CN213832231U

CN213832231U - Machine core control system of banding machine

Info

Publication number: CN213832231U
Application number: CN202022335504.2U
Authority: CN
Inventors: 林旭斌
Original assignee: Taizhou Xutian Packaging Machinery Co ltd
Current assignee: Taizhou Xutian Packaging Machinery Co ltd
Priority date: 2020-08-24
Filing date: 2020-10-19
Publication date: 2021-07-30
Anticipated expiration: 2030-10-19
Also published as: CN214190243U; CN214190245U; CN214190246U; CN112278964A; CN214190244U; CN112278965A; CN112278965B; CN112278964B

Abstract

The utility model belongs to the technical field of packaging belt packaging machines, in particular to a core control system of a belt bundling machine, which comprises a core seat; a tightening mechanism; the fusion welding mechanism is provided with an ironing head; the tape cutting mechanism is provided with a cutter; the driving mechanism is used for controlling the tightening mechanism, the fusion welding mechanism and the tape shearing mechanism to work; the driving mechanism comprises a cam assembly and a driving motor, the driving motor is connected with the cam assembly and drives the cam assembly to rotate, the cam assembly comprises a first cam, a second cam and a third cam, and the first cam is connected to the tightening mechanism; the third cam is connected to the ironing head and the cutter; the machine core seat is provided with a movable upper sliding plate, the upper sliding plate is positioned above the cutter and the ironing head, and the second cam is connected to the upper sliding plate through a sliding assembly. The utility model provides a through a driving motor and cam subassembly come common drive tightening mechanism, fusion welding mechanism and cut the banding machine core control system that the tape unit mechanism carried out work.

Description

Machine core control system of banding machine

Technical Field

The utility model belongs to the technical field of the wrapping tape baling press, concretely relates to core control system of banding machine.

Background

The strapping machine is a common packaging device, and can automatically wind a belt on an article only by placing the article in a working frame of the strapping machine, and then perform the winding and cutting operations on the wound belt.

The belt bundling machine is generally provided with a belt storage mechanism, a loop mechanism, a tightening mechanism, a fusion welding mechanism, a belt shearing mechanism and a machine core control system for controlling the work of the mechanisms; many existing strapping machines need to control a tightening mechanism, a fusion welding mechanism and a tape shearing mechanism respectively, and are complex in machine core control system, low in synchronism and high in manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a through a driving motor and cam subassembly come common drive tightening mechanism, fusion welding mechanism and cut the banding machine core control system that the tape unit mechanism carried out work.

The purpose of the utility model is realized like this:

a machine core control system of a belt binding machine comprises a machine core seat; a tightening mechanism for tightening the strap; the fusion welding mechanism is provided with an ironing head and is used for fusing the head end and the tail end of the looped belt into a whole; the belt shearing mechanism is provided with a cutter and is used for cutting off the belt which is still connected except the loop knot; the driving mechanism is used for controlling the tightening mechanism, the fusion welding mechanism and the tape shearing mechanism to work; the driving mechanism comprises a cam assembly and a driving motor, the driving motor is connected with the cam assembly and drives the cam assembly to rotate, the cam assembly comprises a first cam, a second cam and a third cam, and the first cam is connected to the tightening mechanism; the third cam is connected to the ironing head and the cutter; the machine core seat is provided with a movable upper sliding plate, the upper sliding plate is positioned above the cutter and the ironing head, and the second cam is connected to the upper sliding plate through a sliding assembly.

The tightening mechanism comprises a tightening motor, a tightening rocker, a tightening connecting plate, a tightening driving wheel and a tightening pinch roller, one end of the tightening connecting plate is connected to the tightening rocker, the other end of the tightening connecting plate is connected with the tightening pinch roller through a connecting assembly, the tightening motor is connected with the tightening driving wheel, and the feeding plate is clamped between the tightening driving wheel and the tightening pinch roller.

The mechanism is further provided with a positioning rod arranged on the mechanism core seat, and the binding rocker is connected with the positioning rod through a tension spring; the binding rocker is provided with a first roller which is driven by the first cam to reciprocate.

The sliding assembly comprises a sliding plate rocker arm, a rocker arm shaft and a sliding plate control rod, the upper end of the sliding plate rocker arm is connected with the upper sliding plate, the lower end of the sliding plate rocker arm and the lower end of the sliding plate control rod are sleeved on the outer side of the rocker arm shaft, a second roller is arranged on the sliding plate control rod, and the second roller is driven by the second cam to reciprocate.

The fusion welding mechanism further comprises a base, the cutter and the ironing head are arranged on the base, a side sliding plate is arranged on the base, a sliding rail matched with the side sliding plate is arranged on the movement seat, and the base is movably connected to the movement seat through the side sliding plate; the movement seat is provided with a positioning rod, and the base is connected with the positioning rod through a tension spring; and the side sliding plate is connected with a third roller, and the third roller is driven by a third cam to reciprocate.

The belt shearing mechanism further comprises a front cutter arranged on the base through an elastic component, the front cutter is positioned between the cutter and the tail end of the feeding plate, a guide hole for the belt to pass through is formed in the front cutter, and the tail end of the feeding plate extends into the guide hole so as to feed the belt into the guide hole; the elastic component comprises a screw rod and a spring sleeved on the outer side of the screw rod, and the upper end and the lower end of the screw rod are respectively connected with the front cutter and the base.

Further, a gear box is arranged on the driving motor, and the first cam, the second cam and the third cam are arranged at the output end of the gear box.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

the utility model discloses a tightening mechanism, fusion welding mechanism and cut tape unit and construct and all drive through a driving motor, strengthen the synchronism of motion between each mechanism, strengthen the accuracy of band, also simplified driving mechanism, reduce the use of motor and other parts, reduce cost.

The utility model discloses fusion welding mechanism and cut tape unit construct the base, a cutter for cutting off the belt, a preceding sword that is used for the boiling hot head of hot melt and adhesion belt and is used for guiding the belt, be equipped with the slide on the base, be equipped with on the movement seat with slide complex slide rail, the cutter, boiling hot head and preceding sword set up on the base, the base can drive the cutter under actuating mechanism's drive and carry out the up-and-down motion, thereby cut the belt, it installs in the cutter front side to scald the head, it carries out the hot melt connection to the belt to scald the head to move first, then downcut the belt again, the cutter, the relative movement of scalding head and preceding sword all controls through second driving motor and third cam, through the work orbit integration of each cutter on a cam, whole cam mechanism's structure has been simplified, and the accuracy of work has also had great improvement.

Drawings

FIG. 1 is a schematic view of a belt binding machine according to the present invention;

FIG. 2 is a schematic view of the internal structure of a frame of the belt binding machine of the present invention;

FIG. 3 is one of the schematic structural diagrams of the present invention;

FIG. 4 is a second simplified structural diagram of the present invention;

FIG. 5 is a simplified structure diagram of the tape cutting mechanism of the present invention;

fig. 6 is a partially enlarged view of fig. 5 at a.

Detailed Description

The invention will be described in detail with reference to the accompanying drawings, which are shown in fig. 1-6:

as shown in fig. 1 and 2, the belt binding machine includes a frame 1, a belt storage mechanism 2 (for storing the belt 20 and supplying the belt 20 to the loop mechanism when necessary) is disposed at the front side of the frame 1, a loop mechanism (for advancing the belt 20 along an annular rail 42 and forming an end-to-end loop) is disposed inside the frame, and a movement control system, which includes a movement base 71, a tightening mechanism (for reversely tightening the belt 20 and tightly binding the loop formed by the belt 20 to a product to be bound), a welding mechanism (for welding the end and the end of the loop into a whole), a tape cutting mechanism (for cutting the belt 20 still connected except the loop), and a driving mechanism for controlling the tightening mechanism, the welding mechanism, and the tape cutting mechanism to operate.

An inlet 17 for a belt to enter is formed in the side face of the rack 1, a square frame-shaped mounting part 10 is arranged on a workbench of the rack 1, a control screen 18 is arranged on the front side of the workbench, when the belt binding machine works, an object to be bound with the belt is placed in the square frame-shaped mounting part 10, and the belt 20 is wound on the belt storage mechanism; the machine frame 1 is internally provided with a feeding plate 41 for conveying the belt 20 into a track 42 of the looping mechanism, the outer end of the belt 20 enters the feeding plate 41 through a belt storage mechanism, the feeding plate 41 drives the belt 20 to enter the looping mechanism under the driving of a driving mechanism, the looping mechanism winds the belt on an object to be banded and tightly bundles the belt through a tightening mechanism, a fusion welding mechanism fuses the belt and cuts off the belt through a belt cutting mechanism to complete belt work, the whole process is mechanically controlled, and the working efficiency is high.

The driving mechanism comprises a cam component and a driving motor 32, the movement seat 71 is provided with a photoelectric sensing switch 713, a tightening mechanism, a fusion welding mechanism and a tape cutting mechanism, after the tape 20 moves for a circle along the track 42, the tightening mechanism tightens the tape 20, and the tape 20 is fused and cut off through the fusion welding mechanism and the tape cutting mechanism.

The specific structure and motion mode of the tightening mechanism are as follows:

as shown in fig. 3, the tightening mechanism includes a tightening motor 731, a tightening rocker 732, a tightening plate 733, a tightening driving wheel 734 and a tightening wheel 735, one end of the tightening plate 733 is connected to the tightening rocker 732, the other end of the tightening plate 733 is connected to the tightening wheel 735 through a connecting assembly, the tightening motor 731 is connected to the tightening driving wheel 734 and drives the tightening driving wheel 734 to rotate, the feeding plate 41 and the strap are located between the tightening driving wheel 734 and the tightening wheel 735, and a slot hole for the tightening driving wheel/tightening wheel 735 to be inserted into is formed in the feeding plate 41.

The driving motor 32 is provided with a gear box 321, the output end of the gear box 321 is provided with the cam assembly, the cam assembly comprises a first cam 61, the binding rocker 732 is provided with a first roller 736, and the first roller 736 is driven by the first cam 61 to reciprocate; when the first cam 61 drives the tightening rocker 732 to move downwards, the tightening rocker 732 drives the tightening connecting plate 733 to move downwards, so as to drive the tightening pressure wheel 735 to press downwards, the tightening pressure wheel 735 presses the belt 20 on the feeding plate 41, meanwhile, the tightening motor 731 drives the tightening driving wheel 734 to rotate, and the belt is driven to move reversely under the action of the tightening driving wheel 734 and the tightening pressure wheel, so that the function of tightening the belt is realized.

The specific structure and the motion mode of the tape cutting mechanism are as follows:

as shown in fig. 5 and 6, the tape cutting mechanism comprises a base 721 and a cutter 722 for cutting the tape 20, the welding mechanism comprises an ironing head 723 for melting and adhering the tape 20, a front knife 726 is arranged on the base 721 through an elastic component, and the front knife 726 is positioned between the cutter 722 and the end of the feeding plate 41; a side sliding plate 724 is arranged on the base 721, a sliding rail 711 matched with the side sliding plate 724 is arranged on the movement seat 71, and the sliding plate 724 moves up and down in the sliding rail 711; the cutter 722 is directly fixed on the upper end face of the base 721 through a bolt, a gasket is pressed between the cutter 722 and the base 721, the ironing head 723 is an ultrasonic ironing head, and the ultrasonic ironing head is safe and reliable in belt ironing, does not need to be heated in advance, and has low requirements on belts and high applicability; the iron 723 is provided in the center of the base 721; the cutter 722 comprises a mounting seat 728 connected with the base 721 and a cutting edge 729 positioned at the upper end of the mounting seat 728, and the mounting seat 728 is provided with a through hole 720 through which the upper end of the ironing head 723 penetrates; the front knife 726 is provided with a guide hole 727 for the tape 20 to pass through, and the tail end of the feeding plate 41 extends into the guide hole 727 so as to feed the tape 20 into the guide hole 727; the elastic component comprises a screw 75 and a spring 76 sleeved outside the screw 75, and the upper end and the lower end of the screw 75 are respectively connected with the front knife 726 and the base 721.

The driving motor 32 is provided with a gear box 321, the output end of the gear box 321 is provided with a cam assembly, the cam assembly comprises a third cam 63 coaxially arranged with the first cam 61, the side sliding plate 724 is connected with a third roller 725, and the third roller 725 is driven by the third cam 63 to reciprocate up and down, so as to drive the base 721 on the side sliding plate 724 to move up and down.

As shown in fig. 4, a movable upper sliding plate 741 and a sliding component for driving the upper sliding plate 741 to move are disposed on the movement base 71, and the upper sliding plate 741 is located above the cutting knife 722 and the ironing head 723, and is used for assisting in pressing the tape, so that the tape can be conveniently processed by the ironing head and the cutting knife. The sliding assembly comprises a sliding plate rocker arm 742, a rocker shaft 743 and a sliding plate control rod 744, the upper end of the sliding plate rocker arm 742 is connected with the upper sliding plate 741, the lower end of the sliding plate rocker arm 742 and the lower end of the sliding plate control rod 744 are sleeved outside the rocker shaft 743, the cam assembly comprises a second cam 62, a second roller 745 is arranged on the sliding plate control rod 744, and the second roller 745 is driven by the second cam 62 to reciprocate. After the tape is wound for one circle along the rail, the tape continues to advance along the lower end of the tape guide plate 58 (shown in fig. 3) on the rack 1, and when the tape advances to the area above the ironing head and the cutter and below the upper sliding plate 741, the cam 63 drives the whole three-knife structure (the front knife 726, the cutter 722 and the ironing head 723) to ascend; at this time, the front knife 726 firstly pushes the tape against the lower side of the upper sliding plate 741, then the tightening mechanism retracts the tape (the retracted tape is the tape penetrating into the guide hole 727 on the front knife 726), after the retracted tape reaches a set distance, the third cam 63 continues to rotate until the ultrasonic wave ironing head presses the upper and lower layers of tapes against the lower side of the upper sliding plate 741, the ultrasonic wave ironing head is started and the upper and lower layers of tapes are ironed into a whole, and the ultrasonic wave ironing head stops working; the third cam 63 continues to drive the three-knife structure to ascend, the cutter 722 cuts off the belt, the third cam 63 rotates over the highest point, the three-knife structure descends and resets, and the upper sliding plate 741 moves outwards; at this time, the strap is completely wrapped on the product, and after the product is taken away, the upper sliding plate returns to the initial position for the next binding.

As shown in fig. 3, the movement seat 71 is provided with a positioning rod 712, and the tightening rocker 732 and the base 721 are connected to the positioning rod 712 through a tension spring 83, so as to facilitate the resetting of the tightening rocker 732 and the base 721.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. A machine core control system of a belt binding machine is characterized by comprising

A movement seat;

a tightening mechanism for tightening the strap;

the fusion welding mechanism is provided with an ironing head and is used for fusing the head end and the tail end of the looped belt into a whole;

the belt shearing mechanism is provided with a cutter and is used for cutting off the belt which is still connected except the loop knot;

the driving mechanism is used for controlling the tightening mechanism, the fusion welding mechanism and the tape shearing mechanism to work;

the driving mechanism comprises a cam assembly and a driving motor, the driving motor is connected with the cam assembly and drives the cam assembly to rotate, the cam assembly comprises a first cam, a second cam and a third cam, and the first cam is connected to the tightening mechanism; the third cam is connected to the ironing head and the cutter;

the machine core seat is provided with a movable upper sliding plate, the upper sliding plate is positioned above the cutter and the ironing head, and the second cam is connected to the upper sliding plate through a sliding assembly.

2. The cartridge control system of a belt machine according to claim 1, characterized in that: the tightening mechanism comprises a tightening motor, a tightening rocker, a tightening connecting plate, a tightening driving wheel and a tightening pinch roller, one end of the tightening connecting plate is connected to the tightening rocker, the other end of the tightening connecting plate is connected with the tightening pinch roller through a connecting assembly, the tightening motor is connected with the tightening driving wheel, and the feeding plate is clamped between the tightening driving wheel and the tightening pinch roller.

3. The movement control system of the belt banding machine as claimed in claim 2, wherein: the movement seat is provided with a positioning rod, and the binding rocker is connected with the positioning rod through a tension spring; the binding rocker is provided with a first roller which is driven by the first cam to reciprocate.

4. The cartridge control system of a belt machine according to claim 1, characterized in that: the sliding assembly comprises a sliding plate rocker arm, a rocker arm shaft and a sliding plate control rod, the upper end of the sliding plate rocker arm is connected with the upper sliding plate, the lower end of the sliding plate rocker arm and the lower end of the sliding plate control rod are sleeved on the outer side of the rocker arm shaft, and a second roller is arranged on the sliding plate control rod and driven by the second cam to reciprocate.

5. The cartridge control system of a belt machine according to claim 1, characterized in that: the fusion welding mechanism comprises a base, the cutter and the ironing head are arranged on the base, a side sliding plate is arranged on the base, a sliding rail matched with the side sliding plate is arranged on the movement seat, and the base is movably connected to the movement seat through the side sliding plate; the movement seat is provided with a positioning rod, and the base is connected with the positioning rod through a tension spring; and the side sliding plate is connected with a third roller, and the third roller is driven by a third cam to reciprocate.

6. The cartridge control system of a belt machine according to claim 5, wherein: the tape cutting mechanism further comprises a front cutter arranged on the base through an elastic assembly, the front cutter is located between the cutter and the tail end of the feeding plate, a guide hole for the tape to pass through is formed in the front cutter, and the tail end of the feeding plate extends into the guide hole so that the tape can be fed into the guide hole; the elastic component comprises a screw rod and a spring sleeved on the outer side of the screw rod, and the upper end and the lower end of the screw rod are respectively connected with the front cutter and the base.

7. The cartridge control system of a belt machine according to claim 1, characterized in that: the driving motor is provided with a gear box, and the output end of the gear box is provided with the first cam, the second cam and the third cam.