CN203568015U - Novel bag forming device and packaging machine - Google Patents

Abstract

The utility model discloses a novel bag forming device and a packaging machine. The novel bag forming device comprises at least two bag forming mechanisms and each bag forming mechanism comprises a turning element and a folding element. Discharging forming pipes of the folding elements are arranged in sequence in the first direction. According to each turning element, when a packaging film is wound around each turning element, the packaging film is conveyed along a film conveying line and each turning element is provided with a film conveying position located on the film conveying line and used for enabling the packaging film to be wound around and to be turned. According to the novel bag forming device, through reasonable adjustment of the conveying direction of the packaging film and the longitudinal opening direction of the longitudinally-folded packaging film, when the novel bag forming device is applied to a multi-column three-side-sealing packaging machine, bag pulling, longitudinal sealing, transverse sealing and cutting can be conducted on the packaging films simultaneously under the condition that synchronous control devices are not arranged through the reasonable match of a bag pulling mechanism, a transverse sealing mechanism, a longitudinal sealing mechanism and a cutting mechanism. The problems that the multi-column three-side-sealing packaging machine is complex in structure and high in manufacturing cost are solved.

Description

Novel pouches building mortion and wrapping machine

Technical field

The utility model relates to packaging facilities field, is specifically related to a kind of novel pouches building mortion and wrapping machine.

Background technology

As shown in Figure 1, 2, the packaged type of packing is generally divided into three bandings (as Fig. 1,2 A), four bandings (as Fig. 1,2 B), back of the body envelope (as Fig. 1,2 C).Wherein, multiple row three edge sealing packing machines possess and have that degree of automation is high, efficiency advantages of higher, and enjoy people's favor.Existing three banding Multi-row packing machines generally comprise film supplying unit, cutting mechanism, feed mechanism, bag forming machine structure, pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism, and bag forming machine structure is as the important component part of wrapping machine, directly affect function and the in-use performance of wrapping machine.

Application number is that 96197906.2 patent documentation discloses a kind of packaging machine with forming tube, wherein, the deformable material of one volume is wound around round this forming tube, to form a continuous sleeve, pass through longitudinal sealing, then transverse sealing, obtained being filled and sealed packing material, it is equipped with a building mortion, this device produces a guesset along the part between afterwards two seams transversely on described sleeve, this guesset can form the bottom construction of this packing material, when this packing material being rotated and be placed on the ground of level, it will have with the vertical in stable condition necessary substrate of standing.Because packaging film directly inputs to forming tube from the rear of forming tube, when this packaging machine adopts multiple row three banding manner of packings (namely adopting the multiple forming tubes that are arranged in order along first direction), a packaging film divides simultaneously and is cut to after many strip packaging films through the cutting mechanism of packaging machine, these many packaging films input to and are delivered to each forming tube from the rear of forming tube respectively, and through this forming tube, longitudinally doubling; Now, as shown in Figure 3, longitudinally the longitudinal opening of the packaging film of doubling is toward the second direction vertical with first direction the front of forming tube (namely toward), and limited by the doubling direction of packaging film and longitudinal opening direction, every packaging film all needs to adopt independently pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism to carry out pulling bag, longitudinal sealing, horizontal sealing, cut-out, thereby makes many packaging films on multiple row three edge sealing packing machines be difficult to realize pulling bag, longitudinal sealing, horizontal sealing, cut-out simultaneously.And because each independently pulling bag mechanism includes two rotating shafts, is positioned at the pulling bag wheel in rotating shaft, in order to make many packaging films on multiple row three edge sealing packing machines, can realize drawstring simultaneously, must in the rotating shaft of all pulling bags mechanism, be connected with sync control device, so that each rotating shaft synchronization action, drive and respectively to pulling bag wheel is synchronous, rotate, thereby impel many packaging films on wrapping machine can realize pulling bag simultaneously.And in like manner, in order to realize longitudinal sealing, horizontal sealing, the cut-out of many packaging films, also need to be equipped with corresponding sync control device, but thus, cause the structure of wrapping machine comparatively complicated, cost of manufacture is higher.

Utility model content

In order to overcome the deficiencies in the prior art, one of the purpose of this utility model is to provide a kind of novel pouches building mortion, it can solve in order to meet pulling bag, longitudinal sealing, horizontal sealing, the cut-out simultaneously of each packaging film, and causes the problem that multiple row three edge sealing packing machine structures are comparatively complicated, cost of manufacture is higher.

Two of the purpose of this utility model is to provide a kind of wrapping machine.

For address the above problem one, the technical scheme that the utility model adopts is as follows:

Novel pouches building mortion, comprises at least two bag forming machine structures, and each bag forming machine structure is respectively accordingly for each strip packaging film process; Described bag forming machine structure includes steering component and doubling element; Described doubling element comprises discharging forming tube, and the discharging forming tube of each bag forming machine structure is arranged in order along first direction;

Be positioned at steering component, the doubling element of same bag forming machine structure, and be positioned at the discharging forming tube of this doubling element; Wherein,

This steering component, the packaging film of inputting towards steering component front end from the rear of steering component, when pile warp steering component, a side that is diverted to steering component along a front end from steering component transfer to again steering component near another side of this discharging forming tube downwards the film route of walking of transmission carry; Wherein, the left and right sides end that described two side ends is steering component, and distribute along the Width of steering component, the Width of described steering component is consistent with first direction; On described steering component, be provided be positioned on film route and for for packaging film, walk around make that packaging film turns to walk film position;

This doubling element, downwards the packaging film of transmission when through doubling element, the longitudinal doubling of this packaging film; The longitudinal opening of the packaging film of the longitudinal doubling of process is all toward first direction; Wherein, downwards the packaging film of transmission when through discharging forming tube along the axial transmission of discharging forming tube.

Described steering component comprises the first rotary bending piece, is positioned at oblique turning point, second rotary bending piece of the first rotary bending piece top; Tiltedly the front end face of turning point is an inclined broken surface being inclined to set; Described walk film position comprise the inclined broken surface, the lateral surface of the first rotary bending piece, the lateral surface of the second rotary bending piece for packaging film successively pile warp; On described the second rotary bending piece, on the lateral surface of confession packaging film pile warp and the first rotary bending piece, the lateral surface for packaging film pile warp distributes along the Width of steering component; From inclined broken surface, a side of close the first rotary bending piece lateral surface is to another side near the second rotary bending piece lateral surface, and described inclined broken surface recedes gradually.

The orthogonal projection of the lateral surface of the first rotary bending piece on the plane of reference of first direction and second direction formation is the first projection, and the orthogonal projection of inclined broken surface on this plane of reference is the second projection, and the outer ledge of described the first projection is positioned at a side of the second projection; Wherein, the short transverse of steering component is vertical with first direction, and second direction is vertical with the short transverse of first direction, steering component.

Described the second rotary bending piece, the first rotary bending piece all extend along second direction, and wherein, the short transverse of steering component is vertical with first direction, and second direction is vertical with the short transverse of first direction, steering component; Described oblique turning point, the first rotary bending piece, the second rotary bending piece are arranged from top to bottom successively.

Bag building mortion comprises at least two deflecting plates, and each deflecting plate is arranged along first direction; Deflecting plate two side ends place is in a first direction laid with steering component, and the oblique turning point on these two steering components is all molded on this deflecting plate, and two inclined broken surfaces on deflecting plate are symmetry arrangement; Two steering components of described deflecting plate and its correspondence are combined into a steering unit, and each steering unit is arranged along first direction, and two steering units of arbitrary neighborhood stagger along short transverse; The corresponding discharging forming tube of two steering components on same steering unit is all arranged in an adjacent side on these two steering components.

Each steering component is arranged in order along first direction, and two adjacent steering components stagger mutually along short transverse.

Novel pouches building mortion also comprises route adjust mechanism, and described packaging film first passes through route adjust mechanism, and then through bag forming machine structure; Film axle is led in the activity of fixedly leading film axle, being arranged on mounting bracket in the mode of adjustable position that described route adjust mechanism comprises mounting bracket, be arranged on mounting bracket; The described film axle of fixedly leading extends along first direction.

This doubling element also comprises limiting part; On described limiting part, be formed with and wear membrane channels, described in wear membrane channels and comprise the arc slot part that passes for discharging forming tube, be communicated with and be the limiting section of strip with arc slot part; Described limiting section extends along first direction.

For address the above problem two, the technical scheme that the utility model adopts is as follows:

Wrapping machine, comprises film supplying unit, cutting mechanism, and feed mechanism, pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism, also comprises above-mentioned novel pouches building mortion; Described film supplying unit, cutting mechanism, bag building mortion, pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism set gradually along the throughput direction of packaging film; Feed mechanism is for the discharging forming tube convey materials towards bag building mortion.

Described pulling bag mechanism comprise two rotating shafts that are parallel to each other, with each bag forming machine structure at least two wheel set assemblies, driver train one to one, described rotating shaft axially consistent with first direction; The compensation wheel that described wheel set assembly includes two pulling bag wheels, takes turns to contact with one of them pulling bag; Described driver train is used for driving compensation wheel and rotating shaft to rotate; Two pulling bag wheels on same wheel set assembly are corresponding one by one with two rotating shafts respectively, and are arranged in the rotating shaft corresponding with it by unilateral bearing; Packaging film, after doubling, from process between two pulling bag wheels of corresponding wheel set assembly, and drives packaging film to move down via the rotation of this two pulling bags wheel.

Compared to existing technology, the beneficial effects of the utility model are:

The utility model is by rationally regulating the longitudinal opening direction of the trend of packaging film and the packaging film of longitudinal doubling, when it applies to multiple row three edge sealing packing machine, can pass through pulling bag mechanism, transverse sealing mechanism, longitudinal sealing mechanism, the reasonable coordination of shoutoff mechanism, can be in the situation that not being equipped with various sync control device, make each packaging film realize pulling bag simultaneously, longitudinal sealing is closed, horizontal sealing is closed, cut off, thereby, can solve in order to meet each packaging film pulling bag simultaneously, longitudinal sealing, horizontal sealing, cut off, and must adopt sync control device to cause multiple row three edge sealing packing machine structures comparatively complicated, the problem that cost of manufacture is higher.

Accompanying drawing explanation

Fig. 1 is the comparison diagram of the packaged type of existing various packaging bags, and wherein, A illustrates the packaged type of three bandings, and B illustrates the packaged type of four bandings, and C illustrates the packaged type of back of the body envelope;

Fig. 2 is the birds-eye view of Fig. 1;

Fig. 3 is that application number is the schematic diagram of the longitudinal opening of the packaging film on the packaging machine in 96197906.2 patent documentation;

Fig. 4 is the structural representation of novel pouches building mortion of the present utility model;

Fig. 5 is the structural representation of the bag forming machine structure in Fig. 4;

Fig. 6 illustrates the move towards schematic diagram of each packaging film at bag building mortion;

Fig. 7 is packaging film in Fig. 6 schematic diagram that moves towards at bag forming machine structure;

Fig. 8 illustrates the schematic diagram of the longitudinal opening of the packaging film of longitudinal doubling;

Fig. 9 is the projection view of each steering assembly at plane of reference;

Figure 10 is the structural representation of another kind of novel pouches building mortion of the present utility model;

Figure 11 is the structural representation of the bag forming machine structure in Figure 10;

Figure 12 is the structural representation of the tune length measuring mechanism in novel pouches building mortion of the present utility model;

Figure 13 is the structural representation of wrapping machine of the present utility model;

Figure 14 is the structural representation of the compensation mechanism in the pulling bag mechanism in wrapping machine;

Wherein, 8, packaging film; 81, longitudinal opening; 10, steering component; 11, oblique turning point; 111, inclined broken surface; 12, the first rotary bending piece; 121, the lateral surface of the first rotary bending piece; 13, the second rotary bending piece; 131, the lateral surface of the second rotary bending piece; 31, discharging forming tube; 32, limiting part; 321, wear membrane channels; 40, route adjust mechanism; 41, fixedly lead film axle; 42, film axle is led in activity; 50, steering unit; 91, pulling bag wheel; 92, compensation wheel; 93, rotating shaft; 94, unilateral bearing; 100, bag building mortion; 200, film supplying unit; 300, cutting mechanism; 400, pulling bag mechanism; 500, longitudinal sealing mechanism; 600, transverse sealing mechanism; 700, shoutoff mechanism.

The specific embodiment

Below, by reference to the accompanying drawings and the specific embodiment, the utility model is described further, so that clearer, understands the utility model technical thought required for protection.

As shown in Fig. 4-9, for a kind of novel pouches building mortion of the utility model, comprise at least two bag forming machine structures, because single bag forming machine structure is for wall scroll packaging film process, therefore, each bag forming machine structure passes through for the each strip packaging film 8 on wrapping machine respectively accordingly.Each bag forming machine structure includes for each self-corresponding packaging film 8 steering component 10 and doubling element of process successively; Described doubling element comprises discharging forming tube 31, and as shown in Fig. 6,7,8,9, the discharging forming tube 31 of each bag forming machine structure is arranged in order along first direction X, now with one of them bag forming machine structure, is described in detail:

As shown in Figure 5,6, be positioned at steering component 10, the doubling element of same bag forming machine structure, and be positioned at the discharging forming tube 31 of this doubling element; Wherein,

This steering component 10, the packaging film 8 of inputting towards steering component 10 front ends from the rear of steering component 10, when pile warp steering component 10, a side > who is diverted to < steering component 10 along a front end > from < steering component 10 transfers to < steering component 10 near another side > of this discharging forming tube 31 film route of walking that < transmits > downwards more again and carries; Described two side ends is the left and right sides end of steering component 10, and distributes along the Width of steering component 10, and the Width of described steering component 10 is consistent with first direction X; Wherein, the two side ends of steering component 10 is as long as distribute along the Width of steering component, can be set to identically as for the height and position of this two side ends, also can be set to difference, and preferably, this both side ends staggers along short transverse.The shape of this two side ends can be set to according to actual demand identical or different.On described steering component 10, be provided be positioned on film route and for for packaging film 8, walk around make that packaging film 8 turns to walk film position.

This doubling element, the packaging film 8 of transmission is when through doubling element downwards, and the longitudinal doubling of this packaging film 8 takes the shape of the letter U; The longitudinal opening 81 of the packaging film 8 of the longitudinal doubling of process is all toward first direction X; Wherein, downwards the packaging film 8 of transmission when through discharging forming tube 31 along the axial transmission of discharging forming tube 31.

As shown in Figure 6,7, when novel pouches building mortion 100 is applied to multiple row three edge sealing packing machine, in the normal use procedure of wrapping machine, individual packaging film 8 cuts into strip packaging film 8 through cutting mechanism 300, and before work, first by one end of each strip packaging film 8 from the rear of steering component 10 along walking steering component 10 corresponding to film route pile warp, and longitudinally doubling on corresponding doubling element; And in the continuous transmitting procedure of each packaging film 8, the importation of each packaging film 8 is all inputted towards corresponding steering component 10 from the rear of steering component 10, then along walking film route pile warp steering component 10, transmission is downwards through doubling element again, form longitudinal doubling, and the longitudinal opening 81 of the packaging film 8 of process doubling element is all toward first direction X.

The utility model is by rationally regulating the trend of packaging film 8, make the longitudinal opening 81 of packaging film 8 of longitudinal doubling all toward first direction X, when novel pouches building mortion 100 is applied to multiple row three edge sealing packing machine, two rotating shafts of the pulling bag mechanism 400 on wrapping machine can laterally be put along with the longitudinal opening of packaging film 8 81 directions, namely, the bearing of trend of rotating shaft is consistent with first direction X, thereby, corresponding with each bag forming machine structure respectively to pulling bag wheel 91, can share this two rotating shaft, can be along with the rotation of this two rotating shaft, and the multipair runner in rotating shaft is rotated simultaneously, thereby make each packaging film 8 can realize pulling bag simultaneously, and in like manner, two longitudinal sealing supporting bodies of longitudinal sealing mechanism 500 are laterally put along with longitudinal opening 81 directions of packaging film 8, corresponding with each bag forming machine structure is each to shared this two longitudinal sealings supporting body of longitudinal sealing heating physical efficiency, can be along with the rotation of longitudinal sealing supporting body, make the multipair longitudinal sealing calandria on longitudinal sealing supporting body carry out longitudinal sealing action to each packaging film 8 simultaneously, in like manner, two horizontal sealing supporting bodies of transverse sealing mechanism 600 are laterally put along with longitudinal opening 81 directions of packaging film 8, thereby, corresponding with each bag forming machine structure is each to shared this two horizontal sealings supporting body of horizontal sealing heating physical efficiency, can be along with the rotation of horizontal sealing supporting body, can make the multipair horizontal sealing calandria on horizontal sealing supporting body carry out horizontal sealing action to each packaging film 8 simultaneously, and in like manner, two cutting knife carriers of shoutoff mechanism 700 are laterally put along with packaging film 8 longitudinal opening 81 directions, thereby, corresponding with each bag forming machine structure respectively to cutting knife, can share this two cutting knifes carrier, can be along with the rotation of two cutting knife carriers, and make the multipair cutting knife on cutting knife carrier cut off action to each packaging film 8 simultaneously.Therefore, when the utility model is applied to multiple row three edge sealing packing machine, by the action of this pulling bag mechanism 400, transverse sealing mechanism 600, longitudinal sealing mechanism 500, shoutoff mechanism 700, can make each row packaging film on three edge sealing packing machines 8 pulling bag, longitudinal sealing are closed, horizontal sealing is closed simultaneously, cut off, and without being equipped with various sync control devices, can effectively solve Multi-row packing machine structure comparatively complicated, the problem that cost of manufacture is higher.Due to pulling bag mechanism 400, transverse sealing mechanism 600, longitudinal sealing mechanism 500, the structure of shoutoff mechanism 700 is as the common practise in the industry, thereby, above not to pulling bag mechanism 400, transverse sealing mechanism 600, the structure of longitudinal sealing mechanism 500 is elaborated, but emphasis is described the utility model by regulating the longitudinal opening 81 of packaging film 8, can utilize pulling bag mechanism 400, transverse sealing mechanism 600, longitudinal sealing mechanism 500, the reasonable coordination of shoutoff mechanism 700, can be in the situation that not being equipped with various sync control device, make each packaging film 8 pulling bag simultaneously, longitudinal sealing is closed, horizontal sealing is closed, cut off.

Wherein, the shape of described discharging forming tube 31 can be set according to actual demand, for example, can be set to hollow cylindrical, or flat shape, and certainly, this discharging forming tube 31 can also be set to other shapes, for example, comprises that two first face the wall and meditate; Between described two first opposed ends of facing the wall and meditating, all by the first side wall, connect; Described two first distances of facing the wall and meditating reduce from top to bottom gradually, and described two the first side walls are positioned at discharging forming tube 31 on the two ends of first direction, are beneficial to the shaping of packaging film 8.When packaging film 8 process discharging forming tube 31, this packaging film 8 is centered around the outside face of discharging forming tube 31, forms longitudinal doubling.And preferred, this doubling element also comprises limiting part 32; On described limiting part 32, be formed with and wear membrane channels 321, described in wear membrane channels 321 and comprise the arc slot part that passes for discharging forming tube 31, be communicated with and be the limiting section of strip with arc slot part, described limiting section extends along first direction X.In use, first longitudinal the end of packaging film 8 doubling is placed on and is worn in membrane channels 321, and now, the centre portion of packaging film 8 is centered around discharging forming tube 31 outside faces, and the both sides of packaging film 8 are positioned at limiting section; And along with the continuous conveying of packaging film 8, through the packaging film 8 of limiting part 32, all by longitudinal doubling, taken the shape of the letter U, therefore, by adopting the design of limiting part 32, can make longitudinal doubling of packaging film 8 more smooth, accurate, and be convenient to follow-up longitudinal sealing.Preferably, can also above discharging forming tube 31, be provided with forming face, described forming face comprises that two second face the wall and meditate, are connected to second liang of second sidewall between facing the wall and meditating, described two second distances of facing the wall and meditating reduce from top to bottom gradually, described the second sidewall is positioned at forming face on the end of first direction, is beneficial to the shaping of packaging film 8.And for the ease of convey materials, described discharging forming tube 31 can be connected directly on feed mechanism, also can be connected on feed mechanism by discharge barrel, so that the mass transport on feed mechanism is to discharging forming tube 31.And described forming face is plastic on discharge barrel.

For make packaging film 8 can along a side that is diverted to steering component 10 from the front end of steering component 10 transfer to again steering component 10 near another side of this discharging forming tube 31 downwards the film route of walking of transmission carry, described steering component 10 adopts following concrete structure: as shown in Fig. 5,9, described steering component 10 comprises the first rotary bending piece 12, is positioned at oblique turning point 11, second rotary bending piece 13 of the first rotary bending piece 12 tops, tiltedly the front end face of turning point 11 is an inclined broken surface being inclined to set 111, described walk film position comprise the inclined broken surface 111, the lateral surface 121 of the first rotary bending piece, the lateral surface 131 of the second rotary bending piece for packaging film 8 successively pile warp, on described the second rotary bending piece 13, on the lateral surface of confession packaging film 8 pile warps and the first rotary bending piece 12, the lateral surface for packaging film pile warp distributes along the Width of steering component 10, and lateral surface and the first rotary bending piece 12 for packaging film 8 pile warps needs only the Width distribution along steering component 10 for the lateral surface of packaging film pile warp on described the second rotary bending piece 13, as for height and position, can be set to identical, also can be set to difference, and it is preferred, lateral surface and the first rotary bending piece 12 for packaging film 8 pile warps on described the second rotary bending piece 13 stagger along short transverse for the lateral surface of packaging film pile warp.As shown in Figure 5, from inclined broken surface 111, a side of close the first rotary bending piece 12 lateral surfaces is to another side near the second rotary bending piece 13 lateral surfaces, and described inclined broken surface 111 recedes gradually.And according to common practise, the side that described the second rotary bending piece 13 is adjacent with the first rotary bending piece 12 is inner side, opposite side is outside.

Preferably, described the second rotary bending piece 13 is parallel with the first rotary bending piece 12, and described the second rotary bending piece 13, the first rotary bending piece 12 all extend along second direction Y, wherein, the short transverse Z of steering component is vertical with first direction X, and second direction Y is vertical with the short transverse Z of first direction X, steering component 10.Preferably, tiltedly also extend along second direction Y turning point 11, and described oblique turning point 11, the first rotary bending piece 12, the second rotary bending piece 13 are arranged from top to bottom successively.As shown in Figure 9, orthogonal projection on the plane of reference that the lateral surface 121 of described the first rotary bending piece becomes with second direction Y shape at first direction X is the first projection, the orthogonal projection of inclined broken surface 111 on this plane of reference is the second projection, and the outer ledge of described the first projection is positioned at a side of the second projection.Wherein, the size of inclined broken surface 111 can be set according to the width of strip packaging film 8.

In order to reduce friction force, described inclined broken surface 111 can be the arc surface being arranged on oblique turning point 11, the tiltedly cambered surface of the roller bearing on turning point 11, or other structures.Described the first rotary bending piece 12 can be the anchor shaft being fixedly installed, the rotatable axis of rolling, flat board, or other structures, on the first rotary bending piece 12, for the lateral surface of packaging film 8 pile warps, can be plane, and preferred, for the cambered surface on anchor shaft, the axis of rolling or flat board, to reduce friction force.The second rotary bending piece 13 can be the anchor shaft being fixedly installed, the rotatable axis of rolling, flat board, or other structures, on the second rotary bending piece 13, for the lateral surface of packaging film 8 pile warps, can be plane, and preferred, for the cambered surface on anchor shaft, the axis of rolling or flat board, to reduce friction force.

(each arrow illustrates the trend of packaging film 8) as shown in Figure 7, in use, individual packaging film 8 is cut to after strip packaging film 8 through dividing, each strip packaging film 8 transmits towards inclined broken surface 111 respectively from the rear of the oblique turning point 11 of correspondence, and pile warp inclined broken surface 111, from the below of oblique turning point 11, walk the lateral surface 121 of film to the first rotary bending piece, and then through the below of the first rotary bending piece 12, walk the lateral surface 131 of film to the second rotary bending piece, then along transmission downwards.

As shown in Fig. 4,5,8,9, bag building mortion 100 comprises at least two deflecting plates, and each deflecting plate is arranged successively along first direction X; The deflecting plate in a first direction two side ends place of X is laid with steering component 10, and the oblique turning point 11 on these two steering components 10 is molded on this deflecting plate, and the inclined broken surface 111 on these two oblique turning points 11 is symmetry arrangement, and forms V font; Two steering components 10 of described deflecting plate and its correspondence are combined into a steering unit 50, each steering unit 50 is arranged along first direction, two steering units 50 of arbitrary neighborhood stagger along short transverse, to avoid adjacent two the strip packaging films 8 after cutting to interfere; As shown in Figure 8, corresponding two the discharging forming tubes 31 of two steering components 10 on steering unit 50 are all arranged in an adjacent side on these two steering components 10, so that the longitudinal opening 81 of two packaging films 8 of these two discharging forming tubes 31 in opposite directions.For the ease of processing, reduce tooling cost, the integrally formed rectangular shape of corresponding two limiting parts 32 of two steering components 10 on same steering unit 50, now, the membrane channels 321 of wearing on these two limiting parts 32 is symmetry arrangement, and the upper end of the discharging forming tube 31 of two steering component 10 correspondences on same steering unit 50 is connected together by a discharge barrel, and these two corresponding forming faces of steering component 10 are all molded on this discharge barrel, in the situation that meeting convey materials, can reduce the space taking.And preferred, all steering units 50 are lined up two row that mutually stagger along short transverse.

Certainly, the arrangement mode of described bag forming machine structure is not limited in aforesaid way, also can be as Figure 10, shown in 11 (wherein, the direction of arrow of Figure 11 illustrates the trend of wall scroll packaging film 8), each steering component 10 is arranged successively along first direction X, and two adjacent steering components 10 stagger mutually along short transverse, to avoid adjacent two the strip packaging films 8 after cutting to interfere, the opening of the packaging film 8 of each longitudinal doubling toward the same side (namely, the opening of the packaging film 8 of each longitudinal doubling is toward left side, or the opening of the packaging film 8 of each longitudinal doubling is toward right side).And preferred, all steering components 10 are lined up two row that mutually stagger along short transverse.

As shown in figure 12, novel pouches building mortion 100 also comprises route adjust mechanism 40, and described packaging film 8 first passes through route adjust mechanism 40, and then through bag forming machine structure; Film axle 42 is led in the activity of fixedly leading film axle 41, being arranged on mounting bracket in the mode of adjustable position that described route adjust mechanism 40 comprises mounting bracket, be arranged on mounting bracket; The described film axle 41 of fixedly leading extends along first direction X.Because above-mentioned steering component 10 adopts misconstruction, by by each packaging film 8 selectively pile warp fixedly leading on film axle 41, or lead on film axle 42 for fixedly leading film axle 41 and activity, can make the path of each packaging film 8 be made up.Now describe for example: when packaging film 8 has printing to need sealing pattern consistent, packaging film 8,8a be point open-circuit line after fixedly leading film axle 41, packaging film 8 is directly on the steering unit 50 to above-listed, packaging film 8a leads film axle 42 again on the steering unit 50 to following through movable, and by regulating activity to lead the position of film axle 42, identical length in the time of can making packaging film 8 on bag forming machine structure, 8a from route adjust mechanism 40 to discharging forming tube 31 with so that the sealing position of packaging film 8 is consistent.Wherein, activity is led the quantity of film axle 42 and can be led arranging of film axle 42 and set according to activity, and work as all steering units 50, line up two row (or lining up two row that mutually stagger along short transverse for all steering components 10) that mutually stagger along short transverse, the quantity that activity can be led to film axle 42 is defined as at least one, can effectively reduce costs.

Wherein, on described mounting bracket, be provided with elongated slot, and the movable film axle 42 of leading can be by screw locking on the diverse location of elongated slot, thereby realization activity is led film axle 42 and is arranged on mounting bracket in the mode of adjusting position.Wherein, described elongated slot can be along extensions such as short transverse, horizontal direction, direction of tilt so that activity lead film axle 42 can be along short transverse, horizontal direction, direction of tilt constant pitch position.Certainly, in order to meet above-mentioned installation requirement, described activity is led film axle 42 and can also be arranged on the elongated slot of mounting bracket by other modes such as clamping.

In the course of the work, each packaging film 8 all inputted towards steering component 10 from the rear of each steering component 10, and is shaped through respectively going out the doubling of doubling element.And the working process of each bag forming machine structure is all identical, now with the working process of one of them bag forming machine structure, be illustrated: before work, first by one end of packaging film 8 successively pile warp route adjust mechanism 40, steering component 10, doubling element, and when packaging film 8 constantly advances, the packaging film 8 at traction rear is introduced into route adjust mechanism 40, then through steering component 10, turn to, finally by the longitudinal doubling of doubling element.

Wherein, described bag building mortion 100 can be applicable on various wrapping machine, is mainly used on vertical multiple row three edge sealing packing machines.Certainly, be also applicable to (now,, in four banding process of assembling, need encapsulate two longitudinal ends of the packaging bag of longitudinally doubling (side has the longitudinal end of longitudinal opening 81, the longitudinal end of opposite side closure)) on vertical multiple row four edge sealing packing machines.

As shown in figure 13, wrapping machine of the present utility model, comprise film supplying unit 200, cutting mechanism 300, feed mechanism, pulling bag mechanism 400, longitudinal sealing mechanism 500, transverse sealing mechanism 600, shoutoff mechanism 700, also further comprises above-mentioned novel pouches building mortion 100, wherein, described film supplying unit 200, cutting mechanism 300, bag building mortion 100, pulling bag mechanism 400, longitudinal sealing mechanism 500, transverse sealing mechanism 600, shoutoff mechanism 700 set gradually along the throughput direction of packaging film 8; Feed mechanism is for discharging forming tube 31 convey materials towards bag building mortion 100.Wherein,

Film supplying unit 200, for unreeling web-like packaging film 8;

Cutting mechanism 300, divides and is cut to strip packaging film 8 for the packaging film 8 that film supplying unit 200 is provided;

Bag building mortion 100, each strip packaging film 8 after cutting enters respectively on each bag forming machine structure, and through bag forming machine structure guiding, longitudinally doubling;

Pulling bag mechanism 400, the packaging film after longitudinal doubling drives it to move down through pulling bag mechanism 400;

Longitudinal sealing mechanism 500, carries out longitudinal sealing for the packaging film 8 to after doubling;

Transverse sealing mechanism 600, for carrying out horizontal sealing to packaging film 8; And in the process of a packaging bag of formation, utilize longitudinal sealing mechanism 500 to carry out longitudinal joint to the side of packaging film 8, and utilize transverse sealing mechanism 600 horizontal sealings, to form a material-holding chamber, and the material of feed mechanism is after discharging forming tube 31 is filled in material-holding chamber, packaging film 8 moves, and recycling transverse sealing mechanism 600 carries out horizontal sealing, forms the packaging bag of a closure;

Shoutoff mechanism 700, for cutting off packaging bag good involution.

Wherein, because bag building mortion 100 can coordinate continuous bag-pulling mechanism or batch (-type) pulling bag mechanism to use, therefore, pulling bag mechanism 400 can, according to actual demand, adopt continous way pulling bag or batch (-type) pulling bag mechanism; And match with the manner of execution of pulling bag mechanism 400, longitudinal sealing mechanism 500, transverse sealing mechanism 600 are also followed pulling bag mechanism 400 and are adopted continous way or step mode of operation.

Preferably, as shown in figure 14, described pulling bag mechanism 400 is a continuous bag-pulling mechanism, it comprise two rotating shafts that are parallel to each other 93, with each bag forming machine structure at least two wheel set assemblies, driver train one to one, described rotating shaft 93 axially consistent with first direction X; The compensation wheel 92 that described wheel set assembly includes two pulling bag wheels 91, contacts with one of them pulling bag wheel 91; Described driver train is used for driving compensation wheel 92 and rotating shaft 93 to rotate; Two pulling bag wheels 91 on same wheel set assembly are corresponding one by one with two rotating shafts respectively, and are arranged in the rotating shaft corresponding with it by unilateral bearing 94; Packaging film 8, after doubling, from process between two pulling bag wheels 91 of corresponding wheel set assembly, because described packaging film is folded between two pulling bag wheels 91, can drive packaging film 8 to move down via the rotation of this two pulling bags wheel 91.In use, rotating shaft 93 is along A to rotation, by unilateral bearing 94, drive pulling bag wheel 91 along B to rotation, thereby drive packaging film 8 along D to movement, driver train drives compensation wheel 92 to rotate, make compensation wheel 92 to be greater than namely pulling bag wheel 91 of rotating shaft 93() linear velocity rotate, so that 92 pairs of pulling bag wheels 91 of compensation wheel produce friction force, when 92 pairs of pulling bags of compensation wheel are taken turns 91 friction force while being greater than the tension force of packaging film 8, pulling bag is taken turns 91 faster rotational speed, but due to the effect of unilateral bearing 94, the rotating speed that can avoid this pulling bag to take turns 91 countershafts 93 exerts an influence; When 92 pairs of pulling bags of compensation wheel are taken turns 91 friction force while being less than the tension force of packaging film 8, slip between compensation wheel 92 and pulling bag wheel 91, pulling bag is taken turns the speed of 91 maintenance own.Therefore, in use, when moving down under the driving of many packaging films 8 at each wheel set assembly, if there are indivedual packaging films 8 more loose, the tension force of this packaging film 8 is less, and the rotating speed of the pulling bag wheel 91 corresponding with this packaging film 8 is greater than the rotating speed of other pulling bag wheels 91, and packaging film 8 accelerates reach.When this packaging film 8 reaches tensioning state and synchronizes reach with other packaging films 8, the tension force of this packaging film 8 increases, and the friction force of 92 pairs of pulling bag wheels 91 of compensation wheel is less than the tension force of this packaging film 8, and compensation wheel 92 slides with respect to pulling bag wheel 91, stops compensation.And preferred, the friction force size between compensation wheel 92 and pulling bag wheel 91 can compensate by adjustment the pressure of 92 pairs of pulling bag wheels 91 of wheel, thereby reaches optimum efficiency.This pulling bag mechanism compensates wheel 92 design by employing, can make each packaging film 8 synchronously move down, and avoids occurring that each packaging film 8 degrees of tightness differ and mutually kink the phenomenon of the bag that causes together being normally shaped.

Above-mentioned embodiment is only preferred implementation of the present utility model; the scope that can not limit with this utility model protection, the variation of any unsubstantiality that those skilled in the art does on basis of the present utility model and replacement all belong to the utility model scope required for protection.

Claims (10)

1. novel pouches building mortion, comprises at least two bag forming machine structures, and each bag forming machine structure is respectively accordingly for each strip packaging film process; It is characterized in that: described bag forming machine structure includes steering component and doubling element; Described doubling element comprises discharging forming tube, and the discharging forming tube of each bag forming machine structure is arranged in order along first direction;

Be positioned at steering component, the doubling element of same bag forming machine structure, and be positioned at the discharging forming tube of this doubling element; Wherein,

This steering component, the packaging film of inputting towards steering component front end from the rear of steering component, when pile warp steering component, a side that is diverted to steering component along a front end from steering component transfer to again steering component near another side of this discharging forming tube downwards the film route of walking of transmission carry; Wherein, the left and right sides end that described two side ends is steering component, and distribute along the Width of steering component, the Width of described steering component is consistent with first direction; On described steering component, be provided be positioned on film route and for for packaging film, walk around make that packaging film turns to walk film position;

This doubling element, downwards the packaging film of transmission when through doubling element, the longitudinal doubling of this packaging film; The longitudinal opening of the packaging film of the longitudinal doubling of process is all toward first direction; Wherein, downwards the packaging film of transmission when through discharging forming tube along the axial transmission of discharging forming tube.

2. novel pouches building mortion as claimed in claim 1, is characterized in that: described steering component comprises the first rotary bending piece, is positioned at oblique turning point, second rotary bending piece of the first rotary bending piece top; Tiltedly the front end face of turning point is an inclined broken surface being inclined to set; Described walk film position comprise the inclined broken surface, the lateral surface of the first rotary bending piece, the lateral surface of the second rotary bending piece for packaging film successively pile warp; On described the second rotary bending piece, on the lateral surface of confession packaging film pile warp and the first rotary bending piece, the lateral surface for packaging film pile warp distributes along the Width of steering component; From inclined broken surface, a side of close the first rotary bending piece lateral surface is to another side near the second rotary bending piece lateral surface, and described inclined broken surface recedes gradually.

3. novel pouches building mortion as claimed in claim 2, it is characterized in that: the orthogonal projection of the lateral surface of the first rotary bending piece on the plane of reference of first direction and second direction formation is the first projection, the orthogonal projection of inclined broken surface on this plane of reference is the second projection, and the outer ledge of described the first projection is positioned at a side of the second projection; Wherein, the short transverse of steering component is vertical with first direction, and second direction is vertical with the short transverse of first direction, steering component.

4. novel pouches building mortion as claimed in claim 2, it is characterized in that: described the second rotary bending piece, the first rotary bending piece all extend along second direction, wherein, the short transverse of steering component is vertical with first direction, and second direction is vertical with the short transverse of first direction, steering component; Described oblique turning point, the first rotary bending piece, the second rotary bending piece are arranged from top to bottom successively.

5. novel pouches building mortion as claimed in claim 2, is characterized in that: bag building mortion comprises at least two deflecting plates, and each deflecting plate is arranged along first direction; Deflecting plate two side ends place is in a first direction laid with steering component, and the oblique turning point on these two steering components is all molded on this deflecting plate, and two inclined broken surfaces on deflecting plate are symmetry arrangement; Two steering components of described deflecting plate and its correspondence are combined into a steering unit, and each steering unit is arranged along first direction, and two steering units of arbitrary neighborhood stagger along short transverse; The corresponding discharging forming tube of two steering components on same steering unit is all arranged in an adjacent side on these two steering components.

6. novel pouches building mortion as claimed in claim 1, is characterized in that: each steering component is arranged in order along first direction, and two adjacent steering components stagger mutually along short transverse.

7. the novel pouches building mortion as described in claim 5 or 6, is characterized in that: novel pouches building mortion also comprises route adjust mechanism, described packaging film first passes through route adjust mechanism, and then through bag forming machine structure; Film axle is led in the activity of fixedly leading film axle, being arranged on mounting bracket in the mode of adjustable position that described route adjust mechanism comprises mounting bracket, be arranged on mounting bracket; The described film axle of fixedly leading extends along first direction.

8. novel pouches building mortion as claimed in claim 1, is characterized in that: this doubling element also comprises limiting part; On described limiting part, be formed with and wear membrane channels, described in wear membrane channels and comprise the arc slot part that passes for discharging forming tube, be communicated with and be the limiting section of strip with arc slot part; Described limiting section extends along first direction.

9. wrapping machine, comprises film supplying unit, cutting mechanism, and feed mechanism, pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism, is characterized in that: also comprise the novel pouches building mortion described in claim 1-8 any one; Described film supplying unit, cutting mechanism, bag building mortion, pulling bag mechanism, longitudinal sealing mechanism, transverse sealing mechanism, shoutoff mechanism set gradually along the throughput direction of packaging film; Feed mechanism is for the discharging forming tube convey materials towards bag building mortion.

10. wrapping machine as claimed in claim 9, is characterized in that: described pulling bag mechanism comprise two rotating shafts that are parallel to each other, with each bag forming machine structure at least two wheel set assemblies, driver train one to one, described rotating shaft axially consistent with first direction; The compensation wheel that described wheel set assembly includes two pulling bag wheels, takes turns to contact with one of them pulling bag; Described driver train is used for driving compensation wheel and rotating shaft to rotate; Two pulling bag wheels on same wheel set assembly are corresponding one by one with two rotating shafts respectively, and are arranged in the rotating shaft corresponding with it by unilateral bearing; Packaging film, after doubling, from process between two pulling bag wheels of corresponding wheel set assembly, and drives packaging film to move down via the rotation of this two pulling bags wheel.

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