CN207190372U - A kind of vertical conveying and bagging bottom device - Google Patents

Abstract

The utility model belongs to packing machine auxiliary equipment field, and specifically disclose a kind of vertical conveying and bagging bottom device, including module frame, cut a bag switching phase, flanging bagging bottom section and bag taking and open a bag switching phase, cutting bag switching phase includes the first even speed change conveying assembly, folding component, air blowing component and bag pressing component, first even speed change conveying assembly includes a pair of power transmission shafts being vertically arranged and the multipair conveyer belt group being horizontally set on power transmission shaft, backup plate is provided between each pair conveyer belt group, folding component, air blowing component and bag pressing component are arranged in module frame；Flanging bagging bottom section includes the second even speed change conveying assembly and the first at the uniform velocity conveying assembly, the first at the uniform velocity conveying assembly lower section is provided with hemmer and bag bottom sack closer；Bag taking opens bag switching phase and is located at second at the uniform velocity above conveying assembly including the second at the uniform velocity conveying assembly and backplate component, backplate component.The utility model has the advantages that compact-sized, operating efficiency is high, suitable for the bag taking and conveying of non-coated knitted bag.

Description

A kind of vertical conveying and bagging bottom device

Technical field

The utility model belongs to packing machine auxiliary equipment field, is filled more particularly, to a kind of vertical conveying with bagging bottom Put.

Background technology

With the rapid development of aquaculture, greatly developing for feed processing industry has been promoted so that full-automatic or semi-automatic bag Installing is standby to be widely used in Feed Manufacturing process.However, the packaging bag that existing feed industry uses is non-overlay film Fervent woven bag, existing packaging facilities carry out bag taking using sucker, open the work such as bag, exist when carrying out feed packing Take more bags, open the problems such as bag success rate is low, and the seam bottom action of woven bag is completed under lying status in industry at present, no Operated beneficial to follow-up bag taking.

In order to realize the full-automatic packaging of field of feed processing, some solutions are proposed in the prior art.Patent CN200410043875.6 discloses a kind of automatic bag forming packaging machine, passes through film roll lifting mechanism, film roll exhibition in the device Opening mechanism and angle sealing mechanism etc. complete the making of bag film, and so that packaging is used, it is mainly characterized by sealing by the way of heat-sealing Bag bottom is closed, and the direction of motion of bag film is vertical with bag face.But for need to use sewing machine suture bag bottom woven bag and Speech, above-mentioned movement locus is vertical with suture track, can not complete to suture bag bottom during bagging, therefore can increase difficulty, and The price of bag film is more than non-coated knitted bag, can undoubtedly increase the production cost of user.Patent US2013036710A1 is disclosed A kind of bag, filling and the machine of sealing (FFS), it is possible to achieve 50Kg levels loose unpacked material packing speed be 2000 bags/when, should Device makes bag film using first heat-sealing bag bottom, then the mode cut, and is set to blanking port by mechanical arm, finally by Timing belt transports it into piling station.But for non-coated knitted bag, it is necessary to sutured using after flanging through sewing machine Mode hermetic bag bottom, said apparatus can not complete This move, and can not arrange the open the bag device for non-coated knitted bag. In addition to above-mentioned patent, existing market also there are other kinds of packaging facilities, and it does not solve the vertical of non-coated knitted bag After formula conveying and first flanging the problems such as bagging bottom.

Utility model content

For the disadvantages described above or Improvement requirement of prior art, the utility model provides a kind of vertical conveying and bagging bottom Device, it is opened the structure of bag switching phase by cutting a bag switching phase, flanging bagging bottom section and bag taking to key component and its specifically set The mode of putting is studied and designed, and can effectively be solved the problems, such as that woven bag bag taking is difficult accordingly and easily be taken more bags, also solve Determined woven bag vertical conveying and first flanging after bagging bottom the problem of, have the advantages that compact-sized, operating efficiency is high, especially It is applied to the bag taking and conveying of non-coated knitted bag.

To achieve the above object, the utility model proposes a kind of vertical conveying and bagging bottom device, it includes module machine Bag handing-over is opened in frame and cut a bag switching phase, flanging bagging bottom section and the bag taking that are successively set on from left to right in the module frame Section, wherein：

Bag switching phase of cutting includes the first even speed change conveying assembly, folding component, air blowing component and bag pressing component, described First even speed change conveying assembly includes a pair of power transmission shafts being vertically arranged and is horizontally set on multipair on a pair of power transmission shafts Conveyer belt group, backup plate is provided between conveyer belt group described in each pair, the folding component, air blowing component and bag pressing component are respectively provided with In the module frame；

The flanging bagging bottom section includes the second even speed change conveying assembly and the first at the uniform velocity conveying assembly, the second even change Fast conveying assembly is used for the horizontal even speed change conveying for realizing woven bag, and the described first at the uniform velocity conveying assembly is used to realize woven bag Level at the uniform velocity conveys, and described first is at the uniform velocity provided with hemmer and bag bottom sack closer below conveying assembly；

Bag switching phase is opened in the bag taking includes the second at the uniform velocity conveying assembly and backplate component, the described second at the uniform velocity conveying assembly For realizing that the level of woven bag at the uniform velocity conveys, the backplate component is located at the top of the described second at the uniform velocity conveying assembly.

As it is further preferred that the pair of power transmission shaft is engaged by gear each other, wherein on a power transmission shaft Even gear stage motor is provided with, the conveyer belt group is three pairs, and each pair conveyer belt group includes two conveyor units, each transmission Tape cell includes the timing belt mounting assembly being horizontally arranged on power transmission shaft and the synchronization being sleeved in timing belt mounting assembly Band, two timing belts in each pair conveyer belt group are relative to each other, for clamping woven bag and driving woven bag to move.

As it is further preferred that the folding component includes drive cylinder and link, the drive cylinder passes through gas Cylinder pin bearing is arranged in the module frame, and its expansion link is connected with the link, the link and multipair conveyer belt group In be connected positioned at the timing belt mounting assembly of the same side.

As it is further preferred that the air blowing component includes gas blow pipe mounting bracket and the peace being arranged in module frame Gas blow pipe on the gas blow pipe mounting bracket.

As it is further preferred that the bag pressing component includes bag bottom transition press plate and the pressing plate being arranged in module frame Drive cylinder, bag bottom transition press plate make anterior-posterior horizontal motion in the presence of pressing plate drive cylinder.

As it is further preferred that the second even speed change conveying assembly and the first at the uniform velocity conveying assembly include setting vertically A pair of the power transmission shafts put and the multipair conveyer belt group being horizontally set on a pair of power transmission shafts, a pair of power transmission shafts pass through each other Gear engages, wherein being provided with motor on a power transmission shaft.

As it is further preferred that described second a pair of transmissions that at the uniform velocity conveying assembly includes folding component, is vertically arranged Axle and a pair of conveyer belt groups being horizontally set on a pair of power transmission shafts, a pair of power transmission shafts are engaged by gear each other, Motor is wherein provided with a power transmission shaft, folding component includes the drive being arranged on by cylinder pin bearing in the module frame Take offence cylinder, drive cylinder is connected with the timing belt mounting assembly in second at the uniform velocity conveying assembly.

As it is further preferred that the backplate component includes cylinder mount frame, backplate drive cylinder and backplate group, cylinder Mounting bracket is arranged in the module frame, and the backplate drive cylinder is arranged on cylinder mount frame, and its expansion link leads to Cross backplate connector with the backplate group to be connected, the backplate group includes two backplates being oppositely arranged.

As it is further preferred that the backup plate includes U-shaped side and the upper overturning being arranged at the U-shaped side openings With lower flange, wherein, the upper overturning flips up, its upper surface shape vertical with the upper surface of U-shaped side and with U-shaped side Into the first groove structure, the lower flange is turned over downwards, its it is vertical with the lower surface of U-shaped side and with the lower surface of U-shaped side Form the second groove structure.

As it is further preferred that the conveyor unit positioned at inner side in each pair conveyer belt group is placed in the of the backup plate In one groove structure or the second groove structure, and the outer surface of the conveyer belt in the conveyor unit of inner side and U-shaped side is outer Surface co-planar.

Existing full automatic solid material bagging equipment is when using sucker bag taking from non-coated knitted bag in a pile, and one Aspect is because the gas permeability of non-coated knitted bag is than more serious, it may appear that takes more bags of situation；On the other hand, the volume for packaging It is difficult to be neatly arranged to a bag storehouse is sent to knit bag, will also result in the problem of bag taking success rate is low.In addition, woven for non-overlay film Bag, not occurring high efficiency conveying and bagging bottom device, the utility model can avoid woven bag from placing in a pile, and it is by just The braiding bag upright cut is transported to bag taking and opens a bag junction, and completes the operation of bagging bottom in this course.In general, By the contemplated above technical scheme of the utility model compared with prior art, mainly possesses following technological merit：

1. the vertical conveying of the utility model by the way of vertical conveying, realizes the fortune of woven bag L-type with bagging bottom device Dynamic rail mark, i.e., from vertical motion to the transformation of horizontal movement, the woven bag cut is conveyed using the timing belt arranged Opened to bag taking at bag, and the operation at flanging and bagging bottom completed in course of conveying, in whole course of conveying, woven bag it is defeated Send direction parallel with the surface of woven bag.

2. the angle that the utility model optimizes from sequential in the design process, four segment sync bands are designed as by device Structure, that is, set gradually and cut a bag switching phase (first paragraph synchronization band structure), flanging bagging bottom section (including the second even speed change conveying group Part and the first at the uniform velocity conveying assembly, i.e. second segment synchronization band structure and the 3rd segment sync band structure) and bag taking open a bag switching phase ( Four segment sync band structures), so as to ensure that woven bag course of conveying sequential optimizes, effectively improve transfer efficiency, and by first three Section is designed to include more than one set timing belt, and to constrain woven bag upper, middle and lower part, the 4th section is designed to only one group synchronization Band, to meet the needs of other are follow-up, such as it is easy to bag-opening machine tool hand to clamp woven bag and leaves the utility model device with smooth Into next station.

3. the vertical conveying of the utility model design is (even to add for even gear stage with the preceding two segment syncs band in the device of bagging bottom Speed-at the uniform velocity-even deceleration), latter two sections are designed as at the uniform velocity section (speed is the same), can by matching the speed of adjacent two segment syncs band The smooth transfer of woven bag is realized, after cutting what a sack due to front Bag Making Machine, if the speed of four segment sync bands is consistent, The time that first sack is moved to used in next station can be higher than the timing requirements of design, have a strong impact on efficiency, this practicality It is new will before two sections first using simultaneously it is even accelerate-at the uniform velocity, to realize fast turnaround (FTA) of the woven bag between two stations, in addition, In order to reduce the size shared by four segment sync bands, when woven bag joins also in first and second section, also needed between two, three sections Join, now need to drop to the speed of woven bag and at the uniform velocity section is consistent below, thus most at last even gear stage be designed as it is even Accelerate-the form of at the uniform velocity-even deceleration, friendship of the woven bag between timing belt can be not only rapidly completed using such design Connect, the size shared by four segment sync bands can also be reduced.

4. it is delivered to from bag station bag switching phase of cutting of the utility model device downwards by live-roller in woven bag During, swing can occur for woven bag, may be blocked by timing belt, can not smoothly move to specified location, therefore this Utility model devises new-type backup plate mechanism, and by its with timing belt is ingenious staggers so that conveyer belt zone face and backup plate protrusion Co-planar, and in the presence of blow-out nozzle, woven bag can be constrained in perpendicular, so that it is downward along the plane Move to specified location.

5. because woven bag has stronger flexibility, woven bag state in motion process is extremely unstable, therefore this practicality is new Type device is provided with bag pressing component at bag bottom, and bag bottom can be made accurately to enter in hemmer and complete pre-flanging operation, and then sutured Bag bottom；The top of the utility model device is provided with backplate component simultaneously, effectively can prevent woven bag from inclining in course of conveying Tiltedly, its stability is improved.

6. installed in the utility model device using the opening and closing of cylinder driving timing belt by link and timing belt Timing belt installing plate in component, which is connected, realizes that single cylinder controls being synchronized with the movement for multipair timing belt.

In a word, the utility model device is compact to design, has taken into full account the physical characteristic of non-coated knitted bag, has not only realized The change of the woven bag direction of motion in bag making process, also solve the relevant issues such as bagging bottom after vertical flanging, and then effectively Solve the problems, such as to have non-coated knitted bag bag taking difficulty in existing market and easily take more bags, and in the course of the work, Multistage timing belt tight fit, operating efficiency is greatly improved, greatly break through the packing efficiency bottle neck of non-coated knitted bag, can Reach 1200 bags/hour.

Brief description of the drawings

Fig. 1 is a kind of vertical conveying and the schematic diagram of bagging bottom device that the utility model embodiment provides；

Fig. 2 is a kind of vertical conveying and the overall structure diagram of bagging bottom device that the utility model embodiment provides；

Fig. 3 be the utility model embodiment provide cut a bag switching phase structural representation；

Fig. 4 is that bag switching phase timing belt of cutting that the utility model embodiment provides opens top view；

Fig. 5 is the backup plate structural representation that the utility model embodiment provides；

Fig. 6 is the gas blow pipe structural representation that the utility model embodiment provides；

Fig. 7 is the flanging bagging bottom segment structure schematic diagram that the utility model embodiment provides；

Fig. 8 is that a bag switching phase structural representation is opened in the bag taking that the utility model embodiment provides.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.In addition, institute in each embodiment of the utility model disclosed below As long as the technical characteristic being related to does not form conflict each other, can is mutually combined.

As illustrated in fig. 1 and 2, a kind of vertical conveying that the utility model embodiment provides includes module machine with bagging bottom device Frame 3-01 and it is successively set on from left to right on module frame 3-01 and cuts a bag switching phase 3-02 (for the utility model device First paragraph synchronization band structure), flanging bagging bottom section 3-04 is (for the second segment synchronization band structure of the utility model device and the 3rd Segment sync band structure) and bag taking open a bag switching phase 3-07 (for the 4th segment sync band structure of the utility model device), in Fig. 1 The direction of arrow walks a bag direction for woven bag 3-03's, and vertical motion was horizontal movement again before this, wherein, cut bag switching phase 3-02 and use The woven bag arranged vertically is moved to the even speed change conveying for being changed into horizontal direction, the flanging bagging bottom from vertical direction in realizing Section, which is used to realizing that the first horizontal even speed change conveying of woven bag is horizontal again, at the uniform velocity to be conveyed, and realize bag bottom in line sewing, the bag taking Open bag switching phase and be used to realize that the level of woven bag at the uniform velocity to convey, and ensure that woven bag upper end does not tilt in course of conveying.It is logical The mutual cooperation of above-mentioned each component is crossed, the efficient conveying of woven bag can be achieved and the sewing at bag bottom is completed in course of conveying, There is compact-sized, bag taking efficiency high.

Below more specific detail will be carried out one by one to each component.

A bag switching phase 3-02 is cut as one of key component, as shown in Figures 2 and 3, this cuts a bag switching phase 3-02 installations In module frame, it includes the first even speed change conveying assembly, folding component, air blowing component and bag pressing component, wherein first is even Speed change conveying assembly is used to realize that the even speed change that the woven bag arranged vertically is changed into horizontal direction from vertical direction motion to convey, The first even speed change conveying assembly includes the 3-02-002 of a pair of power transmission shafts I being vertically arranged and is horizontally set on this pair of transmissions Multipair conveyer belt group on axle I, backup plate 3-02-014 is provided between conveyer belt group described in each pair, the folding component is arranged on In module frame, for realizing the synchronous on-off of multipair conveyer belt group, the air blowing component is arranged in module frame, for making Woven bag is abutted in the plane that backup plate is formed with conveyer belt group all the time in course of conveying, and the bag pressing component, which is used to compress, to be compiled Knit the bottom of bag.

Specifically, a pair of power transmission shafts I are engaged by gear 3-02-006 each other, wherein being provided with a power transmission shaft The even 3-02-008 of gear stage motor I, the even 3-02-008 of gear stage motor I are arranged on module by the 3-02-007 of motor mounting plate I In frame, for realizing the even speed-changing rotation of power transmission shaft, and then the timing belt on power transmission shaft is driven to make horizontal uniform variable motion.Enter One step, each pair conveyer belt group includes two conveyor units, and each conveyor unit includes being horizontally arranged on power transmission shaft Timing belt mounting assembly and the 3-02-001 of timing belt I being sleeved in timing belt mounting assembly, with to two in conveyer belt group Individual conveyor unit is corresponding to be arranged on a pair of power transmission shafts I, i.e., a conveyor unit, and each pair are installed on a power transmission shaft Two timing belts in conveyer belt group are relative to each other, handle woven bag by two synchronous clampings relative to each other with this and drive Woven bag horizontal movement, implement horizontal uniform variable motion.Specifically, timing belt mounting assembly includes driving pulley and driven Belt wheel, driving pulley is arranged on power transmission shaft, and it is connected between driven pulley by timing belt installing plate 3-02-011, The 3-02-001 of timing belt I is sleeved on driving pulley and driven pulley, is realized and is coordinated with driving pulley and driven pulley.Further , folding component includes the 3-02-004 of drive cylinder I and link 3-02-005, and the 3-02-004 of drive cylinder I passes through cylinder pin Bearing 3-02-003 be arranged on module frame on, the 3-02-004 of drive cylinder I expansion link is connected with link, the link and Timing belt mounting assembly in multipair conveyer belt group positioned at the same side is connected, and is specifically connected with timing belt installing plate, is passed through with this The expanding-contracting action of drive cylinder I, the synchronous on-off of multipair conveyer belt group is driven, specifically driven in multipair conveyer belt group positioned at outer The conveyor unit that the conveyor unit of side is located relatively at inner side makees synchronous on-off action, when two conveyer belts in conveyer belt group When unit is opened, the woven bag that can be easy to arrange vertically is vertically fed into this and cut in bag switching phase from cutting above bag switching phase, when Constraint to woven bag and change the braiding cut during two conveyor units closure in conveyer belt group, when can be achieved fervent Bag is changed to horizontal motion (its movement locus is approximately L-type) by vertical direction motion, and then drives woven bag to next work Position motion.Further, air blowing component includes the gas blow pipe mounting bracket 3-02-013 being arranged in module frame and is arranged on Gas blow pipe 3-02-012 on the gas blow pipe mounting bracket, specifically, as shown in fig. 6, gas blow pipe 3-02-012 is blocked simultaneously by one end The stainless steel tube that a number of air-vent is provided with side is made；The bag pressing component is located at the outside cut below bag switching phase, It includes bag bottom transition press plate 3-02-010 and the pressing plate drive cylinder 3-02-009 being arranged in module frame, bag bottom mistake Cross pressing plate and make anterior-posterior horizontal motion in the presence of pressing plate drive cylinder.

Specifically, as shown in figure 3, conveyer belt group is preferably three pairs, it is parallel to each other between each pair conveyer belt group, it is above Conveyer belt group and positioned at centre conveyer belt group between be provided with a backup plate 3-02-014, underlying conveyer belt group and position An identical backup plate is provided between the conveyer belt group of centre, as shown in figure 5, the backup plate includes U-shaped side and is arranged on Flange up and down at the U-shaped side openings, wherein upper overturning flip up, its it is vertical with the upper surface of U-shaped side and with U-shaped side The upper surface on side forms the first groove structure, and lower flange is turned over downwards, its it is vertical with the lower surface of U-shaped side and with U-shaped side Lower surface form the second groove structure (at Fig. 5 A), the conveyor unit positioned at inner side in each pair conveyer belt group is just put In the first or second groove structure of backup plate, and as shown in Fig. 4 A, conveyer belt in the conveyor unit of inner side it is outer The outer surface on surface (towards the one side of outside conveyor unit) and U-shaped side is coplanar (i.e. in the same plane).Actual installation In, two backup plates are arranged in module frame, and when mounted, the second groove structure of backup plate above and under being located at First groove structure of the backup plate of side overlaps, i.e. the upper overturning of the lower flange and lower section backup plate of top backup plate is intimate contact with one another, And the outer surface of two backup plate U-shaped sides is coplanar (in same perpendicular), it is located at inner side in conveyer belt group above Conveyor unit be placed in top backup plate the first groove in, positioned at centre conveyer belt group in be located at inner side conveyor unit It is placed in the second groove of top backup plate (in other words in the first groove of backup plate placed below), in underlying conveyer belt group In the second groove of the conveyor unit backup plate placed below of inner side, and the inner side in conveyer belt group above passes Send the outer surface of band, the outer surface of inner side conveyer belt in the conveyer belt group of centre, in underlying conveyer belt group The outer surface of inner side conveyer belt, the outer surface of U-shaped side and the U-shaped side of underlying backup plate of backup plate above Outer surface it is coplanar (i.e. in the same plane), specifically in same perpendicular.

In practical work process, the woven bag arranged vertically gets off from a bag switching phase 3-02 upper direction is cut, and is blowing Vertical woven bag is caused to be attached to all the time in the plane that backup plate 3-02-014 is formed with timing belt in the presence of tracheae 3-02-012, The 3-02-004 of drive cylinder I drives three pairs of timing belt opening and closings simultaneously by link 3-02-005, during realizing fervent pair The constraint of woven bag and change with the woven bag cut and horizontal motion to be changed to by vertical direction motion (its movement locus can be near It is seemingly L-type), and then moved to next station, pressing plate drive cylinder 3-02-009 can drive a bag bottom transition press plate 3-02-010 Move inwards, in woven bag into next station motion process, a bag bottom can be caused to remain smooth, and accurately enter flanging Device 3-04-009.

As the flanging bagging bottom section 3-04 of another key component, as shown in fig. 7, the flanging bagging bottom section is arranged on module In frame, it includes the second even speed change conveying assembly and the first at the uniform velocity conveying assembly, second even speed change conveying assembly is used for The horizontal even speed change conveying of woven bag is realized, the described first at the uniform velocity conveying assembly is used to realize that the level of woven bag at the uniform velocity to convey, Described first is at the uniform velocity provided with hemmer 3-04-009 and bag bottom sack closer 3-06, hemmer and bag bottom seam below conveying assembly Chartered plane is Conventional mechanisms, and its need can realize flanging and bagging bottom function, and both structures are not limited at this, any The hemmer and sack closer of existing achievable flanging and bagging bottom function are described within the scope of protection of the utility model Second even speed change conveying assembly and the first at the uniform velocity conveying assembly are set against each other so that the volume to be come by cutting bag switching phase conveying Knit bag and first pass through the second even speed change conveying assembly and realize the conveying of even speed change, then by first at the uniform velocity conveying assembly realize it is at the uniform velocity defeated Send.

Specifically, as shown in fig. 7, the second even speed change conveying assembly includes the 3-04-005 of a pair of power transmission shafts II being vertically arranged And the multipair conveyer belt group on a pair of power transmission shafts is horizontally set on, the pair of power transmission shaft passes through gear 3- each other 04-004 is engaged, wherein being provided with the even 3-04-006 of gear stage motor II on a power transmission shaft, the even gear stage motor II passes through The 3-04-007 of motor mounting plate II is arranged in module frame；The conveyer belt group is preferably three pairs, and each pair conveyer belt group includes Two conveyor units, each conveyor unit include the timing belt mounting assembly being horizontally arranged on power transmission shaft and are sleeved on The even 3-04-001 of gear stage timing belt II in timing belt mounting assembly, two timing belts in each pair conveyer belt group phase each other It is right, for clamping woven bag and driving woven bag to move.Specifically, timing belt mounting assembly includes driving pulley and driven belt Wheel, driving pulley is arranged on power transmission shaft, and it is connected between driven pulley by timing belt installing plate 3-04-002, even The 3-04-001 of gear stage timing belt II is sleeved on driving pulley and driven pulley, is realized and is matched somebody with somebody with driving pulley and driven pulley Close.Preferably, strainer 3-04-003 is installed on timing belt installing plate 3-04-002.

Specifically, as shown in Figure 7 and Figure 8, the first at the uniform velocity conveying assembly includes the 3-04- of a pair of power transmission shafts III being vertically arranged 010 and the multipair conveyer belt group that is horizontally set on a pair of power transmission shafts, the pair of power transmission shaft pass through gear each other Engagement, wherein being provided with the at the uniform velocity 3-04-012 of section motor I on a power transmission shaft, the at the uniform velocity 3-04-012 of section motor I passes through motor The 3-04-011 of installing plate III is arranged in module frame；The conveyer belt group is preferably three pairs, and each pair conveyer belt group includes two Conveyor unit, each conveyor unit include the timing belt mounting assembly being horizontally arranged on power transmission shaft and are sleeved on synchronization With the 3-04-008 of at the uniform velocity segment sync band I in mounting assembly, two timing belts in each pair conveyer belt group are relative to each other, for Clamping woven bag simultaneously drives woven bag to move.Specifically, timing belt mounting assembly includes driving pulley and driven pulley, main belt Wheel is arranged on power transmission shaft, and it is connected between driven pulley by timing belt installing plate, the at the uniform velocity 3-04- of segment sync band I 008 is sleeved on driving pulley and driven pulley, realizes and coordinates with driving pulley and driven pulley.

A bag switching phase is opened in bag taking as another key component, and the bag taking opens bag switching phase in module frame, such as Shown in Fig. 8, it includes the second at the uniform velocity conveying assembly and backplate component, the described second at the uniform velocity conveying assembly and is used to realize woven bag Level at the uniform velocity conveys, and the backplate component is located at the top of the described second at the uniform velocity conveying assembly, for constraining the upper end of woven bag It is set not tilt.

Specifically, as shown in figure 8, second a pair of power transmission shafts IV that at the uniform velocity conveying assembly includes folding component, is vertically arranged 3-07-002 and a pair of conveyer belt groups being horizontally set on a pair of power transmission shafts, the pair of power transmission shaft pass through each other Gear engages, wherein being provided with the at the uniform velocity 3-07-001 of section motor II on a power transmission shaft, the at the uniform velocity 3-07-001 of section motor II leads to The 3-07-011 of motor mounting plate IV is crossed in module frame, the pair of conveyer belt group includes two conveyor units, often Individual conveyor unit includes the timing belt mounting assembly being horizontally arranged on power transmission shaft and is sleeved in timing belt mounting assembly The 3-07-005 of at the uniform velocity segment sync band II, two timing belts in each pair conveyer belt group are relative to each other, for clamping woven bag And woven bag is driven to move.Specifically, timing belt mounting assembly includes driving pulley and driven pulley, driving pulley, which is arranged on, to be passed On moving axis, and it is connected between driven pulley by timing belt installing plate, and the at the uniform velocity 3-07-005 of segment sync band II is sleeved on On driving pulley and driven pulley, realize and coordinate with driving pulley and driven pulley.The folding component includes passing through cylinder pin Bearing is arranged on the 3-07-003 of drive cylinder II in module frame, and the drive cylinder is synchronous with second at the uniform velocity conveying assembly Band installing plate is connected, and drives the folding of conveyer belt group by the expanding-contracting action of drive cylinder with this.Preferably, the 3- of power transmission shaft IV Strainer 3-07-006 is installed on 07-002.

Specifically, backplate component includes cylinder mount frame 3-07-010, backplate drive cylinder 3-07-009 and backplate group, institute Cylinder mount frame is stated in the module frame, the backplate drive cylinder is arranged on the cylinder mount frame, and its Expansion link is connected by backplate connector 3-07-008 with the backplate group, and the backplate group includes two backplate 3- being oppositely arranged 07-004, it is used to enter row constraint to the upper end of woven bag to prevent its inclination.When the woven bag at bag bottom of sewing it up is from flanging bagging Bottom section is transported to during bag taking opens bag switching phase, and backplate drive cylinder 3-07-009, which extends downwards, drives backplate 3-07-004 Move down, the upper end of woven bag is constrained in the gap that two backplates are formed and be unlikely to tilt, but can move left and right.Tool Body, bag taking, which is opened, is provided with optoelectronic switch 3-07-007 on the right side of bag switching phase, optoelectronic switch 3-07-007 is arranged on module In frame.

Vertical conveying of the present utility model may be used in bag-type packing machine processed with bagging bottom device, and be particularly suitable for use in non-cover Film bag-type packing machine, in use, vertical conveying of the present utility model is placed in into bag module with bagging bottom device and opens bag bag Between die-filling piece, when work starts, it is contraction state to cut bag 3-02-004 of switching phase 3-02 drive cylinder I, when woven bag is rolled up Material is from during bag module is conveyed straight down by a series of live-rollers from the top for cutting bag switching phase, gas blow pipe 3-02- 012 starts vertically to blow to it successively, woven bag is close to backup plate 3-02-014 in folding process, when woven bag reaches After designated length, the 3-02-004 of drive cylinder I and pressing plate drive cylinder 3-02-009 elongations, the even 3-02- of gear stage timing belt I 001 clamps the upper, middle and lower part of woven bag, and bag bottom transition press plate 3-02-010 compresses bag bottom, the hot knife set in bag module Work cut-out woven bag；And then, the even 3-02-008 of gear stage motor I drivings timing belt rotates, and then drives woven bag to turn perpendicular Directly motion is horizontal to motion, and smoothly enters flanging bagging basic skill or training position, and the motion state of woven bag adds to be even in handshaking Speed-at the uniform velocity-even deceleration, decelerate to it is consistent with sack closer speed after travel at the uniform speed that (now second sack is just completed to cut bag friendship Action is connect, realizes continuous action, efficiency high), flanging and the action of bagging bottom are completed in this course；When the braiding at bag bottom of sewing it up Bag is transported to during bag taking opens bag switching phase 3-07, and backplate drive cylinder 3-07-009, which extends downwards, drives backplate 3- 07-004 is moved down, and the upper end of woven bag is constrained in the gap that two backplates are formed and is unlikely to tilt, but can be with Move left and right, woven bag is uniform motion in bag switching phase is opened in bag taking, and for woven bag, specific motion is fast in each section Degree can be selected according to being actually needed, and not limited herein, within protection domain；Woven bag continues to move right, and touches Luminous electric switch 3-07-007, the bag-opening machine tool hand 4 that then triggering is opened in bag packaging module clamp sack, the 3- of drive cylinder II 07-003 shrinks, and timing belt opens, and completes handing-over；After bag-opening machine tool hand leaves, drive cylinder II extends, and timing belt closes again etc. Treat to join next time.In whole process, cut bag switching phase and flanging bagging bottom section front half section timing belt and meanwhile carry out even acceleration- At the uniform velocity-uniformly retarded motion, realize that the reliable handing-over of woven bag between (realizes the friendship between second and third segment sync band Connect), even to decelerate to consistent with sack closer speed, the flanging bagging bottom second half section (the 3rd segment sync band) uses uniform motion, with With sack closer speed, broken string otherwise occurs, and opens bag bag taking section also at the uniform velocity to be transported with sack closer speed same speed It is dynamic, to realize handing-over.Using above-mentioned transfer operation, it is possible to achieve woven bag is continuously run, and action is continuous, efficiency high.

As it will be easily appreciated by one skilled in the art that preferred embodiment of the present utility model is the foregoing is only, not To limit the utility model, any modification of all made within spirit of the present utility model and principle, equivalent substitution and change Enter, should be included within the scope of protection of the utility model.

Claims (10)

1. a kind of vertical conveying and bagging bottom device, it is characterised in that including module frame (3-01) and from left to right successively A bag switching phase is opened in cut a bag switching phase (3-02), flanging bagging bottom section (3-04) and the bag taking being arranged in the module frame (3-01) (3-07), wherein：

Bag switching phase of cutting includes the first even speed change conveying assembly, folding component, air blowing component and bag pressing component, and described first Even speed change conveying assembly includes a pair of power transmission shafts being vertically arranged and the multipair transmission being horizontally set on a pair of power transmission shafts With group, backup plate is provided between conveyer belt group described in each pair, the folding component, air blowing component and bag pressing component are arranged at institute State in module frame；

The flanging bagging bottom section includes the second even speed change conveying assembly and the first at the uniform velocity conveying assembly, second even speed change is defeated Sending component is used for the horizontal even speed change conveying for realizing woven bag, and the described first at the uniform velocity conveying assembly is used for the level for realizing woven bag At the uniform velocity convey, described first is at the uniform velocity provided with hemmer and bag bottom sack closer below conveying assembly；

The bag taking is opened bag switching phase and is used for including the second at the uniform velocity conveying assembly and backplate component, the described second at the uniform velocity conveying assembly Realize that the level of woven bag at the uniform velocity conveys, the backplate component is located at the top of the described second at the uniform velocity conveying assembly.

2. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that between the pair of power transmission shaft Engaged by gear, wherein being provided with even gear stage motor on a power transmission shaft, the conveyer belt group is three pairs, each pair conveyer belt Group includes two conveyor units, each conveyor unit including the timing belt mounting assembly that is horizontally arranged on power transmission shaft and The timing belt being sleeved in timing belt mounting assembly, two timing belts in each pair conveyer belt group are relative to each other, compiled for clamping Knit bag and drive woven bag to move.

3. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the folding component includes driving gas Cylinder and link, the drive cylinder are arranged in the module frame by cylinder pin bearing, its expansion link and the connection Frame is connected, and the link is connected with being located at the timing belt mounting assembly of the same side in multipair conveyer belt group.

4. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the air blowing component includes being arranged on Gas blow pipe mounting bracket in module frame and the gas blow pipe on the gas blow pipe mounting bracket.

5. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the bag pressing component includes bag bottom mistake Pressing plate and the pressing plate drive cylinder being arranged in module frame are crossed, bag bottom transition press plate is in the presence of pressing plate drive cylinder Make anterior-posterior horizontal motion.

6. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the second even speed change conveying assembly Include a pair of power transmission shafts being vertically arranged with the first at the uniform velocity conveying assembly and be horizontally set on multipair on a pair of power transmission shafts Conveyer belt group, a pair of power transmission shafts are engaged by gear each other, wherein being provided with motor on a power transmission shaft.

7. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the described second at the uniform velocity conveying assembly bag A pair of power transmission shafts for include folding component, being vertically arranged and a pair of conveyer belt groups being horizontally set on a pair of power transmission shafts, one Power transmission shaft is engaged by gear each other, wherein being provided with motor on a power transmission shaft, folding component includes passing through cylinder Pin bearing is arranged on the drive cylinder in the module frame, drive cylinder and the second timing belt installation at the uniform velocity in conveying assembly Component is connected.

8. vertical conveying as claimed in claim 1 and bagging bottom device, it is characterised in that the backplate component is pacified including cylinder Shelve, backplate drive cylinder and backplate group, cylinder mount frame are arranged in the module frame, the backplate drive cylinder installation On cylinder mount frame, and its expansion link is connected by backplate connector with the backplate group, and the backplate group includes two phases To the backplate of setting.

9. vertical conveying as claimed in claim 2 and bagging bottom device, it is characterised in that the backup plate include U-shaped side with And the upper overturning at the U-shaped side openings and lower flange are arranged on, wherein, the upper overturning flips up, itself and U-shaped side Upper surface is vertical and upper surface with U-shaped side forms the first groove structure, and the lower flange is turned over downwards, itself and U-shaped side Lower surface it is vertical and lower surface with U-shaped side forms the second groove structure.

10. vertical conveying as claimed in claim 9 and bagging bottom device, it is characterised in that being located in each pair conveyer belt group The conveyor unit of inner side is placed in the first groove structure or the second groove structure of the backup plate, and inner side conveyor unit In conveyer belt outer surface and U-shaped side outer surface it is coplanar.