respectively the Y directional rolling body cutter that are connected with ultrasonic vibration mechanism (not shown).Upper side, downside, left surface and the right flank of tetragonal body material W in the first station 211 after X-direction super sonic sealing-cutting device 400 sealings are coated with film, and this film protrudes from all sides of tetragonal body material W leading flank and trailing flank, transfer device 700 is transferred to the second station 212 by this tetragonal body material W from the first station 211, as shown in Figure 5; Y-direction super sonic sealing-cutting device 500 is moved upward to the second station 212, as shown in Figure 3, the film that both sides before and after tetragonal body material W are protruded carries out sealing, the film phase sealing-in of both sides before and after this tetragonal body material W after sealing, the sealing seam of Y-direction super sonic sealing-cutting device 500 is positioned at the center line of both sides, tetragonal body material W front and back, now, the film of Z-direction four seamed edges of this tetragonal body material W is to the unsettled protrusion of four sides.Subsequently, Y-direction super sonic sealing-cutting device 500 moves reset, as shown in Figure 8.

As shown in Figure 3, Z-direction super sonic sealing-cutting device 600 can be arranged at the upside of the second station 212 up or down, and Z-direction super sonic sealing-cutting device 600 comprises respectively the Z-direction roller cutter that are connected with ultrasonic vibration mechanism (not shown).In 500 pairs of tetragonal body material W sealings of Y-direction super sonic sealing-cutting device, complete and move after reset, Z-direction super sonic sealing-cutting device 600 is moved downward to the second station 212, as shown in Figure 9, film to tetragonal body material W tetra-seamed edges carries out sealing, the four seamed edge film phase sealing-ins of this tetragonal body material W after sealing, subsequently, Z-direction super sonic sealing-cutting device 600 moves reset.

As shown in Fig. 1-Fig. 9, the working process of the utility model super sonic automatic-packaging is described in detail:

Under initial condition, the up and down both sides of X-direction super sonic sealing-cutting device 400 between inlet point 120 and the first station 211, Y-direction super sonic sealing-cutting device 500 is positioned at the below of the second station 212, and Z-direction super sonic sealing-cutting device 600 is positioned at the top of the second station 212, as shown in Figure 5; Tetragonal body material W, under the driving of external pay-off (not shown), enters processing channel 210 from inlet point 120 as shown in Figure 1, and is transferred to the first station 211; The X-direction super sonic sealing-cutting device 400 of upper and lower both sides folds mutually, so that X-direction super sonic sealing-cutting device 400 moves between inlet point 120 and the first station 211, X-direction roller cutting tool carries out sealing along the film in tetragonal body material W left side, as shown in Figure 3 and Figure 4, the phase of the film up and down sealing-in of this tetragonal body material W mono-side after sealing, and sealing seam is positioned at the X-direction midline of this tetragonal body material W, after sealing, depart from the also phase sealing-in of film up and down of this tetragonal body material W mono-side; The tetragonal body material W that is coated with film is transferred to the second station 212 under transfer device 700 drives, as shown in Figure 5; The relative frame 200 of Y-direction super sonic sealing-cutting device 500 moves up to the second station 212, Y directional rolling body cutting tool is along both sides, the front and back sealing of tetragonal body material W, as shown in Figure 3, the upper lower sealing film phase sealing-in of both sides before and after this tetragonal body material W after sealing, and the sealing-in seam of tetragonal body material W is positioned at the midline of the two sides, front and back of this tetragonal body material W; The relative frame 200 of Y-direction super sonic sealing-cutting device 500 moves downward to initial position, as shown in Figure 8; The relative frame 200 of Z-direction roller cutting tool moves downward to the second station 212, Z-direction roller cutting tool is along the Z-direction four seamed edge sealings of tetragonal body material W, make the sealing seam of X-direction super sonic sealing-cutting device 400 and Y-direction super sonic sealing-cutting device 500 be connected to form a circumferential seam in the midline of all sides of this tetragonal body material W, all sides of this tetragonal body material W after sealing form a single thin film.Tetragonal body material W after transfer device 700 completes overlay film transfers out super sonic automatic sealing package from discharging opening 130 and cuts machine.

The super sonic automatic-packaging that tetragonal body material W provides through the utility model carries out after thin-film package, as shown in Figure 10-Figure 11: there is the sealing-in fin L1 and the sealing-in fin L2 that are formed by X-direction super sonic sealing-cutting device and Y-direction sealing-cutting device sealing in the transversal centerline of leading flank, trailing flank, left surface and the right flank of tetragonal body material W, there is the sealing-in fin L3 being formed by Z-direction sealing-cutting device sealing on four seamed edges of the Z direction of tetragonal body material W.Sealing-in fin L3 connects sealing-in fin L1 and sealing-in fin L2, makes sealing-in fin L1 and sealing-in fin L2 form a sealing-in loop wire in the surrounding of tetragonal body material W.

Compared with prior art, the super sonic automatic-packaging that the utility model provides has X-direction super sonic sealing-cutting device 400, Y-direction super sonic sealing-cutting device 500 and Z-direction super sonic sealing-cutting device 600, tetragonal body material W walks under transfer device 700 drives in processing channel 210, when tetragonal body material W is transferred to the first station 211, the film of 400 pairs of tetragonal body material W left surfaces of X-direction super sonic sealing-cutting device carries out sealing, after sealing, be coated on the phase of the film up and down sealing-in of this tetragonal body material W, and the also phase sealing-in of film up and down that departs from this tetragonal body material W mono-side after sealing, be covered with the tetragonal body material W of film from the first station 211 is transferred to the second station 212, Y-direction super sonic sealing-cutting device 500 moves to the second station 212, the film that both sides before and after tetragonal body material W are protruded carries out sealing, both sides, the front and back film phase sealing-in of this tetragonal body material W after sealing, subsequently, Y-direction super sonic sealing-cutting device 500 moves reset, Z-direction super sonic sealing-cutting device 600 moves to the second station 212, and the film of Z-direction four seamed edges of tetragonal body material W is carried out to sealing, the four seamed edge film phase sealing-ins of this tetragonal body material W after sealing, and subsequently, Z-direction super sonic sealing-cutting device 600 moves reset, transfer device 700 drives the tetragonal body material W after having encapsulated to leave processing channel 210.By the tetragonal body material W after this super sonic automatic-packaging encapsulation overlay film, coated with uniform has single thin film, thereby user can see through single thin film and read easily product information, thereby plays good publicity and description effect.

Above disclosed is only preferred embodiment of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim, still belongs to the scope that the utility model is contained.

Claims (8)

1. a super sonic automatic-packaging, for tetragonal body material is carried out to thin-film package, it is characterized in that: comprise frame, film covering device, X-direction super sonic sealing-cutting device, Y-direction super sonic sealing-cutting device, Z-direction super sonic sealing-cutting device and transfer device, described erecting is equipped with the processing channel passing for described tetragonal body material, described film covering device is arranged at the both sides up and down of described processing channel, and described processing channel is provided with the first station and the second station along the direction of walking of described tetragonal body material; Described X-direction super sonic sealing-cutting device is arranged at the feed side of described the first station, one in described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device can be arranged at the upside of described the second station up or down, and the another one in described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device can be arranged at the downside of described the second station up or down; Described transfer device is used for driving described tetragonal body material to walk in described processing channel.

2. super sonic automatic-packaging as claimed in claim 1, it is characterized in that: described film covering device comprises upside film-covering mechanism, downside film-covering mechanism and synchronous driving mechanism, described upside film-covering mechanism and described downside film-covering mechanism are arranged at respectively the both sides up and down of described processing channel, and described upside film-covering mechanism and described downside film-covering mechanism comprise respectively film support assembly and film tension assembly; Described synchronous driving mechanism comprises the first guide in the membrane direction that is arranged at described upside film-covering mechanism, be arranged at the second guide and synchronous driving part in the membrane direction of described downside film-covering mechanism, described the first guide and described the second guide offer respectively vertical guide groove, described synchronous driving part is four rectangular bar frameworks, and the upper boom of described synchronous driving part and lower beam are arranged in respectively the vertical guide groove of described the first guide and described the second guide.

3. super sonic automatic-packaging as claimed in claim 2, is characterized in that: the upper boom of described synchronous driving part and the cross-sectional plane of lower beam are all rounded.

4. super sonic automatic-packaging as claimed in claim 3, is characterized in that: the upper boom of described synchronous driving part and lower beam are all connected in front bar and the rear bar of described synchronous driving part rotationally.

5. super sonic automatic-packaging as claimed in claim 1, is characterized in that: the transfer direction of described transfer device is parallel to described processing channel.

6. the automatic sealing machine of super sonic as claimed in claim 1, is characterized in that: described X-direction super sonic sealing-cutting device, described Y-direction super sonic sealing-cutting device and described Z-direction super sonic sealing-cutting device comprise respectively X-direction cutting tool, Y-direction cutting tool and Z-direction cutting tool; Described X-direction cutting tool, described Y-direction cutting tool and described Z-direction cutting tool are connected to ultrasonic vibration mechanism.

7. the automatic sealing machine of super sonic as claimed in claim 6, is characterized in that: described X-direction cutting tool, described Y-direction cutting tool and described Z-direction cutting tool are roller cutter.

8. the automatic sealing machine of super sonic as claimed in claim 1, it is characterized in that: the automatic sealing machine of described super sonic also comprises shell, described shell shrouds in described film covering device, described X-direction super sonic sealing-cutting device, described Y-direction super sonic sealing-cutting device, described Z-direction super sonic sealing-cutting device and described transfer device, and described shell offers inlet point in the inlet side of described processing channel, described shell offers discharging opening in the outlet side of described processing channel.