CN210312815U - Film slitting strip all-in-one - Google Patents

Abstract

The utility model belongs to the technical field of film slitting, and discloses a film slitting integrated machine, which comprises a film slitting cabinet body, a label tape, a knife plate, a die cutting driving mechanism, a film slitting roller knife, a slitting motor and a slitting roller knife; the release motor is in transmission connection with the release shaft; the furling motor is in transmission connection with a furling shaft; one end of the label tape is wound on the release shaft, and the other end of the label tape sequentially bypasses the first traction wheel, passes through the first tangent point, passes through the second tangent point, passes through the third tangent point and bypasses the second traction wheel and is wound on the furling shaft; the film cutting driving mechanism drives the film cutting roller cutter to move towards or away from the cutter plate; the slitting motor is connected with the slitting roller knife in a transmission way. The utility model discloses a when membrane segmentation strip all-in-one used, the label area can be along the upper surface horizontal displacement of cutting board, and the membrane of being convenient for is cut the roller sword and is carried out the membrane and cut the operation, also can make the label area through dividing the roller sword and be the horizontal displacement state, and the rotatory branch of being convenient for strip roller sword cuts the operation to horizontal displacement's label area.

Description

Film slitting strip all-in-one

Technical Field

The utility model belongs to the technical field of the membrane segmentation strip, concretely relates to membrane segmentation strip all-in-one.

Background

When the existing film slitting machine is used for performing film slitting or slitting operation on a label tape, one end of the label tape needs to be released, and the other end of the label tape needs to be furled, so that the automatic operation of the film slitting process can be guaranteed, the horizontal displacement of the label tape is not guaranteed well in the label tape conveying process, and the film slitting or slitting operation is facilitated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a membrane slitting strip all-in-one machine.

The utility model discloses the technical scheme who adopts does:

a film slitting integrated machine comprises a film slitting cabinet body, a label tape, a knife plate, a die cutting driving mechanism, a film slitting roller knife, a slitting motor and a slitting roller knife;

the film cutting cabinet body is positioned on the left side of the slitting cabinet body, a release motor, a release shaft, a rotatable first traction wheel and two first guide wheels rotating in a back direction are arranged on the left side of the film cutting cabinet body, two second guide wheels rotating in the back direction are arranged between the die cutting cabinet body and the slitting cabinet body, and two third guide wheels rotating in the back direction, a rotatable second traction wheel, a furling motor and a furling shaft are arranged on the right side of the slitting cabinet body;

the release motor is in transmission connection with the release shaft;

the furling motor is in transmission connection with the furling shaft;

the two first guide wheels are tangent to a first tangent point, the two second guide wheels are tangent to a second tangent point, the two third guide wheels are tangent to a third tangent point, a connecting line of the third tangent point and the second tangent point is horizontal and the height of the connecting line is higher than the height of the bottom end of the slitting roller knife, and a connecting line of the second tangent point and the first tangent point is horizontal and the connecting line is flush with the upper surface of the knife plate;

one end of the label tape is wound on the release shaft, and the other end of the label tape sequentially bypasses the first traction wheel, the first tangent point, the second tangent point, the third tangent point and the second traction wheel and is wound on the furling shaft;

the knife plate is fixed at the upper end of the film cutting cabinet body, and a cross-shaped groove is concavely formed in the upper end of the knife plate;

the film cutting driving mechanism is arranged above the film cutting cabinet body, the output end of the film cutting driving mechanism is connected with the film cutting roller knife, and the film cutting driving mechanism drives the film cutting roller knife to move towards or away from the knife plate;

the film cutting roller knife is of a cross structure, and can be inserted into the cross groove in a matching manner;

the slitting motor is installed above the slitting cabinet body and is in transmission connection with the slitting roller knife.

The film cutting cabinet further comprises two first guide rails and two second guide rails, wherein the two first guide rails are respectively arranged on two sides of the label tape, the two second guide rails are also respectively arranged on two sides of the label tape, the first guide rails are installed above the film cutting cabinet body, and the first guide rails are horizontally arranged along the direction from the first tangent point to the second tangent point;

the second guide rail is installed above the slitting cabinet body, and the second guide rail is horizontally arranged along the direction from the second tangent point to the third tangent point.

Further, the two ball screws are further included, one of the two first guide rails is connected with the nut of one of the two ball screws, and one of the two second guide rails is connected with the nut of the other of the two ball screws.

The label tape feeding and positioning mechanism comprises a fixed baffle, an adjustable baffle and an adjusting block;

the fixed baffle is fixedly arranged on the release shaft and is positioned on one side of the rolled label tape;

the adjustable baffle is arranged on the other side of the rolled label tape;

the adjusting block is movably arranged on the releasing shaft and is positioned on the outer side of the adjustable baffle.

Further, still include the axis of rotation, divide strip motor transmission to be connected the axis of rotation, install at least one on the axis of rotation and divide strip roller sword

Further, three slitting roller knives are installed on the rotating shaft at equal intervals.

The utility model has the advantages that:

the utility model discloses a when membrane segmentation strip all-in-one used, the label area is because of the direction of two first leading wheels and two second leading wheels and along the upper surface horizontal displacement of cutting board, the membrane of being convenient for is cut the roller sword and is carried out the membrane and cut the operation, also can make the label area through the segmentation roller sword be the horizontal displacement state because of the direction of two second leading wheels and two third leading wheels, the rotatory segmentation roller sword of being convenient for cuts the operation to the label area of horizontal displacement, this membrane segmentation strip all-in-one membrane segmentation strip is effectual.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the first mounting plate, the second mounting plate, the third mounting plate, the fourth mounting plate, the fifth mounting plate, the sixth mounting plate and the seventh mounting plate of the present invention.

Fig. 3 is a schematic structural diagram of the label tape feeding and positioning mechanism of the present invention.

Fig. 4 is a schematic structural view of the furling motor and furling shaft of the present invention.

Fig. 5 is a schematic structural view of the blade of the present invention.

Fig. 6 is a schematic structural view of the slitting motor and the rotating shaft of the present invention.

Fig. 7 is a schematic structural view of the label tape of the present invention guided by the first guide rail.

Fig. 8 is a schematic structural diagram of the guide driving mechanism of the present invention.

In the figure: 11-a film cutting cabinet body; 12-a slitting cabinet body; 21-a first mounting plate; 22-a second mounting plate; 23-a third mounting plate; 24-a fourth mounting plate; 25-a fifth mounting plate; 26-a sixth mounting plate; 27-a seventh mounting plate; 31-a release shaft; 32-closing the shaft; 33-an adjustable baffle; 34-a fixed baffle; 35-a regulating block; 36-a bolt; 37-a furling motor; 38-a rotational bearing; 41-a first guide wheel; 411-the axis of rotation of the first guide wheel; 42-a second guide wheel; 421-the rotating shaft of the second guide wheel; 43-a third guide wheel; 431-the rotating shaft of the third guide wheel; 44-a second guide gear; 45-a steering motor; 46-a first guide gear; 51-a first traction wheel; 511-a rotating shaft of the first traction wheel; 52-a second traction wheel; 521-a rotating shaft of the second traction wheel; 60-slitting roller cutters; 61-a slitting motor; 62-rotating shaft; 71-knife plate; 711-cross-shaped recess; 72-film cutting roller knife; 73-a die cutting hydraulic cylinder; 81-a first guide rail; 82-a second guide rail; 90-label tape.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the film slitting integrated machine of the present embodiment includes a film slitting cabinet 11, a slitting cabinet 12, a label tape 90, a cutter plate 71, a die cutting driving mechanism, a film slitting roller knife 72, a slitting motor, and a slitting roller knife 60.

The film cutting cabinet body 11 is located on the left side of the slitting cabinet body 12, a release motor, a release shaft 31, a rotatable first traction wheel 51 and two first guide wheels 41 which rotate back to back are arranged on the left side of the film cutting cabinet body, the release motor is installed on one side of the first installation plate 21, and the release shaft is connected in a transmission mode through the release motor and can be driven to rotate when the release motor operates, so that the label tape 90 which is rolled on the release shaft is released.

The release shaft is mounted on the first mounting plate 21 through a label tape feeding positioning mechanism, as shown in fig. 3, the label tape feeding positioning mechanism includes a fixed baffle 34, an adjustable baffle 33 and an adjusting block 35; the fixed baffle is fixedly arranged on the release shaft 31 (the fixed baffle and the adjustable baffle are both provided with mounting holes, the hole diameter of each mounting hole is equal to the outer diameter of the release shaft), and the fixed baffle is positioned on one side of the rolled label tape; the mounting hole of the adjustable baffle is aligned with the release shaft and mounted on the other side of the rolled label tape; the adjusting block 35 is movably mounted on the releasing shaft, specifically, the adjusting block is of an annular structure, the size of an inner hole of the adjusting block is larger than the outer diameter of the releasing shaft, a threaded hole is formed in the adjusting block, a bolt 36 is screwed into the threaded hole and abuts against the releasing shaft, so that the adjusting block is fixed on the outer side of the adjustable baffle, the adjusting block is used for adjusting the gap between the rolled label tape and the movable baffle, and the rolled label tape can rotate freely and is positioned between the adjustable baffle and the fixed baffle in the releasing process.

Two second guide wheels 42 which rotate back to back are arranged between the die cutting cabinet body 11 and the slitting cabinet body 12, and two third guide wheels 43 which rotate back to back, a rotatable second traction wheel 52, a furling motor 37 and a furling shaft 32 are arranged on the right side of the slitting cabinet body; the furling motor is in transmission connection with the furling shaft; when the furling motor is operated, the furling shaft 32 is driven to rotate to furl the label strip 90.

Both ends of the furling shaft are mounted on the second mounting plate on the same side through the rotary bearing 38. The specific installation mode is as follows: as shown in fig. 4, the two second mounting plates 22 are disposed opposite to each other, the furling motor 37 is mounted on one side of one of the second mounting plates 22, and the furling motor is in transmission connection with one end of the furling shaft 32 extending out of the second mounting plate, so that when the furling motor operates, the furling shaft is driven to rotate.

As shown in fig. 2, both ends of the rotating shaft 511 of the first traction wheel and the rotating shaft 411 of the first guide wheel are mounted on the third mounting plate 23 on the same side through rotating bearings. The installation mode refers to the installation mode of the furling shaft, and is not described herein in detail.

As shown in fig. 2, both ends of the rotating shaft 421 of the second guide wheel are mounted on the fourth mounting plate 24 on the same side through rotating bearings. The installation mode refers to the installation mode of the furling shaft, and is not described herein in detail.

As shown in fig. 2, both ends of the rotating shaft 521 of the second traction wheel and the rotating shaft 431 of the third guide wheel are mounted on the fifth mounting plate 25 on the same side through rotating bearings. The installation mode refers to the installation mode of the furling shaft, and is not described herein in detail.

The two first guide wheels are tangent to the first tangent point, the two second guide wheels are tangent to the second tangent point, the two third guide wheels are tangent to the third tangent point, during installation, one end of the label tape is wound on the release shaft, and the other end of the label tape sequentially bypasses the first traction wheel, passes through the first tangent point, passes through the second tangent point, passes through the third tangent point, bypasses the second traction wheel and is wound on the furling shaft.

The knife board 71 is fixed at the upper end of the film cutting cabinet body, and a cross-shaped groove 711 (shown in fig. 5) is concavely arranged at the upper end of the knife board; correspondingly, the film cutting roller knife is of a cross structure, and the film cutting roller knife can be inserted into the cross groove in a matched mode. The film cutting roller knife which is pressed downwards can press the label belt into the cross-shaped groove, so that cross-shaped cutting marks are formed on the label belt, and the next slitting process is facilitated. The frequency of reciprocating displacement of the piston rod of the longitudinal hydraulic cylinder can be adjusted according to actual needs, so that the distance between adjacent cross-shaped cutting marks on the label tape can be adjusted.

The film cutting driving mechanism is arranged above the film cutting cabinet body, the output end of the film cutting driving mechanism is connected with the film cutting roller knife, and the film cutting driving mechanism drives the film cutting roller knife to move towards or away from the knife plate; the die cutting driving mechanism is a die cutting hydraulic cylinder 73, the die cutting hydraulic cylinder 73 is installed above the film cutting cabinet body 11 through the sixth installation plate 26, a piston rod of the die cutting hydraulic cylinder 73 is connected with the film cutting roller cutter, when the piston rod of the die cutting hydraulic cylinder 73 extends out, the film cutting roller cutter can move towards the cutter plate to perform die cutting operation, and when the piston rod of the die cutting hydraulic cylinder 73 retracts, the film cutting roller cutter can move away from the cutter plate to wait for next die cutting operation.

The slitting motor is installed above the slitting cabinet body and is in transmission connection with the slitting roller knife. As shown in fig. 6, the slitting motor 61 is mounted on the seventh mounting plate 27, the slitting motor 61 is in transmission connection with the rotating shaft 62, and at least one slitting roller 60 is mounted on the rotating shaft, so that the slitting motor is in transmission connection with the slitting roller. In the present embodiment, the number of the slitting roller blades is three, and the three slitting roller blades are arranged on the rotating shaft at equal intervals. When the slitting motor is started, the rotating shaft 62 is driven to rotate, so that the three slitting roller cutters 60 are driven to synchronously rotate, the label tape is cut, and the label tape can be divided into four equal parts.

The utility model discloses a working process of membrane segmentation strip all-in-one as follows: as shown in fig. 1, when the releasing motor is started, the releasing shaft 31 is driven to rotate to release the label tape 90, the released label tape is pulled and guided between the two first guide wheels by the first traction wheel, and because the two first guide wheels synchronously rotate backwards, the two second guide wheels synchronously rotate backwards, so that the label can continuously extend between the two first guide wheels and is guided by the two first guide wheels 41 to be "spit out", and then extend between the two second guide wheels and is guided by the two second guide wheels 42 to be "spit out", because the connecting line of the second tangent point and the first tangent point is horizontal and is flush with the upper surface of the knife plate, the label tape 90 is horizontally attached to the upper surface of the knife plate because of the guidance of the two first guide wheels and the two second guide wheels (the guiding directions of the two first guide wheels and the guiding directions of the two second guide wheels are the same, and is coincident with the connecting line of the second tangent point and the first tangent point), the label tape 90 can be horizontally displaced toward the knife plate 71, which is convenient for the film cutting roller knife 72 to carry out film cutting operation; because the two third guide wheels 43 also synchronously rotate backwards, the label tape which is guided to be discharged by the two second guide wheels 42 can continuously extend between the two third guide wheels and is guided by the two third guide wheels 43 to be discharged, and because the connecting line of the third tangent point and the second tangent point is horizontal and the height of the connecting line is higher than the height of the bottom end of the slitting roller knife (as shown in fig. 1), the label tape 90 passing through the slitting roller knife is in a horizontal displacement state (the guide directions of the two third guide wheels and the guide directions of the two second guide wheels are the same and are superposed with the connecting line of the third tangent point and the second tangent point), the slitting roller knife which is convenient to rotate can perform slitting operation on the label tape which is horizontally displaced, and the label tape 90 can be divided into four equal parts by the rotating slitting roller knife.

Two first guide rails 81 and two second guide rails that still include, two first guide rails set up respectively label area both sides, and two second guide rails 82 also set up respectively label area both sides, first guide rail 81 is installed through sixth mounting panel 26 the top of the cabinet body is cut to the membrane, first guide rail is along the direction level arrangement of first tangent point to second tangent point, makes the label area of displacement between first tangent point and the second tangent point better horizontal displacement because of the direction of the first guide rail of both sides (as shown in fig. 7, the dotted line is the inboard slotted edge of first guide rail), and the operation is cut to the label area of horizontal displacement to the membrane of being convenient for membrane cutting roller sword 72.

The second guide rail is installed above the slitting cabinet body, and the second guide rail is horizontally arranged along the direction from the second tangent point to the third tangent point. Similarly, the label tape displaced between the second and third tangent points is displaced horizontally by the guide of the second guide rails on both sides, so that the label tape displaced horizontally is easily separated by the separating roller blade 60.

The film slitting strip all-in-one machine also comprises two ball screws, one of the two first guide rails is connected with the nut of one of the two ball screws, the nut of the ball screw can be driven to displace along the ball screw by rotating the ball screw, and the ball screw is positively rotated to drive one of the two first guide rails to displace towards the other first guide rail, so that the distance between the two first guide rails can be reduced; conversely, when the ball screw is reversed, one of the two first guide rails is displaced away from the other first guide rail, so that the distance between the two first guide rails can be adjusted according to the width of the label tape.

One of the two second guide rails is connected with the nut of the other of the two ball screws. In the same way, the distance between the two second guide rails can be adjusted according to the width of the label tape.

As shown in fig. 8, the film slitting and slitting integrated machine further comprises a guiding driving mechanism, wherein the guiding driving mechanism comprises a guiding motor 45, a first guiding gear 46 and a second guiding gear 44; the guide motor is in transmission connection with the first guide gear, the first guide gear is in meshed connection with the second guide gear, and for example, the guide driving mechanism drives the two first guide wheels to synchronously rotate backwards, the first guide gear is coaxially arranged with one of the two first guide wheels, and the second guide gear is coaxially arranged with the other of the two first guide wheels, so that when the guide motor 45 is started, the first guide gear 46 is driven to rotate forwards, the second guide gear 44 is driven to rotate backwards, one of the first guide wheels (the lower first guide wheel in fig. 1) is driven, one of the first guide wheels (the upper first guide wheel in fig. 1) is driven to rotate backwards, and thus the two first guide wheels 41 are driven to synchronously rotate backwards. Similarly, the two second guide wheels can be driven by the guide driving mechanism to synchronously rotate backwards, and the two third guide wheels can also be driven by the guide driving mechanism to synchronously rotate backwards.

In a word, the utility model discloses a when membrane segmentation strip all-in-one used, label area 90 is because of the direction of two first leading wheels and two second leading wheels and along the upper surface horizontal displacement of cutting board, the operation is cut to the membrane of being convenient for film cutting roller sword 72, also can make label area 90 through dividing the strip roller sword be the horizontal displacement state because of the direction of two second leading wheels and two third leading wheels, the rotatory label area of dividing the strip roller sword to horizontal displacement of being convenient for cuts the operation, this membrane segmentation strip all-in-one membrane segmentation strip is effectual.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (6)

1. The utility model provides a membrane segmentation strip all-in-one which characterized in that: the cutting machine comprises a film cutting cabinet body, a slitting cabinet body, a label tape, a knife plate, a die cutting driving mechanism, a film cutting roller knife, a slitting motor and a slitting roller knife;

the film cutting cabinet body is positioned on the left side of the slitting cabinet body, a release motor, a release shaft, a rotatable first traction wheel and two first guide wheels rotating in a back direction are arranged on the left side of the film cutting cabinet body, two second guide wheels rotating in the back direction are arranged between the die cutting cabinet body and the slitting cabinet body, and two third guide wheels rotating in the back direction, a rotatable second traction wheel, a furling motor and a furling shaft are arranged on the right side of the slitting cabinet body;

the release motor is in transmission connection with the release shaft;

the furling motor is in transmission connection with the furling shaft;

the two first guide wheels are tangent to a first tangent point, the two second guide wheels are tangent to a second tangent point, the two third guide wheels are tangent to a third tangent point, a connecting line of the third tangent point and the second tangent point is horizontal and the height of the connecting line is higher than the height of the bottom end of the slitting roller knife, and a connecting line of the second tangent point and the first tangent point is horizontal and the connecting line is flush with the upper surface of the knife plate;

one end of the label tape is wound on the release shaft, and the other end of the label tape sequentially bypasses the first traction wheel, the first tangent point, the second tangent point, the third tangent point and the second traction wheel and is wound on the furling shaft;

the knife plate is fixed at the upper end of the film cutting cabinet body, and a cross-shaped groove is concavely formed in the upper end of the knife plate;

the film cutting driving mechanism is arranged above the film cutting cabinet body, the output end of the film cutting driving mechanism is connected with the film cutting roller knife, and the film cutting driving mechanism drives the film cutting roller knife to move towards or away from the knife plate;

the film cutting roller knife is of a cross structure, and can be inserted into the cross groove in a matching manner;

the slitting motor is installed above the slitting cabinet body and is in transmission connection with the slitting roller knife.

2. The film slitting strip all-in-one machine according to claim 1, characterized in that: the film cutting cabinet further comprises two first guide rails and two second guide rails, wherein the two first guide rails are arranged on two sides of the label tape respectively, the two second guide rails are also arranged on two sides of the label tape respectively, the first guide rails are installed above the film cutting cabinet body, and the first guide rails are horizontally arranged along the direction from the first tangent point to the second tangent point;

the second guide rail is installed above the slitting cabinet body, and the second guide rail is horizontally arranged along the direction from the second tangent point to the third tangent point.

3. The film slitting strip all-in-one machine according to claim 1, characterized in that: the two first guide rails are connected with the nut of one of the two ball screws, and one of the two second guide rails is connected with the nut of the other of the two ball screws.

4. The film slitting strip all-in-one machine according to any one of claims 1 to 3, wherein: the label tape feeding positioning mechanism comprises a fixed baffle, an adjustable baffle and an adjusting block;

the fixed baffle is fixedly arranged on the release shaft and is positioned on one side of the rolled label tape;

the adjustable baffle is arranged on the other side of the rolled label tape;

the adjusting block is movably arranged on the releasing shaft and is positioned on the outer side of the adjustable baffle.

5. The film slitting strip all-in-one machine according to claim 4, characterized in that: still include the axis of rotation, divide strip motor transmission to connect the axis of rotation, install at least one branch strip roller sword on the axis of rotation.

6. The film slitting strip all-in-one machine according to claim 5, characterized in that: and three slitting roller cutters are arranged on the rotating shaft at equal intervals.

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