CN211729427U - Adjust convenient online system of cutting - Google Patents

Abstract

The utility model relates to an on-line cutting system with convenient adjustment, which comprises a cutting bracket, a main shaft rotationally arranged on the cutting bracket, a rotation control device for controlling the rotation angle of the main shaft, a transverse moving device movably arranged on the main shaft, a feed adjusting device fixedly arranged on the transverse moving device and a cutter fixedly arranged on the feed adjusting device; the cutting-in angle, the transverse position and the longitudinal cutting-in depth of the cutter are respectively controlled by the rotation control device, the transverse moving device and the feed adjusting device. Compared with the prior art, the cutting-in angle, the transverse cutting-in position and the longitudinal cutting-in depth of the cutter can be adjusted by rotating the corresponding hand wheel, and the cutting-in system has the advantages of high operation safety, convenience in use, high working efficiency, convenience in maintenance and the like.

Description

Adjust convenient online system of cutting

Technical Field

The utility model belongs to the technical field of the cutting machine, a adjust convenient online system of cutting is related to.

Background

The adjustment of the position of the slitting knife in China is almost carried out in a parking state, the labor intensity is relatively high, the safety is poor, and the hand is easily cut. The manual cutter adjustment after parking is selected for off-line slitting and coiling equipment, and the method is economical and practical. Different knife adjusting modes can be selected for the online slitting and coiling equipment due to different production speeds, batches and the like. For the working conditions of low speed, large batch and no need of frequently changing the slitting width, the manual knife adjustment after stopping can be selected. However, for the working conditions of high speed, small batch and frequent cutting width change, the requirement of on-line continuous production can not be met obviously by selecting the manual knife adjustment after the machine is stopped.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an adjust convenient online system of cutting in order to overcome the defect that above-mentioned prior art exists for solve frequent manual adjustment cutter and lead to intensity of labour great, the security is relatively poor, the lower problem of work efficiency.

The purpose of the utility model can be realized through the following technical scheme:

an online slitting system convenient to adjust comprises a slitting bracket, a main shaft, a rotation control device, a transverse moving device, a feed adjusting device and a cutter;

the main shaft is rotatably arranged on the slitting bracket;

the rotation control device is used for controlling the rotation angle of the main shaft;

the transverse moving device is movably arranged on the main shaft;

the feed adjusting device is fixedly connected with the transverse moving device;

the cutter is fixedly arranged on the cutter feeding adjusting device;

the cutting-in angle, the transverse position and the longitudinal cutting-in depth of the cutter are respectively controlled by the rotation control device, the transverse moving device and the feed adjusting device.

Furthermore, the rotation control device comprises a turbine box and an angle hand wheel which are arranged on the slitting support and are sequentially in transmission connection with the main shaft.

And rotating the angle hand wheel, and driving the main shaft to rotate through the turbine box, so as to drive the transverse moving device and the feed adjusting device to rotate, and further control the angle of a cutter on the feed adjusting device.

Further, a main shaft with a rack is axially arranged on the main shaft;

the transverse moving device comprises a transverse moving hand wheel, a transverse moving wheel shaft and a transverse moving gear which are sequentially connected in a transmission manner;

the transverse gear is sleeved outside the transverse wheel shaft and meshed with the main shaft belt rack.

The transverse moving gear rotates along the main shaft belt rack by rotating the transverse moving hand wheel, and then the transverse moving device moves along the main shaft, so that the transverse position of the cutter is controlled.

Furthermore, the transverse moving device also comprises a cutter positioning seat sleeved outside the transverse moving wheel shaft;

the cutter positioning seat is further provided with a shaft hole, and the spindle is slidably arranged in the shaft hole.

The stability of the transverse moving device in the moving process is ensured by sleeving the cutter positioning seat on the main shaft.

Furthermore, a transverse moving guide groove is formed in the main shaft, a transverse moving guide key is arranged on the inner wall of the inner hole, and the transverse moving guide key is matched with the transverse moving guide groove.

The problem that the transverse moving device rotates in the transverse moving process to separate a transverse moving gear from a main shaft belt rack is solved through the transverse moving guide key and the transverse moving guide groove.

Furthermore, the transverse moving device is fixedly connected with the feed adjusting device through the cutter positioning seat.

Furthermore, the feed adjusting device comprises a feed adjusting hand wheel, a feed adjusting screw rod and a cutter bar which are sequentially connected in a transmission manner;

a feed screw nut is arranged in the cutter bar, is sleeved outside the feed adjusting screw rod and is meshed with the feed adjusting screw rod;

the cutter is arranged at one end of the cutter bar.

The feed adjusting screw rod is driven to rotate by rotating the feed adjusting hand wheel, so that the cutter bar enables the cutter to generate longitudinal displacement, and the longitudinal cutting depth of the cutter is controlled.

Furthermore, the feed adjusting device further comprises a feed adjusting guide sleeve sleeved outside the cutter bar, a feed adjusting guide key arranged in the feed adjusting guide sleeve, and a feed adjusting guide groove longitudinally arranged on the outer wall of the cutter bar, wherein the feed adjusting guide groove is matched with the feed adjusting guide key.

The working principle is as follows: the system is used for improving the safety and convenience of adjusting the cutting-in angle, the transverse position and the longitudinal cutting-in depth of the cutter; the cutting-in angle is formed by rotating an angle hand wheel, so that the turbine box drives the main shaft to rotate, and the angle of a cutter on the cutter feeding adjusting device is further controlled; in the transverse position, the transverse gear rotates along the rack of the main shaft by rotating the transverse hand wheel, so that the transverse device moves along the main shaft, and the transverse position of the cutter is controlled; the longitudinal cutting depth drives the feed adjusting screw rod to rotate by rotating the feed adjusting hand wheel, so that the cutter rod enables the cutter to generate longitudinal displacement, and the longitudinal cutting depth of the cutter, namely the elongation of the cutter, is controlled to fit with the sheet for cutting.

Compared with the prior art, the utility model has the characteristics of it is following:

1) compared with the operation mode of manually and directly adjusting the cutter, the cutting-in angle, the transverse cutting-in position and the longitudinal cutting-in depth of the cutter can be adjusted by rotating the corresponding hand wheel, so that the operation safety and the working efficiency are obviously improved;

2) the use is convenient: compared with a cutting device which can only manually adjust the position of the cutter through non-online (offline) shutdown at the present stage, the system can realize online adjustment and positioning, so that the production efficiency is guaranteed;

3) safe and reliable: the problem that workers are injured due to manual adjustment of the cutter is effectively solved;

4) the applicability is wide: through the matching transmission of the gear rack and the screw rod nut, the adjusting range of the position and the angle of the cutter is wider, and the precision is higher;

5) the overhaul is convenient: the system is simple in structure and convenient to disassemble and maintain when a fault occurs.

Drawings

Fig. 1 is a schematic structural diagram of an on-line slitting system convenient to adjust according to the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

the notation in the figure is:

1-slitting support, 2-spindle, 201-spindle with rack, 3-cutter, 4-rotation control device, 401-angle hand wheel, 402-turbine box, 5-traversing device, 501-traversing hand wheel, 502-traversing wheel shaft, 503-traversing gear, 504-cutter positioning seat, 505-traversing guide key, 6-feed adjusting device, 601-feed adjusting hand wheel, 602-feed adjusting screw rod, 603-cutter bar, 604-screw rod nut, 605-feed adjusting guide sleeve, 606-feed adjusting guide key and 607-feed adjusting guide groove.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example 1:

in the on-line slitting system convenient to adjust as shown in fig. 1, the turbine box 402 drives the main shaft 2 to rotate by rotating the angle hand wheel 401, and the traversing device 5 and the feed adjusting device 6 rotate together when the main shaft 2 rotates, namely, the cutting angle of the cutter 3 is adjusted. The transverse position adjustment of the cutter 3 is completed through the transverse moving device 5, specifically, the transverse moving hand wheel 501 is rotated to enable the transverse moving gear 503 to rotate along the main shaft belt rack 201, and then the position of the feed adjusting device 6 on the main shaft 2 is adjusted. The depth of feed can be adjusted by the feed adjusting device 6, and the feed adjusting handwheel 601 is rotated to drive the cutter bar 603 to move up and down in the feed adjusting guide sleeve 605, so as to adjust the depth of feed. Ultimately achieving a cut at any angle in the perpendicular sheet plane and at any point in the parallel sheet plane.

Example 2:

as shown in fig. 1, the on-line slitting system with convenient adjustment comprises a slitting support 1, a main shaft 2 rotatably arranged on the slitting support 1, a rotation control device 4 for controlling the rotation angle of the main shaft 2, an upper cross-sliding device 5 movably arranged on the main shaft 2, a feed adjusting device 6 fixedly arranged on the cross-sliding device 5, and a cutter 3 fixedly arranged on the feed adjusting device 6.

As shown in fig. 2, the rotation control device 4 includes a turbine box 402 and an angle hand wheel 401, which are arranged on the slitting support 1 and are in transmission connection with the main shaft 2 in sequence.

The traversing device 5 comprises a traversing hand wheel 501, a traversing wheel shaft 502, a traversing gear 503 and a cutter positioning seat 504 sleeved outside the traversing wheel shaft 502, which are sequentially connected in a transmission manner; the traverse gear 503 is sleeved outside the traverse wheel shaft 502 and is meshed with the spindle belt rack 201 axially arranged on the spindle 2, the cutter positioning seat 504 is further provided with a shaft hole, the spindle 2 is slidably arranged in the shaft hole, the spindle 2 is provided with a traverse guide groove, the cutter positioning seat 504 is provided with a traverse guide key 505 matched with the traverse guide groove, and the traverse device 5 is fixedly connected with the feed adjusting device 6 through the cutter positioning seat 504.

The feed adjusting device 6 comprises a feed adjusting handwheel 601, a feed adjusting screw 602, a cutter bar 603, a screw nut 604 arranged in the cutter bar 603 and engaged with the feed adjusting screw 602, a feed adjusting guide sleeve 605 sleeved outside the cutter bar 603, a feed adjusting guide key 606 arranged in the feed adjusting guide sleeve 605, and a feed adjusting guide groove 607 arranged on the outer wall of the cutter bar 603 along the longitudinal direction and matched with the feed adjusting guide key 606, wherein the cutter 3 is arranged at one end of the cutter bar 603.

The working principle is as follows: the system is used for improving the safety and convenience of adjusting the cutting-in angle, the transverse position and the longitudinal cutting-in depth of the cutter 3; wherein, the cutting-in angle is realized by rotating an angle hand wheel 401, so that a turbine box 402 drives a main shaft 2 to rotate, and further the angle of a cutter 3 on a cutter feeding adjusting device 6 is controlled; in the transverse position, a transverse moving hand wheel 501 is rotated to enable a transverse moving gear 503 to rotate along a main shaft belt rack 201, so that a transverse moving device 5 moves along a main shaft 2, and the transverse position of a cutting knife 3 is controlled; the feed adjusting screw 602 is driven to rotate by rotating the feed adjusting hand wheel 601, so that the cutter bar 603 causes the cutter 3 to generate longitudinal displacement, thereby controlling the longitudinal cutting depth of the cutter 3.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (8)

1. An online slitting system convenient to adjust is characterized by comprising a slitting bracket (1), a main shaft (2), a rotation control device (4), a transverse moving device (5), a feed adjusting device (6) and a cutter (3);

the main shaft (2) is rotatably arranged on the slitting bracket (1);

the rotation control device (4) is used for controlling the rotation angle of the main shaft (2);

the transverse moving device (5) is movably arranged on the main shaft (2);

the feed adjusting device (6) is fixedly connected with the transverse moving device (5);

the cutter (3) is fixedly arranged on the feed adjusting device (6);

the cutting-in angle, the transverse position and the longitudinal cutting-in depth of the cutter (3) are respectively controlled by a rotation control device (4), a transverse moving device (5) and a feed adjusting device (6).

2. An on-line slitting system convenient to adjust as claimed in claim 1, characterized in that the rotation control device (4) comprises a turbine box (402) and an angle hand wheel (401) which are arranged on the slitting support (1) and are in transmission connection with the main shaft (2) in turn.

3. An on-line slitting system convenient to adjust as set forth in claim 1 wherein the main shaft (2) is provided with a main shaft rack (201) in the axial direction;

the transverse moving device (5) comprises a transverse moving hand wheel (501), a transverse moving wheel shaft (502) and a transverse moving gear (503) which are sequentially connected in a transmission manner;

the transverse gear (503) is sleeved outside the transverse wheel shaft (502) and is meshed with the main shaft belt rack (201).

4. The on-line slitting system convenient to adjust as set forth in claim 1, wherein the traversing device (5) further comprises a cutter positioning seat (504) sleeved outside the traversing wheel shaft (502);

the cutter positioning seat (504) is further provided with a shaft hole, and the spindle (2) is arranged in the shaft hole in a sliding mode.

5. An on-line slitting system convenient to adjust as set forth in claim 4, characterized in that the main shaft (2) is provided with a traversing guide groove, the shaft hole is provided with a traversing guide key (505), and the traversing guide key (505) is matched with the traversing guide groove.

6. An on-line slitting system convenient to adjust as set forth in claim 4 wherein the traversing device (5) is fixedly connected with the feed adjusting device (6) through the cutter positioning seat (504).

7. The on-line slitting system convenient to adjust as claimed in claim 1, wherein the feed adjusting device (6) comprises a feed adjusting hand wheel (601), a feed adjusting screw rod (602) and a cutter bar (603) which are in transmission connection in sequence;

a feed screw nut (604) is arranged in the cutter bar (603), and the feed screw nut (604) is sleeved outside the feed adjusting screw rod (602) and is meshed with the feed adjusting screw rod (602);

the cutter (3) is arranged at one end of the cutter bar (603).

8. The on-line slitting system convenient to adjust as claimed in claim 7, wherein the feed adjusting device (6) further comprises a feed adjusting guide sleeve (605) sleeved outside the cutter bar (603), a feed adjusting guide key (606) arranged in the feed adjusting guide sleeve (605), and a feed adjusting guide groove (607) longitudinally arranged on the outer wall of the cutter bar (603), wherein the feed adjusting guide groove (607) is matched with the feed adjusting guide key (606).

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