CN216227608U - Automatic discharging mechanism for cutting machine - Google Patents

Abstract

The utility model discloses an automatic blanking mechanism for a cutting machine, which comprises a machine body, wherein one end of the machine body is fixedly connected with a cutting mechanism, a blanking groove is formed in a workbench of the machine body, a blanking mechanism is arranged in the blanking groove, a storage box is arranged at the other end of the machine body, the storage box is connected with the workbench of the machine body through an inclined plate, the blanking mechanism comprises a motor, a first main rotating shaft, a second main rotating shaft, a blanking plate, a first auxiliary rotating shaft and a second auxiliary rotating shaft, the motor is fixed on one side wall of the machine body, and one end of the first main rotating shaft is fixedly connected with the output end of the motor. The automatic blanking device is simple in structure and high in practicability, can effectively achieve automatic blanking of the laser cutting machine, not only remarkably improves blanking efficiency, but also reduces cost, meets the requirement of automation of the laser cutting machine, is economical and practical, and can achieve batch production.

Description

Automatic discharging mechanism for cutting machine

Technical Field

The utility model relates to the technical field of cutting machine equipment, in particular to an automatic blanking mechanism for a cutting machine.

Background

The laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system. The laser beam irradiates the surface of the workpiece to enable the workpiece to reach a melting point or a boiling point, simultaneously, the high-pressure gas coaxial with the beam blows away the melted or gasified metal, and the material finally forms a kerf along with the movement of the relative position of the beam and the workpiece, so that the purpose of cutting is achieved.

At present laser cutting machine most adopts artifical unloading mode, but artifical unloading is efficient, and the cost of labor is more and more high, can't satisfy the automated production demand of equipment, though partial laser cutting machine has automatic unloading, but most all adopt the robot to come the unloading, because the robot structure is complicated, leads to the robot with high costs, hardly realizes batch production, can not accomplish economical and practical.

Disclosure of Invention

In view of the above-mentioned drawbacks and deficiencies of the prior art, it is desirable to provide an automatic blanking mechanism for a cutting machine.

According to the technical scheme provided by the embodiment of the application, the automatic blanking mechanism for the cutting machine comprises a machine body, wherein one end of the machine body is fixedly connected with a cutting mechanism, a blanking groove is formed in a workbench of the machine body, a blanking mechanism is arranged in the blanking groove, a storage box is placed at the other end of the machine body, the storage box is connected with the workbench of the machine body through a tilting plate, the blanking mechanism comprises a motor, a first main rotating shaft, a second main rotating shaft, a blanking plate, a first auxiliary rotating shaft and a second auxiliary rotating shaft, the motor is fixed on one side wall of the machine body, one end of the first main rotating shaft is fixedly connected with the output end of the motor, the other end of the first main rotating shaft is rotatably connected with the other wall plate of the machine body, two ends of the second main rotating shaft are rotatably connected with the wall plate of the machine body respectively, the rear end and the front end of the blanking plate are fixedly connected with the first auxiliary rotating shaft and the second auxiliary rotating shaft respectively, the other ends of the second rotating shaft and the first auxiliary rotating shaft penetrate through a wall plate of the machine body, the rear end and the front end of the blanking plate are respectively and movably connected with a first connecting rod and a second connecting rod through rotating shafts, the number of the first connecting rod and the second connecting rod is two, the bottom of the first connecting rod is fixedly connected with the first auxiliary rotating shaft, the bottom of the second connecting rod is fixedly connected with the second rotating shaft, rotating wheels are coaxially and fixedly arranged on the first main rotating shaft, the second main rotating shaft, the first auxiliary rotating shaft and the second auxiliary rotating shaft, the number of the first auxiliary rotating shaft and the second auxiliary rotating shaft are two, each rotating wheel is arranged on the first auxiliary rotating shaft and the second auxiliary rotating shaft, the rotating wheels are respectively positioned on the inner side and the outer side of the machine body, the two rotating wheels are arranged on the first main rotating shaft and the second main rotating shaft, and the rotating wheels on the first main rotating shaft are aligned with the rotating wheels on the inner side of the first auxiliary rotating shaft, the second owner is changeed epaxially the runner with the second is inboard the runner is aimed at each other, first auxiliary rotating shaft inboard the runner with first owner is changeed epaxially through the conveyer belt between the runner and is connected, the second is inboard the runner with the second owner is changeed epaxially pass through between the runner the conveyer belt is connected, the first auxiliary rotating shaft outside the runner with the second is changeed epaxially outside pass through between the runner the conveyer belt is connected.

The diameters of the first main rotating shaft and the second main rotating shaft are equal and are positioned on the same horizontal plane.

The blanking plate is aligned with the blanking groove.

The central axes of the first auxiliary rotating shaft and the first main rotating shaft are located on the same vertical plane, and the central axes of the second auxiliary rotating shaft and the second main rotating shaft are located on the same vertical plane.

To sum up, the beneficial effect of this application: the automatic blanking device is simple in structure and high in practicability, can effectively achieve automatic blanking of the laser cutting machine, not only remarkably improves blanking efficiency, but also reduces cost, meets the requirement of automation of the laser cutting machine, is economical and practical, and can achieve batch production.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a structural view of a blanking mechanism of the present invention;

FIG. 3 is a connection diagram of the blanking mechanism of the present invention.

Reference numbers in the figures: the machine body-1, the blanking groove-1.1, the cutting mechanism-2, the blanking mechanism-3, the motor-3.1, the first main rotating shaft-3.2, the second main rotating shaft-3.3, the blanking plate-3.4, the first connecting rod-3.4.1, the second connecting rod-3.4.2, the first auxiliary rotating shaft-3.5, the second rotating shaft-3.6, the rotating wheel-3.7, the conveying belt-3.8, the material storage box-4 and the inclined plate-5;

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the utility model. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, an automatic unloading mechanism for cutting machine, includes organism 1, 1 one end rigid coupling of organism has cutting mechanism 2, silo 1.1 has been seted up down on the workstation of organism 1, be provided with unloading mechanism 3 in the silo 1.1 down, storage case 4 has been placed to the 1 other end of organism, connect through hang plate 5 between the workstation of storage case 4 and organism 1.

As shown in fig. 2-3, the blanking mechanism 3 includes a motor 3.1, a first main rotating shaft 3.2, a second main rotating shaft 3.3, a blanking plate 3.4, a first auxiliary rotating shaft 3.5, and a second auxiliary rotating shaft 3.6, the motor 3.1 is fixed on a side wall of the machine body 1, one end of the first main rotating shaft 3.2 is fixedly connected to an output end of the motor 3.1, the other end of the first main rotating shaft 3.2 is rotatably connected to another wall plate of the machine body 1, two ends of the second main rotating shaft 3.3 are respectively rotatably connected to the wall plate of the machine body 1, a rear end and a front end of the blanking plate 3.4 are respectively fixedly connected to the first auxiliary rotating shaft 3.5 and the second auxiliary rotating shaft 3.6, the blanking plate 3.4 is aligned to the blanking slot 1.1, and the other ends of the second main rotating shaft 3.6 and the first auxiliary rotating shaft 3.5 both penetrate through the wall plate of the machine body 1. The central axes of the first auxiliary rotating shaft 3.5 and the first main rotating shaft 3.2 are located on the same vertical plane, and the central axes of the second rotating shaft 3.6 and the second main rotating shaft 3.3 are located on the same vertical plane. The rear end and the front end of the blanking plate 3.4 are respectively and movably connected with a first connecting rod 3.4.1 and a second connecting rod 3.4.2 through rotating shafts, the number of the first connecting rods 3.4.1 and the number of the second connecting rods 3.4.2 are two, the bottom of the first connecting rod 3.4.1 is fixedly connected with the first auxiliary rotating shaft 3.5, and the bottom of the second connecting rod 3.4.2 is fixedly connected with the second auxiliary rotating shaft 3.6. And rotating wheels 3.7 are coaxially and fixedly arranged on the first main rotating shaft 3.2, the second main rotating shaft 3.3, the first auxiliary rotating shaft 3.5 and the second auxiliary rotating shaft 3.6. The first auxiliary rotating shaft 3.5 and the second auxiliary rotating shaft 3.6 are respectively provided with two rotating wheels 3.7, and the rotating wheels 3.7 are respectively positioned at the inner side and the outer side of the machine body 1. The two rotating wheels 3.7 are arranged on the first main rotating shaft 3.2 and the second main rotating shaft 3.3, the rotating wheels 3.7 on the first main rotating shaft 3.2 are aligned with the rotating wheels 3.7 on the inner side of the first auxiliary rotating shaft 3.5, and the rotating wheels 3.7 on the second main rotating shaft 3.3 are aligned with the rotating wheels 3.7 on the inner side of the second auxiliary rotating shaft 3.6. The runner 3.7 that first auxiliary rotating shaft 3.5 is inboard with on the first main rotating shaft 3.2 connect through conveyer belt 3.8 between the runner 3.7, the inboard runner 3.7 of second auxiliary rotating shaft 3.6 with on the second main rotating shaft 3.3 pass through between the runner 3.7 the conveyer belt 3.8 is connected, the runner 3.7 in the first auxiliary rotating shaft 3.5 outside with the runner 3.7 in the second rotating shaft 3.6 outside passes through between the conveyer belt 3.8 is connected.

The diameters of the first main rotating shaft 3.2 and the second main rotating shaft 3.3 are equal and are positioned on the same horizontal plane.

After the steel sheet passes through laser cutting machine cutting, the motor starts, drive first main pivot and rotate, first main pivot passes through runner and conveyer belt and drives first auxiliary rotating shaft and rotate, first auxiliary rotating shaft passes through runner and conveyer belt and drives second pivot and rotate, second pivot passes through runner and conveyer belt and drives second main rotating shaft and rotate, thereby make the blanking plate intermittent type forward movement, when blanking plate upward movement, the blanking plate holds up the steel sheet, and drive the steel sheet and move forward, when blanking plate downward movement, the steel sheet is placed on the workstation of organism, along with the continuous rotation of motor, thereby realize that the steel sheet intermittent type nature moves forward, when the steel sheet is mostly removed to hang plate department, the steel sheet can slide down to the storage tank along the hang plate.

The foregoing description is only exemplary of the preferred embodiments of the application and is provided for the purpose of illustrating the general principles of the technology and the like. Meanwhile, the scope of the utility model according to the present application is not limited to the technical solutions in which the above-described technical features are combined in a specific manner, and also covers other technical solutions in which the above-described technical features or their equivalent are combined arbitrarily without departing from the inventive concept described above. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (9)

1. The utility model provides an automatic unloading mechanism for cutting machine which characterized by: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the machine body (1), one end of the machine body (1) is fixedly connected with a cutting mechanism (2), a blanking groove (1.1) is arranged on a workbench of the machine body (1), a blanking mechanism (3) is arranged in the blanking groove (1.1), a storage box (4) is arranged at the other end of the machine body (1), the storage box (4) is connected with the workbench of the machine body (1) through an inclined plate (5),

unloading mechanism (3) include motor (3.1), first main pivot (3.2), second main pivot (3.3), unloading board (3.4), first auxiliary pivot (3.5) and second width of cloth pivot (3.6), motor (3.1) are fixed on a lateral wall of organism (1), first main pivot (3.2) one end with the output rigid coupling of motor (3.1), first main pivot (3.2) other end with another wallboard of organism (1) rotates to be connected, second main pivot (3.3) both ends respectively with the wallboard of organism (1) rotates to be connected, flitch (3.4) rear end and front end respectively the rigid coupling have first auxiliary pivot (3.5) and second width of cloth pivot (3.6), second width of cloth pivot (3.6) and first auxiliary pivot (3.5) other end all pass the wallboard of organism (1).

2. The automatic blanking mechanism for the cutting machine as set forth in claim 1, wherein: the diameters of the first main rotating shaft (3.2) and the second main rotating shaft (3.3) are equal and are positioned on the same horizontal plane.

3. The automatic blanking mechanism for the cutting machine as set forth in claim 1, wherein: the blanking plate (3.4) is aligned with the blanking groove (1.1).

4. The automatic blanking mechanism for the cutting machine as set forth in claim 1, wherein: the rear end and the front end of the blanking plate (3.4) are respectively and movably connected with a first connecting rod (3.4.1) and a second connecting rod (3.4.2) through rotating shafts, the number of the first connecting rods (3.4.1) and the number of the second connecting rods (3.4.2) are two, the bottom of the first connecting rod (3.4.1) is fixedly connected with the first auxiliary rotating shaft (3.5), and the bottom of the second connecting rod (3.4.2) is fixedly connected with the second auxiliary rotating shaft (3.6).

5. The automatic blanking mechanism for the cutting machine as set forth in claim 1, wherein: the central axes of the first auxiliary rotating shaft (3.5) and the first main rotating shaft (3.2) are positioned on the same vertical plane, and the central axes of the second rotating shaft (3.6) and the second main rotating shaft (3.3) are positioned on the same vertical plane.

6. The automatic blanking mechanism for the cutting machine as set forth in claim 1, wherein: and rotating wheels (3.7) are coaxially and fixedly arranged on the first main rotating shaft (3.2), the second main rotating shaft (3.3), the first auxiliary rotating shaft (3.5) and the second rotating shaft (3.6).

7. The automatic blanking mechanism for the cutting machine as claimed in claim 6, wherein: the first auxiliary rotating shaft (3.5) and the second auxiliary rotating shaft (3.6) are respectively provided with two rotating wheels (3.7), and the rotating wheels (3.7) are respectively positioned on the inner side and the outer side of the machine body (1).

8. The automatic blanking mechanism for the cutting machine as claimed in claim 6, wherein: all there are two on first main shaft (3.2) and second main shaft (3.3) runner (3.7), on first main shaft (3.2) runner (3.7) with first auxiliary shaft (3.5) are inboard runner (3.7) aim at each other, on second main shaft (3.3) runner (3.7) with second pivot (3.6) are inboard runner (3.7) aim at each other.

9. The automatic blanking mechanism for the cutting machine as claimed in claim 6, wherein: the runner (3.7) inboard in first auxiliary rotating shaft (3.5) with on first main rotating shaft (3.2) connect through conveyer belt (3.8) between runner (3.7), second pivot (3.6) inboard runner (3.7) with on the second main rotating shaft (3.3) pass through between runner (3.7) conveyer belt (3.8) connect, first auxiliary rotating shaft (3.5) outside runner (3.7) with second pivot (3.6) outside between runner (3.7) pass through conveyer belt (3.8) connect.

Images