CN219927091U

CN219927091U - Double edge correction mechanism

Info

Publication number: CN219927091U
Application number: CN202321259360.4U
Authority: CN
Inventors: 黎国广
Original assignee: Dongguan Yude Machinery Technology Co ltd
Current assignee: Dongguan Yude Machinery Technology Co ltd
Priority date: 2023-05-23
Filing date: 2023-05-23
Publication date: 2023-10-31
Anticipated expiration: 2033-05-23

Abstract

The utility model relates to the technical field of packaging bag processing equipment, in particular to a double-edge correcting mechanism, which comprises a base, wherein base plates are arranged on two sides of the base, and a material guiding group consisting of a plurality of rollers is arranged between the two base plates; the feeding correction unit comprises an upper shaft part for hooking the feeding shaft to feed to the base, a locking part with a locking feeding shaft, and a pushing correction part for correcting deviation of a material belt; the material belt tensioning unit is used for adjusting the tension of material belt conveying on the two feeding edge correcting units; and the electric control unit is used for respectively controlling the operations of the feeding edge correcting unit and the material belt tensioning unit. According to the utility model, the two feeding edge correcting units are arranged on the base, the feeding shaft conveyed by the upper shaft part is hooked and is arranged on the base, the feeding shaft is locked through the locking part, so that the feeding shaft is prevented from being separated from the base when rotating, automatic feeding is completed, no participation of staff is needed, feeding and discharging are automatically completed, the working efficiency is improved, the labor burden of the staff is reduced, the safety is enhanced, and the use effect is good.

Description

Double edge correction mechanism

Technical Field

The utility model relates to the technical field of packaging bag processing equipment, in particular to a double edge correction mechanism.

Background

The existing market bag making machine can only realize single bundle material ground feeding, realize two paper laminating production, the lathe is all through loop wheel machine, fork truck raise the mode, hang the mode that gets up or fork truck fork is rolled up the material and is placed on the lathe with the material, this kind of mode has the potential safety hazard, and it is spacious to workshop space demand, need install loop wheel machine or motor fork truck at workshop operation material loading, and the bag making machine of present market sales can only unilateral in general and entangle the limit, that is, single paper entangle the limit function, can appear the deviation when two papers paste in the system bag in step, be difficult to satisfy the demand of two paper system bags.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a double edge correction mechanism applied to the feeding of a bag making machine.

The technical scheme adopted for solving the technical problems is as follows: the two limit mechanisms of rectifying, this two limit mechanisms of rectifying apply to the system bag machine, include:

the base is provided with base plates at two sides, and a material guiding group which is used for guiding the trend of the material belt and consists of a plurality of rolling shafts is arranged between the two base plates;

the feeding correction unit is provided with 2 feeding correction units which are symmetrically arranged on two sides of the base and used for placing a material roll and correcting displacement deviation in the conveying process of a material belt, and comprises an upper shaft part for hooking a feeding shaft to feed the base, a locking part with a locking feeding shaft and a pushing correction part for correcting the deviation of the material belt;

the material belt tensioning units are 2 and are respectively arranged on the base plates at the sides of the two feeding edge correcting units and are respectively used for adjusting the tension of material belt conveying on the two feeding edge correcting units;

and the electric control unit is used for respectively controlling the operations of the feeding edge correcting unit and the material belt tensioning unit.

Specifically, promote and correct the slide shaft on the base including sliding, the mounting panel is all installed at slide shaft both ends, promotes and corrects the power piece that the portion still includes output and one of them mounting panel is connected, and two mounting panel fronts are equipped with the holding tank, and the loading axle both ends are placed on the holding tank of two mounting panels, and lock and pay the portion and locate on the mounting panel near the holding tank.

Specifically, the lock pair portion has 2, locates two mounting panels respectively, and the lock pair portion is including articulating the material axle that is on the mounting panel and colludes the piece with the material axle and articulate and promote the material axle and collude the rotatory first promotion cylinder that hooks the material axle in the holding tank.

Specifically, the upper shaft part comprises an upper shaft hook piece hinged to the front side of the mounting plate and a second pushing cylinder of which the output end is hinged to the upper shaft hook piece and pushes the upper shaft hook piece to rotate so that the feeding shaft falls into the accommodating groove.

Specifically, one end of the feeding shaft is provided with a driven gear, the mounting plate is provided with a driving gear set which is meshed with the driven gear for transmission, and the mounting plate is also provided with a brake connected with one driving gear.

Specifically, still including being used for gluing one of them material area brush glues the unit, brush glues the unit and is equipped with two sets of at least, and brush glues the unit and locate between two base plates through the connecting rod, brush glues the unit including with connecting rod swing joint's slide, the slide is equipped with the slide rail of vertical setting and the straight gluey head of spouting on the slide rail of smooth locating, the slide still is equipped with the third promotion cylinder that promotes the straight gluey head of spouting along the slide rail reciprocates.

Specifically, still include the play gum machine that is used for providing glue to the brush unit, play gum machine bottom is equipped with the support frame, and the support frame is fixed in on the riser, and play gum machine is connected with directly spouting the gum head through the conveyer pipe.

Specifically, the material belt tensioning unit comprises a movable frame hinged to the two base plates and a fourth pushing cylinder arranged on the two base plates and used for pushing the movable frame to rotate, a plurality of material guiding rollers are arranged on the movable frame side by side, and one end of the movable frame is connected with a linear displacement sensor electrically connected with the electric control unit.

Specifically, still including the colour sense electric eye that is used for detecting whether the material area skew, the colour sense electric eye is fixed in between two base plates through the crossbeam, and the colour sense electric eye is equipped with 2, is located the material area that two material loading entangled limit units respectively and gets into the upside of base one end.

The utility model has the advantages that the two feeding edge correction units are arranged on the base, the feeding shaft which is conveyed is hooked by the upper shaft part and is arranged on the base, the feeding shaft is locked by the locking part, the feeding shaft is prevented from being separated from the base when rotating, the automatic feeding is completed, the participation of staff is not needed, the feeding and the discharging are automatically completed, the working efficiency is improved, the labor burden of the staff is reduced, the safety is enhanced, and the use effect is good; meanwhile, the pushing correction part and the material belt tensioning unit are matched, so that the problem of bad bag making caused by deviation of the positions of the two material belts in the material belt conveying process can be avoided, and the quality of bag making is improved.

Drawings

FIG. 1 is a schematic view of a view angle structure of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a schematic diagram of a feeding edge correction unit according to the present utility model;

FIG. 4 is a schematic view of a belt tensioning unit according to the present utility model;

FIG. 5 is a schematic diagram of a structure of a glue brushing unit according to the present utility model;

fig. 6 is a schematic structural diagram of an air drying unit according to the present utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

Referring to fig. 1 and 2, the present embodiment provides a double edge correction mechanism for feeding of a bag making machine, the double edge correction mechanism includes a base 10, two feeding edge correction units 20, two material belt tensioning units 30 and an electric control unit 40 respectively disposed on the base 10, the electric control unit 40 respectively controls the operations of the feeding edge correction units 20 and the material belt tensioning units 30, two sides of the base 10 are provided with a substrate 101, a guide group 102 composed of a plurality of rollers is disposed between the two substrates 101, and a horizontally disposed guide frame is mounted on top of the two substrates 101, wherein some rollers of the guide group 102 are mounted on the guide frame, a material roll is disposed on the feeding edge correction units 20, free ends of the material belt sequentially pass through the feeding edge correction units 20, the material belt tensioning units 30 and the guide group 102, the guide group 102 is provided with two layers, and the two guide group 102 is mainly used for guiding the material belts on the two feeding edge correction units 20 to form bags after the material belts on the two subsequent layers are bonded and cut;

specifically, referring to fig. 3, two feeding edge correction units 20 are symmetrically disposed on the other two sides of the base 10, the feeding edge correction units 20 are mainly used for placing a roll and correcting displacement deviation in a conveying process of a material belt, the feeding edge correction units comprise a feeding shaft 201, an upper shaft 202, a locking part 203 and a pushing correction part 204, the feeding shaft 201 is mainly used for placing the roll, and one end of the feeding shaft 201 is provided with a driven gear 2011; the pushing correcting portion 204 includes a sliding shaft 2041 slidably disposed on the base 10, the sliding shaft 2041 is connected with the base 10 through a linear bearing to realize sliding, mounting plates 2042 are mounted at two ends of the sliding shaft 2041, the pushing correcting portion 204 further includes a power member 2043 having an output end connected with one of the mounting plates 2042, the power member 2043 is fixed on the base 10, the power member 2043 is electrically connected with the electronic control unit 40, receiving slots 2044 are disposed at front sides of the two mounting plates 2042, two ends of the feeding shaft 201 are disposed on the receiving slots 2044 of the two mounting plates 2042, the locking portion 203 is disposed on the mounting plate 2042 close to the receiving slots 2044, and the upper shaft portion 202 is laterally disposed on the mounting plate 2042 located at bottom of the receiving slots 2044; it should be noted that, the material guiding group 102 is also installed on the installation plate 2042, so as to facilitate the traction of the material belt;

in addition, the mounting plate 2042 is provided with a driving gear set 2045 which is meshed with the driven gear 2011 for transmission, the mounting plate 2042 is also provided with a brake 2046 which is connected with one driving gear, and the feeding shaft 201 can be controlled to stop rotating feeding through the brake;

furthermore, the base plates 101 respectively positioned at one side of the two feeding edge correcting units 20 are provided with the color sensing electric eyes 50 for detecting whether the material belts deviate or not, the color sensing electric eyes 50 are fixed between the two base plates 101 through the cross beams 501, the cross beams 501 are fixed on the base plates 101 through connecting pieces, the cross beams 501 are in sliding connection with the connecting pieces, one ends of the cross beams 501 are provided with screw rods in threaded connection with the connecting pieces, when the screw rods are rotated, the positions of the cross beams 501 can be adjusted, and then the positions of the color sensing electric eyes 50 can be adjusted, so that the material belts with different sizes are conveniently used, and the practicability of the mechanism is improved; when the color sensing eye 50 senses the deviated material belt, the color sensing eye 50 feeds back a signal to the electronic control unit 40, and the electronic control unit 40 controls the power member 2043 to operate, so that the power member 2043 pushes the mounting plate 2042, and the material belt is corrected conveniently.

The upper shaft 202 is provided with 2 upper shaft parts, which are respectively arranged on two mounting plates 2042, the upper shaft 202 comprises an upper shaft hook 2021 hinged on the front side of the mounting plates 2042, and a second pushing cylinder 2022, the output end of which is hinged with the upper shaft hook 2021 and pushes the upper shaft hook 2021 to rotate so that the upper shaft 201 falls into the accommodating groove 2044, when a material roll is inserted into the upper shaft 201, the upper shaft 201 is pushed to the side of the base 10, the upper shaft hook 2021 is pushed to overturn downwards by the second pushing cylinder 2022, so that the upper shaft hook 2021 on two sides hooks the two ends of the upper shaft 201, and after the upper shaft hook 201 is hooked, the second pushing cylinder 2022 pushes the upper shaft hook 2021 to overturn upwards again so that the upper shaft 201 rolls into the accommodating groove 2044, and then the upper shaft 201 is locked by the locking part 203 so as to prevent the upper shaft 201 from falling out of the accommodating groove 2044;

the locking part 203 has 2 locking parts respectively arranged on the two mounting plates 2042, the locking part 203 comprises a material shaft hooking part 2031 hinged on the mounting plates 2042 and a first pushing cylinder 2032 with an output end hinged with the material shaft hooking part 2031 and pushing the material shaft hooking part 2031 to rotationally hook the material shaft 201 in the accommodating groove 2044, the material shaft hooking part 2031 is pushed by the first pushing cylinder 2032 to overturn downwards, so that the material shaft hooking part 2031 hooks the material shaft 201 to realize locking, the rotation of the material shaft 201 is prevented from being influenced, and the hooking part of the material shaft hooking part 2031 at the contact end with the material shaft 201 is arranged into a circular arc shape.

Referring to fig. 4, referring to the material belt tensioning unit 30, the material belt tensioning unit 30 has 2 material belt tensioning units, which are respectively disposed on the base plates 101 beside the two material feeding and edge correcting units 20, and are respectively used for adjusting the tensioning degree of the material belt conveying on the two material feeding and edge correcting units 20, the material belt tensioning unit 30 includes a movable frame 301 hinged on the two base plates 101 and a fourth pushing cylinder 302 disposed on the two base plates 101 and pushing the movable frame 301 to rotate, a plurality of material guiding rollers 303 are disposed on the movable frame 301 side by side, one end of the movable frame 301 is connected with a linear displacement sensor 304 electrically connected with the electronic control unit 40, when the tensioning degree of the material belt needs to be adjusted, the movable frame 301 is pushed to turn up and down by the fourth pushing cylinder 302, so that the tensioning degree of the material belt conveying on the material guiding rollers 303 can be adjusted, the tensioning degree information is transmitted by the linear displacement sensor 304, the problem of excessively tightening and breaking the material belt or excessively loosening the material belt is avoided, the smooth conveying of the material belt is ensured, and the deviation in the material belt conveying process is prevented.

In addition, 2 groups of glue brushing units 60 are movably connected to the two base plates 101 through connecting rods 601, the glue brushing units 60 are mainly used for coating glue on one of the material strips, referring to fig. 5, each glue brushing unit 60 comprises a sliding seat 602 movably connected with the connecting rods 601, each sliding seat 602 is provided with a vertically arranged sliding rail and a direct-spraying glue head 603 slidably arranged on each sliding rail, each sliding seat 602 is also provided with a third pushing cylinder 604 for pushing the direct-spraying glue head 603 to move up and down along each sliding rail, one end of each sliding seat 602 is in threaded connection with an adjusting screw 605, one end of each adjusting screw 605 penetrates through the base plate 101, a hand wheel is arranged at one end of each adjusting screw 605, and the positions of the sliding seats 602 can be adjusted through rotating the adjusting screw 605, so that glue coating of the material strips with different sizes is met; in addition, it should be noted that, the two groups of glue brushing units 60 can be used for simultaneously coating glue on the material belt, or a group of glue brushing units 60 can be used for coating glue separately, and the 2 groups of glue brushing units 60 can be set according to the needs of customers.

In order to provide glue for the direct-injection glue head 603, a support frame 701 is arranged on the side edges of the two vertical plates 101, a glue outlet machine 70 for conveying the glue is fixed on the support frame 701, the glue outlet machine is connected with the direct-injection glue head 603 through a conveying pipe, and in operation, the third pushing cylinder 604 drives the direct-injection glue head 603 to move along a sliding rail, a glue outlet of the direct-injection glue head 603 is used for gluing a pulled material belt, and the glue is continuously provided for the direct-injection glue head 603 through the glue outlet machine 70, so that the problem of glue breakage of the direct-injection glue head 603 is avoided.

In summary, the two feeding edge correction units 20 are arranged on the base 10, the feeding shaft 201 is hooked by the upper shaft 202 and is arranged on the base 10, the feeding shaft 201 is locked by the locking part 203, the feeding shaft 201 is prevented from being separated from the base 10 when rotating, automatic feeding is completed, no participation of staff is needed, feeding and discharging are automatically completed, the working efficiency is improved, the labor burden of staff is reduced, the safety is enhanced, and the use effect is good; meanwhile, the pushing correction part 204 and the material belt tensioning unit 30 are matched, so that the problem of bad bag making caused by deviation of positions of two material belts in the material belt conveying process can be avoided, and the quality of bag making is improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

Claims

1. The double edge correction mechanism is applied to a bag making machine and is characterized by comprising:

2. The double edge correction mechanism according to claim 1, wherein the pushing correction part comprises a sliding shaft arranged on the base in a sliding manner, mounting plates are arranged at two ends of the sliding shaft, the pushing correction part further comprises a power piece with an output end connected with one of the mounting plates, containing grooves are formed in the front sides of the two mounting plates, two ends of the feeding shaft are arranged on the containing grooves of the two mounting plates, and the locking part is arranged on the mounting plate close to the containing grooves.

3. The double edge correction mechanism according to claim 2, wherein the locking parts are 2 and are respectively arranged on the two mounting plates, and the locking parts comprise a material shaft hooking part hinged on the mounting plates and a first pushing cylinder of which the output end is hinged with the material shaft hooking part and pushes the material shaft hooking part to rotationally hook the material shaft in the accommodating groove.

4. The double edge correction mechanism according to any one of claims 1 or 2, wherein the upper shaft part comprises an upper shaft hook hinged to the front side of the mounting plate, and a second pushing cylinder of which the output end is hinged to the upper shaft hook and pushes the upper shaft hook to rotate so that the feeding shaft falls into the accommodating groove.

5. The double edge correction mechanism according to claim 4, wherein one end of the feeding shaft is provided with a driven gear, the mounting plate is provided with a driving gear set which is meshed with the driven gear for transmission, and the mounting plate is further provided with a brake connected with one of the driving gears.

6. The double edge correction mechanism according to claim 1, further comprising a glue brushing unit for coating glue on one of the material strips, wherein the glue brushing units are at least provided with two groups, the glue brushing units are arranged between the two substrates through connecting rods, the glue brushing units comprise sliding seats movably connected with the connecting rods, the sliding seats are provided with sliding rails arranged vertically and direct-spraying glue heads arranged on the sliding rails in a sliding manner, and the sliding seats are further provided with third pushing cylinders for pushing the direct-spraying glue heads to move up and down along the sliding rails.

7. The double edge correction mechanism according to claim 6, further comprising a glue outlet machine for providing glue to the glue brushing unit, wherein a support frame is arranged at the bottom of the glue outlet machine, the support frame is fixed on the vertical plate, and the glue outlet machine is connected with the direct-injection glue head through a conveying pipe.

8. The double edge correction mechanism according to claim 1, wherein the material belt tensioning unit comprises a movable frame hinged on the two base plates and a fourth pushing cylinder arranged on the two base plates for pushing the movable frame to rotate, a plurality of material guide rollers are arranged on the movable frame side by side, and one end of the movable frame is connected with a linear displacement sensor electrically connected with the electric control unit.

9. The double edge correction mechanism according to claim 1, further comprising color sensing eyes for detecting whether the material belts deviate, wherein the color sensing eyes are fixed between the two base plates through the cross beam, the number of the color sensing eyes is 2, and the color sensing eyes are respectively positioned on the upper sides of one ends of the material belts entering the base plates of the two feeding edge correction units.