CN112776046A

CN112776046A - Cutting machine

Info

Publication number: CN112776046A
Application number: CN202110086412.1A
Authority: CN
Inventors: 陈伟勇
Original assignee: Guangdong Xinyu Electromechanical Automation Technology Co ltd
Current assignee: Guangdong Xinyu Electromechanical Automation Technology Co ltd
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-05-11

Abstract

The invention discloses a cutting machine, comprising: indulge sword mechanism, indulge sword mechanism includes: the main shaft is arranged in a self-rotating manner, and a longitudinal cutting knife is arranged on the main shaft; the supporting body is arranged below the main shaft, and the main shaft and the supporting body are arranged in a linkage manner and can move along the axial direction; the spindle and the support body may be disposed relatively far apart or close to each other. The invention can realize more accurate longitudinal cutting of materials. The invention has better cutting quality. Moreover, the invention can protect the mechanical structure to reduce the damage to the mechanical structure.

Description

Cutting machine

Technical Field

The present invention relates to a cutting machine.

Background

The cutting machine is used for cutting materials. The direction of cutting includes cutting in the direction of feed of the material being cut. This cutting is accomplished by a slitting knife mechanism. The current longitudinal knife mechanism is not accurate enough in cutting.

The material to be cut travels on the cutting machine through the feeding driving mechanism and is cut. Experience in current practice shows that materials can curl and loosen during feeding. When these conditions occur, the cutting quality of the material is not easily controlled.

Disclosure of Invention

The invention provides a cutting machine for solving the technical problems.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

a cutting machine comprising:

indulge sword mechanism, indulge sword mechanism includes:

the main shaft is arranged in a self-rotating manner, and a longitudinal cutting knife is arranged on the main shaft;

the supporting body is arranged below the main shaft, and the main shaft and the supporting body are arranged in a linkage manner and can move along the axial direction;

the spindle and the support body may be disposed relatively far apart or close to each other.

According to one embodiment of the invention, the longitudinal cutter mechanism comprises a first driving device, a second driving device and a third driving device, wherein the first driving device drives the spindle to rotate, or the first driving device drives the spindle to rotate through the first transmission mechanism; the second driving device drives the main shaft to move away from the support body or close to the support body, or the second driving device drives the main shaft to move away from the support body or close to the support body through a second transmission mechanism; the third driving device drives the main shaft and the support body to move along the axial direction, or the third driving device drives the main shaft and the support body to move along the axial direction through a third transmission mechanism.

According to one embodiment of the invention, the longitudinal cutter mechanism comprises a first support frame, a second support frame and a first connecting frame, a first driving device is connected with the first support frame, a main shaft is provided with two ends, namely a first end and a second end, the first end of the main shaft can rotatably penetrate through the first support frame, and the first end of the main shaft penetrates through the first support frame and then is connected with the first driving device; the second end of the main shaft is rotatably arranged on the second support frame; the two second driving devices are respectively arranged at the two ends of the main shaft; the side surface of the first connecting frame is connected with the second supporting frame, and the bottom of the first connecting frame is connected with a second driving device at the second end of the main shaft; the second driving device at the first end of the main shaft is arranged at the bottom of the first support frame.

According to one embodiment of the invention, the longitudinal cutter mechanism comprises a first guide rail and a second guide rail, the first guide rail and the second guide rail are respectively arranged at two ends of the main shaft, and the first guide rail and the second guide rail respectively guide the main shaft to move away from or close to the support body.

According to one embodiment of the invention, the third transmission mechanism comprises a screw rod and a first slide block, the first slide block is arranged on the screw rod, and the first slide block is connected with the bottom of the second driving device at the second end of the main shaft; the bottom of the first sliding block is provided with a third guide rail; a fourth guide rail is arranged below the second driving device at the first end of the main shaft; the third guide rail and the fourth guide rail are used for guiding the main shaft and the support body to move along the axial direction.

According to one embodiment of the invention, the second driving device at the first end of the spindle is connected with one end of the supporting body through a first connecting plate; and the second driving device at the second end of the main shaft is connected with the other end of the support body through a second connecting plate.

According to one embodiment of the invention, the longitudinal cutter mechanism comprises a third support frame, the third support frame is arranged at the first end of the main shaft, the third support frame is provided with a first driving device, a first support frame and a second driving device in a supporting manner, a supporting slide rail is arranged at the top of the third support frame, a first support is arranged on the supporting slide rail, one end of the first support is arranged in the supporting slide rail in a sliding manner, the other end of the first support is provided with an image recognition device, and the image recognition device is arranged in a suspended manner; one of the first guide rail and the second guide rail is arranged on the third support frame.

According to one embodiment of the invention, the feeding driving mechanism comprises a first driving tooth and a second driving tooth, wherein the first driving tooth and the second driving tooth are respectively arranged in the advancing direction of the material, and the second driving tooth is positioned in front of the advancing direction of the material relative to the first driving tooth; the diameter of the second driving tooth is smaller than that of the first driving tooth, and the first driving tooth and the second driving tooth are arranged in a linkage manner; the first driving tooth is located behind the main shaft, and the second driving tooth is located in front of the main shaft.

According to one embodiment of the invention, the feeding driving mechanism comprises a fourth driving device, a first driving belt and a second driving belt, wherein two ends of the first driving belt are respectively connected with the fourth driving device and the first driving teeth, and two ends of the second driving belt are respectively connected with the first driving teeth and the second driving teeth; or the two ends of the first transmission belt are respectively connected with the fourth driving device and the first driving gear, and the two ends of the second transmission belt are respectively connected with the fourth driving device and the second driving gear.

According to one embodiment of the invention, the feeding driving mechanism comprises a first driving shaft, a second driving shaft, a first pressing shaft and a second pressing shaft, wherein the first driving gear can drive the first driving shaft to be rotationally arranged, the second driving gear can drive the second driving shaft to be rotationally arranged, the first pressing shaft is arranged above the first driving shaft in a pressing way, and materials can pass through between the first pressing shaft and the first driving shaft; the first pressing shaft and the first driving shaft can be arranged relatively far away; the second pressing shaft is pressed above the second driving shaft, and materials can pass through the second pressing shaft and the second driving shaft; the second pressing shaft and the second driving shaft can be arranged relatively far away; the second pressing shaft has a weight greater than that of the first pressing shaft.

The invention can realize more accurate longitudinal cutting of materials. The invention has better cutting quality. Moreover, the invention can protect the mechanical structure to reduce the damage to the mechanical structure.

Drawings

FIG. 1 is a block diagram of a slitting tool mechanism according to the present invention;

FIG. 2 is a block diagram of another perspective of FIG. 1;

FIG. 3 is a block diagram of the slitting tool mechanism and the feed drive mechanism;

FIG. 4 is a block diagram of another perspective of FIG. 3;

FIG. 5 is a side view of FIG. 3;

fig. 6 shows another example of the fourth drive means, the first drive belt and the second drive belt, which differs from fig. 5.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

as shown in fig. 1 and 2, the cutting machine of the present embodiment includes: indulge sword mechanism 1, indulge sword mechanism 1 includes: a spindle 2, the spindle 2 being provided to be rotatable; a support body 3, wherein the support body 3 is arranged below the main shaft 2, and the main shaft 2 and the support body 3 are arranged in a manner of being capable of moving along the axial direction in a linkage manner; the main shaft 2 and the support body 3 may be disposed relatively far apart or close to each other. The main shaft 2 is provided with a longitudinal cutting knife 4, the main shaft 2 rotates, and the longitudinal cutting knife 4 rotates to cut. Longitudinal cutting is cutting along the feeding direction of the cut material. The support body 3 is in this embodiment a profile. The material can travel between the longitudinal cutting knives 4 and the support body 3. When the longitudinal cutting knife 4 cuts the material, the supporting body 3 is used for providing supporting force for the material.

The longitudinal cutter mechanism 1 comprises a first driving device 5, a second driving device 6 and a third driving device 7, wherein the first driving device 5 drives the spindle 2 to rotate, or the first driving device 5 drives the spindle 2 to rotate through a first transmission mechanism; the second driving device 6 drives the main shaft 2 to move away from the supporting body 3 or close to the supporting body 3, or the second driving device 6 drives the main shaft 2 to move away from the supporting body 3 or close to the supporting body 3 through a second transmission mechanism; the third driving device 7 drives the spindle 2 and the supporting body 3 to move in the axial direction, or the third driving device 7 drives the spindle 2 and the supporting body 3 to move in the axial direction through a third transmission mechanism.

The longitudinal cutter mechanism 1 comprises a first support frame 8, a second support frame 9 and a first connecting frame 10, a first driving device 5 is connected with the first support frame 8, the main shaft 2 is provided with two ends, namely a first end 11 and a second end 12, the first end 11 of the main shaft 2 can rotatably penetrate through the first support frame 8, and the first end 11 of the main shaft 2 penetrates through the first support frame 8 and then is connected with the first driving device 5; the second end 12 of the main shaft 2 is rotatably arranged on the second supporting frame 9; two second driving devices 6 are respectively arranged at two ends of the main shaft 2; the side surface of the first connecting frame 10 is connected with the second supporting frame 9, and the bottom of the first connecting frame 10 is connected with the second driving device 6 at the second end 12 of the main shaft 2; the second driving device 6 of the first end 11 of the main shaft 2 is arranged at the bottom of the first supporting frame 8.

The longitudinal cutter mechanism 1 comprises a first guide rail 13 and a second guide rail 14, the first guide rail 13 and the second guide rail 14 are respectively arranged at two ends of the main shaft 2, and the first guide rail 13 and the second guide rail 14 respectively guide the main shaft 2 to move away from the support body 3 or close to the support body 3.

The third transmission mechanism comprises a lead screw 15, a first sliding block 16 is arranged on the lead screw 15, and the first sliding block 16 is connected with the bottom of the second driving device 6 at the second end 12 of the main shaft 2; the bottom of the first sliding block 16 is provided with a third guide rail 17; a fourth guide rail 18 is arranged below the second driving device 6 at the first end 11 of the main shaft 2; the third guide rail 17 and the fourth guide rail 18 guide the movement of the spindle 2 and the support body 3 in the axial direction.

The second driving device 6 at the first end 11 of the main shaft 2 is connected with one end of the supporting body 3 through a first connecting plate 19; the second drive means 6 of the second end 12 of the main shaft 2 is connected to the other end of the support body 3 via a second connecting plate 20. This achieves that the spindle 2 and the support body 3 can be moved in an axially interlocking manner. In this way, there is no axial relative movement between the longitudinal cutting blade 4 and the support body 3. The material that is cut is set up on the supporter 3, and vertical cutting knife 4 can not produce the friction with the material, avoids the wearing and tearing of vertical cutting knife 4.

The longitudinal cutter mechanism 1 comprises a third support frame 21, the third support frame 21 is arranged at the first end 11 of the main shaft 2, the third support frame 21 supports and is provided with a first driving device 5, a first support frame 8 and a second driving device 6, the top of the third support frame 21 is provided with a support slide rail 22, the support slide rail 22 is provided with a first support 23, one end of the first support 23 is slidably arranged in the support slide rail 22, the other end of the first support 23 is provided with an image recognition device 24, and the image recognition device 24 is arranged in a suspended manner; one of the first rail 13 and the second rail 14 is provided on the third support frame 21.

The first drive means 5 is a motor. The first driving device 5 drives the main shaft 2 to rotate, so that the longitudinal cutting knife 4 can be driven to cut materials. The second driving device 6 is a cylinder, when two cylinders at two ends of the main shaft 2 extend out, the main shaft 2 is jacked up, and the main shaft 2 is far away from the supporting body 3 below the main shaft. At this point, the material may travel between the longitudinal cutting blade 4 of the main shaft 2 and the support body 3. When the cylinders at the two ends of the main shaft 2 are contracted and reset, the main shaft 2 approaches the supporting body 3 again. The spindle 2 is then rotated and the longitudinal cutting blade 4 can perform the cutting. When the cylinders at the two ends of the main shaft 2 jack up, the first support frame 8 and the first driving device 5 at the first end 11 of the main shaft 2 are simultaneously jacked up. The second support 9 at the second end 12 of the main shaft 2 is simultaneously jacked up. The third driving device 7 is a motor, the motor drives the screw rod to rotate, the first sliding block 16 is driven to slide, and the main shaft 2 and the supporting body 3 can move together along the axial direction.

In this embodiment, both the motor and the cylinder may be controlled by the controller. And the controller controls the motor according to the signal of the image recognition device 24. For example, the material in this embodiment is paper, and the longitudinal cutting knife 4 cuts along the cutting mark on the paper. After the image recognition device 24 recognizes the position of the cutting mark, it transmits a signal to the controller, which controls the motor of the third driving device 7 according to the signal, so that the spindle 2 and the supporting body 3 can move in the axial direction to adjust the position. The main shaft 2 moves along the axial direction and drives the longitudinal cutting knife 4 to move so as to adjust the position, and therefore the longitudinal cutting knife 4 can cut on the cutting mark of the paper. The controller may be a computer, industrial personal computer or PLC.

As shown in fig. 3, 4 and 5, the present embodiment further includes a feeding driving mechanism, which includes a first driving tooth 25 and a second driving tooth 26, the first driving tooth 25 and the second driving tooth 26 are respectively arranged in the advancing direction of the material, and the second driving tooth 26 is located in front of the advancing direction of the material relative to the first driving tooth 25. I.e. the material being cut, is fed first past the first drive tooth 25 and then past the second drive tooth 26. The diameter of the second drive tooth 26 is smaller than the diameter of the first drive tooth 25, and the first drive tooth 25 and the second drive tooth 26 are arranged in a linked manner. The first drive teeth 25 are located behind the main shaft 2 and the second drive teeth 26 are located in front of the main shaft 2. The front and rear are also relative to the direction of material advance. I.e. the material is fed in, in turn through the first drive toothing 25, the main shaft 2 and the second drive toothing 26.

The feeding driving mechanism of the present embodiment includes a fourth driving device 27, a first driving belt 28 and a second driving belt 29, as shown in fig. 5, both ends of the first driving belt 28 are respectively connected to the fourth driving device 27 and the first driving teeth 25, and both ends of the second driving belt 29 are respectively connected to the fourth driving device 27 and the second driving teeth 26. Alternatively, as shown in FIG. 6, the first belt 28 is connected at both ends to the fourth drive means 27 and the first drive teeth 25, respectively, and the second belt 29 is connected at both ends to the first drive teeth 25 and the second drive teeth 26, respectively.

The feeding driving mechanism of the embodiment comprises a first driving shaft 30, a second driving shaft 31, a first pressing shaft 32 and a second pressing shaft 33, wherein the first driving gear 25 can drive the first driving shaft 30 to be rotationally arranged, the second driving gear 26 can drive the second driving shaft 31 to be rotationally arranged, the first pressing shaft 32 is pressed above the first driving shaft 30, and materials can pass through between the first pressing shaft 32 and the first driving shaft 30; the first pressing shaft 32 and the first driving shaft 30 may be disposed relatively distant; the second pressing shaft 33 is pressed above the second driving shaft 31, and the material can pass through between the second pressing shaft 33 and the second driving shaft 31; the second pressing shaft 33 and the second driving shaft 31 may be disposed relatively distant; the second pressing shaft 33 has a weight larger than that of the first pressing shaft 32. In this embodiment, the second pressing shaft 33 is a solid shaft, and the first pressing shaft 32 is a hollow shaft.

The first pressing shaft 32 and the second pressing shaft 33 are respectively provided with a jacking piece 34 below two end parts, the jacking piece 34 is provided with a groove, and the end parts of the first pressing shaft 32 and the second pressing shaft 33 are rotatably arranged in the groove. The jack-up member 34 is driven by a fifth drive means 35. Thus, the first pressing shaft 32 and the second pressing shaft 33 can be lifted up from the first drive shaft 30 and the second drive shaft 31. The lifting member 34 is flexibly disposed, so that the fifth driving device 35 is disposed at the side of the first and second pressing shafts 33, but not disposed directly under the first and second pressing shafts 33. Alternatively, the fifth driving device 35 is provided above the jack-up member 34, and pulls the jack-up member 34 to drive the jack-up member 34.

The fourth driving device 27 is a motor, which is started, the first driving belt 28 and the second driving belt 29 drive, and the first driving tooth 25 and the second driving tooth 26 rotate synchronously. The first drive teeth 25 rotate the first drive shaft 30 and the second drive teeth 26 rotate the second drive shaft 31. Thus, when the material is laid between the first driving shaft 30 and the first pressing shaft 32 and between the second driving shaft 31 and the second pressing shaft 33, the material is fed by the first driving shaft 30 and the second driving shaft 31.

The first drive tooth 25 and the second drive tooth 26 rotate synchronously, and the diameter of the second drive tooth 26 is smaller than the diameter of the first drive tooth 25 so that the second drive tooth 26 rotates faster than the first drive tooth 25. In the material feeding direction, the speed of the front end is higher than that of the rear end, and the material is tightened, so that the cutting quality of the material is facilitated. Correspondingly, the second pressing shaft 33 with large weight is pressed above the second driving shaft 31 with high speed, the first pressing shaft 32 with small weight is pressed above the first driving shaft 30 with low speed, and the front end of the material is stressed more in the material feeding direction, so that the feeding of the material is facilitated, and the quality of the cut material is better when the material is cut.

The embodiments of the present invention are merely illustrative, and not restrictive, of the scope of the claims, and other substantially equivalent alternatives may occur to those skilled in the art and are within the scope of the present invention.

Claims

1. A cutting machine, characterized by comprising:

indulge sword mechanism, indulge sword mechanism includes:

2. The cutting machine according to claim 1, wherein the longitudinal cutter mechanism comprises a first driving device, a second driving device and a third driving device, the first driving device drives the spindle to rotate, or the first driving device drives the spindle to rotate through the first transmission mechanism; the second driving device drives the main shaft to move away from the support body or close to the support body, or the second driving device drives the main shaft to move away from the support body or close to the support body through a second transmission mechanism; the third driving device drives the main shaft and the support body to move along the axial direction, or the third driving device drives the main shaft and the support body to move along the axial direction through a third transmission mechanism.

3. The cutting machine of claim 2 wherein the longitudinal cutter mechanism comprises a first support frame, a second support frame, and a first linkage, the first drive mechanism is connected to the first support frame, the main shaft has two ends, a first end and a second end, the first end of the main shaft is rotatably disposed through the first support frame, and the first end of the main shaft is connected to the first drive mechanism after passing through the first support frame; the second end of the main shaft is rotatably arranged on the second support frame; the two second driving devices are respectively arranged at the two ends of the main shaft; the side surface of the first connecting frame is connected with the second supporting frame, and the bottom of the first connecting frame is connected with a second driving device at the second end of the main shaft; the second driving device at the first end of the main shaft is arranged at the bottom of the first support frame.

4. The cutting machine according to claim 3, wherein the longitudinal knife mechanism includes a first guide rail and a second guide rail, the first guide rail and the second guide rail are respectively disposed at two ends of the main shaft, and the first guide rail and the second guide rail respectively guide the movement of the main shaft away from or close to the support body.

5. The cutting machine according to claim 3, wherein the third transmission mechanism comprises a lead screw and a first slide block, the lead screw is provided with the first slide block, and the first slide block is connected with the bottom of the second driving device at the second end of the main shaft; the bottom of the first sliding block is provided with a third guide rail; a fourth guide rail is arranged below the second driving device at the first end of the main shaft; the third guide rail and the fourth guide rail are used for guiding the main shaft and the support body to move along the axial direction.

6. The cutting machine of claim 3 wherein the second drive means at the first end of the spindle is connected to one end of the support body by a first connecting plate; and the second driving device at the second end of the main shaft is connected with the other end of the support body through a second connecting plate.

7. The cutting machine according to claim 5, wherein the longitudinal cutter mechanism comprises a third support frame, the third support frame is arranged at the first end of the main shaft, the third support frame is provided with a first driving device, a first support frame and a second driving device in a supporting manner, a supporting slide rail is arranged at the top of the third support frame, a first support is arranged on the supporting slide rail, one end of the first support is slidably arranged in the supporting slide rail, the other end of the first support is provided with an image recognition device, and the image recognition device is arranged in a suspended manner; one of the first guide rail and the second guide rail is arranged on the third support frame.

8. The cutting machine according to claim 1, further comprising a feed drive mechanism including a first drive tooth and a second drive tooth, the first drive tooth and the second drive tooth being respectively aligned in a material advancing direction, the second drive tooth being located forward of the material advancing direction with respect to the first drive tooth; the diameter of the second driving tooth is smaller than that of the first driving tooth, and the first driving tooth and the second driving tooth are arranged in a linkage manner; the first driving tooth is located behind the main shaft, and the second driving tooth is located in front of the main shaft.

9. The cutting machine according to claim 8, wherein the feeding driving mechanism comprises a fourth driving device, a first driving belt and a second driving belt, two ends of the first driving belt are respectively connected with the fourth driving device and the first driving teeth, and two ends of the second driving belt are respectively connected with the first driving teeth and the second driving teeth; or the two ends of the first transmission belt are respectively connected with the fourth driving device and the first driving gear, and the two ends of the second transmission belt are respectively connected with the fourth driving device and the second driving gear.

10. The cutting machine according to claim 8, wherein the feeding driving mechanism comprises a first driving shaft, a second driving shaft, a first pressing shaft and a second pressing shaft, the first driving gear can drive the first driving shaft to rotate, the second driving gear can drive the second driving shaft to rotate, the first pressing shaft is pressed above the first driving shaft, and the material can pass between the first pressing shaft and the first driving shaft; the first pressing shaft and the first driving shaft can be arranged relatively far away; the second pressing shaft is pressed above the second driving shaft, and materials can pass through the second pressing shaft and the second driving shaft; the second pressing shaft and the second driving shaft can be arranged relatively far away; the second pressing shaft has a weight greater than that of the first pressing shaft.