CN209634822U - Full-automatic composite membrane enclosed mechanism - Google Patents

Abstract

The utility model relates to a kind of composite membranes to seal apparatus assembly, especially a kind of full-automatic composite membrane enclosed mechanism.The mechanism includes the first thermally conductive conveyer belt and the second thermally conductive conveyer belt, first thermally conductive conveyer belt and the second thermally conductive conveyer belt branch have a straight relative edge, every straight relative edge's back side is equipped with can clutch hot pressing component, straight relative edge's back side be located at can clutch hot pressing component cold pressing component is equipped on rear side of the conveying direction, be equipped with rolling cut component in the outlet end of the first thermally conductive conveyer belt and the second conveyer belt.The full-automatic composite membrane enclosed mechanism of the utility model is set gradually on pressing conveying direction can the hot pressing component of clutch, cold pressing component and rolling cut component, the composite membrane with edge sealing is set successively to pass through hot pressing fusion, cooling disengaging and cold cut, so that regeneration composite film material temperature when being detached from conveyer belt and trimming drops to decomposition temperature or less.

Description

Full-automatic composite membrane enclosed mechanism

Technical field

The utility model relates to a kind of composite membranes to seal apparatus assembly, especially a kind of full-automatic composite membrane enclosed mechanism.

Background technique

In packaging type currently on the market, all kinds of films, composite membrane packaged form be a kind of type generallyd use, Wherein, composite membrane be widely used in courier bag packaging etc. fields occur one currently on the market to realize quick packaging It can carry out the machinery equipment of sealing or edge sealing, the general encapsulation of such equipment currently on the market to compound membrane bag automatically a bit Mode that there are mainly two types of, one is fervent encapsulation, carry out heat while cutting by the cutter of heating to composite film material Envelope forms the seam of a fusion, realizes encapsulation, and the sealing part of this class wrapper is linear package, only fuses and closes in edge, institute With when sealing intensity is more demanding, such mode is not often reached requirement；Another form is rolling cut heat-sealing, passes through heating Rolling cut is carried out to edge sealing by the annular cutter on idler wheel after two layers of composite membrane of roller pressing, this mode can pass through in pressing Idler wheel realizes the edge sealing of one fixed width, while carrying out trimming, and sealing intensity is good, high in machining efficiency.But due to present express delivery row Industry is huge, and using composite membrane made of virgin materials since temperature tolerance is high, material is not easily decomposed, it is possible to be used Above-mentioned rolling cut hot sealing process carries out edge sealing, but in order to reuse composite film material, there is a large amount of regeneration on the market now Composite membrane, the stability of the material are found, such regeneration composite membrane uses rolling cut in actual processing not as good as primary composite film material When hot sealing process, due to idler wheel while being drawn to material, while heat, material, which is heated and drawn, to be easy to make Material disintegrates, and is largely adhered on idler wheel and annular cutter, idler wheel is made to cannot achieve the pressing and trimming of materials at two layers.

Utility model content

One of the purpose of this utility model is to provide the edge sealing that can either realize one fixed width, guarantees closing intensity；Energy again Enough full-automatic composite membrane enclosed mechanisms for being suitable for regenerating composite film material.

The component include relatively set on edge sealing to be laminated two layers of composite film material two sides the first thermally conductive conveyer belt and Second thermally conductive conveyer belt, the first thermally conductive conveyer belt and the second thermally conductive conveyer belt branch have a straight relative edge, every straight phase Opposite side back side be equipped with can clutch hot pressing component, straight relative edge's back side be located at can clutch hot pressing component be equipped on rear side of the conveying direction Be cold-pressed component, be equipped with rolling cut component in the outlet end of the first thermally conductive conveyer belt and the second conveyer belt, through the first thermally conductive conveyer belt and The composite membrane of second thermally conductive conveyer belt conveying through can clutch hot pressing component hot pressing, cold pressing component pressing after in rolling cut component Place is rolled again and trimming.

Preferably, it is equipped at rolling cut component to rolling cut component or composite film material on the operating path in rolling cut component Cooling cooling component is carried out to composite film material.

Preferably, it is each described can clutch hot pressing component include that can be bonded and the heating far from corresponding straight relative edge Block and the fitting of driving heat block and the heat block driving mechanism far from corresponding straight relative edge；Described first is thermally conductive defeated It send band and the first thermally conductive conveyer belt includes three guide wheels of setting triangular in shape and is mounted on triangular in shape on three guide wheels Film feeding steel band, the thermally conductive conveyer belt of triangle setting form internal accommodating space, and the heat block and cold pressing block are located at should In accommodating space.

Preferably, each conveyer belt heat block is in the direction movement perpendicular to the straight relative edge in the side；Described Heat block driving mechanism is the clutch air cylinder connecting with heat block.

Preferably, each cold pressing component respectively includes fitting in the cold pressing at the straight relative edge back of corresponding side Block and the cold pressing block regulating mechanism being connect with cold pressing block.

Preferably, the rolling cut component includes the initiative traction wheel matched and a driven traction wheel, this is driven Traction wheel is with unification membrane edge round cutting-off tool wheel.

Preferably, the cooling component include main forced air cooled tube and by main forced air cooled tube draw be located at initiative traction wheel into Enter first forced air cooled tube at end and the second forced air cooled tube positioned at initiative traction wheel outlet end.

Preferably, the first thermally conductive conveyer belt and the side can clutch hot pressing component, cold pressing component and membrane edge Round cutting-off tool wheel is installed on the first backboard；The thermally conductive conveyer belt of described second and the side can clutch hot pressing component, cold pressing group Part and membrane edge seaming roll are installed on the second backboard；A driving motor is additionally provided on second backboard, driving motor is second The back side of backboard connects the second driving wheel in three guide wheels of the second thermally conductive conveyer belt by chain, and the second driving wheel is by first The first driving wheel is engaged and is driven at backboard back, and the first driving wheel is separately connected and is passed by second belt by the first backboard back Dynamic initiative traction wheel and membrane edge round cutting-off tool wheel.

Preferably, the first backboard and the second backboard are connected with the first backboard of driving and the second backboard is movably installed in a pilum On, the first backboard and the second backboard are connected with and construction package thereon are driven to fill in opposite directions close to opposite separate driving along pilum It sets.

Preferably, the rolling cut component includes the membrane edge round cutting-off tool wheel and membrane edge seaming roll matched.

The full-automatic composite membrane enclosed mechanism of the utility model pressing conveying direction on set gradually can clutch hot pressing Component, cold pressing component and rolling cut component make the composite membrane with edge sealing successively pass through hot pressing fusion, cooling disengaging and cold cut, So that regeneration composite film material temperature when being detached from conveyer belt and trimming drops to decomposition temperature or less.

Detailed description of the invention

Positive structure schematic when Fig. 1 is the utility model first embodiment working condition；

Schematic perspective view when Fig. 2 is the utility model first embodiment working condition；

Structure schematic diagram when Fig. 3 is the utility model first embodiment working condition；

Fig. 4 is the schematic perspective view when heat block of the utility model first embodiment lifts；

Fig. 5 is schematic perspective view when the thermally conductive conveyer belt of the utility model first embodiment is opened；

Fig. 6 is the structural schematic diagram that the utility model embodiment is applied on full-automatic sealing device

Positive structure schematic when Fig. 7 is the utility model first embodiment working condition；

Schematic perspective view when Fig. 8 is the utility model first embodiment working condition；

Structure schematic diagram when Fig. 9 is the utility model first embodiment working condition.

Specific embodiment

As shown in figs 1 to 6, the full-automatic composite membrane enclosed mechanism of the embodiments of the present invention includes relatively being set to The thermally conductive conveyer belt 1 of the first of two layers of composite film material two sides of edge sealing to be laminated and the second thermally conductive conveyer belt 2, due to first thermally conductive Conveyer belt 1 and the second thermally conductive conveyer belt are arranged in symmetrical structure substantially when in use, so once to the structure of thermally conductive conveyer belt One is only selected with symmetrically arranged other function component and carries out expansion explanation, specifically, the first thermally conductive conveyer belt 1 and second is thermally conductive defeated Sending 2 branch of band has a straight relative edge 3, every straight 3 back side of relative edge be equipped with can clutch hot pressing component 4, straight relative edge Back side 4 be located at can clutch hot pressing component 4 cold pressing component 5 is equipped on rear side of the conveying direction, in the first thermally conductive conveyer belt 1 and second The outlet end of thermally conductive conveyer belt 2 is equipped with rolling cut component 6.

The Full automatic sealing mechanism of the present embodiment primarily solves the problems, such as it is class mainly by solving two technical problems It the problem of broadside sealing can be stablized like the not high packaging material of regeneration composite membrane or other thermal stability, is asked to solve this Topic, the present embodiment carries out pressing conveying by the sealing side that thermally conductive conveyer belt treats joint filling material first, due to thermally conductive conveyer belt Itself can conduct can clutch hot pressing component 4 issue heat, so during transportation to composite film material carry out hot pressing broadside Pressing after realizing sealing, immediately enters the first of cold pressing 5 region of component at this point, forming sealing after material hot melt fusion Thermally conductive conveyer belt 1 and the second thermally conductive conveyer belt 2, this time, by being cold-pressed the heat dissipation of component 5, cold pressing component 5 does not generate heat and makes first to lead Square region forms a low-temperature region, conveying of the sealing part in the region after hot-pressing for hot conveyer belt 1 and the second thermally conductive conveyer belt 2 It gradually freezes off in the process, the viscosity of the material after freezing off reduces, and is easy to separate with thermally conductive conveyer belt and continues to be fed forward, finally The rolling cut at rolling cut component 6 completes have sealing brimmy processing, overcome as material property is unstable and caused by glue to stick and tear The problem of tearing damage；Second will solve the problems, such as the problem of being heating element clutch, the heating of previous equipment at work Component continues working, during transportation, since feed suspends, when the processes such as tail portion sealing cause conveying to suspend, clamping Lasting heated of material in heating element, once have exceeded at the uniform velocity by when degree of heat, scorch composite membrane sealing, especially , for regrown material composite membrane, the persistently overheating of short time is to cause the breaking-up of material for it, in the present embodiment in feeding pause, Can by way of leaving heat block, in conjunction with to pressing of the cold pressing component 5 to the non-heated state of thermally conductive conveyer belt so that nothing The clamping to composite film material, which need to be unclamped, to shut down, and will not scorch the material of conveying, be conducive to that it is added during transportation Its mechanical action.Such as shown in Fig. 6, the present embodiment entirety A is when being applied on sealing device for packaging bag side edge Hot edge seal processing when tail portion is earnestly divided by cutter B, needs to be maintained at tail portion and earnestly acts when packaging bag is continuously packaged Moment, composite film material in relative static conditions, pull when being truncated, will cause by otherwise front operation, rear cutter The case where incision tearing is pullled, after the enclosed mechanism application of the present embodiment, when needing rearward edges earnestly to be acted, Conveyer belt stop convey simultaneously keep clamping, and can clutch hot press parts leave thermally conductive conveyer belt, not to clamped material continue Heating, after fervent movement with rearward edges is completed, can clutch hot pressing component 4 in conjunction with thermally conductive conveyer belt, further completion Hot pressing realizes the Automatic Control of complete machine.

One kind is provided in the present embodiment, and heating element and transfer unit can be with clutch for clutch control in hot pressing transmission process Enclosed mechanism, in conjunction with cold pressing and cold cut, can satisfy regeneration composite film material it is temperature sensitive, continue warmup period precision Demanding problem, but in actual production and test, even if since thermally conductive conveyer belt leaves after heat block by cold pressing group Still there is certain temperature, the composite film material of pressing still has certain temperature after leaving thermally conductive conveyer belt after part cooling Degree is unable to property cut in cutting sometimes, needs to precisely control hot pressing component so that material is more soft, stickiness is big Temperature and material pass through thermally conductive conveyer belt speed；In order to solve this problem, it is equipped at the rolling cut component in the present embodiment Cooling cooling group carries out composite film material on the operating path in rolling cut component to rolling cut component or composite film material Part 7.The structure setting of cooling component 7 can there are two types of modes, each to rolling one is being connected on each wheel body of rolling cut component A wheel body carries out cooling and then makes also to cool down therewith by the material of each wheel body, and another kind is set to by rolling cut component Material operating path on directly carry out cooling mode to material, the selection of cooling-part can choose air-cooled, water cooling and Other electric refrigeration parts.The air and recirculated water or oil that air-cooled and water cooling uses can may be refrigerating plant preparation for room temperature Cryogenic air or cryogenic liquid.

Can in the setting of clutch hot pressing component 4, can clutch hot pressing component 4 clutch action only need away from and patch The straight relative edge for closing thermally conductive conveyer belt can be realized, can use at work vertically movement, horizontal displacement movement, with And the angle rotary movement of circumference is realized, allows to be bonded thermally conductive conveyer belt and leaving in thermally conductive conveyer belt two states Switching.

The form design various components that the present embodiment is unreeled based on existing composite membrane material strip level, main mechanical action It moves in vertical direction, including the first thermally conductive conveyer belt 1 and the second thermally conductive conveyer belt 2 are also to leave in vertical direction clutch When for start process and replace composite membrane material volume when place material strip front end, in conjunction with when for convey and hot-press sealed, together When can clutch hot pressing component 4 be also in vertical direction and corresponding thermally conductive conveyer belt progress clutch action.It can also in practical application To adjust the direction that unreels of composite membrane material strip, such as is vertically unreeled and above-mentioned various components are set as horizontal clutch.

Specifically, in the present embodiment, it is each described can clutch hot pressing component 4 include that can be bonded and far from thermally conductive conveyer belt Heat block 41 and driving heat block 41 fitting and far from the first thermally conductive conveyer belt 2 of thermally conductive conveyer belt 1 or the second straight phase The heat block driving mechanism 42 of opposite side 3.

Overall operation direction based on mechanism, in the present embodiment, each conveyer belt heat block 41 perpendicular to The direction movement of the side is straight relative edge；The heat block driving mechanism 42 is the clutch air cylinder connecting with heat block.

In the present embodiment, each straight relative edge back of the cold pressing component 5 including fitting in corresponding side is cold Briquetting 51 and the cold pressing regulating mechanism 52 being connect with cold pressing block.

In the setting of rolling cut component, material is only drawn by the tractive force side of rolling cut component after the output of thermally conductive transmission belt While cutting, material is soft in addition, further reduced the stability of cutting, in order to solve this problem, improves equipment operating parameter Threshold value, in the present embodiment, rolling cut component 6 includes the initiative traction wheel 61 and a driven traction wheel 62 matched, this is driven Traction wheel is with unification membrane edge round cutting-off tool wheel 63.Meanwhile cooling component 7 includes a main forced air cooled tube 71 and is drawn by main forced air cooled tube 71 The first forced air cooled tube 72 positioned at 61 upstream end of initiative traction wheel and the second forced air cooled tube 73 positioned at 61 outlet end of initiative traction wheel, In actual production, supply cold wind temperature is lower, meet cooling requirement when, can also only select and wherein be cooled down at one, When two forced air cooled tubes are not still able to satisfy cooling requirement, one or more forced air cooled tube, group can also be also provided at the back side of material It closes and uses, improve cooling effect.

The cooling of material is made by the combination that above-mentioned active conveying and rolling cut act, and in active transmission process The conveying of material is more stable, while material intensity after supercooling increases, and notch is neat when rolling cut, works well.

In practical applications, more beautiful when pressing while in order to indicate and make to press, it sometimes requires that on pressing side with pressure Scar road, in order to adapt to such application needs, in the present embodiment, 62 surface of membrane edge seaming roll is equipped with embossing.

In the structure setting of thermally conductive conveyer belt, in the present embodiment, the thermally conductive conveyer belt 1 and first of described first is thermally conductive defeated Band 2 is sent to include three guide wheels 31 of setting triangular in shape and be mounted on film feeding steel band 32 triangular in shape on three guide wheels 31, The thermally conductive conveyer belt of triangle setting forms internal accommodating space, and the heat block 41 and cold pressing block 51 are located at accommodating sky In.

The mounting arrangement of global facility and connection driving in terms of, in the present embodiment, the thermally conductive conveyer belt 1 of described first with And the side can clutch hot pressing component, cold pressing component and membrane edge round cutting-off tool wheel be installed on the first backboard 8；Described second is led Hot conveyer belt 2 and the side can clutch hot pressing component, cold pressing component and membrane edge seaming roll be installed on the second backboard 9； 9 are additionally provided with a driving motor 10 on second backboard, and driving motor 10 is led at the back side of the second backboard by the connection of chain 11 second The second driving wheel 31a in three guide wheels of hot conveyer belt 2, the second driving wheel 31a are engaged by 7 back of the first backboard and are driven One driving wheel 31b, the first driving wheel 31b is connected by second belt 12 by 8 back of the first backboard and is driven initiative traction wheel 61 With membrane edge round cutting-off tool wheel 63.

Since when automating processing, it is thermally conductive that the starting point that material volume unreels needs to place the first thermally conductive conveyer belt 1 and first By could persistently be processed after the first thermally conductive conveyer belt 1 and the first thermally conductive 2 clamping of conveyer belt after conveyer belt 2, it requires One thermally conductive conveyer belt 1 and the first thermally conductive conveyer belt 2 can keep certain aperture to place composite membrane and clamping composite membrane operation Switch in two states, so the first thermally conductive conveyer belt 1 and the first thermally conductive conveyer belt 2 are required to opposite movement, so In the present embodiment, the first backboard 7 and the second backboard 8 are connected with and the first backboard 7 and the second backboard 8 are driven to be movably installed in a pilum On 13, the first backboard 7 and the second backboard 8 are connected with and drive construction package thereon close in opposite directions and opposite separate along pilum Driving device.

In the present embodiment, by can clutch hot pressing component 4 hot pressing, be cold-pressed component 5 non-heated state pressing, multiple Active traction and the sub-cooled in distraction procedure, cold cut to the end after membrane pressure is closed are closed, material is enable efficiently to press Merge good trimming, meet regenerated composite material to the sensitive requirements of temperature, makes to regenerate composite membrane in closed process not It decomposes not glue and stick, reach perfect trimming processing effect.But it is preferable in regeneration composite membrane material property itself, or require In the lower situation of pressing-in temp, structure also can simplify, save cooling component and by membrane edge round cutting-off tool wheel in rolling cut process In drawn, concrete scheme is on the basis of first embodiment it is further proposed that second embodiment.

As shown in figs. 7 to 9, in the technical solution of second embodiment and first embodiment, in thermally conductive conveyer belt, hot pressing group Part, be cold-pressed component structure setting on it is essentially identical, the clutch action of hot pressing component is also identical, is not repeated to illustrate herein, area Be not: the rolling cut component 6 ' includes the membrane edge round cutting-off tool wheel 63 ' and membrane edge seaming roll 62 ' matched.

In the driving of each wheel body of rolling cut component 6 ', driving motor 10 is connected at the back side of the second backboard by chain 11 The second the driving wheel 31a, the second driving wheel 31a connect in three guide wheels of the second thermally conductive conveyer belt 2 is engaged by 7 back of the first backboard And it is driven the first driving wheel 31b, the first driving wheel 31b and driving membrane edge round cutting-off tool wheel 63 ' is directly connected to by belt 14.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported Used in other related technical areas, it is also included in the patent protection scope of the utility model.

Claims (10)

1. full-automatic composite membrane enclosed mechanism, it is characterised in that: two layers of compound film material including being relatively set to edge sealing to be laminated Expect the first thermally conductive conveyer belt and the second thermally conductive conveyer belt of two sides, the first thermally conductive conveyer belt and the second thermally conductive conveyer belt branch have One straight relative edge, every straight relative edge's back side be equipped with can clutch hot pressing component, straight relative edge's back side is located at can clutch heat It presses component to be equipped with cold pressing component on rear side of conveying direction, is equipped with rolling cut in the outlet end of the first thermally conductive conveyer belt and the second conveyer belt Component.

2. full-automatic composite membrane enclosed mechanism as described in claim 1, it is characterised in that: be equipped at rolling cut component to rolling cut group Part or composite film material carry out cooling cooling component on the operating path in rolling cut component to composite film material.

3. composite membrane enclosed mechanism as claimed in claim 2 full-automatic, it is characterised in that: it is each it is described can clutch hot pressing group Part includes that can be bonded and the heat block far from corresponding straight relative edge and the fitting of driving heat block and far from corresponding straight The heat block driving mechanism of relative edge；The thermally conductive conveyer belt of described first and the first thermally conductive conveyer belt include setting triangular in shape Three guide wheels and it is mounted on film feeding steel band triangular in shape on three guide wheels, the thermally conductive conveyer belt of triangle setting forms inside Accommodating space, the heat block and cold pressing block are located in the accommodating space.

4. full-automatic composite membrane enclosed mechanism as claimed in claim 3, it is characterised in that: each conveyer belt heat block In the direction movement perpendicular to the straight relative edge in the side；The heat block driving mechanism is the clutch gas connecting with heat block Cylinder.

5. full-automatic composite membrane enclosed mechanism as claimed in claim 4, it is characterised in that: each cold pressing component difference Including the cold pressing block regulating mechanism for fitting in the cold pressing block at the straight relative edge back of corresponding side and being connect with cold pressing block.

6. full-automatic composite membrane enclosed mechanism as claimed in claim 5, it is characterised in that: the rolling cut component includes phase An initiative traction wheel and a driven traction wheel for cooperation, the driven traction wheel is with unification membrane edge round cutting-off tool wheel.

7. full-automatic composite membrane enclosed mechanism as claimed in claim 6, it is characterised in that: the cooling component includes main wind Cold pipe and by main forced air cooled tube draw positioned at initiative traction wheel upstream end the first forced air cooled tube and be located at initiative traction wheel export Second forced air cooled tube at end.

8. composite membrane enclosed mechanism as claimed in claim 7 full-automatic, it is characterised in that: the thermally conductive conveyer belt of described first with And the side can clutch hot pressing component, cold pressing component and membrane edge round cutting-off tool wheel be installed on the first backboard；Described second is led Hot conveyer belt and the side can clutch hot pressing component, cold pressing component and membrane edge seaming roll be installed on the second backboard；The A driving motor is additionally provided on two backboards, driving motor connects the second thermally conductive conveyer belt by chain at the back side of the second backboard The second driving wheel in three guide wheels, the second driving wheel are engaged by the first backboard back and are driven the first driving wheel, and first actively Wheel is separately connected by second belt and is driven initiative traction wheel and membrane edge round cutting-off tool wheel by the first backboard back.

9. full-automatic composite membrane enclosed mechanism as claimed in claim 8, it is characterised in that: the first backboard and the connection of the second backboard There are the first backboard of driving and the second backboard to be movably installed on a pilum, the first backboard and the second backboard are connected with and drive thereon Construction package is along the close in opposite directions and opposite separate driving device of pilum.

10. full-automatic composite membrane enclosed mechanism as described in claim 1, it is characterised in that: the rolling cut component includes phase The membrane edge round cutting-off tool wheel and membrane edge seaming roll of cooperation.