CN205293221U - Automatic tie up tubular product bagging machine - Google Patents

Abstract

The utility model discloses an automatic tie up tubular product bagging machine, which comprises a frame, be provided with material turning frame in the frame and ask the material swager to construct, material turning frame is located and asks the material swager to construct the top for introduce the outside tubular product of waiting to tie up set bag, and plough under tubular product and hold in the palm during the material swager constructs, it rolls in order to ask material swager structure to be used for controlling tubular product, asking the material swager to construct the rear and setting gradually the pushing equipment, banding mechanism and the bagging machine that are located same horizontal axis from the right side a to left side and construct, tubular product promotes to tie up at the banding mechanism earlier down at pushing equipment, constructs at bagging machine and carries out set bag, and tubular product behind the cover bag unloads the into skid bed of outside through the shedding mechanism of liftable. The utility model discloses degree of automation is high, realized tying up and overlapped the coherent processing of the same axis of bag, and whole hold facility field space is little, does benefit to the concentrated tubular product packing of carrying on of big batch equipment.

Description

Automatically tubing packing machine is tied up

Technical field

This utility model belongs to tubing and ties up bagging field, particularly relates to and automatically ties up tubing packing machine.

Background technology

Nowadays, domestic tubing packing technique development is still comparatively slow, successively experience is needed to tie up and bagging twice necessity operation the packaging of tubing, and the most producer of this two procedures is required for carrying out manual intervention, not only the packaging time is longer, and owing to automation degree of equipment is not high, also add more workload to workman, although also there being part producer to be manufactured that the equipment of automatic packaging tubing, but the operation owing to relating to is various, especially tie up and do not accomplish the coherent process of coaxial line with two existing equipment of operation of bagging, tie up and carry out with the bagging station that staggers, general bagging device is positioned on binding apparatus front, therefore tubing needs to be transported to the bagging station of not coaxial line further through conveyer device after station is tied up and remove bagging tying up, so cause equipment more large-scale, occupied ground space is bigger, and owing to also tubing being discharged to skid bed after having packed tubing, the certain space and skid bed accounts for, cause that the passage vacated between equipment is narrower, it is not easy to that workman is current and miscellaneous equipment moves, therefore such equipment is not suitable for high-volume equipment and concentrates and carry out tubing packaging in limited space, place.

Utility model content

In order to overcome the deficiencies in the prior art, this utility model provides one and automatically ties up tubing packing machine, and its automaticity is high, it is achieved that tie up process coherent with the same axis of bagging, and space, whole hold facility place is little, it is beneficial to high-volume equipment concentration and carries out tubing packaging.

The technical solution adopted in the utility model is as follows:

One ties up tubing packing machine automatically, including frame, described frame is provided with tilting trestle and retainer feeding pressure mechanism, described tilting trestle is positioned at above retainer binder, for introducing the tubing of outside bagging to be tied up, and tubing is ploughed under in retainer feeding pressure mechanism, described retainer feeding pressure mechanism is used for controlling tubing and rolls in order, described retainer feeding pressure mechanism rear is disposed with the pusher being positioned at same level axis from right to left, banding mechanism and bagging mechanism, tubing is first tied up at banding mechanism under pusher promotes, bagging is carried out again at bagging mechanism, tubing after bagging is unloaded into outside skid bed by liftable shedding mechanism.

In this utility model, difference with the prior art technical characteristic mainly includes the pusher of same level axis, banding mechanism and bagging mechanism, achieve tubing all to complete on a horizontal axis to bagging again from pusher to tying up, need not as prior art after tubing be tied up, also to carry out bagging by the bagging device that conveyer device is transported to upper front tubing, space, this utility model whole hold facility place is little, layout bagging mechanism is removed in space owing to need not take banding mechanism front again, therefore on the left of retainer feeding pressure mechanism, vacate space can place skid bed, high plus whole automation degree of equipment, high-volume equipment centralized layout is conducive to carry out tubing packaging.

Preferably, described pusher includes being arranged on bottom frame from right to left and being positioned at the first pusher groove and the second pusher groove at retainer feeding pressure mechanism rear, and they the same sides are provided with lower guideway, it is provided with the first expeller in described first pusher groove, described first expeller is connected to the first take-up housing, described first take-up housing is affixed first Timing Belt, and first be arranged on lower guideway bottom take-up housing, described first Timing Belt moves under motor control, and synchronize to drive the first take-up housing to slide on lower guideway, thus driving the first expeller can move to the second pusher groove from the first pusher groove, described second pusher groove is arranged over pushing material component, described pushing material component includes upper rail, second take-up housing, lower beam cylinder and push rod, described upper rail is arranged in frame and is positioned at above the second pusher groove, described upper rail is provided with the second take-up housing, described second take-up housing is connected to lower beam cylinder, described lower beam cylinder is connected to push rod, described lower beam cylinder is used for driving push rod to drop in the second pusher groove, described second take-up housing is driven it to slide on upper rail by motor and the second Timing Belt, and drive lower beam cylinder and push rod to move in the second pusher groove in sliding process.

In this utility model, pusher receives the tubing of the bagging to be tied up fallen from retainer feeding pressure mechanism, then the first Timing Belt drives the first sliding seat to slide, thus driving the first expeller to promote tubing to move toward the second pusher groove direction in the first pusher groove, first take-up housing may slide in the second pusher groove, make tubing be pushed into banding mechanism to go to tie up, but owing to the first take-up housing is limited in the distance of slide, and same level axis is also wanted bagging, tubing also needs to continue to advance toward bagging mechanism, therefore pushing material component is adopted to continue to advance tubing, lower beam air cylinder driven push rod declines, then pass through motor and the second Timing Belt drives the second sliding seat to drive them to continue to press on tubing to tie up and bagging, the configuration achieves tubing to tie up and be positioned at same level axis with bagging, realize automatically binding bagging, and save transhipment operation much loaded down with trivial details in the middle of prior art.

Preferably, described banding mechanism includes being located at bottom frame and is positioned at the fixing seat and being positioned at tied up on the left of pusher and ties up above fixing seat and for being wound around the film drawing device tying up film for tubing; Described tying up is provided with the two annular location-plates being arranged side by side on fixing seat, be provided with driven swing pinion in the middle of described two annular location-plates, and two annular location-plate ends form two inclined-planes; The excircle of described driven swing pinion is evenly arranged with three gears engaging connection, respectively it is positioned at the bottom-right driving gear of driven swing pinion, the stationary positioned gear in left side and top-right adjustable positioning gear, and three gear both sides are equipped with inclined plane part, for coordinating with two contact of incline plane of two annular location-plate ends, supporting and position driven swing pinion, described driving gear is driven by motor and rotates; A through hole passed through for tubing is had in the middle of described driven swing pinion, and affixed one for installing the swivel head tying up film on driven swing pinion side surface.

Preferably, the pull bar that membrane seat that described film drawing device includes being fixed on the second pusher groove outer surface, the membrane cylinder being arranged on membrane seat are connected with membrane cylinder, described membrane air cylinder driven pull bar stretches membrane, described membrane seat also has and is provided with the gas blow pipe for blown film and for the heater strip tying up film that fuses;Conveying tubing enters the second pusher slot tail of banding mechanism and just stretches in the through hole in the middle of driven swing pinion.

In this utility model, two annular location-plate ends form two inclined-planes and contact cooperation with the inclined plane part of gear both sides, achieve the firm rotation between multiple gears that driven swing pinion engages with its excircle, do not have gear play jumping phenomena, it is to avoid noise with alleviate abrasion; It addition, driven swing pinion being provided rotary power thus rotating by its excircle meshed gears, head it is rotated simultaneously and rotates, and just under film drawing device effect, with tying up film, many tubing can be tied up winding bunchy after swivel head being mounted with tie up film.

Preferably, being additionally provided with two for the bundles of clamp block of cinch tube material between described banding mechanism and bagging mechanism, described clamp block is clamped tubing by air cylinder driven. Here the effect arranging clamp block is to tie up tubing before film is tied up in winding first by clamp block, tubing to be clamped bunchy every time, is more convenient for tying up winding, is also beneficial to the set bag process that tubing is follow-up, tubing play will not be allowed to cause tying up not tight.

Retainer press material structure of the present utility model is also provided with the baffle plate for controlling tubing radical on support rake, when needing the tubing radical tying up bagging to reach requirement, is then risen other tubing of baffle by air cylinder driven and continue to tumble.

Preferably, described bagging mechanism includes folder film device guide pin bushing, folder film device, tooth bar, bagging driving gear, bagging motor and the packaging bagging film frame being provided with packaging bagging film, described folder film device guide pin bushing is positioned on the left of banding mechanism, and described folder film device guide pin bushing is arranged over bagging motor, described bagging motor is connected to bagging driving gear, the engagement of described bagging driving tooth wheel and rack connects, described tooth bar is connected to folder film device, described packaging bagging film frame and folder film device guide pin bushing are oppositely arranged, and it is provided with heater strip and mucosa hot plate before described packaging bagging film frame, it is provided with mucosa hot plate before described folder film device guide pin bushing.

Preferably, described tilting trestle includes a plurality of conduit road being horizontally installed in frame, and one end, every conduit road is provided with the conduit mouth introducing outside tubing, and the other end is provided with slanting baffle. In this utility model, tubing is carried forward in conduit road always, then goes to the conduit road end and encounters slanting baffle, drops in retainer feeding pressure mechanism under slanting baffle inclined-plane guides.

Preferably, described retainer feeding pressure mechanism includes the first support vertical portion being located at below tilting trestle, second support vertical portion and with affixed support rake between which, an obtuse angle is formed between described first support vertical portion and support rake, make that tubing can rake be oblique tumbles supporting, described support rake is arranged over the A/C frame tumbled for guiding tubing to tilt, described A/C frame is embedded with and supports the slip holding pad that rake keeping parallelism is arranged, described A/C frame has skewed slot, the angle formed between described skewed slot and support rake is the first support vertical portion and the half supporting the obtuse angle formed between rake, the slide-bar of described skewed slot and a traverse slip holding pad is flexibly connected and coordinates, slip holding pad one end is made to be embedded in A/C frame, the skewed slot of described slide-bar traverse A/C frame and slip holding pad, and by slip holding pad being embedded in A/C frame with nut axis hole threaded engagement.

Preferably, described A/C frame include being fixed in the A/C vertical portion of the second support vertical portion, for guiding tubing to tilt the first conduit rake tumbled and the second conduit rake having skewed slot.

Preferably, it is two that described skewed slot arranges number, including the first skewed slot and the second skewed slot, it is separately positioned near the second conduit rake both ends of A/C frame, described slide-bar includes the first slide-bar with two skewed slots corresponding matching respectively and the second slide-bar, is wing nut with the nut of the first slide-bar threaded engagement.

Preferably, described slip holding pad includes slip binder inclined end portion and the slip binder tilting bottom arranged with support rake keeping parallelism, slip binder inclined end portion only can be held a pipe diameter size in the gap that slide-bar adjustment is moved between itself and the first support vertical portion and pass through, and described slip binder tilting bottom only can hold a pipe diameter size in the gap that slide-bar adjustment is moved between itself and support rake and pass through.

Preferably, described first supports vertical portion is provided with the first sloping baffle jumping out retainer feeding pressure mechanism for limiting tubing, described first sloping baffle includes the first rake being fixed on the first support vertical portion and arranging obliquely and the first kink connected as one with the first rake, and the angle of inclination of described first kink is more than the angle of inclination of the first rake.

Find by studying, if tubing rolls down to support rake by A/C frame, between slip binder inclined end portion with the first support vertical portion, remaining space is owing to tubing is many and rolling speed easily occurs that two tubing superpose screens soon, make stuck can not roll again in this space, therefore preferably support described first and vertical portion is provided with the second sloping baffle for preventing tubing superposition screens, described second sloping baffle includes the second rake being fixed on the first support vertical portion and obliquely and the second kink connected as one with the second rake, described second kink is arranged obliquely, tubing accommodating space is reduced by the inclined-plane of the second rake, and accelerate it and tumble to one counteracting force obliquely of tubing.

Preferably, described shedding mechanism includes two at frame gear setting up and down and lower gear, described lower gear is driven by discharging motor and rotates, upper lower gear is connected to chain, described chain is supported by lifting carriage part and is connected to an overarm brace, described overarm brace can slide up and down lifting along guide rail under chain and lifting carriage part effect, described overarm brace is provided with at least two stripper, described stripper includes the fixing seat being fixed on overarm brace and the rotation section that can rotate around fixing seat, described rotation section is connected to a laterally disposed inverted Y-shaped part, described inverted Y-shaped part includes the crosspiece being connected with rotation section and the oblique section of length being positioned in the middle of crosspiece and arranging obliquely, the obtuse angle area of space that described crosspiece and long oblique section are formed places, for supporting, the tube bundle that bagging is good, and crosspiece afterbody is provided with the short oblique gear section that anti-tubing rolls out, when long oblique section rises to frame top and pushes up frame, the acute angle area of space that long oblique section and crosspiece are formed can rotate downwardly together with rotation section, and obtuse angle area of space is then rotated up thus ordering about tubing tiltedly enter the skid bed of outside.

Compared with prior art, this utility model has the advantages that

1. this utility model achieves the full-automation of tubing packaging, ties up and is positioned at the setting of same level axis with bagging mechanism, and overall structure floor space is little, is conducive to high-volume equipment to concentrate and carries out tubing packaging;

2. retainer feeding pressure mechanism has only to regulate chute just to support vertical portion and support gap between rake by convenient adjustment slip holding pad and first in the position of skewed slot, control tubing and roll in order, save the manual adjustment time;

3. arrange the second sloping baffle to be prevented from tubing superposition screens situation occurs in tumbling process;

4. banding mechanism overall structure is simple, and process of tying up is steady, and noise is low, and it is effective that winding bunchy tied up by tubing.

Accompanying drawing explanation

Fig. 1: three-dimensional structure diagram of the present utility model;

Fig. 2: front view of the present utility model;

Fig. 3: top view of the present utility model;

Fig. 4: rearview of the present utility model;

Fig. 5: side-looking enlarged drawing of the present utility model;

Fig. 6: this utility model tilting trestle and retainer feeding pressure mechanism structural representation;

Fig. 7: this utility model retainer feeding pressure mechanism partial structurtes operation principle schematic diagram;

Fig. 8: the additional tubing structural representation of this utility model retainer feeding pressure mechanism;

Fig. 9: this utility model banding mechanism axonometric chart one;

Figure 10: this utility model banding mechanism axonometric chart two;

Figure 11: this utility model banding mechanism front view;

Figure 12: this utility model banding mechanism A-A sectional view;

Figure 13: this utility model bagging mechanism front view;

Figure 14: this utility model bagging mechanism axonometric chart;

Figure 15: the partial structurtes schematic diagram of this utility model shedding mechanism;

Figure 16: the side-looking structural representation of this utility model shedding mechanism.

Detailed description of the invention

Below in conjunction with drawings and Examples, this utility model is described in further detail.

Embodiment:

As depicted in figs. 1 and 2, one ties up tubing packing machine automatically, including frame 13, described frame 13 is provided with tilting trestle 11 and retainer feeding pressure mechanism 12, described tilting trestle 11 is positioned at above retainer binder 12, for introducing the tubing of outside bagging to be tied up, and tubing is ploughed under in retainer feeding pressure mechanism 12, described retainer feeding pressure mechanism 12 is used for controlling tubing and rolls in order, described retainer feeding pressure mechanism 12 rear is disposed with the pusher 18 being positioned at same level axis from right to left, banding mechanism 19 and bagging mechanism 20, tubing is first tied up at banding mechanism 19 under pusher 18 promotes, bagging is carried out again at bagging mechanism 20, tubing after bagging is unloaded into outside skid bed 22 by liftable shedding mechanism 21.

Such as Fig. 3, shown in Fig. 4 and Fig. 5, described pusher 18 includes the first pusher groove 49 and the second pusher groove 50 being located at retainer feeding pressure mechanism 12 rear, and they the same sides are provided with lower guideway 53, it is provided with the first expeller 54 in described first pusher groove, described first expeller 54 is connected to the first take-up housing 55, described first take-up housing 55 is affixed first Timing Belt, and first be arranged on lower guideway 53 bottom take-up housing, described first Timing Belt moves under motor control, and synchronize to drive the first take-up housing 55 to slide on lower guideway 53, thus driving the first expeller 54 can move to the second pusher groove 50 from the first pusher groove 49, described second pusher groove 50 is arranged over pushing material component, described pushing material component includes upper rail 56, second take-up housing 57, lower beam cylinder 70 and push rod 52, described upper rail 56 is arranged in frame and is positioned at above the second pusher groove 50, described upper rail 56 is provided with the second take-up housing 57, described second take-up housing 57 is connected to lower beam cylinder 70, described lower beam cylinder 70 is connected to push rod 52, described lower beam cylinder 70 is used for driving push rod 52 to drop in the second pusher groove 50, described second take-up housing 57 is driven it to slide on upper rail 56 by motor and the second Timing Belt, and drive lower beam cylinder 70 and push rod 52 mobile in the second pusher groove 50 in sliding process.

Described pusher operation principle: the tubing of the bagging to be tied up fallen from retainer feeding pressure mechanism enters in the first pusher groove and in the second pusher groove, then the first Timing Belt drives the first sliding seat to slide, thus driving the first expeller to promote tubing to move toward the second pusher groove direction in the first pusher groove, first take-up housing may slide in the second pusher groove, make tubing be pushed into banding mechanism to go to tie up, but owing to the first take-up housing is limited in the distance of slide, and same level axis is also wanted bagging, tubing also needs to continue to advance toward bagging mechanism, therefore pushing material component is adopted to continue to advance tubing, lower beam air cylinder driven push rod declines, then pass through motor and the second Timing Belt drives the second sliding seat to drive them to continue to press on tubing to tie up and bagging, the configuration achieves tubing to tie up and be positioned at same level axis with bagging, realize automatically binding bagging, and save transhipment operation much loaded down with trivial details in the middle of prior art.

As shown in Figure 6 and Figure 7, described tilting trestle 11 includes four conduit roads 16 being horizontally installed in frame, and one end, every conduit road 16 is provided with the conduit mouth introducing outside tubing, and the other end is provided with in slanting baffle 17(figure and only draws in a conduit road).

Described retainer feeding pressure mechanism 12 is located at first below tilting trestle 11 and is supported vertical portion 1, second support vertical portion 3 and with affixed support rake 2 between which, an obtuse angle is formed between described first support vertical portion 1 and support rake 2, make tubing can go supporting the oblique enlacement packaging station 9 that rolls down to of rake 2, described support rake 2 is arranged over the A/C frame 4 tumbled for guiding tubing to tilt, described A/C frame 4 is embedded with and supports the slip holding pad 5 that rake 2 keeping parallelism is arranged, described A/C frame 4 has two skewed slots, respectively the first skewed slot 6 and the second skewed slot 10, said two skewed slot respectively and supports the half that the angle formed between rake 2 is the obtuse angle formed between the first support vertical portion 1 and support rake 2.

Described A/C frame 4 includes being fixed in the A/C vertical portion 41 of the second support vertical portion 3, for guiding tubing to tilt the first conduit rake 42 tumbled and the second conduit rake 43 having the first skewed slot 6 and the second skewed slot 10.

Described first skewed slot 6 and the second skewed slot 10 are separately positioned near the second conduit rake 43 both ends of A/C frame, described slide-bar includes the first slide-bar 8 with two skewed slots corresponding matching respectively and the second slide-bar (not marking in figure), described first slide-bar and the second slide-bar are each passed through the first skewed slot 6 and the second skewed slot 10 of A/C frame 4, and by slip holding pad 5 one end being embedded in A/C frame with nut axis hole threaded engagement, and it is wing nut 7 with the nut of the first slide-bar 8 threaded engagement.

Described slip holding pad 5 includes slip binder inclined end portion 51 and the slip binder tilting bottom 52 arranged with support rake 2 keeping parallelism, slip binder inclined end portion 51 only can be held a pipe diameter size in the gap that the first slide-bar 8 and the adjustment of the second slide-bar are moved between itself and the first support vertical portion 1 and pass through, and described slip binder tilting bottom 52 only can hold a pipe diameter size in the gap that the first slide-bar 8 and the adjustment of the second slide-bar are moved between itself and support rake 2 and pass through.

As shown in Figure 7, for this utility model retainer feeding pressure mechanism operation principle schematic diagram, after unclamping wing nut, by regulating first slide-bar shift position at the first skewed slot, the second slide-bar can be driven to move at the second skewed slot, drive slip holding pad to move thus overall, and the amount of feeding of gap a and b namely variable quantity are identical. Wherein, the included angle B formed between skewed slot and support rake is the first support vertical portion and the half supporting the obtuse angle A formed between rake.

As shown in Figure 8, structural representation for additional tubing, as we can see from the figure two gaps, place can be adjusted to be only capable of hold a pipe diameter size pass through, the tubing to tie up is made to roll through successively one by one, it is easy to control tubing quantity, stuck in gap superposition without causing tubing.

Described first supports vertical portion is provided with the first sloping baffle 14 jumping out retainer feeding pressure mechanism for limiting tubing, described first sloping baffle 14 includes the first rake 141 being fixed on the first support vertical portion and arranging obliquely and the first kink 142 connected as one with the first rake 141, the angle of inclination of described first kink 142 is more than the angle of inclination of the first rake 141, distance between first rake and the first kink transition position and slip binder inclined end portion is merely able to a tubing and passes through, and also indirectly avoids many tubing and rolls interference.

Described first supports vertical portion is provided with the second sloping baffle 15 for preventing tubing superposition screens, described second sloping baffle 15 includes the second rake 151 being fixed on the first support vertical portion and obliquely and the second kink 152 connected as one with the second rake 151, described second kink 152 is arranged obliquely, reduce tubing accommodating space by the inclined-plane of the second rake 151, and accelerate it to one counteracting force obliquely of tubing to tumble.

The retainer feeding pressure mechanism of the present embodiment is also provided with the baffle plate (mark not shown in FIG.) for controlling tubing radical on support rake 2, air cylinder driven rises and stop that tubing continues to tumble.

Described tilting trestle and retainer binder operation principle: outside tubing is entered by the conduit mouth of tilting trestle, carry forward in conduit road always, then go to the conduit road end and encounter slanting baffle, the A/C frame of retainer feeding pressure mechanism is dropped under slanting baffle inclined-plane guides, then tubing rolls down to support the path clearance between rake and lubricating substance holding pad more one by one, finally tumble into pusher, then pushed go banding mechanism to tie up, then complete bagging packaging at bagging mechanism.

As shown in Fig. 9 to Figure 12, the fixing seat 22 and being positioned at tied up that described banding mechanism 19 includes being located at bottom frame 13 and be positioned on the left of pusher 18 is tied up above fixing seat 22 and for being wound around the film drawing device 32 tying up film for tubing; Described tie up fixing seat 13 and be provided with housing, the two annular location-plates 33 being arranged side by side are installed in housing, are provided with driven swing pinion 31 in the middle of described two annular location-plates 33, and two annular location-plate ends form two inclined-planes 34; The excircle of described driven swing pinion 31 is evenly arranged with three gears engaging connection, respectively it is positioned at the bottom-right driving gear of driven swing pinion 28, the stationary positioned gear 29 in left side and top-right adjustable positioning gear 30, and three gear both sides are equipped with inclined plane part 35, for contacting cooperation with two inclined-planes 34 of two annular location-plate 33 ends, supporting and position driven swing pinion 31, described driving gear 28 is driven rotation by motor 39; Have the through hole 38 passed through for tubing in the middle of described driven swing pinion, and driven swing pinion 31 side surface affixed is for installing the swivel head 23 tying up film 24.

The pull bar 25 that membrane seat 26 that described film drawing device 32 includes being fixed on the second pusher groove outer surface, the membrane cylinder 27 being arranged on membrane seat 26 are connected with membrane cylinder, described membrane air cylinder driven pull bar 25 stretches membrane, described membrane seat 26 also has and is provided with the gas blow pipe 36 for blown film and ties up the heater strip 37 of film for fusing; Conveying tubing enters the second pusher slot tail of banding mechanism and just stretches in the through hole 38 in the middle of driven swing pinion.

As shown in Figure 4, being additionally provided with two for the bundles of clamp block 51 of cinch tube material between described banding mechanism 19 and bagging mechanism 20, described clamp block is clamped tubing by air cylinder driven.

Described banding mechanism operation principle: before starting to tie up wrapped tube, clamp block tightens up tubing bunchy under air cylinder driven, membrane cylinder is return to be pushed down by pull bar circle splenium and is tied up film termination, driving gear drives driven swing pinion to rotate, it is fixed on swivel head on driven swing pinion to drive and tie up film and rotate a fixing turn (by the counter controls number of turns) around the tubing of center of rotation namely through hole center, then membrane cylinder is released, unclamp and tie up film termination, gas blow pipe blow under by tie up film termination blow into rotating tie up in film, membrane cylinder is return, tie up film to continue to rotate the setting number of turns, then membrane cylinder is released when tying up the film last half-turn of rotation, tie up to return to push down when film stops the rotation and tie up film, heater strip cut-out simultaneously is tied up film and is completed a cycle of operation.

As shown in Figure 13 and Figure 14, described bagging mechanism includes folder film device guide pin bushing 40, folder film device 41, tooth bar 42, bagging driving gear 47, bagging motor 48 and the packaging bagging film frame 46 being provided with packaging bagging film 45, described folder film device guide pin bushing 40 is positioned on the left of banding mechanism 19, and described folder film device guide pin bushing 40 is arranged over bagging motor, described bagging motor is connected to bagging driving gear, the engagement of described bagging driving tooth wheel and rack connects, described tooth bar is connected to folder film device, described packaging bagging film frame and folder film device guide pin bushing are oppositely arranged, and it is provided with heater strip 44 and mucosa hot plate 43 before described packaging bagging film frame, it is provided with mucosa hot plate 43 before described folder film device guide pin bushing.

Described bagging mechanism operation principle: when banding mechanism is started working, bagging electric motor starting drives bagging driving gear to rotate, and drives folder film device quickly to move to pressing from both sides film location to the left, release folder film device cylinder clamping bag membrane under the effect of tooth bar; Bagging motor reversal, folder film device band film moves right to setting position, right side, by the time the tubing tied up enters through folder film device fairlead and enters strap film after folder film device, it is with whole section of tubing to enter strap film post-heating silk and cuts off bag membrane, folder film device cylinder is return and is unclamped bag membrane, and both sides mucosa hot plate completes a bagging process after having closed up the bag membrane sealing of tubing two ends.

As shown in Figure 15 and Figure 16, described shedding mechanism includes two at frame gear 59 setting up and down and lower gear 60, upper lower gear is connected to chain 65, described chain 65 is supported by lifting carriage part 61 and is connected to an overarm brace 62, described lower gear 60 is driven rotation by discharging motor 58 thus driving chain and the lifting of lifting carriage part, and then described overarm brace 62 can slide up and down lifting along guide rail 66 under they effects, described overarm brace 62 is provided with three stripper 63, fixing seat (not marking in figure) that described stripper 63 includes being fixed on overarm brace 62 and can around the rotation section 631 that fixing seat rotates, on described rotation section, 631 are connected to a laterally disposed inverted Y-shaped part, described inverted Y-shaped part includes the crosspiece 632 being connected with rotation section and the oblique section 633 of length being positioned in the middle of crosspiece and arranging obliquely, the obtuse angle area of space 69 that described crosspiece 632 and long oblique section 633 are formed places, for supporting, the tube bundle 67 that bagging is good, and crosspiece afterbody is provided with the short oblique gear section 634 that anti-tubing rolls out, when long oblique section rises to frame top and pushes up frame, the acute angle area of space 68 that long oblique section 633 and crosspiece 632 are formed can rotate downwardly together with rotation section 631, and obtuse angle area of space 69 is then rotated up thus ordering about tubing tiltedly enter the skid bed of outside. shedding mechanism is additionally provided with multiple retainer assembly 64 for supporting the tubing after bagging. in the present embodiment, shedding mechanism can also adopt other lifting structure to carry out discharging tubing, and the present embodiment is one of which set-up mode.

Claims (12)

1. automatically tie up tubing packing machine for one kind, including frame, described frame is provided with tilting trestle and retainer feeding pressure mechanism, described tilting trestle is positioned at above retainer feeding pressure mechanism, for introducing the tubing of outside bagging to be tied up, and tubing is ploughed under in retainer feeding pressure mechanism, described retainer feeding pressure mechanism is used for controlling tubing and rolls in order, it is characterized in that, described retainer feeding pressure mechanism rear is disposed with the pusher being positioned at same level axis from right to left, banding mechanism and bagging mechanism, tubing is first tied up at banding mechanism under pusher promotes, bagging is carried out again at bagging mechanism, tubing after bagging is unloaded into outside skid bed by liftable shedding mechanism.

2. according to claim 1 automatically tie up tubing packing machine, it is characterized in that, pusher includes being arranged on bottom frame from right to left and being positioned at the first pusher groove and the second pusher groove at retainer feeding pressure mechanism rear, and they the same sides are provided with lower guideway, it is provided with the first expeller in described first pusher groove, described first expeller is connected to the first take-up housing, described first take-up housing is affixed first Timing Belt, and first be arranged on lower guideway bottom take-up housing, described first Timing Belt moves under motor control, and synchronize to drive the first take-up housing to slide on lower guideway, thus driving the first expeller can move to the second pusher groove from the first pusher groove,Described second pusher groove is arranged over pushing material component, described pushing material component includes upper rail, second take-up housing, lower beam cylinder and push rod, described upper rail is arranged in frame and is positioned at above the second pusher groove, described upper rail is provided with the second take-up housing, described second take-up housing is connected to lower beam cylinder, described lower beam cylinder is connected to push rod, described lower beam cylinder is used for driving push rod to drop in the second pusher groove, described second take-up housing is driven it to slide on upper rail by motor and the second Timing Belt, and drive lower beam cylinder and push rod to move in the second pusher groove in sliding process.

3. according to claim 1 and 2 automatically tie up tubing packing machine, it is characterized in that, described banding mechanism includes being located at bottom frame and is positioned at the fixing seat and being positioned at tied up on the left of pusher to be tied up above fixing seat and for being wound around the film drawing device tying up film for tubing; Described tying up is provided with the two annular location-plates being arranged side by side on fixing seat, be provided with driven swing pinion in the middle of described two annular location-plates, and two annular location-plate ends form two inclined-planes; The excircle of described driven swing pinion is evenly arranged with three gears engaging connection, respectively it is positioned at the bottom-right driving gear of driven swing pinion, the stationary positioned gear in left side and top-right adjustable positioning gear, and three gear both sides are equipped with inclined plane part, for coordinating with two contact of incline plane of two annular location-plate ends, supporting and position driven swing pinion, described driving gear is driven by motor and rotates; A through hole passed through for tubing is had in the middle of described driven swing pinion, and affixed one for installing the swivel head tying up film on driven swing pinion side surface.

4. according to claim 3 automatically tie up tubing packing machine, it is characterized in that, the pull bar that membrane seat that described film drawing device includes being fixed on the second pusher groove outer surface, the membrane cylinder being arranged on membrane seat are connected with membrane cylinder, described membrane air cylinder driven pull bar stretches membrane, described membrane seat also has and is provided with the gas blow pipe for blown film and for the heater strip tying up film that fuses; Conveying tubing enters the second pusher slot tail of banding mechanism and just stretches in the through hole in the middle of driven swing pinion.

5. according to claim 1 automatically tie up tubing packing machine, it is characterised in that being additionally provided with two between described banding mechanism and bagging mechanism for the bundles of clamp block of cinch tube material, described clamp block is clamped tubing by air cylinder driven.

6. according to claim 1 automatically tie up tubing packing machine, it is characterized in that, described bagging mechanism includes folder film device guide pin bushing, folder film device, tooth bar, bagging driving gear, bagging motor and the packaging bagging film frame being provided with packaging bagging film, described folder film device guide pin bushing is positioned on the left of banding mechanism, and described folder film device guide pin bushing is arranged over bagging motor, described bagging motor is connected to bagging driving gear, the engagement of described bagging driving tooth wheel and rack connects, described tooth bar is connected to folder film device, described packaging bagging film frame and folder film device guide pin bushing are oppositely arranged, and it is provided with heater strip and mucosa hot plate before described packaging bagging film frame, it is provided with mucosa hot plate before described folder film device guide pin bushing.

7. according to claim 1 automatically tying up tubing packing machine, it is characterised in that described tilting trestle includes a plurality of conduit road being horizontally installed in frame, one end, every conduit road is provided with the conduit mouth introducing outside tubing, and the other end is provided with slanting baffle.

8. according to claim 1 or 7, automatically tie up tubing packing machine, it is characterized in that, described retainer feeding pressure mechanism includes the first support vertical portion being located at below tilting trestle, second support vertical portion and with affixed support rake between which, an obtuse angle is formed between described first support vertical portion and support rake, make that tubing can rake be oblique tumbles supporting, described support rake is arranged over the A/C frame tumbled for guiding tubing to tilt, described A/C frame is embedded with and supports the slip holding pad that rake keeping parallelism is arranged, described A/C frame has skewed slot, the angle formed between described skewed slot and support rake is the first support vertical portion and the half supporting the obtuse angle formed between rake, the slide-bar of described skewed slot and a traverse slip holding pad is flexibly connected and coordinates, slip holding pad one end is made to be embedded in A/C frame,The skewed slot of described slide-bar traverse A/C frame and slip holding pad, and by slip holding pad being embedded in A/C frame with nut axis hole threaded engagement.

9. according to claim 8 automatically tie up tubing packing machine, it is characterized in that, described A/C frame includes being fixed in the A/C vertical portion of the second support vertical portion, for guiding tubing to tilt the first conduit rake tumbled and the second conduit rake having skewed slot; Described slip holding pad includes slip binder inclined end portion and the slip binder tilting bottom arranged with support rake keeping parallelism, slip binder inclined end portion only can be held a pipe diameter size in the gap that slide-bar adjustment is moved between itself and the first support vertical portion and pass through, and described slip binder tilting bottom only can hold a pipe diameter size in the gap that slide-bar adjustment is moved between itself and support rake and pass through.

10. according to claim 9 automatically tie up tubing packing machine, it is characterized in that, it is two that described skewed slot arranges number, including the first skewed slot and the second skewed slot, it is separately positioned near the second conduit rake both ends of A/C frame, described slide-bar includes the first slide-bar with two skewed slots corresponding matching respectively and the second slide-bar, is wing nut with the nut of the first slide-bar threaded engagement.

Automatically tubing packing machine is tied up 11. according to claim 8, it is characterized in that, described first supports vertical portion is provided with the first sloping baffle jumping out retainer feeding pressure mechanism for limiting tubing, described first sloping baffle includes the first rake being fixed on the first support vertical portion and arranging obliquely and the first kink connected as one with the first rake, and the angle of inclination of described first kink is more than the angle of inclination of the first rake; Described first supports vertical portion is provided with the second sloping baffle for preventing tubing superposition screens, described second sloping baffle includes the second rake being fixed on the first support vertical portion and obliquely and the second kink connected as one with the second rake, and described second kink is arranged obliquely.

Automatically tubing packing machine is tied up 12. according to claim 1, it is characterized in that, described shedding mechanism includes two at frame gear setting up and down and lower gear, described lower gear is driven by discharging motor and rotates, upper lower gear is connected to chain, described chain is supported by lifting carriage part and is connected to an overarm brace, described overarm brace can slide up and down lifting along guide rail under chain and lifting carriage part effect, described overarm brace is provided with at least two stripper, described stripper includes the fixing seat being fixed on overarm brace and the rotation section that can rotate around fixing seat, described rotation section is connected to a laterally disposed inverted Y-shaped part, described inverted Y-shaped part includes the crosspiece being connected with rotation section and the oblique section of length being positioned in the middle of crosspiece and arranging obliquely, the obtuse angle area of space that described crosspiece and long oblique section are formed places, for supporting, the tube bundle that bagging is good, and crosspiece afterbody is provided with the short oblique gear section that anti-tubing rolls out, when long oblique section rises to frame top and pushes up frame, the acute angle area of space that long oblique section and crosspiece are formed can rotate downwardly together with rotation section, and obtuse angle area of space is then rotated up thus ordering about tubing tiltedly enter the skid bed of outside.