CN214003490U - Semi-automatic slitting machine - Google Patents

Abstract

The utility model discloses a semi-automatic branch strip machine, which comprises a frame, unwinding device, divide strip subassembly and rolling subassembly, semi-automatic strip machine still includes decides the subassembly, the rolling subassembly respectively has two with deciding the subassembly at least, the rolling subassembly with decide the subassembly one-to-one, the rolling subassembly includes the rotating turret, first wind-up roll and second wind-up roll, first wind-up roll is rotationally installed in the one end of rotating turret, the second wind-up roll is rotationally installed in the other end of rotating turret, but the rotating turret frame relative frame rotates in order to realize carrying out the rotation transposition with first wind-up roll and second wind-up roll, but decide the relative frame of subassembly and rotate and cut in order to cut the material area between first wind-up roll and the second wind-up roll. The utility model discloses an above structure can realize the zero clearance rolling to the material area for the rolling efficiency in material area is effectively must improve.

Description

Semi-automatic slitting machine

Technical Field

The utility model relates to a mechanical production's technical field, concretely relates to semi-automatic branch strip machine.

Background

With the rapid development of society, more and more automated devices are being manufactured to meet various production needs.

The slitting machine is widely used in the production of various products such as BOPP, CPP, CPE, PVC, aluminum foil, paper and the like, and is used as a device capable of slitting and winding strip-shaped products. The existing slitting machine mainly comprises a machine frame, an unreeling device, a slitting assembly and a reeling assembly; in the actual working process, the roll-shaped material belt is unreeled through the unreeling device, and then the material belt is cut into a plurality of strips through the strip dividing assembly, and then the cut material belt is rolled through the rolling assembly. However, the existing slitting machine has the following defects: when carrying out the rolling through the coiling mechanism, after the peg has reached maximum rolling degree, need the staff to take off this peg to change new peg in order to carry out the rolling next time, lead to the efficiency of rolling not high.

Therefore, a semi-automatic slitting machine with improved production efficiency is needed to solve the above problems.

Disclosure of Invention

The utility model discloses a to present technique not enough, provide a semi-automatic strip machine that divides.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

a semi-automatic slitting machine, which comprises a frame, an unreeling device used for unreeling a material belt, a slitting assembly used for slitting the material belt and a reeling assembly used for reeling the slit material belt, the semi-automatic slitting machine also comprises a cutting component, at least two rolling components and at least two cutting components are arranged respectively, the winding components correspond to the cutting components one by one, each winding component comprises a rotating frame, a first winding roller and a second winding roller, the first winding roller is rotatably arranged at one end of the rotating frame, the second winding roller is rotatably arranged at the other end of the rotating frame, the rotating frame can rotate relative to the machine frame to realize the rotary transposition of the first winding roller and the second winding roller, decide the subassembly can be relative the frame rotates in order to cut first wind-up roll with the material area between the second wind-up roll.

Further improvement is made, decide the subassembly and include first swing span, blade, cutter drive arrangement and first pinch roller, first swing span be rotationally with the frame is connected, first pinch roller be rotationally install in the one end of first swing span, the blade install in on the first swing span, just the blade can be relative first swing span slides, cutter drive arrangement's output with the blade is connected and is ordered about this blade and be close to or keep away from the rotating turret.

Make further improvement, decide the subassembly and still include the second pinch roller, the second pinch roller be rotationally install in on the first swing span, just the second pinch roller is located first pinch roller with between the blade, still be provided with on the rolling subassembly with the cooperation pinch roller of the mutual pressfitting of second pinch roller, the cooperation pinch roller be rotationally install in on the rotating turret, just the cooperation pinch roller is located first wind-up roll with between the second wind-up roll.

In a further improvement, at least two matched press wheels are arranged, and the two matched press wheels are oppositely arranged at two ends of the rotating frame.

The semi-automatic slitting machine is further improved and further comprises a waste material winding device used for winding corner waste materials of the material belt, and the waste material winding device is installed on the rack.

The waste material winding device is further improved and comprises a second swinging frame, a third winding roller and a third pressing wheel, wherein the third winding roller is rotatably installed on the second swinging frame, the third pressing wheel is rotatably installed on the rack, the second swinging frame drives the third winding roller to rotate, so that the third pressing wheel swings to enable the third winding roller to be close to or far away from the third pressing wheel.

In a further improvement, the two rolling assemblies are arranged side by side along the height direction of the rack.

The unwinding device comprises an unwinding roller and a pressing device matched with the unwinding roller to press a winding material belt, the unwinding roller and the pressing device are both mounted on the rack, and the unwinding roller can rotate relative to the rack.

The pressing device comprises a linear driving piece, a connecting rod and a fourth pressing wheel, wherein the fourth pressing wheel is rotatably arranged at the first end of the connecting rod, the second end of the connecting rod is pivoted with the rack, the linear driving piece is arranged on the rack, and the part of the connecting rod between the first end and the second end of the connecting rod is pivoted with the output end of the linear driving piece.

The utility model has the advantages that: because semi-automatic branch strip machine is still including deciding the subassembly, the rolling subassembly with decide the subassembly and respectively have two at least, the rolling subassembly with decide the subassembly one-to-one, the rolling subassembly includes rotating turret, first wind-up roll and second wind-up roll, first wind-up roll is rotationally installs in the one end of rotating turret, the second wind-up roll is rotationally installs in the other end of rotating turret, the rotating turret can be relative the frame rotates in order to realize carrying out the rotation transposition with first wind-up roll and second wind-up roll, decides the subassembly and can rotate in order to cut the material area between first wind-up roll and the second wind-up roll relative the frame. Therefore in the actual working process, the first winding roller is enabled to be closer to the unwinding device relative to the second winding roller through the rotating frame, then the separated material belt is wound through the first winding roller, when the first winding roller reaches the winding upper limit, the first winding roller and the second winding roller are enabled to be mutually exchanged through the rotating frame, the material belt between the first winding roller and the second winding roller is cut through the cutting assembly, then the material belt is wound through the second winding roller, and the winding process of the material belt can be effectively improved.

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

Drawings

Fig. 1 is a schematic view of the overall structure of the semi-automatic slitting machine of the present invention;

in the figure: 100. the semi-automatic slitting machine comprises a semi-automatic slitting machine body, 10 parts of a rack, 20 parts of an unreeling device, 30 parts of a slitting assembly, 40 parts of a reeling assembly, 50 parts of a cutting assembly, 41 parts of a rotating frame, 42 parts of a first reeling roller, 43 parts of a second reeling roller, 51 parts of a first swinging frame, 52 parts of a blade, 53 parts of a cutter driving device, 54 parts of a first pressing wheel, 55 parts of a second pressing wheel, 60 parts of a waste material reeling device, 61 parts of a second swinging frame, 62 parts of a third reeling roller, 63 parts of a third pressing wheel, 21 parts of an unreeling roller, 22 parts of a pressing device, 221 parts of a linear driving part, 222 parts of a connecting rod, 223 parts of a fourth pressing wheel and 44 parts of a matching pressing wheel.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Referring to fig. 1, a semi-automatic slitting machine 100 of the present invention includes a frame 10, an unwinding device 20 for unwinding a material tape, a slitting assembly 30 for slitting the material tape, and a winding assembly 40 for winding the slit material tape. Wherein, semi-automatic slitting machine 100 still includes decides subassembly 50, rolling-up subassembly 40 respectively has two with deciding subassembly 50 at least, rolling-up subassembly 40 with decide subassembly 50 one-to-one, rolling-up subassembly 40 includes rotating turret 41, first wind-up roll 42 and second wind-up roll 43, first wind-up roll 42 is rotationally installed in the one end of rotating turret 41, second wind-up roll 43 is rotationally installed in the other end of rotating turret 41, rotating turret 41 can rotate in order to realize carrying out the rotation transposition with first wind-up roll 42 and second wind-up roll 43 relative frame 10, it can rotate in order to cut the material area between first wind-up roll 42 and the second wind-up roll 43 relative frame 10 to decide subassembly 50. Specifically, the cutting assembly 50 includes a first swing frame 51, a blade 52, a cutter driving device 53 and a first pressing wheel 54, the first swing frame 51 is rotatably connected to the frame 10, the first pressing wheel 54 is rotatably mounted at one end of the first swing frame 51, the blade 52 is mounted on the first swing frame 51, the blade 52 can slide relative to the first swing frame 51, and an output end of the cutter driving device 53 is connected to the blade 52 and drives the blade 52 to approach or leave the swing frame 41; more specifically, decide subassembly 50 and still include second pinch roller 55, and second pinch roller 55 is shown to rotationally install on first swinging arms 51, and second pinch roller 55 is located between first pinch roller 54 and blade 52, still is provided with the cooperation pinch roller 44 of mutual pressfitting with second pinch roller 55 on the rolling subassembly 40, and cooperation pinch roller 44 is shown to rotationally install on rotating turret 41, and cooperation pinch roller 44 is located between first wind-up roll 42 and second wind-up roll 43. Preferably, there are at least two matching press wheels 44, and the two matching press wheels 44 are oppositely disposed at two ends of the rotating frame 41. Therefore, in the actual working process, the first swing frame 51 drives the first pressing wheel 54 to press against the first wind-up roll 42 or the second wind-up roll 43 which has reached the upper limit of wind-up, then presses against the matching pressing wheel 44 through the second pressing wheel 55, and then drives the blade 52 to cut the material belt between the first wind-up roll 42 and the second wind-up roll 43 through the cutter driving device 53. For example, the two winding assemblies 40 are arranged side by side along the height direction of the rack 10, but not limited thereto.

With continued reference to fig. 1, the semi-automatic slitter 100 further includes a waste material winding device 60 for winding the scrap material of the material strip, and the waste material winding device 60 is mounted on the frame 10. Preferably, the waste material winding device 60 includes a second swing frame 61, a third winding roller 62 and a third pressing wheel 63, the third winding roller 62 is rotatably mounted on the second swing frame 61, the third pressing wheel 63 is rotatably mounted on the frame 10, and the second swing frame 61 drives the third winding roller 62 to swing relative to the third pressing wheel 63 so as to make the third winding roller 62 close to or far from the third pressing wheel 63. It is thus possible to actuate the third pressure roller 63 via the second swing frame 61 so that the third pressure roller 63 is pressed against the third wind-up roller 62 at all times while the scrap is being wound up by the third wind-up roller 62.

With continued reference to fig. 1, the unwinding device 20 includes an unwinding roller 21 and a pressing device 22 for matching with the unwinding roller 21 to press the winding material belt, the unwinding roller 21 and the pressing device 22 are both mounted on the frame 10, and the unwinding roller 21 can rotate relative to the frame 10. Preferably, the pressing device 22 includes a linear driving element 221, a connecting rod 222 and a fourth pressing wheel 223, the fourth pressing wheel 223 is rotatably mounted at a first end of the connecting rod 222, a second end of the connecting rod 222 is pivotally connected to the frame 10, the linear driving element 221 is mounted on the frame 10, and a portion of the connecting rod 222 between the first end and the second end thereof is pivotally connected to an output end of the linear driving element 221. Therefore, in the actual working process, the connecting rod 222 can be driven to rotate relative to the unwinding device 20 through the linear driving member 221, so that the fourth pressing wheel 223 rotatably mounted on the connecting rod 222 is always pressed on the square and handsome device, and the pressing of the unwinding material belt is realized, but not limited thereto.

The utility model has the advantages that: because semi-automatic slitting machine 100 still includes decides subassembly 50, rolling-up subassembly 40 respectively has two with deciding subassembly 50 at least, rolling-up subassembly 40 with decide subassembly 50 one-to-one, rolling-up subassembly 40 includes rotating turret 41, first wind-up roll 42 and second wind-up roll 43, first wind-up roll 42 is rotationally installed in the one end of rotating turret 41, second wind-up roll 43 is rotationally installed in the other end of rotating turret 41, rotating turret 41 can rotate in order to realize carrying out the rotation transposition with first wind-up roll 42 and second wind-up roll 43 relative frame 10, it can rotate in order to cut the material area between first wind-up roll 42 and the second wind-up roll 43 relative frame 10 to decide subassembly 50. Therefore, in the actual working process, the first winding roller 42 can be made to be closer to the unwinding device 20 relative to the second winding roller 43 through the rotating frame 41, then the separated material belt is wound through the first winding roller 42, when the first winding roller 42 reaches the winding upper limit, the first winding roller 42 and the second winding roller 43 are made to be mutually exchanged through the rotating frame 41, the material belt between the first winding roller 42 and the second winding roller 43 is cut through the cutting assembly 50, then the material belt is wound through the second winding roller 43, and the winding process of the material belt can be effectively improved.

The utility model discloses be not limited to above-mentioned embodiment, adopt with the same or approximate structure or device of the above-mentioned embodiment of the utility model, and the other that obtain is used for semi-automatic branch strip machine, all is in the utility model discloses an within the scope of protection.

Claims (9)

1. The utility model provides a semi-automatic branch strip machine, includes the frame, is used for carrying out the unwinding device who unreels, be used for carrying out the branch strip subassembly of branch strip and be used for carrying out the rolling subassembly of rolling with the material area after dividing the strip to the material area, its characterized in that: semi-automatic branch strip machine is still including deciding the subassembly, the rolling subassembly with it respectively has two at least to decide the subassembly, the rolling subassembly with decide the subassembly one-to-one, the rolling subassembly includes rotating turret, first wind-up roll and second wind-up roll, first wind-up roll be rotationally install in the one end of rotating turret, the second wind-up roll be rotationally install in the other end of rotating turret, the rotating turret can be relative the frame rotates in order to realize with first wind-up roll with the second wind-up roll carries out the rotation transposition, it can be relative to decide the subassembly the frame rotate in order to incite somebody to action first wind-up roll with material area between the second wind-up roll cuts.

2. A semi-automatic slitting machine according to claim 1 wherein: decide the subassembly and include first swing span, blade, cutter drive arrangement and first pinch roller, first swing span be rotationally with the frame is connected, first pinch roller be rotationally install in the one end of first swing span, the blade install in on the first swing span, just the blade can be relative first swing span slides, cutter drive arrangement's output with the blade is connected and is ordered about this blade and is close to or keeps away from the rotating turret.

3. A semi-automatic slitting machine according to claim 2 wherein: decide the subassembly and still include the second pinch roller, the second pinch roller be rotationally install in on the first swing span, just the second pinch roller is located first pinch roller with between the blade, still be provided with on the rolling subassembly with the cooperation pinch roller of the mutual pressfitting of second pinch roller, the cooperation pinch roller be rotationally install in on the rotating turret, just the cooperation pinch roller is located first wind-up roll with between the second wind-up roll.

4. A semi-automatic slitting machine according to claim 3 wherein: the number of the matched pinch rollers is at least two, and the two matched pinch rollers are oppositely arranged at two ends of the rotating frame.

5. A semi-automatic slitting machine according to claim 1 wherein: still including being used for carrying out the waste material coiling mechanism of rolling to the corner waste material in material area, waste material coiling mechanism install in the frame.

6. A semi-automatic slitting machine according to claim 5 wherein: waste material coiling mechanism includes second swing span, third wind-up roll and third pinch roller, the third wind-up roll be rotationally install in on the second swing span, the third pinch roller be rotationally install in the frame, the drive of second swing span the third wind-up roll is relative thereby the swing of third pinch roller makes the third wind-up roll is close to or keeps away from the third pinch roller.

7. A semi-automatic slitting machine according to claim 1 wherein: the two winding assemblies are arranged side by side along the height direction of the rack.

8. A semi-automatic slitting machine according to claim 1 wherein: the unwinding device comprises an unwinding roller and a pressing device which is used for matching with the unwinding roller to press a winding material belt, the unwinding roller and the pressing device are both arranged on the rack, and the unwinding roller can rotate relative to the rack.

9. A semi-automatic slitting machine according to claim 8 wherein: the pressing device comprises a linear driving piece, a connecting rod and a fourth pressing wheel, the fourth pressing wheel is rotatably arranged at the first end of the connecting rod, the second end of the connecting rod is pivoted with the rack, the linear driving piece is arranged on the rack, and the part of the connecting rod between the first end and the second end of the connecting rod is pivoted with the output end of the linear driving piece.

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