CN113844703B - Adhesive tape package coding integrated equipment - Google Patents

Abstract

The invention discloses a tape sealing and marking integrated device, which comprises a marking machine and a thermal contraction film covering machine, wherein one side of the marking machine is provided with a placement box which is fixedly arranged on two supporting shells, and the thermal contraction film covering machine is fixedly arranged at one end of the supporting shells; the packed adhesive tape is in a coaxially stacked cylinder shape, and the middle position of the outer side of the packed adhesive tape is marked, so that when the code scanning is performed in the subsequent inspection, the production information of the adhesive tape can be rapidly inspected by performing circumferential scanning on the middle position of the packed adhesive tape after the packed adhesive tape is positioned; and the cylindrical packing mode can save the stacking space, and is convenient to carry and transport.

Description

Adhesive tape package coding integrated equipment

Technical Field

The invention belongs to the technical field of adhesive tape production, and particularly relates to adhesive tape encapsulation and coding integrated equipment.

Background

In the production and processing of the adhesive tape, packaging and coding are important technological processes, coding is carried out on the product, the production information of the product can be conveniently and rapidly known in the inspection process, the packaging mode comprises single packaging and multiple packaging, the packaging method is divided into sealed packaging and shrink packaging, and the packaging method can be divided into array type, stacked type, scattered type and the like according to the packaging shape; at present, the cost, the convenience in transportation and use, the aesthetic degree and the like are considered, and the common packaging mode is heat shrinkage film-coated packaging; the array placing mode of keeping flat is most common, and is convenient for coding, and the problem of only front and back sides can exist when code scanning inspection is carried out, for example, the code scanning is carried out on two sides at the same time, the gesture of the adhesive tape after packaging is not needed to be considered when the code scanning is carried out, but the mode occupies large space, and the adhesive tape can not be packaged in any number.

Disclosure of Invention

In order to solve the above problems in the prior art, the present invention is directed to an integrated device for sealing and marking an adhesive tape.

The technical scheme adopted by the invention is as follows:

the utility model provides an adhesive tape package is carved a yard integration equipment, includes and carves a yard machine and thermal contraction tectorial membrane machine, one side of carving a yard machine is equipped with and settles the case, settle the case and fixedly set up on two support shells, thermal contraction tectorial membrane machine is fixed to be set up the one end of support shell, settle the both sides of case and be equipped with a guide way respectively, two the guide way is provided with transmission rack and drive rack in the slip respectively, drive rack with carving a yard machine fixed connection, transmission rack with joint has a drive gear between the drive rack, drive gear is fixed to be set up on first axis of rotation, first axis of rotation with settle the inner wall rotation of case and be connected.

By adopting the scheme, the packaged adhesive tape is subjected to code marking, and the code marking position is arranged on the side surface of the cylindrical adhesive tape, so that the identification is convenient.

As the optimization of the invention, two ends of the two supporting shells are respectively provided with a second rotating shaft in a rotating way, one of the second rotating shafts is fixedly provided with a coding belt wheel, one of the second rotating shafts is controlled by a coding motor, the coding motor is fixedly arranged on one of the supporting shells, the two coding belt wheels are driven by a coding conveying belt, the coding conveying belt is provided with two limiting blocks which are symmetrical by taking the guide grooves as symmetrical axes and are slidingly provided with a third rotating shaft in a rotating way, one end of a rotating rod is fixedly arranged on the third rotating shaft, the other ends of the two rotating rods are both rotatably arranged on a fourth rotating shaft, and the fourth rotating shaft is fixedly connected with the driving rack.

By adopting the technical scheme, the wrapped cylindrical adhesive tape is centered and positioned during code marking, so that the uniformity of the code marking positions is ensured, and the production information of the coiled adhesive tape can be rapidly checked by only carrying out circumferential scanning on the middle part of the cylindrical adhesive tape after positioning during code scanning in the follow-up inspection.

As the optimization of the invention, the invention further comprises a control box, the control box is fixedly connected with the supporting shell, openings are formed at two ends of the control box, a control motor is fixedly arranged on the inner wall of the control box, one end of the control motor is controlled with a fifth rotating shaft, a control gear is fixedly arranged on the fifth rotating shaft, two sides of the control gear are respectively meshed with a control rack, two control racks are respectively arranged on two sides in the control box in a sliding manner, one ends of the two control racks, which are far away from the control gear, are respectively fixedly provided with a transmission rod, and the two transmission rods are respectively fixedly connected with one ends of the two limiting blocks.

By adopting the technical scheme, the motor is utilized to drive the limiting blocks to move, the two limiting blocks are close to or far away from the lifting and descending of the code engraving machine, and the code engraving machine descends to code when the limiting blocks clamp the adhesive tape.

The invention also comprises a supporting seat, wherein a driving motor is fixedly arranged on the supporting seat, one end of the driving motor is controlled to be provided with a sixth rotating shaft, a rotating rod is fixedly arranged on the sixth rotating shaft, one end of the rotating rod, which is far away from the sixth rotating shaft, is fixedly provided with a seventh rotating shaft, a pushing rod is rotatably arranged on the seventh rotating shaft, one end of the pushing rod, which is far away from the seventh rotating shaft, is fixedly provided with an eighth rotating shaft, a movable baffle is rotatably arranged on the eighth rotating shaft, the movable baffle is positioned on one side of the thermal contraction film covering machine, the movable baffle is slidably arranged in a sliding groove, and the sliding groove is fixedly arranged on the supporting seat.

By adopting the scheme, the adhesive tapes to be passed through the thermal shrinkage film laminating machine are batched, and the adhesive tapes with any number can be packaged by adjusting parameters.

As the preferable mode of the invention, the invention further comprises a groove plate, wherein the groove plate is positioned at one side of the thermal contraction film laminating machine, which is close to the movable baffle, the groove plate is perpendicular to the moving direction of the movable baffle, the groove plate is fixedly arranged on a supporting plate, a photosensitive sensor and a film laminating motor are fixedly arranged on the supporting plate, the photosensitive sensor and the film laminating motor are respectively positioned at two sides of the groove plate, one end of the film laminating motor is controlled with a ninth rotating shaft, the ninth rotating shaft is driven with a film laminating conveying belt, and the film laminating conveying belt penetrates through the groove plate.

By adopting the technical scheme, the photosensitive sensor and the driving motor are matched for use, and the groove plate can ensure that the adhesive tape does not deviate after being erected.

As the preferable mode of the invention, one side of the groove plate far away from the supporting plate is provided with two fixed baffle plates, two ends of each fixed baffle plate are respectively provided with a tenth rotating shaft in a rotating way, the tenth rotating shaft is fixedly provided with an adjusting belt wheel, one tenth rotating shaft is controlled by an adjusting motor, and the two adjusting belt wheels are driven by an adjusting conveying belt.

By adopting the technical scheme, the adjusting belt wheel is matched with the groove plate=plate, so that the adhesive tape can stably move on the groove plate.

As the preferable mode of the invention, the adjusting conveyer belt is close to one of the fixed baffle plates, a placement plate is fixedly arranged on the fixed baffle plate far away from the adjusting conveyer belt, the adjusting conveyer belt and the placement plate are positioned on the same horizontal plane, a through hole is formed in the placement plate, and a limiting plate is fixedly arranged at one end of the placement plate close to the through hole.

By adopting the technical scheme, one large part of the adhesive tape is contacted with the adjusting conveying belt, the remaining small part is contacted with the placing plate, and when the adjusting conveying belt rotates, the adhesive tape moves along with the adjusting conveying belt and simultaneously rubs with the placing plate.

Preferably, a hydraulic cylinder is fixedly arranged on the fixed baffle plate far away from the adjusting conveying belt, one end of the hydraulic cylinder is controlled to be provided with a hydraulic rod, and the hydraulic rod penetrates through the through hole.

By adopting the technical scheme, after the hydraulic cylinder controls the hydraulic rod to extend, the adhesive tape is jacked up, and after the adhesive tape stands vertically, the hydraulic cylinder controls the hydraulic rod to retract.

Preferably, the fixing baffle and the supporting shell are respectively provided with a plurality of supporting legs.

Preferably, the adjusting conveyor belt is provided with a tape roll, the distance between the two fixing baffles is equal to the diameter of the tape roll, and the distance between the limiting plate and one fixing baffle far from the placement plate is equal to the thickness of the tape roll.

By adopting the technical scheme, the adhesive tape is conveyed precisely, so that the uniform posture of the adhesive tape can be ensured, and the appearance of the adhesive tape after being packaged in batches is smooth.

The beneficial effects of the invention are as follows: the invention is used as an integrated device for sealing and marking the adhesive tape, the adhesive tape is sealed and marked by adjusting the posture of the adhesive tape, stacking according to the set number, shrinking the film and centering the marking process, and the adhesive tape of any number can be packaged by controlling the cooperation of the photosensitive sensor and the movable baffle; the packed adhesive tape is in a coaxially stacked cylinder shape, and the middle position of the outer side of the packed adhesive tape is marked, so that when the code scanning is performed in the subsequent inspection, the production information of the adhesive tape can be rapidly inspected by performing circumferential scanning on the middle position of the packed adhesive tape after the packed adhesive tape is positioned; and the cylindrical packing mode can save the stacking space, and is convenient to carry and transport.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the direction A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the B-B direction of FIG. 1 in accordance with the present invention;

FIG. 4 is a schematic view of the C-C direction of FIG. 3 in accordance with the present invention.

Detailed Description

The invention is further described with reference to the drawings and specific examples.

The specific embodiment is as follows:

the following describes an integrated device for sealing and marking an adhesive tape according to the present invention with reference to fig. 1 to 4, which comprises a marking machine 19 and a heat-shrinkable film coating machine 21, wherein one side of the marking machine 19 is provided with a placement box 17, the placement box 17 is fixedly arranged on two support shells 51, the heat-shrinkable film coating machine 21 is fixedly arranged at one end of the support shells 51, two sides of the placement box 17 are respectively provided with a guide groove 61, two guide grooves 61 are respectively and slidably provided with a transmission rack 15 and a driving rack 20, the driving rack 20 is fixedly connected with the marking machine 19, a transmission gear 18 is jointly meshed between the transmission rack 15 and the driving rack 20, the transmission gear 18 is fixedly arranged on a first rotation shaft 16, and the first rotation shaft 16 is rotatably connected with the inner wall of the placement box 17.

The two ends of the supporting shells 51 are rotatably provided with a second rotating shaft 50 respectively, one of the second rotating shafts 50 is fixedly provided with a coding belt wheel 49, one of the second rotating shafts 50 is controlled by a coding motor 52, the coding motor 52 is fixedly arranged on one of the supporting shells 51, the two coding belt wheels 49 are driven by a coding conveying belt 11, the coding conveying belt 11 is symmetrically and slidably provided with two limiting blocks 12 by taking the guide grooves 61 as symmetry axes, the limiting blocks 12 are rotatably provided with a third rotating shaft 14, the third rotating shaft 14 is fixedly arranged at one end of a rotating rod 13, the other ends of the two rotating rods 13 are rotatably arranged on a fourth rotating shaft 53, and the fourth rotating shaft 53 is fixedly connected with the driving rack 15.

The control box 55 is fixedly connected with the supporting shell 51, openings are formed in two ends of the control box 55, a control motor 60 is fixedly arranged on the inner wall of the control box 55, one end of the control motor 60 is controlled to be provided with a fifth rotating shaft 58, a control gear 59 is fixedly arranged on the fifth rotating shaft 58, two sides of the control gear 59 are respectively meshed with a control rack 56, two control racks 56 are respectively arranged on two sides in the control box 55 in a sliding mode, one ends, away from the control gear 59, of the control racks 56 are respectively fixedly provided with a transmission rod 54, and the two transmission rods 54 are respectively fixedly connected with one ends of the two limiting blocks 12.

The hot shrinkage film coating machine comprises a supporting seat 33, a driving motor 32 is fixedly arranged on the supporting seat 33, a sixth rotating shaft 31 is controlled at one end of the driving motor 32, a rotating rod 30 is fixedly arranged on the sixth rotating shaft 31, a seventh rotating shaft 22 is fixedly arranged at one end, far away from the sixth rotating shaft 31, of the rotating rod 30, a pushing rod 23 is rotatably arranged on the seventh rotating shaft 22, an eighth rotating shaft 24 is fixedly arranged at one end, far away from the seventh rotating shaft 22, of the pushing rod 23, a movable baffle 25 is rotatably arranged on the eighth rotating shaft 24, the movable baffle 25 is arranged on one side of the hot shrinkage film coating machine 21, the movable baffle 25 is slidably arranged in a sliding groove 29, and the sliding groove 29 is fixedly arranged on the supporting seat 33.

Advantageously, the heat shrinkage film laminating machine further comprises a groove plate 26, the groove plate 26 is located on one side, close to the movable baffle 25, of the heat shrinkage film laminating machine 21, the groove plate 26 is perpendicular to the moving direction of the movable baffle 25, the groove plate 26 is fixedly arranged on a supporting plate 28, a photosensitive sensor 27 and a film laminating motor 46 are fixedly arranged on the supporting plate 28, the photosensitive sensor 27 and the film laminating motor 46 are respectively located on two sides of the groove plate 26, a ninth rotating shaft 47 is controlled at one end of the film laminating motor 46, a film laminating conveying belt 48 is driven by the ninth rotating shaft 47, and the film laminating conveying belt 48 penetrates through the groove plate 26.

Advantageously, two fixing baffles 34 are disposed on a side of the recess plate 26 away from the support plate 28, two tenth rotating shafts 43 are respectively disposed on two ends of the two fixing baffles 34 in a rotating manner, an adjusting belt wheel 42 is fixedly disposed on the tenth rotating shaft 43, one tenth rotating shaft 43 is controlled by an adjusting motor 45, and two adjusting belt wheels 42 are driven by the adjusting conveyor belt 35.

Advantageously, the adjusting conveyor belt 35 is close to one of the fixed baffles 34, a positioning plate 36 is fixedly arranged on the fixed baffle 34 far away from the adjusting conveyor belt 35, the adjusting conveyor belt 35 and the positioning plate 36 are in the same horizontal plane, a through hole 39 is formed in the positioning plate 36, and a limiting plate 40 is fixedly arranged at one end of the positioning plate 36 close to the through hole 39.

Advantageously, a hydraulic cylinder 37 is fixedly arranged on the fixed baffle 34 remote from the adjusting conveyor 35, one end of the hydraulic cylinder 37 is controlled with a hydraulic rod 41, and the hydraulic rod 41 penetrates through the through hole 39.

Advantageously, a plurality of support legs 44 are provided on each of the fixed barrier 34 and the support shell 51.

Advantageously, the adjusting belt 35 carries a roll 38 of adhesive tape, the distance between two fixed stops 34 being equal to the diameter of the roll 38 of adhesive tape, and the distance between the stop plate 40 and one of the fixed stops 34 remote from the rest plate 36 being equal to the thickness of the roll 38 of adhesive tape.

The application method of the invention comprises the following steps:

in the initial state, the adhesive tape roll 38 is evenly placed on the adjusting conveyer belt 35 by a person or a mechanical arm, and the movable baffle 25 is far away from the supporting seat 33.

The adjusting motor 45, the film covering motor 46 and the coding motor 52 are started, the tenth rotating shaft 43 is controlled by the adjusting motor 45 to rotate, the tenth rotating shaft 43 drives the adjusting belt pulley 42 to rotate, the adjusting belt pulley 42 drives the adjusting conveying belt 35, the adjusting conveying belt 35 drives the adhesive tape roll 38 to move, when the adhesive tape roll 38 moves to the hydraulic rod 41, the hydraulic cylinder 37 is started, the hydraulic rod 41 is controlled by the hydraulic cylinder 37 to extend, the adhesive tape roll 38 is jacked by the hydraulic rod 41, and the adhesive tape roll 38 is in an upright state;

the adhesive tape roll 38 continues to move under the conveying of the adjusting conveyer belt 35, the adhesive tape roll 38 is not inclined under the action of the limiting plate 40, the adhesive tape roll 38 rolls into the groove plate 26 after moving to the tail end of the adjusting conveyer belt 35, the film coating motor 46 controls the ninth rotating shaft 47 to rotate, the film coating conveyer belt 48 is driven to rotate by the ninth rotating shaft 47, and the adhesive tape roll 38 is driven to move to the movable baffle 25 by the film coating conveyer belt 48;

the adhesive tape rolls 38 passing through the photosensitive sensor 27 are recorded, the photosensitive sensor 27 is triggered for a certain number of times, then the driving motor 32 is controlled to start, the driving motor 32 drives the sixth rotating shaft 31 to rotate, the sixth rotating shaft 31 drives the rotating rod 30 to rotate, the rotating rod 30 drives the movable baffle 25 to move through the driving motor 32, the movable baffle 25 slides along the sliding groove 29, and after the movable baffle 25 leaves the groove plate 26, a plurality of adhesive tape rolls 38 with a fixed number are conveyed into the thermal contraction film laminating machine 21 together by the film conveying belt 48;

the second rotating shaft 50 is controlled by the coding motor 52 to rotate, the second rotating shaft 50 drives the coding belt wheel 49 to rotate, the coding belt wheel 49 drives the coding conveyer belt 11, the coding conveyer belt 11 drives the packaged adhesive tape roll 38 to move, when the adhesive tape roll 38 moves to the placement box 17, the control motor 60 is started, the control motor 60 controls the fifth rotating shaft 58 to rotate, the fifth rotating shaft 58 drives the transmission rod 54 to rotate, the transmission rod 54 drives the two control racks 56 to slide inwards through meshing, the control racks 56 drive the two third rotating shafts 14 to move through the transmission rod 54, and the two third rotating shafts 14 clamp the packaged adhesive tape rolls 38 in the middle;

meanwhile, the third rotating shaft 14 drives the transmission rack 15 to move through the rotating rod 13, the transmission rack 15 drives the transmission gear 18 to rotate through meshing, the transmission gear 18 drives the driving rack 20 to move through meshing, the driving rack 20 drives the code engraving machine 19 to move, and after the code engraving machine 19 contacts the packaged adhesive tape roll 38, the middle position is engraved;

after the coding is finished, the motor 60 is controlled to reversely rotate, the coding machine 19 is controlled to ascend, the two third rotating shafts 14 are separated, and the adhesive tape roll 38 enters the following boxing step under the action of the coding conveying belt 11.

The invention is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present invention, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present invention, fall within the scope of protection of the present invention.

Claims (7)

1. The utility model provides a sticky tape package seal carving integrated equipment which characterized in that: the automatic feeding device comprises a code engraving machine and a heat shrinkage film laminating machine, wherein a placement box is arranged on one side of the code engraving machine, the placement box is fixedly arranged on two support shells, the heat shrinkage film laminating machine is fixedly arranged at one end of each support shell, two sides of the placement box are respectively provided with a guide groove, a transmission rack and a driving rack are respectively and slidably arranged in the two guide grooves, the driving racks are fixedly connected with the code engraving machine, a transmission gear is meshed between the transmission racks and the driving racks, the transmission gear is fixedly arranged on a first rotating shaft, and the first rotating shaft is rotationally connected with the inner wall of the placement box;

two ends of the two support shells are respectively provided with a second rotating shaft in a rotating way, one of the second rotating shafts is fixedly provided with a coding belt wheel, one of the second rotating shafts is controlled by a coding motor, the coding motor is fixedly arranged on one of the support shells, the two coding belt wheels are driven by a coding conveying belt, the coding conveying belt is symmetrically and slidingly provided with two limiting blocks by taking the guide grooves as symmetrical axes, a third rotating shaft is rotationally arranged on the limiting blocks, the third rotating shaft is fixedly arranged at one end of a rotating rod, the other ends of the two rotating rods are rotationally arranged on a fourth rotating shaft, and the fourth rotating shaft is fixedly connected with the driving rack;

the control box is fixedly connected with the supporting shell, openings are formed in two ends of the control box, a control motor is fixedly arranged on the inner wall of the control box, one end of the control motor is controlled to be provided with a fifth rotating shaft, a control gear is fixedly arranged on the fifth rotating shaft, two sides of the control gear are respectively meshed with a control rack, two control racks are respectively arranged on two sides in the control box in a sliding mode, one ends, away from the control gear, of the two control racks are respectively fixedly provided with a transmission rod, and the two transmission rods are respectively fixedly connected with one ends of the two limiting blocks;

still include the supporting seat, fixed driving motor that is equipped with on the supporting seat, driving motor's one end control has the sixth axis of rotation, the fixed rotary rod that is equipped with in the sixth axis of rotation, the rotary rod is kept away from the fixed seventh axis of rotation that is equipped with of one end of sixth axis of rotation, the rotation is equipped with the catch bar in the seventh axis of rotation, the catch bar is kept away from the fixed eighth axis of rotation that is equipped with of one end of seventh axis of rotation, the rotation is equipped with movable baffle in the eighth axis of rotation, the movable baffle is located one side of thermal contraction laminating machine, movable baffle slides and sets up in the spout, the spout is fixed to be set up on the supporting seat.

2. The integrated tape pack and seal marking apparatus of claim 1, wherein: still include the recess board, the recess board is located the thermal contraction tectorial membrane machine is close to one side of movable baffle, the recess board with the direction of motion of movable baffle is perpendicular, the recess board is fixed to be set up in the backup pad, fixedly in the backup pad be equipped with photosensitive sensor and tectorial membrane motor, photosensitive sensor with the tectorial membrane motor is located respectively the both sides of recess board, is that the one end control of tectorial membrane motor has the ninth axis of rotation, the transmission of ninth axis of rotation has tectorial membrane conveyer belt, the tectorial membrane conveyer belt runs through the recess board.

3. The integrated tape pack and seal marking apparatus of claim 2, wherein: the groove plate is far away from one side of backup pad is equipped with two fixed stop, two fixed stop's both ends rotate respectively and are equipped with a tenth axis of rotation, the fixed regulation band pulley that is equipped with in the tenth axis of rotation, one of them tenth axis of rotation is controlled by accommodate motor, two adjust the band pulley and pass through the regulation conveyer belt transmission.

4. A tape pack coding integrated apparatus according to claim 3, wherein: the adjusting conveyer belt is close to one of the fixed baffle plates, the fixed baffle plate far away from the adjusting conveyer belt is fixedly provided with a placement plate, the adjusting conveyer belt and the placement plate are positioned on the same horizontal plane, a through hole is formed in the placement plate, and one end, close to the through hole, of the placement plate is fixedly provided with a limiting plate.

5. The integrated tape-package-and-seal-marking apparatus of claim 4, wherein: the fixed baffle plate far away from the adjusting conveyer belt is fixedly provided with a hydraulic cylinder, one end of the hydraulic cylinder is controlled with a hydraulic rod, and the hydraulic rod penetrates through the through hole.

6. The integrated tape-package-and-seal-marking apparatus of claim 5, wherein: the fixed baffle and the support shell are respectively provided with a plurality of support legs.

7. The integrated tape-package-and-seal-marking apparatus of claim 6, wherein: the adhesive tape roll is conveyed on the adjusting conveying belt, the distance between the two fixed baffles is equal to the diameter of the adhesive tape roll, and the distance from the limiting plate to one fixed baffle far away from the placing plate is equal to the thickness of the adhesive tape roll.

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