CN219805474U - Aluminium ingot cutting equipment - Google Patents

Abstract

The utility model relates to aluminum ingot cutting equipment, and belongs to the technical field of aluminum ingot processing. The cutter comprises a cutter blade, a first fixed block, a second fixed block, a cylinder driving rod and a fixed cylinder, wherein the first fixed block is clamped with the second fixed block at two sides of the cutter blade, one end of the cylinder driving rod is axially connected with the end part of a piston rod of the fixed cylinder, the other end of the cylinder driving rod is connected with the second fixed block, and the piston rod of the fixed cylinder drives the second fixed block to be inserted into or pulled out of the first fixed block. The blade can be quickly replaced, the cutting progress and the working efficiency are not affected, the blade is firmly clamped under the action of the thrust extrusion of the fixed cylinder, the blade cannot deviate when the aluminum ingot is cut, and the condition of inaccurate cutting size is avoided.

Description

Aluminium ingot cutting equipment

Technical Field

The utility model belongs to the technical field of aluminum ingot processing, and particularly relates to aluminum ingot cutting equipment.

Background

Aluminum is a silvery metal commonly used for manufacturing land, sea and air vehicles such as automobiles, trains, subways, ships, airplanes, rockets, spacecraft and the like to lighten dead weight and increase loading capacity. In order to facilitate transportation, the conventional aluminum ingot is generally in a rectangular plate-shaped structure, so that in the actual use process of factories, the aluminum ingot is usually required to be cut for use. The existing aluminum ingot cutting device has the advantages that the blade of the existing aluminum ingot cutting device can generate heat in the cutting process, if the temperature is not reduced in time, the service life of the blade is reduced, but the cutting of the aluminum ingot is required to be stopped when the temperature is reduced, the cooling is performed through a physical method, the working progress is influenced, and the cutting efficiency is reduced.

Disclosure of Invention

The utility model aims to provide aluminum ingot cutting equipment which is used for solving the problems that in the prior art, an aluminum ingot cutting blade generates heat in the cutting process, if the temperature is not reduced in time, the service life of the blade is reduced, but when the temperature is reduced, the cutting of the aluminum ingot is stopped, the working progress is influenced, and the cutting efficiency is reduced.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides an aluminium ingot cutting equipment, includes blade, first fixed block, second fixed block, cylinder actuating lever and fixed cylinder, first fixed block with second fixed block joint in the blade both sides, the one end of cylinder actuating lever shaft connect in fixed cylinder piston rod tip, the other end with the second fixed block is connected, fixed cylinder piston rod drive the second fixed block inserts or pulls out first fixed block.

As a further scheme of the utility model: the blade is characterized in that a fixing hole is formed in the first fixing block, a connecting column is connected to the second fixing block, a connecting hole is formed in the blade, and the connecting column of the second fixing block penetrates through the connecting hole and is inserted into the fixing hole to clamp the blade between the first fixing block and the second fixing block.

As a further scheme of the utility model: still include processing seat, electric telescopic handle, mounting panel, two connecting plates and driving motor, the mounting panel pass through electric telescopic handle with the processing seat is connected, two the connecting plate set up relatively in the mounting panel, one of them the driving motor is installed to the connecting plate, first fixed block coupling in driving motor output shaft, fixed cylinder connects in another connecting plate.

As a further scheme of the utility model: still include first limiting plate, second limiting plate and gag lever post, fixed cylinder piston rod tip runs through first limiting plate is connected to the second limiting plate, first limiting plate with the second limiting plate passes through the gag lever post is connected, first limiting plate connect in fixed cylinder piston rod.

As a further scheme of the utility model: the end part of the piston rod of the fixed cylinder is connected with a second limiting plate, and the cylinder driving rod is axially connected with the second limiting plate.

As a further scheme of the utility model: the processing seat is characterized in that a position right below the blade is provided with a clearance hole, the bottom of the processing seat is connected with a supporting frame, a collecting box is arranged on the supporting frame, and a position of the processing seat above the collecting box is provided with a slag discharging hole.

The utility model has the beneficial effects that:

according to the aluminum ingot cutting equipment disclosed by the utility model, the first fixed block and the second fixed block are clamped on two sides of the blade, one end of the cylinder driving rod is connected with the end part of the fixed cylinder piston rod in a shaft way, the other end of the cylinder driving rod is connected with the second fixed block, the fixed cylinder piston rod drives the second fixed block to be inserted into or pulled out of the first fixed block, the blade can be quickly replaced, the cutting progress and the working efficiency are not influenced, the blade is firmly clamped under the action of the thrust extrusion of the fixed cylinder, and therefore, the blade cannot deviate when the aluminum ingot is cut, and the condition of inaccurate cutting size is avoided.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of an overall structure of an aluminum ingot cutting apparatus according to the present utility model;

fig. 2 is a front view of a first fixing block of an aluminum ingot cutting apparatus according to the present utility model;

FIG. 3 is a side view of a second fixed block of an aluminum ingot cutting apparatus according to the present utility model;

fig. 4 is a front view of an aluminum ingot cutting apparatus blade according to the present utility model.

In the figure: 101. a clearance hole; 102. a slag discharging hole; 103. a processing seat; 104. a support frame; 105. a collection box; 201. an electric telescopic rod; 202. a mounting plate; 301. a driving motor; 302. a blade; 303. a connecting plate; 401. a fixed cylinder; 402. a limit rod; 403. a first limiting plate; 404. a second limiting plate; 405. a first fixed block; 406. a second fixed block; 407. a motor driving rod; 408. a cylinder driving rod; 4051. a fixing hole; 4061. a connecting column; 3021. and a connection hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-4, an aluminum ingot cutting device comprises a blade 302, a first fixed block 405, a second fixed block 406, a cylinder driving rod 408 and a fixed cylinder 401, wherein the first fixed block 405 is in clamping fit with the second fixed block 406, the first fixed block 405 and the second fixed block 406 are respectively connected to the left side and the right side of the blade 302, when the first fixed block 405 and the second fixed block 406 are clamped, the blade 302 is clamped between the first fixed block 405 and the second fixed block 406, one end of the cylinder driving rod 408 is connected to the second fixed block 406, the other end of the cylinder driving rod 408 is connected to the end of a piston rod of the fixed cylinder 401, after the aluminum ingot is heated for a long time, the continuous cutting is not suitable for continuous cutting, so that the service life of the blade 302 is reduced, the blade 302 is prevented from being reduced, the cutting is stopped, but the cutting progress and the working efficiency are not affected, the blade 302 is replaced quickly, the other blade 302 is continuously cut, when the fixed block 401 is retracted, the second fixed block 401 is driven to be separated from the second fixed block 401, the piston rod is tightly clamped, the piston rod is prevented from being clamped by the second fixed block 401, and the piston rod is prevented from being tightly clamped by the piston rod 401, and the piston rod is prevented from being tightly clamped by the fixed block 405, and the piston rod 401.

In one embodiment, to facilitate cutting by the blade 302, a tooling block 103 is provided and cutting is performed by placing an aluminum ingot on the tooling block 103.

In an embodiment, in the process of vertically moving the blade 302 downwards to cut an aluminum ingot, the height of the blade 302 from the aluminum ingot needs to be adjusted, so that two opposite electric telescopic rods 201 are arranged on the processing seat 103, the blade 302 is mounted on the mounting plate 202, the mounting plate 202 is connected to the two electric telescopic rods 201, the cutting height of the blade 302 is controlled through the telescopic operation of the electric telescopic rods 201, the electric telescopic rods 201 are nested into a sleeve assembly by a plurality of pipes with different sizes, a screw rod matched with each other and an internal spline arranged on the inner side of each pipe are arranged in each pipe, and then the screw rod is driven by an external motor through a gear to complete telescopic operation.

In an embodiment, because a large amount of scraps are generated when the blade 302 cuts the aluminum ingot, if a large amount of scraps are accumulated on the processing seat 103 and affect the placement position of the aluminum ingot, the aluminum ingot cutting processing is error, so that the scraps need to be cleaned timely, the placement position of the aluminum ingot on the processing seat 103 is not affected, the supporting frame 104 is installed at the bottom of the processing seat 103, the collecting box 105 is installed on the supporting frame 104, the slag discharging hole 102 is formed in the position of the processing seat 103 above the collecting box 105, and workers can carry out scraps normalization by pushing the scraps from the slag discharging hole 102 to the collecting box 105, thereby avoiding the scraps accumulating on the processing seat 103 and affecting cutting.

In an embodiment, since the blade 302 is required to cut an aluminum ingot in one piece, collision may occur between the blade 302 and the processing seat 103 when the blade 302 is cut to the bottom of the aluminum ingot, damage to the processing seat 103 is necessarily caused, and damage to the blade 302 may even occur, in order to avoid damage to the processing seat 103 and the blade 302, the processing seat 103 directly below the blade 302 is provided with the clearance hole 101, and when the blade 302 cuts the aluminum ingot, the blade 302 enters the clearance hole 101, so that damage caused by collision with the processing seat 103 when the blade 302 rotates at a high speed is prevented.

In order to improve the stability of the blade 302, two oppositely arranged connecting plates 303 are arranged on the mounting plate 202, wherein a driving motor 301 is arranged on the left connecting plate 303, a fixed cylinder 401 is arranged on the right connecting plate 303, wherein the driving motor 301 is arranged on the left connecting plate 303, an output shaft of the driving motor 301 penetrates through the left connecting plate 303 to be connected with a first fixed block 405 in a shaft way through a motor driving rod 407, one side of the fixed cylinder 401 is arranged on the right connecting plate 303, the other side of the fixed cylinder 401 is connected with the electric telescopic rod 201 to fix the fixed cylinder 401, at the moment, a second fixed block 406 is connected with the piston rod end of the fixed cylinder 401 through a cylinder driving rod 408, one end of the cylinder driving rod 408 is connected with the second fixed block 406, and the other end of the cylinder driving rod 408 penetrates through the right connecting plate 303 in a shaft way to be connected with the piston rod end of the fixed cylinder 401 in a shaft way;

further, when the blade 302 rotates to cut the aluminum ingot, the motor driving rod 407 is driven to rotate by the rotation of the driving motor 301, the motor driving rod 407 drives the first fixing block 405 to rotate, the second fixing block 406 is connected with the air cylinder driving rod 408, the air cylinder driving rod 408 is further connected with the end part of a piston rod of the fixed air cylinder 401 in a shaft mode, the first fixing block 405 and the second fixing block 406 are in clamping fit as the blade 302 is clamped between the first fixing block 405 and the second fixing block 406, and when the driving motor 301 rotates, the first fixing block 405, the second fixing block 406 and the blade 302 rotate together at a high speed to cut the aluminum ingot, and the blade 302 is firmly clamped under the action of clamping fit of the first fixing block 405 and the second fixing block 406 and the thrust extrusion of the fixed air cylinder 401, so that the blade 302 cannot deviate when the aluminum ingot is cut, and the situation that the cutting size is inaccurate is avoided;

further, when the blade 302 is cut for a period of time, the surface of the blade 302 is seriously heated due to high-speed friction, in order to avoid the long-time high-temperature work to reduce the service life of the blade 302, the blade 302 is required to be stopped for cooling, but in order to avoid the influence of the cutting progress, the working efficiency is ensured, the cutting progress is not influenced by the structure of the quick-change blade 302, the service life of the blade 302 is ensured, the end part of the piston rod of the fixed cylinder 401 is connected with the cylinder driving rod 408, the cylinder driving rod 408 is connected to the second fixed block 406, the driving motor 301 stops rotating, a worker holds the blade 302 by wearing a protective tool, the piston rod of the fixed cylinder 401 is retracted, the cylinder driving rod 408 is driven to pull the second fixed block 406 to be separated from the first fixed block 405, the worker removes the blade 302 to replace the new blade 302, the new blade 302 is stuck on the surface of the first fixed block 405, the piston rod of the fixed cylinder 401 stretches out to drive the second fixed block 406 to gradually approach the first fixed block 405 and is clamped on the first fixed block 405, the quick-change blade 302 is completed, and the aluminum ingot 301 is started to drive the cutter 301 to cut continuously;

further, in order to make the first fixing block 405 and the second fixing block 406 clamped and matched more firmly, a fixing hole 4051 is formed in the surface of the first fixing block 405, a connecting column 4061 is arranged on the second fixing block 406, a connecting hole 3021 is formed in the blade 302, and the connecting column 4061 of the second fixing block 406 passes through the connecting hole 3021 on the blade 302 to be connected into the fixing hole 4051 of the first fixing block 405 to complete clamping, so that the first fixing block 405, the second fixing block 406 and the blade 302 are tightly attached under the thrust action of the fixing cylinder 401 and more firmly;

further, in order to enable the piston rod of the fixed cylinder 401 to push the second fixed block 406 to be accurately clamped on the first fixed block 405, the end portion of the piston rod of the fixed cylinder 401 is fixedly connected to the second limiting plate 404 after penetrating through the first limiting plate 403 in a sliding mode, the first limiting plate 403 is connected with the second limiting plate 404 through the limiting rod 402, the first limiting plate 403 is connected to the piston rod of the fixed cylinder 401, at the moment, in the process that the piston rod of the fixed cylinder 401 drives the second limiting plate 404 to stretch or retract, the limiting rod 402 penetrates through the first limiting plate 403 in a sliding mode to enable the second limiting plate 404 to be far away from or close to the first limiting plate 403, the center line of the second limiting plate 404 and the center line of the piston rod of the fixed cylinder 401 are parallel, and the clamping process of the first fixed block 405 and the second fixed block 406 is guaranteed to be located in a straight line, so that the clamping is more accurate and cannot deviate.

The utility model relates to an aluminum ingot cutting device, which has the following working principle:

in order to avoid the influence of the cutting progress and ensure the working efficiency, the structure of the blade 302 is replaced quickly, the cutting progress is not influenced, the service life of the blade 302 is also ensured, the end part of a piston rod of the fixed cylinder 401 is connected with a cylinder driving rod 408, the cylinder driving rod 408 is connected to a second fixed block 406, the driving motor 301 stops rotating, a worker holds the blade 302 by wearing a protective tool, the piston rod of the fixed cylinder 401 is retracted, the cylinder driving rod 408 is driven to pull the second fixed block 406 to separate from the first fixed block 405, the worker removes the blade 302 to replace the new blade 302, the new blade 302 is attached to the surface of the first fixed block 405, the piston rod of the fixed cylinder 401 stretches out to drive the second fixed block 406 to gradually approach the first fixed block 405 and is clamped on the first fixed block 405, the quick replacement of the blade 302 is completed, and the driving motor 301 is started to continue the aluminum ingot cutting; therefore, the cutting progress and the working efficiency are not affected, the blade 302 is firmly clamped under the action of the thrust extrusion of the fixed air cylinder 401, the blade 302 cannot deviate when an aluminum ingot is cut, and the condition of inaccurate cutting size is avoided.

While certain embodiments of the present utility model have been described in detail, this disclosure is only for the purpose of illustrating preferred embodiments of the utility model and is not to be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (6)

1. The utility model provides an aluminium ingot cutting equipment, its characterized in that includes blade (302), first fixed block (405), second fixed block (406), cylinder actuating lever (408) and fixed cylinder (401), first fixed block (405) with second fixed block (406) joint in blade (302) both sides, one end shaft joint of cylinder actuating lever (408) in fixed cylinder (401) piston rod tip, the other end with second fixed block (406) are connected, fixed cylinder (401) piston rod drive second fixed block (406) inserts or extracts first fixed block (405).

2. The aluminum ingot cutting equipment according to claim 1, wherein the first fixing block (405) is provided with a fixing hole (4051), the second fixing block (406) is connected with a connecting column (4061), the blade (302) is provided with a connecting hole (3021), and the connecting column (4061) of the second fixing block (406) is inserted into the fixing hole (4051) through the connecting hole (3021) to clamp the blade (302) between the first fixing block (405) and the second fixing block (406).

3. The aluminum ingot cutting equipment according to claim 1, further comprising a processing seat (103), an electric telescopic rod (201), a mounting plate (202), two connecting plates (303) and a driving motor (301), wherein the mounting plate (202) is connected with the processing seat (103) through the electric telescopic rod (201), the two connecting plates (303) are oppositely arranged on the mounting plate (202), one connecting plate (303) is provided with the driving motor (301), the first fixing block (405) is axially connected with an output shaft of the driving motor (301), and the fixing cylinder (401) is connected with the other connecting plate (303).

4. The aluminum ingot cutting equipment according to claim 1, further comprising a first limiting plate (403), a second limiting plate (404) and a limiting rod (402), wherein the end of the piston rod of the fixed cylinder (401) penetrates through the first limiting plate (403) and is connected to the second limiting plate (404), the first limiting plate (403) and the second limiting plate (404) are connected through the limiting rod (402), and the first limiting plate (403) is connected to the piston rod of the fixed cylinder (401).

5. An aluminium ingot cutting apparatus according to claim 4, wherein the fixed cylinder (401) has a piston rod end connected to a second limiting plate (404), and the cylinder drive rod (408) is journalled to the second limiting plate (404).

6. An aluminium ingot cutting apparatus according to claim 3, wherein a clearance hole (101) is provided in a portion of the processing seat (103) located directly below the blade (302), the bottom of the processing seat (103) is connected with a supporting frame (104), a collecting box (105) is mounted on the supporting frame (104), and a slag discharging hole (102) is provided in a portion of the processing seat (103) located above the collecting box (105).