CN209969225U - Energy-saving high-efficiency aluminum profile extrusion equipment - Google Patents

Abstract

The utility model discloses an energy-saving high-efficiency aluminum profile extrusion device, which comprises an extruder, a machine head, an extrusion rod lifting cylinder, an extrusion slide block, an extrusion rod, a spindle container and a feeding mechanism; the inner end surface of the extruding machine is opposite to the inner end surface of the ingot containing barrel, the feeding mechanism is connected to the slide rail in a sliding mode and arranged on one side of the opposite surface of the extruding machine and the ingot containing barrel, the cylinder body of the extrusion rod lifting cylinder is installed at the top of the machine head, the rod end of a piston rod of the extrusion rod lifting cylinder is connected with the extrusion sliding block, the extrusion sliding block is connected to the machine head in a sliding mode, the inner end of the extrusion rod is fixed on the extrusion sliding block, and the outer end of the extrusion rod extends into a die hole; because the utility model discloses a feeding mechanism can send into the aluminium ingot in the die hole of flourishing spindle section of thick bamboo, has reduced retreating of extruder and has stepped down the distance, and the stroke shortens, and production efficiency improves greatly, has still practiced thrift the energy moreover.

Description

Energy-saving high-efficiency aluminum profile extrusion equipment

Technical Field

The utility model relates to an extrusion equipment especially relates to an energy-conserving high-efficient aluminium alloy extrusion equipment.

Background

The aluminum profile extruding machine is the most main equipment for realizing the extrusion processing of the aluminum profiles. The extrusion of aluminium section is an important method for shaping aluminium section by plastic pressure, and can process aluminium ingot blank into pipe, bar and section in one step. Traditional aluminium alloy extruder is when the extrusion, during the material loading, in order to let the aluminium ingot send into flourishing spindle section of thick bamboo, need retreat longer distance, give feed mechanism and give the way, and the extruder retreats the distance long, need consume more time, and simultaneously, the extruder is bulky, and weight is heavy, and the distance of retreating is long, just need consume more power and energy.

Disclosure of Invention

An object of the utility model is to provide an energy-conserving high-efficient aluminium alloy extrusion equipment.

In order to achieve the above object, the technical solution of the present invention is:

the utility model relates to an energy-saving high-efficiency aluminum profile extrusion device, which comprises an extruder, a machine head, an extrusion rod lifting cylinder, an extrusion slide block, an extrusion rod, a spindle container and a feeding mechanism; the extruder is arranged opposite to the inner end face of the ingot containing barrel, the feeding mechanism is connected to the slide rail in a sliding mode and arranged on one side of the opposite face of the extruder and the ingot containing barrel, a cylinder body of the extrusion rod lifting cylinder is installed on the top of the machine head, the rod end of a piston rod of the extrusion rod lifting cylinder is connected with the extrusion sliding block, the extrusion sliding block is connected to the machine head in a sliding mode, the inner end of the extrusion rod is fixed on the extrusion sliding block, and the outer end of the extrusion rod extends into a die hole of the ingot containing;

the feeding mechanism comprises a feeding rack, a feeding seat, a feeding belt, a feeding motor, a guide roller set and a feeding cylinder; the cylinder body of a feeding cylinder is installed on a sliding rail, the piston rod end of the feeding cylinder is connected with the outer end of a feeding rack, the feeding rack is connected onto the sliding rail in a sliding mode, a feeding seat is installed at the inner end of the feeding rack and can stretch into the space between an extruder and a ingot containing barrel, a feeding motor is fixed on the outer side wall of the feeding seat, the output shaft of the feeding motor is connected with a feeding belt, the feeding belt is driven to rotate, the feeding belt is installed in the middle of the feeding seat, and the lower ends of two groups of guide roller sets are installed on the feeding seat.

The feeding belt is a chain wheel mechanism and comprises a driving gear, a driven gear, a chain and a material hook; the driving gear is fixedly sleeved on an output shaft of the feeding motor, the driven gear is rotatably arranged on the feeding seat, the chain is wound on the driving gear and the driven gear, and the chain is provided with the material hook.

The utility model also comprises a top pressure cylinder and a top pressure block; the cylinder body of the jacking cylinder is hinged on the feeding rack, the rod end of a piston rod of the jacking cylinder is hinged with the outer end of the jacking block, the lower end of the jacking block is hinged on the feeding rack, and the inner end of the jacking block extends to the upper part of the feeding seat.

The inner end of the top pressing block is provided with a plurality of guide rollers.

The two groups of guide roller sets are in an inverted splayed shape.

After the scheme is adopted, because the utility model discloses an extruder, aircraft nose, extrusion stem lift cylinder, extrusion slider, extrusion stem, flourishing spindle section of thick bamboo, feeding mechanism can send into the aluminium ingot in the die hole of flourishing spindle section of thick bamboo, has reduced retreating of extruder and has stepped down the distance, and the stroke shortens, and production efficiency improves greatly, but also has practiced thrift the energy.

The invention will be further described with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a left side perspective view of the present invention;

fig. 2 is a right side perspective view of the present invention;

fig. 3 is an axonometric view of the feeding mechanism of the present invention;

figure 4 is a front view of the feed belt of the present invention.

Detailed Description

As shown in fig. 1-3, the utility model relates to an energy-saving high-efficiency aluminum profile extrusion device, which comprises an extruder 1, a machine head 2, an extrusion rod lifting cylinder 3, an extrusion slide block 4, an extrusion rod 5, a spindle container 6 and a feeding mechanism 7.

The inner end face of the extruder 1 is opposite to the inner end face of the ingot containing barrel 6, the feeding mechanism 7 is connected to the sliding rail 11 in a sliding mode and arranged on one side of the opposite face of the extruder 1 and the ingot containing barrel 6, the cylinder body of the extrusion rod lifting cylinder 3 is installed on the top of the machine head 2, the piston rod end of the extrusion rod lifting cylinder 3 is connected with the extrusion sliding block 4, the extrusion sliding block 4 is connected to the machine head 2 in a sliding mode, the inner end of the extrusion rod 5 is fixed to the extrusion sliding block, and the outer end of the extrusion rod 5 extends into a die hole of the ingot containing barrel 6.

The feeding mechanism 7 comprises a feeding frame 71, a feeding seat 72, a jacking cylinder 73, a jacking block 74, a feeding belt 75, a feeding motor 76, a guide roller set 77 and a feeding cylinder (not shown). The cylinder body of the feeding cylinder is arranged on a slide rail 11, the rod end of a piston rod of the feeding cylinder is connected with the outer end of a feeding rack 71, the feeding rack 71 is connected on the slide rail 11 in a sliding manner, a feeding seat 72 is arranged at the inner end of the feeding rack 71 and can extend into a space between an extruder 1 and an ingot containing barrel 6 so as to provide aluminum ingots, the cylinder body of a jacking cylinder 73 is hinged on the feeding rack 71, the rod end of the piston rod of the jacking cylinder 73 is hinged with the outer end of a jacking block 74, the lower end of the jacking block 74 is hinged on the feeding rack 71, the inner end of the jacking block 74 extends to the upper part of the feeding seat 72, a plurality of guide rollers 741 are arranged at the inner end of the jacking block 74, a feeding motor 76 is fixed on the outer side wall of the feeding seat 72, the output shaft of the feeding motor 76 is connected with a feeding belt 75 to drive the feeding belt 75 to rotate, the feeding belt 75 is arranged in the middle of, the two sets of guide roller sets 77 are in the shape of an inverted figure-of-eight.

In this embodiment, as shown in fig. 4 and fig. 1, the feeding belt 75 is a sprocket mechanism, and includes a driving gear 751, a driven gear 752, a chain 753, and a hook 754; the driving gear 751 is fixedly sleeved on an output shaft of the feeding motor 76, the driven gear 752 is rotatably arranged on the feeding seat 72, the chain 753 is wound on the driving gear 751 and the driven gear 752, and the chain 753 is provided with a material hook 754.

The utility model discloses a theory of operation:

an aluminum ingot 10 is conveyed on a feeding belt 75 of a feeding mechanism 7, a jacking cylinder 73 pushes a jacking block 74 to press downwards to press the aluminum ingot 10, after a previous section of aluminum ingot is used up, a new aluminum ingot needs to be placed, the extruder 1 retreats integrally, the retreating distance is equivalent to the length of the aluminum ingot, an extrusion rod lifting cylinder 3 drives an extrusion slide block 4 to drive an extrusion rod 5 to move upwards, a feeding rack 71 is driven by the feeding cylinder to extend into an extrusion station between the extruder 1 and an ingot containing barrel 6, a material hook 754 on the feeding belt 75 is driven by a feeding motor 76 to feed the aluminum ingot 10 into a die hole of the ingot containing barrel 6, the feeding mechanism 7 retreats from the extrusion station, the extrusion rod lifting cylinder 3 drives the extrusion slide block 4 to move downwards, so that the extrusion rod 5 returns to the extrusion station, and the extrusion rod 5 slowly extrudes the aluminum ingot 10 from the ingot containing barrel to a die under the driving of the extruder 1.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited thereby, and all equivalent changes and modifications made within the scope of the claims and the specification should be considered within the scope of the present invention.

Claims (5)

1. The utility model provides an energy-conserving high-efficient aluminium alloy extrusion equipment which characterized in that: comprises an extruder, a machine head, an extrusion rod lifting cylinder, an extrusion sliding block, an extrusion rod, a spindle container and a feeding mechanism; the extruder is arranged opposite to the inner end face of the ingot containing barrel, the feeding mechanism is connected to the slide rail in a sliding mode and arranged on one side of the opposite face of the extruder and the ingot containing barrel, a cylinder body of the extrusion rod lifting cylinder is installed on the top of the machine head, the rod end of a piston rod of the extrusion rod lifting cylinder is connected with the extrusion sliding block, the extrusion sliding block is connected to the machine head in a sliding mode, the inner end of the extrusion rod is fixed on the extrusion sliding block, and the outer end of the extrusion rod extends into a die hole of the ingot containing;

the feeding mechanism comprises a feeding rack, a feeding seat, a feeding belt, a feeding motor, a guide roller set and a feeding cylinder; the cylinder body of a feeding cylinder is installed on a sliding rail, the piston rod end of the feeding cylinder is connected with the outer end of a feeding rack, the feeding rack is connected onto the sliding rail in a sliding mode, a feeding seat is installed at the inner end of the feeding rack and can stretch into the space between an extruder and a ingot containing barrel, a feeding motor is fixed on the outer side wall of the feeding seat, the output shaft of the feeding motor is connected with a feeding belt, the feeding belt is driven to rotate, the feeding belt is installed in the middle of the feeding seat, and the lower ends of two groups of guide roller sets are installed on the feeding seat.

2. The energy-saving high-efficiency aluminum profile extrusion equipment as recited in claim 1, characterized in that: the feeding belt is a chain wheel mechanism and comprises a driving gear, a driven gear, a chain and a material hook; the driving gear is fixedly sleeved on an output shaft of the feeding motor, the driven gear is rotatably arranged on the feeding seat, the chain is wound on the driving gear and the driven gear, and the chain is provided with the material hook.

3. The energy-saving high-efficiency aluminum profile extrusion equipment as recited in claim 1, characterized in that: the pressing device also comprises a pressing cylinder and a pressing block; the cylinder body of the jacking cylinder is hinged on the feeding rack, the rod end of a piston rod of the jacking cylinder is hinged with the outer end of the jacking block, the lower end of the jacking block is hinged on the feeding rack, and the inner end of the jacking block extends to the upper part of the feeding seat.

4. The energy-saving high-efficiency aluminum profile extrusion equipment as claimed in claim 3, is characterized in that: the inner end of the top pressing block is provided with a plurality of guide rollers.

5. The energy-saving high-efficiency aluminum profile extrusion equipment as recited in claim 1, characterized in that: the two groups of guide roller sets are in an inverted splayed shape.

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