CN111250773A - Full-automatic cutting machine of aluminum alloy - Google Patents

Abstract

The invention relates to the field of aluminum alloy processing, in particular to a full-automatic cutting machine for aluminum alloy, which comprises a machine body, wherein a first motor is arranged in the machine body, the left side and the right side of the first motor are in power connection with a first rotating shaft, a first ratchet wheel is fixedly arranged on the right side of the first rotating shaft, and a second rotating shaft extending rightwards is fixedly arranged on the right side of the first ratchet wheel.

Description

Full-automatic cutting machine of aluminum alloy

Technical Field

The invention relates to the field of aluminum alloy processing, in particular to a full-automatic cutting machine for aluminum alloy.

Background

In the field of traditional aluminum alloy cutting, a worker often holds a cutting machine to cut, and when the aluminum alloy cutting machine is used for cutting, unevenness is easy to cut, the labor intensity of the worker is high, the efficiency is low, time and labor are wasted, and therefore the problem is solved by designing a full-automatic aluminum alloy cutting machine.

Disclosure of Invention

The invention aims to provide a full-automatic cutting machine for aluminum alloy, which can overcome the defects in the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: a full-automatic aluminum alloy cutting machine comprises a machine body, wherein a first motor is arranged inside the machine body, a first rotating shaft is arranged on the left side and the right side of the first motor in a power connection mode, a first ratchet wheel is fixedly arranged on the right side of the first rotating shaft, a second rotating shaft extending rightwards is fixedly arranged on the right side of the first ratchet wheel, a main working cavity is arranged above the second rotating shaft, a first moving plate is arranged inside the main working cavity and is in sliding connection with the second rotating shaft, a second ratchet wheel is fixedly arranged on the left side of the first rotating shaft, a third rotating shaft extending leftwards is fixedly arranged on the left side of the second ratchet wheel, a first rotating cavity is arranged on the left side of the third rotating shaft, a first belt wheel is arranged inside the first rotating cavity and is fixedly connected with the third rotating shaft, a first driving belt is arranged on the first belt wheel in a sliding mode, a second belt wheel is arranged above the first belt wheel, the second belt wheel is in transmission connection with the first belt wheel through the first transmission belt, a fourth rotating shaft extending rightwards is fixedly arranged at the center of the second belt wheel, a first working cavity is arranged at the right side of the fourth rotating shaft, a first helical gear is arranged in the first working cavity and fixedly connected with the fourth rotating shaft, a second helical gear is meshed above the first helical gear, a fifth rotating shaft extending upwards is fixedly arranged at the center of the second helical gear, a second rotating cavity is arranged above the fifth rotating shaft, a third belt wheel is arranged in the second rotating cavity and fixedly connected with the fifth rotating shaft, a second transmission belt is arranged on the third belt wheel in a sliding manner, a fourth belt wheel is arranged at the right side of the third belt wheel and is in transmission connection with the third belt wheel through the second transmission belt, and a sixth rotating shaft extending downwards is fixedly arranged at the center of the fourth belt wheel, the right side of the sixth rotating shaft is provided with a first lifting rod extending downwards in a sliding mode, a second lifting rod extending rightwards is fixedly arranged below the first lifting rod, and a furling cavity is formed in the right side of the second lifting rod.

Furthermore, a roller is arranged in the furling cavity, the roller is rotatably connected with the second lifting rod, a limiting rod extending upwards is fixedly arranged at the right end of the second lifting rod, a cutting knife is arranged in the main working cavity, a third rotating cavity is arranged around the cutting knife, a seventh rotating shaft extending rightwards is fixedly arranged at the center of the cutting knife, a fourth rotating cavity is arranged on the right side of the seventh rotating shaft, and a fifth belt wheel is arranged in the fourth rotating cavity.

Furthermore, the fifth belt pulley is fixedly connected with the seventh rotating shaft, a third transmission belt is arranged on the fifth belt pulley in a sliding mode, a sixth belt pulley is arranged behind the fifth belt pulley and is in transmission connection with the fifth belt pulley through the third transmission belt, an eighth rotating shaft extending leftwards is fixedly arranged at the center of the sixth belt pulley, a second working cavity is arranged on the left side of the eighth rotating shaft, and a third bevel gear is arranged inside the second working cavity.

Furthermore, a third bevel gear is fixedly connected with the eighth rotating shaft, a fourth bevel gear is meshed with the rear of the third bevel gear, a ninth rotating shaft extending backwards is fixedly arranged at the center of the fourth bevel gear, a fifth rotating cavity is arranged behind the ninth rotating shaft, a seventh belt wheel is arranged inside the fifth rotating cavity, the seventh belt wheel is fixedly connected with the ninth rotating shaft, a fourth transmission belt is arranged above the seventh belt wheel in a sliding manner, and an eighth belt wheel is arranged on the left side of the seventh belt wheel.

Furthermore, the eighth belt pulley is in transmission connection with the seventh belt pulley through the fourth transmission belt, a tenth rotating shaft extending forwards is fixedly arranged at the center of the eighth belt pulley, a second motor is arranged in front of the eighth belt pulley, the tenth rotating shaft extends forwards and penetrates through the second motor, the tenth rotating shaft is in power connection with the second motor, an eleventh rotating shaft extending forwards is fixedly arranged in front of the tenth rotating shaft, a sixth rotating cavity is arranged around the eleventh rotating shaft, a second moving plate is arranged in the main working cavity, and the second moving plate is in sliding connection with the eleventh rotating shaft.

The full-automatic aluminum alloy cutting machine has the beneficial effects that the structure is simple, the full-automatic aluminum alloy plate cutting machine can be used for cutting an aluminum alloy plate, the size of the cut aluminum alloy plate can be freely adjusted, the working strength is reduced, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention will be further illustrated with reference to the accompanying figures 1-4 and examples.

FIG. 1 is a schematic view of the overall structure of a full-automatic aluminum alloy cutting machine according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is a schematic diagram of the structure B-B in fig. 2.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-4, the full-automatic aluminum alloy cutting machine comprises a machine body 10, a first motor 33 is arranged inside the machine body 10, a first rotating shaft 34 is arranged on the left side and the right side of the first motor 33 in a power connection manner, a first ratchet wheel 35 is fixedly arranged on the right side of the first rotating shaft 34, a second rotating shaft 36 extending rightwards is fixedly arranged on the right side of the first ratchet wheel 35, a main working chamber 46 is arranged above the second rotating shaft 36, a first moving plate 45 is arranged inside the main working chamber 46, the first moving plate 45 is slidably connected with the second rotating shaft 36, a second ratchet wheel 32 is fixedly arranged on the left side of the first rotating shaft 34, a third rotating shaft 29 extending leftwards is fixedly arranged on the left side of the second ratchet wheel 32, a first rotating chamber 28 is arranged on the left side of the third rotating shaft 29, a first belt wheel 30 is arranged inside the first rotating chamber 28, and the first belt wheel 30 is fixedly connected with the third rotating shaft, a first transmission belt 31 is slidably arranged on the first belt pulley 30, a second belt pulley 24 is arranged above the first belt pulley 30, the second belt pulley 24 is in transmission connection with the first belt pulley 30 through the first transmission belt 31, a fourth rotating shaft 25 extending rightwards is fixedly arranged at the center of the second belt pulley 24, a first working chamber 27 is arranged at the right side of the fourth rotating shaft 25, a first helical gear 26 is arranged inside the first working chamber 27, the first helical gear 26 is fixedly connected with the fourth rotating shaft 25, a second helical gear 20 is meshed above the first helical gear 26, a fifth rotating shaft 22 extending upwards is fixedly arranged at the center of the second helical gear 20, a second rotating chamber 19 is arranged above the fifth rotating shaft 22, a third belt pulley 21 is arranged inside the second rotating chamber 19, the third belt pulley 21 is fixedly connected with the fifth rotating shaft 22, and a second transmission belt 23 is slidably arranged on the third belt pulley 21, the right side of the third belt wheel 21 is provided with a fourth belt wheel 17, the fourth belt wheel 17 is in transmission connection with the third belt wheel 21 through a second transmission belt 23, the center of the fourth belt wheel 17 is fixedly provided with a sixth rotating shaft 18 extending downwards, the right side of the sixth rotating shaft 18 is provided with a first lifting rod 15 extending downwards in a sliding manner, a second lifting rod 12 extending rightwards is fixedly arranged below the first lifting rod 15, and the right side of the second lifting rod 12 is provided with a furling cavity 14.

Beneficially, a roller 13 is arranged inside the furling cavity 14, the roller 13 is rotatably connected with the second lifting rod 12, the right end of the second lifting rod 12 is fixedly provided with an upwardly extending limiting rod 11, a cutting knife 44 is arranged inside the main working cavity 46, a third rotating cavity 39 is arranged around the cutting knife 44, a seventh rotating shaft 40 extending rightward is fixedly arranged at the center of the cutting knife 44, a fourth rotating cavity 42 is arranged on the right side of the seventh rotating shaft 40, and a fifth belt pulley 43 is arranged inside the fourth rotating cavity 42.

Advantageously, the fifth pulley 43 is fixedly connected to the seventh rotating shaft 40, a third transmission belt 41 is slidably disposed on the fifth pulley 43, a sixth pulley 62 is disposed behind the fifth pulley 43, the sixth pulley 62 is in transmission connection with the fifth pulley 43 through the third transmission belt 41, an eighth rotating shaft 61 extending leftward is fixedly disposed at the center of the sixth pulley 62, a second working chamber 59 is disposed on the left side of the eighth rotating shaft 61, and a third bevel gear 60 is disposed inside the second working chamber 59.

Advantageously, the third helical gear 60 is fixedly connected to the eighth rotating shaft 61, a fourth helical gear 58 is engaged behind the third helical gear 60, a ninth rotating shaft 57 extending rearward is fixedly arranged at the center of the fourth helical gear 58, a fifth rotating cavity 51 is arranged behind the ninth rotating shaft 57, a seventh pulley 56 is arranged inside the fifth rotating cavity 51, the seventh pulley 56 is fixedly connected to the ninth rotating shaft 57, a fourth transmission belt 52 is slidably arranged above the seventh pulley 56, and an eighth pulley 50 is arranged on the left side of the seventh pulley 56.

Advantageously, the eighth pulley 50 is in transmission connection with the seventh pulley 56 through the fourth transmission belt 52, a tenth rotating shaft 55 extending forward is fixedly arranged at the center of the eighth pulley 50, a second motor 49 is arranged in front of the eighth pulley 50, the tenth rotating shaft 55 extends forward and penetrates through the second motor 49, the tenth rotating shaft 55 is in power connection with the second motor 49, an eleventh rotating shaft 37 extending forward is fixedly arranged in front of the tenth rotating shaft 55, a sixth rotating cavity 38 is arranged around the eleventh rotating shaft 37, a second moving plate 47 is arranged inside the main working cavity 46, and the second moving plate 47 is in sliding connection with the eleventh rotating shaft 37.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

Sequence of mechanical actions of the whole device:

1. when the invention is in a static state, the second moving plate 47 is positioned at the rearmost part in the main working cavity 46, the first moving plate 45 is positioned at the leftmost side in the main working cavity 46, and the roller 13 is positioned in the furling cavity 14, when the invention starts to work, the aluminum alloy plate is placed in the main working cavity 46, so that the aluminum alloy plate is abutted against the second moving plate 47, then according to the cutting requirement, the first motor 33 is started to rotate positively, the first motor 33 drives the first rotating shaft 34 to rotate positively, the first rotating shaft 34 rotates positively to drive the first ratchet wheel 35 to rotate, the first ratchet wheel 35 rotates to drive the second rotating shaft 36 to rotate, the second rotating shaft 36 drives the first moving plate 45 to move rightwards, the first moving plate 45 moves rightwards to drive the aluminum alloy plate to move rightwards, one part of the aluminum alloy plate can move to the right side of the cutting knife 44, thus, when the aluminum alloy plate passes through the position of the cutting knife 44, the aluminum alloy plate is cut into two parts by the cutting knife 44;

2. before cutting the aluminum alloy plate, the position of the roller 13 needs to be reduced according to the thickness of the aluminum alloy plate, so that when the aluminum alloy plate is cut by the cutting knife 44, a stable motion state can be kept under the action of the roller 13, the aluminum alloy plate cannot be deformed, the first motor 33 is started to rotate reversely, the first motor 33 rotates reversely to drive the first rotating shaft 34 to rotate reversely, the first rotating shaft 34 rotates reversely to drive the second ratchet wheel 32 to rotate, the second ratchet wheel 32 rotates to drive the third rotating shaft 29 to rotate, and the third rotating shaft 29 rotates to drive the first belt wheel 30 to rotate;

3. the first belt wheel 30 drives the second belt wheel 24 to rotate, the second belt wheel 24 drives the fourth rotating shaft 25 to rotate, the fourth rotating shaft 25 drives the second bevel gear 20 to rotate, the second bevel gear 20 drives the fifth rotating shaft 22 to rotate, the fifth rotating shaft 22 drives the fourth belt wheel 17 to rotate, the fourth belt wheel 17 drives the sixth rotating shaft 18 to rotate, the sixth rotating shaft 18 drives the first lifting rod 15 to move downwards, the first lifting rod 15 moves downwards to drive the second lifting rod 12 to move downwards, the second lifting rod 12 drives the roller 13 and the limiting rod 11 to move downwards, and when the roller 13 moves downwards to be abutted against the upper surface of an aluminum alloy plate, the roller 13 stops moving downwards;

4. when cutting is started, the second motor 49 is started to rotate, the second motor 49 rotates to drive the tenth rotating shaft 55 to rotate, the tenth rotating shaft 55 drives the eighth belt pulley 50 and the eleventh rotating shaft 37 to rotate, the eleventh rotating shaft 37 rotates to drive the second moving plate 47 to move forwards, the second moving plate 47 moves forwards to drive the aluminum alloy plate abutted against the second moving plate 47 to move forwards, the eighth belt pulley 50 rotates to drive the seventh belt pulley 56 to rotate, and the seventh belt pulley 56 drives the ninth rotating shaft 57 to rotate;

5. ninth pivot 57 drives fourth helical gear 58 and rotates, fourth helical gear 58 drives third helical gear 60 and rotates, third helical gear 60 drives eighth pivot 61 and rotates, eighth pivot 61 drives sixth band pulley 62 and rotates, sixth band pulley 62 drives fifth band pulley 43 and rotates, fifth band pulley 43 drives seventh pivot 40 and rotates, seventh pivot 40 drives cutting knife 44 and rotates, then when aluminium alloy plate passes through cutting knife 44, cutting knife 44 can cut aluminium alloy plate.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (5)

1. The utility model provides a full automatic cutout machine of aluminum alloy, includes the organism, its characterized in that: a first motor is arranged in the machine body, a first rotating shaft is arranged on the left side and the right side of the first motor in a power connection mode, a first ratchet wheel is fixedly arranged on the right side of the first rotating shaft, a second rotating shaft extending rightwards is fixedly arranged on the right side of the first ratchet wheel, a main working cavity is arranged above the second rotating shaft, a first moving plate is arranged in the main working cavity and is in sliding connection with the second rotating shaft, a second ratchet wheel is fixedly arranged on the left side of the first rotating shaft, a third rotating shaft extending leftwards is fixedly arranged on the left side of the second ratchet wheel, a first rotating cavity is arranged on the left side of the third rotating shaft, a first belt wheel is arranged in the first rotating cavity and is fixedly connected with the third rotating shaft, a first driving belt is arranged on the first belt wheel in a sliding mode, a second belt wheel is arranged above the first belt wheel and is in transmission connection with the first belt wheel through the first driving belt, a fourth rotating shaft extending rightwards is fixedly arranged at the center of the second belt wheel, a first working cavity is arranged at the right side of the fourth rotating shaft, a first helical gear is arranged in the first working cavity, the first helical gear is fixedly connected with the fourth rotating shaft, a second helical gear is meshed above the first helical gear, a fifth rotating shaft extending upwards is fixedly arranged at the center of the second helical gear, a second rotating cavity is arranged above the fifth rotating shaft, a third belt wheel is arranged in the second rotating cavity, the third belt wheel is fixedly connected with the fifth rotating shaft, a second driving belt is arranged on the third belt wheel in a sliding manner, a fourth belt wheel is arranged at the right side of the third belt wheel, the fourth belt wheel is in transmission connection with the third belt wheel through the second driving belt, a sixth rotating shaft extending downwards is fixedly arranged at the center of the fourth belt wheel, and a first lifting rod extending downwards is arranged at the right side of the sixth rotating shaft in a sliding manner, a second lifting rod extending rightwards is fixedly arranged below the first lifting rod, and a furling cavity is formed in the right side of the second lifting rod.

2. The full-automatic cutting machine for aluminum alloy according to claim 1, characterized in that: the novel rotary cutting machine is characterized in that a roller is arranged in the furling cavity, the roller is rotatably connected with the second lifting rod, a limiting rod extending upwards is fixedly arranged at the right end of the second lifting rod, a cutting knife is arranged in the main working cavity, a third rotating cavity is arranged around the cutting knife, a seventh rotating shaft extending rightwards is fixedly arranged at the center of the cutting knife, a fourth rotating cavity is arranged on the right side of the seventh rotating shaft, and a fifth belt wheel is arranged in the fourth rotating cavity.

3. The full-automatic cutting machine for aluminum alloy according to claim 2, characterized in that: the fifth belt wheel is fixedly connected with the seventh rotating shaft, a third driving belt is arranged on the fifth belt wheel in a sliding mode, a sixth belt wheel is arranged behind the fifth belt wheel and is in transmission connection with the fifth belt wheel through the third driving belt, an eighth rotating shaft extending leftwards is fixedly arranged at the center of the sixth belt wheel, a second working cavity is arranged on the left side of the eighth rotating shaft, and a third bevel gear is arranged inside the second working cavity.

4. A full-automatic cutting machine for aluminum alloy as set forth in claim 3, wherein: the third bevel gear is fixedly connected with the eighth rotating shaft, a fourth bevel gear is meshed with the rear portion of the third bevel gear, a ninth rotating shaft extending backwards is fixedly arranged at the center of the fourth bevel gear, a fifth rotating cavity is arranged behind the ninth rotating shaft, a seventh belt wheel is arranged in the fifth rotating cavity, the seventh belt wheel is fixedly connected with the ninth rotating shaft, a fourth driving belt is arranged above the seventh belt wheel in a sliding mode, and an eighth belt wheel is arranged on the left side of the seventh belt wheel.

5. The full-automatic cutting machine for aluminum alloy according to claim 4, wherein: the eighth belt wheel is in transmission connection with the seventh belt wheel through a fourth transmission belt, a tenth rotating shaft extending forwards is fixedly arranged at the center of the eighth belt wheel, a second motor is arranged in front of the eighth belt wheel, the tenth rotating shaft extends forwards and penetrates through the second motor, the tenth rotating shaft is in power connection with the second motor, an eleventh rotating shaft extending forwards is fixedly arranged in front of the tenth rotating shaft, a sixth rotating cavity is arranged around the eleventh rotating shaft, a second moving plate is arranged inside the main working cavity, and the second moving plate is in sliding connection with the eleventh rotating shaft.

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