CN218663949U - Feeding device of aluminum extruder - Google Patents

Abstract

The utility model relates to the field of aluminum product processing equipment, and discloses a feeding device of an aluminum product extruder, which comprises a first feeding groove, a second supporting table, a third driving module, a second feeding groove, a first driving module, a second driving module, a first supporting table and a frame body, wherein the second feeding groove and the first feeding groove are V-shaped grooves; the second feeding groove is hinged on the first supporting table and is driven to rotate by the first driving module by taking the tip as an axis; the first feeding groove is hinged to the second support platform and is driven to rotate by the third driving module by taking the tip as a shaft; the first supporting platform is in sliding fit with the frame body and is driven by the second driving module to lift along the frame body; through this design, when first supporting bench rises to predetermineeing the height and first chute feeder, second chute feeder rotate and predetermine the angle, first chute feeder, the top of support body, second chute feeder constitute a continuous ramp. The stability that the aluminium ingot shifts to the second chute feeder from first chute feeder has been improved.

Description

Feeding device of aluminum extruder

Technical Field

The utility model relates to an aluminum product processing equipment field especially relates to a material feeding unit of aluminum product extruder.

Background

Aluminum is a metal material with light weight and good electrical conductivity and thermal conductivity, the earth crust contains the most metal elements, the aluminum is widely applied to the fields of aerospace, buildings, automobiles and the like after entering the modern day, the shadow of the aluminum can be seen in the food field and household appliances, the aluminum is contained everywhere in life, when an aluminum product is processed, the molten aluminum is cooled and processed into an aluminum ingot, and then the aluminum ingot is extruded into an aluminum plate, and in the processing process, the handling of the aluminum ingot is a labor-consuming matter.

CN202122733716.0 discloses a feeding device for an aluminum profile extruder, which comprises a base and a bearing mechanism disposed on one side of the base, wherein the top surface of the base is disposed obliquely, and the lower side of the base corresponds to the bearing mechanism, and the top surface of the base is sequentially provided with a first partition plate and a second partition plate along the moving direction of an aluminum rod; the base is provided with a driving mechanism, and the driving mechanism is used for driving the first partition plate and the second partition plate to extend out of the top surface of the base or be hidden below the top surface of the base; when the second clapboard extends out of the top surface of the base, the first clapboard is hidden under the top surface of the base.

This scheme realizes intermittent type formula pay-off through setting up the aluminium bar that first baffle and second baffle stopped the base top surface to make the cutter that is used for cutting the aluminium bar can the continuous work, satisfy simultaneously and deliver to the extruder with the aluminium bar that cuts well in proper order and extrude, shortened the material loading time of two aluminium bars, improved actual machining efficiency.

The utility model discloses the technical problem that needs to solve is: how to provide a new way to realize the transportation of the aluminum material.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a material feeding unit of aluminum product extruder makes the aluminium ingot smoothly transition to the support body top from first chute feeder in the transportation through the support body that sets up between first chute feeder and second chute feeder, again from the support body top transition to the second chute feeder, during this, because it is continuous smooth domatic to have constituteed between first chute feeder, support body top, the second chute feeder three, stability when having improved the aluminium ingot transportation.

In order to achieve the purpose, the technical scheme adopted by the application is as follows:

a feeding device of an aluminum material extruding machine comprises a first feeding groove, a second supporting table, a third driving module and a first feeding unit, wherein the first feeding unit comprises a second feeding groove, a first driving module, a second driving module, a first supporting table and a frame body; the second feeding groove is hinged to the first supporting table and is driven to rotate by the first driving module by taking the tip end as a shaft; the first feeding groove is hinged to the second support platform and is driven to rotate by the third driving module by taking the tip end as a shaft; the first supporting platform is in sliding fit with the frame body, and is driven by the second driving module to lift along the frame body;

when the first supporting platform rises to the preset height and the first feeding groove and the second feeding groove rotate to the preset angle, the first feeding groove, the top of the frame body and the second feeding groove form a continuous ramp.

Preferably, the top of the frame body is a slope.

Preferably, the first driving module comprises a first motor and a first chain, a gear is arranged at one end of a hinged position of the second feeding groove and the first supporting table, the gear is connected with a power output end of the first motor through the first chain, and the second feeding groove rotates by taking the tip end as a shaft under the driving of the first motor, the first chain and the gear.

Preferably, the second driving module comprises an air cylinder, the air cylinder is arranged between the support body and the first supporting platform, the bottom of the air cylinder is fixedly connected with the bottom of the support body, the power output end of the air cylinder is fixedly connected with one side of the first supporting platform, and the first supporting platform is arranged under the action of the air cylinder and can lift up and down the support body.

Preferably, the third driving module comprises a second motor and a rotating disc, one end of the first feeding groove is fixedly connected with the rotating disc, the rotating disc is arranged at the junction of the first feeding groove and the second supporting table, the power output end of the second motor is embedded into the edge of the rotating disc, and the first feeding groove rotates by taking the tip as a shaft under the driving of the second motor and the rotating disc.

Preferably, the feeding device further comprises a third feeding groove, a feeding platform and a fourth driving module, wherein the third feeding groove is a V-shaped groove, one side of the third feeding groove is attached to the feeding platform, and the third feeding groove slides along the surface of the feeding platform under the driving of the fourth driving module;

when the third feeding groove moves to a preset position, the first supporting platform descends to a preset height, and the second feeding groove rotates to a preset angle, the third feeding groove and the second feeding groove form a continuous slope.

Preferably, the fourth driving module comprises 2 second chains and a third motor, the number of the second chains is 2, the second chains are respectively arranged on two sides of the feeding platform, two ends of one side, attached to the feeding platform, of the third feeding groove are connected with the 2 second chains, the third motor is arranged inside the feeding platform and drives at least 1 second chain to rotate, and the third feeding groove slides along the surface of the feeding platform under the driving of the third motor and the second chains.

The utility model discloses a technical scheme has following advantage or one of beneficial effect at least among the above-mentioned technical scheme:

through controlling first chute feeder, the second chute feeder rotates predetermined angle, first supporting bench rises to preset height, make first chute feeder, the support body, the smooth domatic in succession of second chute feeder three constitution, the stability of the transportation of aluminium ingot between first chute feeder and second chute feeder has been improved, and still be equipped with the third chute feeder, work as the third chute feeder, the second chute feeder rotates predetermined angle, first supporting bench descends to predetermined height, make and form a domatic between second chute feeder and the third chute feeder, steadily transport the aluminium ingot to the third chute feeder, and the third chute feeder can slide along feeding platform, and then realize long distance transport.

Drawings

FIG. 1 is a perspective view of a feeding device of an aluminum material extruding press in embodiment 1;

fig. 2 is a side view of a fourth drive module in embodiment 1;

fig. 3 is a side view of the first drive module in embodiment 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the implementations of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Example 1

Referring to fig. 1-3, a feeding device of an aluminum extruder comprises a first feeding groove 1, a second supporting table 11, a third driving module 2 and a first feeding unit 3, wherein the first feeding unit 3 comprises a second feeding groove 31, a first driving module 32, a second driving module 33, a first supporting table 34 and a frame body 35, and the second feeding groove 31 and the first feeding groove 1 are both V-shaped grooves; the second feeding groove 31 is hinged on the first supporting platform 34 and drives the second feeding groove 31 to rotate by taking the tip as an axis through the first driving module 32; the first feeding groove 1 is hinged on the second supporting table 11 and drives the first feeding groove 1 to rotate by taking the tip as a shaft through the third driving module 2; the first supporting table 34 is in sliding fit with the frame body 35, and the first supporting table 34 is driven by the second driving module 33 to ascend and descend along the frame body 35;

when the first supporting platform 34 rises to a preset height and the first feeding groove 1 and the second feeding groove 31 rotate to a preset angle, the first feeding groove 1, the top of the frame body 35 and the second feeding groove 31 form a continuous ramp.

In this embodiment, the aluminum ingot is placed in the first feeding groove 1, adjust the first supporting platform 34 to preset height, rotate the second feeding groove 31 to preset angle, rotate the first feeding groove 1 again, the aluminum ingot rolls out from the first feeding groove 1 under the action of gravity, roll to the second feeding groove 31 through the top of the frame body 35, because the second feeding groove 31 is a V-shaped groove, the aluminum ingot can not continue to roll and stay in the second feeding groove 31 to complete the transfer from the first feeding groove 1 to the second feeding groove 31, and in this process, because the first feeding groove 1, the frame body 35 and the second feeding groove 31 form a continuous plane, therefore, in the transportation process, the aluminum ingot rolls stably, and the stability of the transportation process is improved.

In this embodiment, preferably, the top of the frame body 35 is a slope. It should be noted that the first feeding chute 1 and the second feeding chute 31 rotate to a predetermined angle and then form a continuous slope together with the top of the frame body 35.

In this embodiment, preferably, the first driving module 32 includes a first motor 321 and a first chain 322, a gear 323 is disposed at one end of the second feeding chute 31 where the first supporting table 34 is hinged, the first chain 322 connects the gear 323 with a power output end of the first motor 321, and the second feeding chute 31 rotates around a tip under the driving of the first motor 321, the first chain 322, and the gear 323. Through this design, when first supporting bench 34 rose to predetermineeing the height, rotate first chute feeder 1 to predetermineeing the angle, a domatic is constituteed with support body 35 top in first chute feeder 1 edge.

In this embodiment, preferably, the second driving module 33 includes a cylinder 331, the cylinder 331 is disposed between the frame 35 and the first supporting platform 34, the bottom of the cylinder 331 is fixedly connected to the bottom of the frame 35, the power output end of the cylinder 331 is fixedly connected to one side of the first supporting platform 34, and the first supporting platform 34 is lifted up and down along the frame 35 under the action of the cylinder 331. The lifting of the first supporting table 34 is controlled through the design so as to control the lifting of the second feeding groove 31, the first supporting table 34 is lifted to a preset height when the first feeding groove 1 and the second feeding groove 31 transmit aluminum ingots, and the first supporting table 34 is descended after transmission so as to continue to transport the aluminum ingots on the next step.

In this embodiment, preferably, the third driving module 2 includes a second motor 21 and a rotating disc 22, one end of the first feeding chute 1 is fixedly connected to the rotating disc 22, the rotating disc 22 is disposed at a boundary between the first feeding chute 1 and the second supporting table 11, a power output end of the second motor 21 is embedded in an edge of the rotating disc 22, and the first feeding chute 1 rotates around a tip as an axis under the driving of the second motor 21 and the rotating disc 22. In order to roll out the aluminum ingots from the first feeding groove 1, the third driving module 2 is arranged, the first feeding groove 1 rotates to a preset angle under the action of the third driving module 2, and the aluminum ingots roll out of the first feeding groove 1 to the frame body 35 under the action of self gravity and then roll into the second feeding groove 31.

In practical application, considering that a certain distance may exist between a feeding port of an external extruder and the second feeding groove 31, preferably, the extrusion molding machine further comprises a third feeding groove 4, a feeding platform 5 and a fourth driving module 6, wherein the third feeding groove 4 is a V-shaped groove and one side of the third feeding groove is attached to the feeding platform 5, and the third feeding groove 4 slides along the surface of the feeding platform 5 under the driving of the fourth driving module 6;

when the third feeding chute 4 moves to a preset position, the first supporting platform 34 descends to a preset height, and the second feeding chute 31 rotates to a preset angle, the third feeding chute 4 and the second feeding chute 31 form a continuous slope.

After the aluminum ingot enters the second feeding groove 31, the first supporting platform 34 is descended to a preset height, the third feeding groove 4 is adjusted to a proper material receiving position, the second feeding groove 31 is rotated to enable the second feeding groove 31 and the third feeding groove 4 to form a slope, the aluminum ingot rolls out of the second feeding groove 31 and enters the third feeding groove 4, and then the position of the third feeding groove 4 on the feeding platform 5 is adjusted to enable the aluminum ingot to roll into an external extruder.

In this embodiment, preferably, the fourth driving module 6 includes 2 second chains 61 and a third motor 62, the number of the second chains 61 is 2, the second chains are respectively disposed on two sides of the feeding platform 5, two ends of one side of the third feeding groove 4, which is attached to the feeding platform 5, are connected to the 2 second chains 61, the third motor 62 is disposed inside the feeding platform 5 and drives at least 1 second chain 61 to rotate, and the third feeding groove 4 slides along the surface of the feeding platform 5 under the driving of the third motor 62 and the second chains 61. It should be noted that, the two ends of the feeding platform 5 are arc-shaped ends, and the angle of the third feeding groove 4 can be automatically changed when the third feeding groove passes through the arc-shaped ends, so that the aluminum ingot rolls out of the third feeding groove 4.

To sum up, in this embodiment application, through controlling first chute feeder, the second chute feeder rotates predetermined angle, first supporting bench rises to preset height, make first chute feeder, the support body, second chute feeder three constitute a continuous smooth domatic, the stability of the transportation of aluminium ingot between first chute feeder and second chute feeder has been improved, and still be equipped with the third chute feeder, when the third chute feeder, the second chute feeder rotates predetermined angle, first supporting bench descends to preset height, make and form a domatic between second chute feeder and the third chute feeder, transport aluminium ingot to the third chute feeder steadily, and the third chute feeder can be followed feeding platform and slided, and then realize long distance transport.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. A feeding device of an aluminum material extruding machine comprises a first feeding groove, a second supporting table, a third driving module and a first feeding unit, wherein the first feeding unit comprises a second feeding groove, a first driving module, a second driving module, a first supporting table and a frame body; the second feeding groove is hinged to the first supporting table and is driven to rotate by the first driving module by taking the tip end as a shaft; the first feeding groove is hinged to the second support platform and is driven to rotate by the third driving module by taking the tip end as a shaft; the first supporting platform is in sliding fit with the frame body, and is driven by the second driving module to lift along the frame body;

when the first supporting platform rises to the preset height and the first feeding groove and the second feeding groove rotate to the preset angle, the first feeding groove, the top of the frame body and the second feeding groove form a continuous ramp.

2. The feeding device of aluminum extruder of claim 1 wherein the top of the frame body is a ramp.

3. The feeding device of aluminum material extruding machine as recited in claim 1, wherein the first driving module comprises a first motor and a first chain, a gear is arranged at one end of the second feeding chute hinged with the first supporting platform, the first chain connects the gear with the power output end of the first motor, and the second feeding chute rotates around the tip end as the shaft under the driving of the first motor, the first chain and the gear.

4. The feeding device of an aluminum material extruding machine as recited in claim 1, wherein the second driving module comprises a cylinder, the cylinder is arranged between the frame body and the first supporting table, the bottom of the cylinder is fixedly connected with the bottom of the frame body, the power output end of the cylinder is fixedly connected with one side of the first supporting table, and the first supporting table is lifted along the frame body under the action of the cylinder.

5. The feeding device of the aluminum material extruding machine as recited in claim 1, wherein the third driving module comprises a second motor and a rotating disc, one end of the first feeding groove is fixedly connected with the rotating disc, the rotating disc is arranged at the junction of the first feeding groove and the second supporting table, the power output end of the second motor is embedded into the edge of the rotating disc, and the first feeding groove rotates around the tip end as the shaft under the driving of the second motor and the rotating disc.

6. The feeding device of the aluminum material extruding machine as recited in claim 1, further comprising a third feeding groove, a feeding platform and a fourth driving module, wherein the third feeding groove is a V-shaped groove, one side of the third feeding groove is attached to the feeding platform, and the third feeding groove is driven by the fourth driving module to slide along the surface of the feeding platform;

when the third feeding groove moves to a preset position, the first supporting platform descends to a preset height, and the second feeding groove rotates to a preset angle, the third feeding groove and the second feeding groove form a continuous slope.

7. A feeding device for aluminum material extruding machine as recited in claim 6, wherein the fourth driving module comprises 2 second chains and a third motor, the second chains are respectively disposed at both sides of the feeding platform, both ends of one side of the third feeding groove, which is attached to the feeding platform, are connected to the 2 second chains, the third motor is disposed inside the feeding platform and drives at least 1 second chain to rotate, and the third feeding groove slides along the surface of the feeding platform under the driving of the third motor and the second chains.

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