CN215747717U - Aluminum alloy door frame section bar extrusion device - Google Patents

Abstract

The utility model discloses an aluminum alloy door frame profile extrusion device which comprises a base, an extrusion cavity, a hydraulic power source, a cavity cleaning component and a cutting component, wherein the extrusion cavity is formed by a plurality of extrusion holes; the base comprises a base body, a hydraulic pump, a reversing valve and a cooling pool; the unformed aluminum paste material in the extrusion cavity is extruded by the hydraulic power source, and then the extruded aluminum alloy door frame section is cut by a cutting component and falls into a cooling pool for cooling; the cooling pool, the hydraulic pump, the reversing valve and the extrusion cavity are mutually connected through pipelines, when water circulation is needed, the reversing valve opens the first pipeline and closes the drainage pipeline, the hydraulic pump pumps the cooling pool away, the cooling pool is conveyed to the cooling cavity of the extrusion cavity through the reversing valve, and meanwhile cooling water in the cooling cavity flows into the cooling pool; when the cooling water needs to be drained, the reversing valve opens the drainage pipeline and closes the first pipeline, and the hydraulic pump pumps out the water in the cooling pool and drains the water.

Description

Aluminum alloy door frame section bar extrusion device

Technical Field

The utility model relates to the technical field of profile extrusion, in particular to an aluminum alloy door frame profile extrusion device.

Background

An aluminum material is a metal product manufactured by aluminum and other alloy elements, and the aluminum material is often used as a building material because of its light weight, high hardness, corrosion resistance and long service life, and when the aluminum material is produced, it needs to be subjected to melting, extrusion, pipe drawing and other processes, and an aluminum material extruding machine is a device capable of extruding a melted aluminum material workpiece into a desired shape.

However, the equipment has some defects, most of the existing extrusion equipment is lack of a water circulation system, so that a large amount of cooling water is needed when the aluminum material is extruded, and a large amount of water resources are wasted.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention aims to provide an alloy doorframe profile extrusion device capable of cooling water circulation.

In order to solve the technical problems, the technical scheme of the utility model is as follows: an aluminum alloy door frame profile extrusion device comprises a base, an extrusion cavity arranged above the base, a hydraulic power source arranged on one side of the extrusion cavity, a cavity cleaning component arranged on the other side of the extrusion cavity, and a cutting component arranged above the extrusion cavity; the base comprises a base body, a hydraulic pump arranged in the base body, a reversing valve arranged on one side of the hydraulic pump and a cooling pool arranged on the other side of the hydraulic pump.

Preferably, the cooling pool is provided with a feeding port and a material taking port.

Preferably, the extrusion cavity comprises a forming cavity, a cooling cavity arranged at the periphery of the forming cavity, and a slurry inlet hole which is arranged at the outer side of the cooling cavity and penetrates into the forming cavity.

Preferably, the hydraulic power source comprises a power hydraulic cylinder and a support frame arranged below the power hydraulic cylinder.

Preferably, the cavity cleaning component comprises a cavity cleaning hydraulic cylinder and a cavity cleaning device arranged at the output end of the cavity cleaning hydraulic cylinder.

Preferably, the cutting member includes a cutting hydraulic cylinder, and a cutting blade provided at an output end of the cutting hydraulic cylinder.

Preferably, a first pipeline is arranged between the reversing valve and the extrusion cavity, a second pipeline is arranged between the extrusion cavity and the cooling pool, a third pipeline is arranged between the cooling pool and the hydraulic pump, a fourth pipeline is arranged between the hydraulic pump and the reversing valve, and the reversing valve is provided with a drainage pipeline leading to the outside.

The technical effects of the utility model are mainly embodied as follows: the unformed aluminum paste material in the extrusion cavity is extruded by the hydraulic power source, and then the extruded aluminum alloy door frame section is cut by a cutting component and falls into a cooling pool for cooling; the cooling pool, the hydraulic pump, the reversing valve and the extrusion cavity are mutually connected through pipelines, when water circulation is needed, the reversing valve opens the first pipeline and closes the drainage pipeline, the hydraulic pump pumps the cooling pool away, the cooling pool is conveyed to the cooling cavity of the extrusion cavity through the reversing valve, and meanwhile cooling water in the cooling cavity flows into the cooling pool; when the cooling water needs to be drained, the reversing valve opens the drainage pipeline and closes the first pipeline, and the hydraulic pump pumps out the water in the cooling pool and drains the water.

Drawings

FIG. 1 is a schematic structural view of an aluminum alloy doorframe profile extrusion device according to the present invention;

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.

An aluminum alloy door frame profile extrusion device is shown in figure 1 and comprises a base 1, an extrusion cavity 2 arranged above the base 1, a hydraulic power source 3 arranged on one side of the extrusion cavity 2, a cavity cleaning component 4 arranged on the other side of the extrusion cavity 2 and a cutting component 5 arranged above the extrusion cavity 2; the base 1 comprises a base body 11, a hydraulic pump 12 arranged in the base body 11, a reversing valve 13 arranged on one side of the hydraulic pump 12 and a cooling pool 14 arranged on the other side of the hydraulic pump 12.

The cooling tank 14 is provided with a material inlet 141 and a material outlet 142. The aluminum alloy door frame profile is extruded and then falls into the feeding port 141, the aluminum alloy door frame profile is cooled in the cooling tank, and the worker removes the cooled aluminum alloy door frame profile from the material taking port 142.

The extrusion cavity 2 comprises a forming cavity 21, a cooling cavity 22 arranged at the periphery of the forming cavity 21, and a slurry inlet hole 23 arranged at the outer side of the cooling cavity 22 and penetrating into the forming cavity 21. The cooling chamber 22 is connected with the hydraulic pump 12, water in the cooling chamber 22 is pumped and replaced through the hydraulic pump 12, and the aluminum material to be extruded in the forming chamber 21 is cooled, so that the forming is convenient.

The hydraulic power source 3 comprises a power hydraulic cylinder 31 and a support frame 32 arranged below the power hydraulic cylinder 31. Specifically, the output end of the power hydraulic cylinder 31 is installed inside the cooling chamber 22 for extrusion.

The cavity cleaning component 4 comprises a cavity cleaning hydraulic cylinder 41 and a cavity cleaning device 42 arranged at the output end of the cavity cleaning hydraulic cylinder 41.

The cutting member 5 includes a cutting hydraulic cylinder 51, and a cutting blade 52 provided at an output end of the cutting hydraulic cylinder 51. After the extrusion of the aluminum profile is completed, the cutting hydraulic cylinder 51 starts the cutting knife 52 to cut the aluminum profile.

A first pipeline 101 is arranged between the reversing valve 13 and the extrusion cavity 2, a second pipeline 102 is arranged between the extrusion cavity 2 and the cooling pool 14, a third pipeline 103 is arranged between the cooling pool 14 and the hydraulic pump 12, a fourth pipeline 104 is arranged between the hydraulic pump 12 and the reversing valve 13, and the reversing valve 13 is provided with a drainage pipeline 105 leading to the outside.

The model of the power hydraulic cylinder 31 in the embodiment is HOB-SD; the model of the cavity cleaning hydraulic cylinder 41 is FA 100-125; the type of the cutting hydraulic cylinder 51 is FA 63-100; the hydraulic pump 12 is a WZB booster pump; the model of the reversing valve 13 is a 34DF-L2 type electromagnetic reversing valve;

the technical effects of the utility model are mainly embodied as follows: the unformed aluminum paste material in the extrusion cavity is extruded by the hydraulic power source, and then the extruded aluminum alloy door frame section is cut by a cutting component and falls into a cooling pool for cooling; the cooling pool, the hydraulic pump, the reversing valve and the extrusion cavity are mutually connected through pipelines, when water circulation is needed, the reversing valve opens the first pipeline and closes the drainage pipeline, the hydraulic pump pumps the cooling pool away, the cooling pool is conveyed to the cooling cavity of the extrusion cavity through the reversing valve, and meanwhile cooling water in the cooling cavity flows into the cooling pool; when the cooling water needs to be drained, the reversing valve opens the drainage pipeline and closes the first pipeline, and the hydraulic pump pumps out the water in the cooling pool and drains the water.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (7)

1. An aluminum alloy door frame profile extrusion device comprises a base, an extrusion cavity arranged above the base, a hydraulic power source arranged on one side of the extrusion cavity, a cavity cleaning component arranged on the other side of the extrusion cavity, and a cutting component arranged above the extrusion cavity; the method is characterized in that: the base comprises a base body, a hydraulic pump arranged in the base body, a reversing valve arranged on one side of the hydraulic pump and a cooling pool arranged on the other side of the hydraulic pump.

2. An aluminum alloy doorframe profile as claimed in claim 1, wherein: the cooling tank is provided with a feeding port and a material taking port.

3. An aluminum alloy doorframe profile as claimed in claim 1, wherein: the extrusion cavity comprises a forming cavity, a cooling cavity arranged on the periphery of the forming cavity, and a slurry inlet hole which is arranged on the outer side of the cooling cavity and penetrates into the forming cavity.

4. An aluminum alloy doorframe profile as claimed in claim 1, wherein: the hydraulic power source comprises a power hydraulic cylinder and a support frame arranged below the power hydraulic cylinder.

5. An aluminum alloy doorframe profile as claimed in claim 1, wherein: the cavity cleaning component comprises a cavity cleaning hydraulic cylinder and a cavity cleaning device arranged at the output end of the cavity cleaning hydraulic cylinder.

6. An aluminum alloy doorframe profile as claimed in claim 1, wherein: the cutting-off component comprises a cutting-off hydraulic cylinder and a cutting-off knife arranged at the output end of the cutting-off hydraulic cylinder.

7. An aluminum alloy doorframe profile as claimed in claim 1, wherein: be provided with first pipeline between switching-over valve and the extrusion chamber, be provided with the second pipeline between extrusion chamber and the cooling tank, be provided with the third pipeline between cooling tank and the hydraulic pump, be provided with the fourth pipeline between hydraulic pump and the switching-over valve, the switching-over valve is provided with the drainage pipe who accesss to the outside.

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