CN212598781U

CN212598781U - Mould heating device for aluminum profile machining

Info

Publication number: CN212598781U
Application number: CN202020454968.2U
Authority: CN
Inventors: 陆杭峰
Original assignee: Individual
Current assignee: Hengfeng Honglian Aluminum Co ltd
Priority date: 2020-04-01
Filing date: 2020-04-01
Publication date: 2021-02-26
Anticipated expiration: 2030-04-01

Abstract

The utility model discloses a mould heating device is used in aluminium alloy processing, including whole shell, oil tank, heating pipe and charge pump, the inside of whole shell is provided with the oil tank, oil outlet pipe's end-to-end connection has heat storage tank, and heat storage tank's inside is provided with the heating pipe, heat storage tank's outside is provided with the heat preservation shell, the end-to-end connection who leads to oil pipe says has the charge pump, and the top of charge pump is connected with the cooling box, the outside of cooling box is provided with first cooling tube, the inside of whole shell is provided with back oil pipe way, the internal connection of oil tank has the fixing base, and the below of fixing base is connected with fixed filter plate, the front and back surface of fixed filter plate all is. This mould heating device is used in aluminium alloy processing, this device are provided with fixed filter plate and folding filter plate in the inside of oil tank, can filter the oil body that flows through, detach the internal impurity that probably mixes of oil to improve the life of this device.

Description

Mould heating device for aluminum profile machining

Technical Field

The utility model relates to an aluminium alloy processing technology field specifically is a mould heating device is used in aluminium alloy processing.

Background

The aluminum profile is an aluminum alloy material manufactured by taking aluminum metal as a raw material, the aluminum profile has excellent processability, the specific tensile strength, yield strength, ductility and corresponding work hardening rate of the aluminum profile enable the aluminum profile to be processed into shapes and states of various specifications, and the aluminum profile has excellent corrosion resistance, electric conductivity and heat conductivity, so that the processing of the aluminum profile and the aluminum smelting technology are developed rapidly in China.

In the die-casting course of working at the aluminium alloy, can use the mould to cast the structural morphology of aluminium alloy, can use the mould temperature machine to heat the accuse temperature to the mould this moment usually, with the hardness and the quality that improve the aluminium alloy finished product, the mould temperature machine of conventional use flows through hot oil and carries out heat conduction to the mould, however at the in-process of hot oil circulation, along with circulation distance and circulation time's increase, the inside of hot oil can be mixed into unnecessary impurity, if can not in time clear up the circulation smooth and easy degree that probably influences hot oil to impurity, thereby produce the influence to machine main part and mould.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mould heating device for aluminium alloy processing to in solving the conventional mould temperature machine working process that proposes in the above-mentioned background art, hot oil can sneak into impurity at the in-process of circulation, can't in time clear up the problem that can influence the smooth and easy degree of circulation of hot oil to impurity.

In order to achieve the above object, the utility model provides a following technical scheme: a die heating device for processing aluminum profiles comprises an integral shell, an oil tank, a heating pipe and an electric pump, wherein the oil tank is arranged inside the integral shell, an oil outlet pipeline is connected to the left side of the oil tank, a heat storage tank is connected to the tail end of the oil outlet pipeline, a heating pipe is arranged inside the heat storage tank, a heat preservation shell is arranged outside the heat storage tank, an oil passage is connected to the right side of the heat storage tank, an electric pump is connected to the tail end of the oil passage, a cooling box is connected to the upper portion of the electric pump, a first cooling pipe is arranged outside the cooling box, a second cooling pipe is arranged inside the cooling box, an oil return pipeline is arranged inside the integral shell, a fixed seat is connected inside the oil tank, and the lower part of the fixed seat is connected with a fixed filter plate, the front surface and the rear surface of the fixed filter plate are both connected with rotating shafts, and the outer parts of the rotating shafts are connected with folding filter plates.

Preferably, the top end face of the oil tank is located outside the integral shell, the integral shell and the oil tank form an integral structure, and the inside of the oil tank is communicated with the heat storage tank through 2 oil outlet pipelines.

Preferably, the heat storage tank, the cooling box and the oil return pipeline are all provided with a heat preservation shell, the heat preservation shell is of a double-layer structure, and rock wool materials are filled in the heat preservation shell.

Preferably, the outer surface of the cooling box is spirally surrounded with a first cooling pipe, the head end and the tail end of the first cooling pipe are both positioned outside the integral shell, and the first cooling pipe is positioned inside the heat preservation shell.

Preferably, the fixed seat and the oil tank form a sliding structure, the fixed seat and the fixed filter plate form an integrated structure, and the width of the fixed filter plate is the same as that of the fixed seat.

Preferably, the rotating shaft penetrates through the fixed seat and extends to the top, the rotating shaft drives the folding filter plate and the fixed filter plate to form a rotating structure, and the width of the fixed filter plate is larger than that of the folding filter plate.

Compared with the prior art, the beneficial effects of the utility model are that: the mould heating device for processing the aluminum profile,

1. the device is characterized in that a fixed filter plate and a folding filter plate are arranged in an oil tank, an integral filter membrane plate can be formed after the folding filter plate is opened, so that flowing oil bodies are filtered, impurities possibly mixed in the oil bodies are removed, and the folding filter plate can be integrally taken out of the oil tank through a fixed seat after being folded to be overlapped with the fixed filter plate, so that the filter plate is conveniently replaced;

2. the conventionally used mold temperature controller controls the heating temperature in the mold through the heat conduction of hot oil by controlling the temperature of the heating pipe, however, the temperature loss condition may occur in the circulation process of the hot oil, so that the temperature value measured by the mold temperature controller deviates from the actual temperature value in the mold, and the heat-insulating shells are arranged outside the heat storage tank, the cooling tank and the oil return pipeline and can reduce the heat loss degree in the circulation of the hot oil, thereby improving the conduction efficiency of the hot oil and simultaneously improving the control accuracy of the temperature in the mold;

3. if the high temperature of hot oil, when needing to cool down hot oil, this device is in the work of cooling down of conventional second cooling tube, is provided with the first cooling tube that the spiral encircleed in the outside of cooling box, acts on simultaneously with the second cooling tube, can effectually improve the efficiency that cools down hot oil in the same time to improve the change efficiency of this device control by temperature change, improve the change speed of temperature in the mould.

Drawings

FIG. 1 is a schematic view of the overall front view cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the right-side sectional structure inside the fuel tank of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the fixed filter plate and the foldable filter plate of the present invention when they rotate relatively;

fig. 4 is a schematic diagram of the structure of the folding right-view section of the fixed filter plate and the folding filter plate of the present invention.

In the figure: 1. an integral housing; 2. an oil tank; 3. an oil outlet pipeline; 4. a heat storage tank; 5. heating a tube; 6. a heat preservation shell; 7. an oil passage; 8. an electric pump; 9. a cooling box; 10. a first cooling pipe; 11. a second cooling pipe; 12. an oil return conduit; 13. a fixed seat; 14. fixing the filter plate; 15. a rotating shaft; 16. and folding the filter plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a mould heating device for processing an aluminum profile comprises an integral shell 1, an oil tank 2, an oil outlet pipeline 3, a heat storage tank 4, a heating pipe 5, a heat preservation shell 6, an oil through pipeline 7, an electric pump 8, a cooling tank 9, a first cooling pipe 10, a second cooling pipe 11, an oil return pipeline 12, a fixed seat 13, a fixed filter plate 14, a rotating shaft 15 and a folding filter plate 16, wherein the oil tank 2 is arranged inside the integral shell 1, the oil outlet pipeline 3 is connected to the left side of the oil tank 2, the tail end of the oil outlet pipeline 3 is connected with the heat storage tank 4, the heating pipe 5 is arranged inside the heat storage tank 4, the heat preservation shell 6 is arranged outside the heat storage tank 4, the oil through pipeline 7 is connected to the right side of the heat storage tank 4, the electric pump 8 is connected to the tail end of the oil through pipeline 7, the cooling tank 9 is connected to the upper portion of the electric pump 8, the first cooling pipe 10 is arranged outside the cooling, the inside of whole shell 1 is provided with oil return pipe 12, and the internal connection of oil tank 2 has fixing base 13, and the below of fixing base 13 is connected with fixed filter plate 14, and the front and back surface of fixed filter plate 14 all is connected with pivot 15, and the external connection of pivot 15 has folding filter plate 16.

The top end face of oil tank 2 is located whole shell 1's outside, and whole shell 1 constitutes the integral structure with

oil tank

2, and 2 inside oil outlet pipe 3 and heat storage tank 4 formation intercommunication through 2 of oil tank 2, the top surface of oil tank 2 is fixed through fixing bolt with whole shell 1, the oil body through the high temperature circulation heats the mould, hot oil enters into heat storage tank 4's inside through oil outlet pipe 3, carry out the heat conduction through heating back and the inside circulation groove contact of mould, hot oil after the heat transfer gets back to heat storage tank 4's inside through returning oil pipe 12, finally get back to oil tank 2's inside through another oil outlet pipe 3, carry out recycling.

Heat storage tank 4, the outside of cooling box 9 and oil return line 12 all is provided with heat preservation shell 6, and heat preservation shell 6 sets up to bilayer structure, and the inside packing of heat preservation shell 6 has the rock wool material, the rock wool material has good thermal insulation performance, consequently heat preservation shell 6 can be to heat storage tank 4, the inside hot oil of circulating of cooling box 9 and oil return line 12 carries out the heat and preserves, reduce the thermal scattering and disappearing of hot oil at the circulation in-process, thereby improve the heat conduction efficiency of this device, and because the mould temperature machine detects and controls hot oil temperature, heat preservation shell 6 makes the temperature difference reduction that the temperature that this device recorded and mould received, thereby improve the controllability to the temperature.

The spiral surrounding of surface of cooling box 9 has first cooling tube 10, and the head and the tail both ends of first cooling tube 10 all are located the outside of whole shell 1, and first cooling tube 10 is located the inside of heat preservation shell 6, when second cooling tube 11 is inside lets in cold water and cools down hot oil in cooling box 9, can let in cold water in step to the inside of first cooling tube 10, through

first cooling tube

10 and 11 combined action of second cooling tube, can improve the cooling efficiency of this device, thereby further improve temperature control's precision.

Fixing base 13 constitutes sliding construction with oil tank 2, and fixing base 13 constitutes the integral structure with fixed filter plate 14, and the width of fixed filter plate 14 is the same with the width of fixing base 13, and fixing base 13 is fixed through fixing bolt with oil tank 2, thereby fixes fixed filter plate 14 and folding filter plate 16 below, and the staff is folding with folding filter plate 16, and accessible fixing base 13 will fix filter plate 14 and folding filter plate 16 and wholly pull out, be convenient for regularly change fixed filter plate 14 and folding filter plate 16.

Pivot 15 runs through fixing base 13 and extends to the top, and pivot 15 drives folding filter plate 16 and fixed filter plate 14 constitution revolution mechanic, and the width of fixed filter plate 14 is greater than folding filter plate 16's width, fixing base 13's top structure does not seal, the staff inserts the inside of oil tank 2 at fixed filter plate 14, after fixing base 13 is fixed, can drive folding filter plate 16 through the pivot 15 that extends the top and rotate, all rotate 2 folding filter plates 16 to laminating mutually with the inner wall of oil tank 2, can filter the hot oil of 2 inside oil tanks, ensure the purity of heating oil.

The working principle is as follows: as shown in fig. 1 and 2, when the device works, firstly, the electric pump 8 is started, the electric pump 8 pumps oil bodies to circulate, the oil bodies enter the heat storage tank 4 from the inside of the oil tank 2 through the oil outlet pipeline 3, the oil bodies inside the heat storage tank 4 can be heated through the heating pipe 5, the hot oil is pumped out under the action of the electric pump 8 and enters the cooling tank 9 through the oil inlet pipeline 7, if the temperature of the hot oil is too high and needs to be cooled, cold water is introduced into the second cooling pipe 11, the water flow conducts the temperature of the hot oil, so as to cool the hot oil, a worker can simultaneously open the valve of the first cooling pipe 10, and in the process of introducing cold water, the cold water and the second cooling pipe 11 jointly act to cool the hot oil, the efficiency of the device for cooling the hot oil can be improved, the partial structures of the first cooling pipe 10 and the second cooling pipe 11, which are in contact with the cooling tank 9, are closed, therefore, the heat storage tank and the cooling box are not communicated with the interior of the cooling box 9, cooling water flow cannot be mixed with hot oil, the heat insulation shell 6 forms a heat insulation layer for the hot oil in the heat storage tank 4 and the cooling box 9, heat loss in the circulation process of the hot oil is reduced, and the utilization efficiency of heat is improved;

hot oil reaching a proper temperature leaves the interior of the integral shell 1 through a pipeline communicated with the right side of the cooling box 9 and flows into a circulation groove communicated with a mold, the interior of the mold is heated through heat conduction, after the heating is finished, the hot oil flows back through an oil return pipeline 12 and returns to the interior of the integral shell 1 again, the hot oil flows into the heat storage tank 4 through the oil return pipeline 12 and returns to the interior of the oil tank 2 through another oil outlet pipeline 3, so that the hot oil is recycled, a fixed filter plate 14 and a folding filter plate 16 are arranged in the oil tank 2, when 2 folding filter plates 16 rotate to be attached to the inner wall of the oil tank 2, the fixed filter plate 14 and the folding filter plate 16 form a filter membrane plate clamped with the interior of the oil tank 2, the flowing oil is filtered, and impurities possibly mixed in the circulation process of the hot oil are removed;

as shown in fig. 1, 3 and 4, the worker needs to replace the fixed filter plate 14 and the foldable filter plate 16 regularly, and the rotating shaft 15 is rotated to the part extending to the top of the fixed seat 13, so as to drive the foldable filter plate 16 inside the oil tank 2 to rotate, so that the rotating shaft is rotated to be overlapped with the surface of the fixed filter plate 14, thereby reducing the width of the whole filter membrane plate, and after the fixing bolt connected between the oil tank 2 and the fixed seat 13 is loosened, the worker can upwards take out the inside of the oil tank 2 from the fixed seat 13, and replace the fixed filter plate 14 and the foldable filter plate 16.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a mould heating device is used in aluminium alloy processing, includes whole shell (1), oil tank (2), heating pipe (5) and charge pump (8), its characterized in that: the integral shell comprises an integral shell (1), wherein an oil tank (2) is arranged inside the integral shell (1), an oil outlet pipeline (3) is connected to the left side of the oil tank (2), a heat storage tank (4) is connected to the tail end of the oil outlet pipeline (3), a heating pipe (5) is arranged inside the heat storage tank (4), a heat preservation shell (6) is arranged outside the heat storage tank (4), an oil inlet pipeline (7) is connected to the right side of the heat storage tank (4), an electric pump (8) is connected to the tail end of the oil inlet pipeline (7), a cooling box (9) is connected above the electric pump (8), a first cooling pipe (10) is arranged outside the cooling box (9), a second cooling pipe (11) is arranged inside the cooling box (9), an oil return pipeline (12) is arranged inside the integral shell (1), a fixing seat (13) is connected inside the oil tank (2), and a fixing filter plate (14) is connected below the fixing seat (13, the front surface and the rear surface of the fixed filter plate (14) are both connected with rotating shafts (15), and the outside of each rotating shaft (15) is connected with a folding filter plate (16).

2. The die heating device for processing the aluminum profile according to claim 1, characterized in that: the top end face of the oil tank (2) is located outside the integral shell (1), the integral shell (1) and the oil tank (2) form an integral structure, and the inside of the oil tank (2) is communicated with the heat storage tank (4) through 2 oil outlet pipelines (3).

3. The die heating device for processing the aluminum profile according to claim 1, characterized in that: the heat storage tank (4), the cooling box (9) and the oil return pipeline (12) are all provided with a heat preservation shell (6), the heat preservation shell (6) is of a double-layer structure, and rock wool materials are filled in the heat preservation shell (6).

4. The die heating device for processing the aluminum profile according to claim 1, characterized in that: the outer surface of the cooling box (9) is spirally surrounded by a first cooling pipe (10), the head end and the tail end of the first cooling pipe (10) are both located outside the integral shell (1), and the first cooling pipe (10) is located inside the heat preservation shell (6).

5. The die heating device for processing the aluminum profile according to claim 1, characterized in that: the fixing seat (13) and the oil tank (2) form a sliding structure, the fixing seat (13) and the fixed filter plate (14) form an integrated structure, and the width of the fixed filter plate (14) is the same as that of the fixing seat (13).

6. The die heating device for processing the aluminum profile according to claim 1, characterized in that: the rotating shaft (15) penetrates through the fixed seat (13) and extends to the top, the rotating shaft (15) drives the folding filter plate (16) and the fixed filter plate (14) to form a rotating structure, and the width of the fixed filter plate (14) is larger than that of the folding filter plate (16).