CN219944171U - Aluminum profile extruder - Google Patents

Abstract

The utility model discloses an aluminum profile extruder, which belongs to the technical field of aluminum profile extruders and comprises a support frame, wherein a multi-rod hot shearing furnace is arranged on one side above the support frame, an extrusion box is fixedly arranged in the middle of the upper part of the support frame, an extrusion mechanism capable of extruding aluminum rods is arranged in the extrusion box, and an air cooling mechanism capable of rapidly cooling aluminum profiles is arranged above the support frame. According to the utility model, the extrusion mechanism is used for continuously conveying the aluminum bars by mutually matching the two symmetrical extrusion cylinders, meanwhile, the hydraulic telescopic rod is used for driving the shaping die to punch and shape the surfaces of the aluminum bars in the conveying process, five aluminum profiles can be extruded at one time, the working efficiency is high, and through the two implementation modes, the air cooling mechanism and the water cooling mechanism, the extrusion cylinders rotate while the aluminum profiles rotate, so that the surfaces of the aluminum profiles are in full contact with cold air or in contact with cold water, and the aluminum profiles are cooled uniformly and more efficiently.

Description

Aluminum profile extruder

Technical Field

The utility model belongs to the technical field of aluminum profile extruders, and particularly relates to an aluminum profile extruder.

Background

The aluminum profile is an alloy material taking aluminum as a main component, aluminum bars are extruded through hot melting to obtain aluminum materials with different cross section shapes, when the aluminum profile is extruded and molded, the aluminum bars are required to be heated, and in order to extrude the heated aluminum bars and cool the heated aluminum bars, an aluminum profile extruder is provided.

According to the technical scheme, the novel aluminum profile extruder comprises a bottom plate and an extrusion cylinder, wherein the extrusion cylinder is arranged on the left side of the upper surface of the bottom plate, the right side of the upper surface of the bottom plate is fixedly connected with two fixing plates, the novel aluminum profile extruder is provided with a first roller wheel which is driven to rotate through a motor, the first roller wheel drives an aluminum profile to move through a conveying belt in the rotating process, when the novel aluminum profile extruder moves to the lower side of a spraying assembly, a first water pump pumps clear water in a water storage tank and sprays out from a plurality of spraying nozzles to cool the aluminum profile, redundant water flows into the water storage tank through water leakage holes in the conveying belt, meanwhile, a second water pump pumps warm water in the water storage tank, and then the cooled water is sent into the water storage tank after being cooled through a refrigerator, so that the water in the water storage tank is cooled, the water can be recycled, and then a hot air blower sprays hot air from the upper surface and the lower surface of the aluminum profile to dry the aluminum profile, so that the residual water is prevented from being in contact with the aluminum profile for a long time, and then the problem of affecting the quality of the aluminum profile is solved.

But it is found through research that: the device carries aluminium alloy through the conveyer belt, and in the transportation, aluminium alloy can't rotate for aluminium alloy periphery contact cold water is insufficient, and cooling efficiency is lower, and the device once only can extrude the cooling to an aluminium alloy simultaneously, and work efficiency is lower, consequently provides a novel device and solves this problem.

Disclosure of Invention

The utility model aims at: in order to solve the problem of low working efficiency, an aluminum profile extruder is provided.

The technical scheme adopted by the utility model is as follows: an aluminum profile extruder comprises a support frame, wherein a multi-rod hot shearing furnace is arranged on one side above the support frame, and an extrusion box is fixedly arranged in the middle of the upper part of the support frame;

the extrusion box is internally provided with an extrusion mechanism capable of extruding aluminum bars, and an air cooling mechanism capable of rapidly cooling the aluminum profiles is arranged above the supporting frame.

The extrusion mechanism comprises an extrusion cylinder, a connecting plate, a connecting rod, servo electric cylinders, servo motors, feed rollers and motors, wherein the extrusion cylinder is connected with the two sides of the inside of an extrusion box in a symmetrical mode, the inside of the extrusion cylinder is symmetrically provided with the connecting plate, the connecting plate is arranged in a U-shaped mode, the two sides of the upper side of the connecting plate are fixedly provided with the connecting rod, the other end of the connecting rod extends to the outside of the extrusion cylinder through a through hole, the servo electric cylinders are symmetrically arranged outside the extrusion cylinder, the tail ends of the servo electric cylinders are connected with the connecting rod through the connecting block, one side of the connecting plate is rotationally connected with the feed rollers, at least five feed rollers are arranged on one side of the connecting plate, the adjacent feed rollers are connected through chain transmission, the outside of the feed rollers is nested with chain wheels meshed with the chains, one side of the connecting plate is provided with the motors, an output shaft of the motors is connected with the corresponding extrusion cylinder in a transmission mode through the chains, the outside of the extrusion cylinder and the outside of the servo motors are nested with chain wheels meshed with the corresponding extrusion cylinder, the two symmetrical extrusion cylinders are a group of the extrusion cylinder is provided with a hydraulic forming die, the hydraulic forming die is fixedly arranged in the middle part of the extrusion cylinder is correspondingly provided with a plurality of telescopic die, and the telescopic die is fixedly arranged in the telescopic die is arranged at the tail ends of the telescopic die.

The air cooling mechanism comprises an air cooler and a flow guide cavity, the air cooler is arranged on one side of the lower portion of the supporting frame, the flow guide cavity is fixedly arranged at the position, corresponding to the air cooler, of the other side of the upper portion of the supporting frame, openings for aluminum profiles to penetrate through are formed in two sides of the flow guide cavity, a connecting shaft is connected in a rotating mode, one end of the connecting shaft penetrates through one side of the flow guide cavity and extends into the extrusion box, the connecting shaft is connected with an extrusion cylinder in a transmission mode through a chain, the outside of the extrusion cylinder and the outside of the connecting shaft are nested with chain wheels meshed with the chain, impellers are nested and arranged on the outside of the connecting shaft and the corresponding position of the flow guide cavity in an equidistant mode, and the number of the air cooler and the flow guide cavity is five.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. according to the utility model, the two symmetrical extrusion cylinders are matched with each other to continuously convey the aluminum bar through the extrusion mechanism, meanwhile, the hydraulic telescopic rod drives the shaping die to punch and shape the surface of the aluminum bar in the conveying process, five aluminum profiles can be extruded at one time, and the working efficiency is high.

2. According to the utility model, through the two embodiments, the air cooling mechanism and the water cooling mechanism, the extrusion cylinder rotates and simultaneously rotates the aluminum profile, so that the surface of the aluminum profile is fully contacted with cold air or cold water, and the aluminum profile is cooled uniformly and more efficiently.

Drawings

FIG. 1 is a schematic and simplified partial perspective view of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram showing the overall side sectional structure of a first embodiment of the present utility model;

FIG. 3 is a schematic diagram of the enlarged construction of FIG. 2 at A in accordance with the present utility model;

FIG. 4 is a schematic and schematic illustration of a partial side cross-sectional structure of an extrusion barrel according to the present utility model;

FIG. 5 is a schematic diagram of a partial side sectional structure of the air cooling mechanism of the present utility model;

FIG. 6 is a schematic diagram showing the overall side sectional structure of a second embodiment of the present utility model.

The marks in the figure: 1. a support frame; 101. a multi-rod hot shearing furnace; 102. an extrusion box; 1021. a hydraulic telescopic rod; 1022. shaping a mold; 2. an extrusion barrel; 201. a connecting plate; 2011. a connecting rod; 2012. a servo electric cylinder; 202. a servo motor; 203. a feed roller; 2031. a motor; 3. an air cooler; 301. a diversion cavity; 3011. a connecting shaft; 3012. an impeller; 4. a liquid tank; 401. a water chiller; 402. a spray tank; 403. a water pump A; 404. a water pump B; 4041. a spray head.

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.

In the utility model, the following components are added:

embodiment one:

referring to fig. 1-6, an aluminum profile extruder comprises a support frame 1, wherein a multi-rod hot shearing furnace 101 is arranged on one side above the support frame 1, and an extrusion box 102 is fixedly arranged in the middle of the upper part of the support frame 1;

the extrusion box 102 is internally provided with an extrusion mechanism capable of extruding aluminum bars, and an air cooling mechanism capable of rapidly cooling aluminum profiles is arranged above the support frame 1.

Referring to fig. 1, 2, 3, and 4, in this embodiment, the extruding mechanism includes an extruding cylinder 2, a connecting plate 201, a connecting rod 2011, a servo electric cylinder 2012, a servo motor 202, feeding rollers 203 and a motor 203, wherein two sides inside the extruding box 102 are symmetrically and rotationally connected with the extruding cylinder 2, the inside of the extruding cylinder 2 is symmetrically provided with the connecting plate 201, the connecting plate 201 is in a U-shaped arrangement, two sides above the connecting plate 201 are fixedly provided with the connecting rod 2011, the other end of the connecting rod 2011 extends to the outside of the extruding cylinder 2 through a through hole, the servo electric cylinder 2012 is symmetrically arranged outside the extruding cylinder 2, the tail end of the servo electric cylinder 2012 is connected with the connecting rod 2011 through a connecting block, one side of the connecting plate 201 is rotationally connected with the feeding rollers 203, one side of the connecting plate 201 is provided with at least five feeding rollers 203, adjacent feeding rollers 203 are in transmission connection through chains, a sprocket meshed with the chain is nested outside the feeding rollers 203, one side of the connecting plate 201 is provided with a motor 2031, and an output shaft of the motor 2031 is connected with the corresponding feeding roller 203 through a coupling;

the two sides of the inside of the extrusion box 102 are symmetrically embedded and provided with servo motors 202, the output shafts of the servo motors 202 are in transmission connection with corresponding extrusion barrels 2 through chains, chain wheels meshed with the chains are nested outside the extrusion barrels 2 and outside the output shafts of the servo motors 202, two symmetrical extrusion barrels 2 are in a group, five groups of extrusion barrels 2 are all arranged, the middle part of each extrusion barrel 2 is communicated with the corresponding part of the discharge hole of the multi-rod hot shear furnace 101, a hydraulic telescopic rod 1021 is embedded and arranged in the middle part of the inside of the extrusion box 102, the tail end of each hydraulic telescopic rod 1021 is fixedly provided with a shaping die 1022, and the number of the hydraulic telescopic rods 1021 and the number of the shaping dies 1022 are five;

the staff assists to put the aluminum bar into the multi-bar hot-shearing furnace 101 from the inlet of the multi-bar hot-shearing furnace 101, the multi-bar hot-shearing furnace 101 heats the aluminum bar to about 450 ℃, and keeps the aluminum bar warm for about one hour, then the multi-bar hot-shearing furnace 101 is matched with a pushing structure to push the aluminum bar out of the outlet of the multi-bar hot-shearing furnace 101, one end of the aluminum bar penetrates into the corresponding extrusion cylinder 2, the servo cylinder 2012 contracts to drive the connecting rod 2011 and the connecting plate 201 to move towards the aluminum bar until the feeding roller 203 contacts with the aluminum bar, then the motor 2031 works to drive the feeding roller 203 to rotate, the clamping aluminum bar slowly moves towards one side, one end of the aluminum bar penetrates out of the other side of the extrusion cylinder 2, and then extrusion molding is carried out on the aluminum bar according to requirements;

the hydraulic telescopic rod 1021 stretches to drive the shaping mold 1022 to press on the surface of an aluminum rod, the aluminum rod is subjected to compression molding, the servo motor 202 drives the extrusion cylinder 2 to rotate so as to drive the aluminum rod to rotate, the hydraulic telescopic rod 1021 drives the shaping mold 1022 to perform compression molding on the periphery of the aluminum rod, then the motor 2031 continues to work, the feeding roller 203 clamps one end of the aluminum rod to penetrate from the inside of the other extrusion cylinder 2, the feeding roller 203 in the other extrusion cylinder 2 clamps the aluminum rod simultaneously and conveys the aluminum rod, and in this way, the shaping position of the aluminum rod is determined according to the required shape of the aluminum rod, the feeding roller 203 in the extrusion cylinder 2 assists in conveying the aluminum rod for a certain distance until the shaping position of the aluminum rod corresponds to the shaping mold 1022, and the hydraulic telescopic rod 1021 drives the shaping mold 1022 to shape the aluminum rod, so that the shaping extrusion work can be performed on five aluminum rods simultaneously.

Referring to fig. 1, 2, 3 and 5, in this embodiment, the air cooling mechanism includes an air cooler 3 and a diversion cavity 301, the air cooler 3 is installed on one side below the support frame 1, the diversion cavity 301 is fixedly installed on the other side above the support frame 1 and corresponding to the air cooler 3, openings for penetrating aluminum profiles are provided on two sides of the diversion cavity 301, a connecting shaft 3011 is rotatably connected inside the diversion cavity 301, one end of the connecting shaft 3011 penetrates through one side of the diversion cavity 301 and extends to the inside of the extrusion box 102, the connecting shaft 3011 is in transmission connection with the adjacent extrusion cylinder 2 through a chain, chain wheels meshed with the chain are nested on the outside of the extrusion cylinder 2 and the outside of the connecting shaft 3011, impellers 3012 are nested and installed on the corresponding positions of the outer part of the connecting shaft 3011 and the diversion cavity 301 at equal intervals, the air cooler 3 and the number of the diversion cavities 301 are five, a half of the surfaces of the diversion cavity 301 are penetrated with through grooves with large and small and large outer surfaces, and small penetrating grooves can increase airflow velocity;

one end of the aluminum profile subjected to stamping shaping penetrates out of one side of the second extrusion barrel 2 and penetrates into the corresponding diversion cavity 301, the air cooler 3 works to blow cold air into the diversion cavity 301, the extrusion barrel 2 rotates and drives the connecting shaft 3011 to rotate, the impeller 3012 outside the connecting shaft 3011 breaks up the cold air blown out of the air cooler 3, the flowing speed and the flowing area of the cold air are increased, the extrusion barrel 2 rotates simultaneously, the surface of the aluminum profile is enabled to be in full contact with the cold air, the purpose of rapid cooling is achieved, and redundant air in the diversion cavity 301 flows out from openings on two sides of the diversion cavity 301.

Embodiment two:

referring to fig. 6, in the present utility model, there is another embodiment in which the surface of the aluminum profile is cooled by the air cooling mechanism, and the surface of the aluminum profile is cooled by the water cooling mechanism;

the water cooling mechanism comprises a liquid tank 4, a water cooler 401, a spray tank 402, a water pump A403, a water pump B404 and a spray nozzle 4041, wherein the spray tank 402 is fixedly arranged on the other side above the support frame 1, the liquid tank 4 is fixedly arranged below the support frame 1, the water pump A403 is connected to the outlet of the liquid tank 4, the water cooler 401 is fixedly arranged below the support frame 1, the water pump A403 is connected with the water cooler 401 through a pipeline, the water pump B404 is connected to the outlet of the water cooler 401, the spray nozzle 4041 is embedded in the spray tank 402, the spray nozzle 4041 is connected with the water pump B404 through a pipeline, and the number of the spray tanks 402 is five;

one end of the aluminum profile subjected to stamping shaping penetrates out of one side of the second extrusion cylinder 2 and penetrates into the corresponding spraying groove 402, water in the liquid groove 4 is led into the water chiller 401, is cooled by the water chiller 401 and is led out through the water pump B404, and is sprayed on the surface of the aluminum profile in the spraying groove 402 through the spray head 4041, the extrusion cylinder 2 rotates simultaneously, the surface of the aluminum profile is enabled to be in contact with cold water, the purpose of cooling is achieved, and redundant water flows into the liquid groove 4 to be collected, and the circulation is achieved.

Referring to fig. 1, 2, 3, 4 and 6, in this embodiment, the multi-rod hot-shearing furnace 101, the servo electric cylinder 2012, the servo motor 202, the motor 2031, the air cooler 3, the water chiller 401, the water pump a403 and the water pump B404 are all electrically connected with an external power supply through a control panel, and the hydraulic telescopic rod 1021 is connected with an external hydraulic pump.

Working principle: firstly, a worker assists to put an aluminum bar into a multi-bar hot-shearing furnace 101 from an inlet of the multi-bar hot-shearing furnace 101, the multi-bar hot-shearing furnace 101 heats the aluminum bar to about 450 ℃, the aluminum bar is insulated for about one hour, then the multi-bar hot-shearing furnace 101 is matched with a pushing structure to push the aluminum bar out of an outlet of the multi-bar hot-shearing furnace 101, one end of the aluminum bar penetrates into a corresponding extrusion cylinder 2, a servo cylinder 2012 contracts to drive a connecting rod 2011 and a connecting plate 201 to move towards the aluminum bar until a feeding roller 203 contacts with the aluminum bar, a motor 2031 works to drive the feeding roller 203 to rotate to clamp the aluminum bar to slowly move towards one side, one end of the aluminum bar penetrates out of the other side of the extrusion cylinder 2, then extrusion molding is carried out on the aluminum bar as required, a hydraulic telescopic rod 1021 is stretched to drive a shaping mold 1022 to be pressed on the surface of the aluminum bar, the extrusion cylinder 2 is driven by a servo motor 202 to rotate, further driving the aluminum rod to rotate, the hydraulic telescopic rod 1021 drives the shaping mold 1022 to punch and shape the periphery of the aluminum rod, then the motor 2031 continues to work, the feeding roller 203 clamps one end of the aluminum rod to penetrate from the inside of the other extrusion cylinder 2, the feeding roller 203 in the other extrusion cylinder 2 clamps the aluminum rod at the same time, the aluminum rod is conveyed, and the feeding roller 203 in the extrusion cylinder 2 reciprocates in such a way, the shaping position of the aluminum rod is determined according to the shape of the aluminum rod, the feeding roller 203 in the extrusion cylinder 2 assists in conveying the aluminum rod for a certain distance until the shape position of the aluminum rod is required to correspond to the shaping mold 1022, the hydraulic telescopic rod 1021 drives the shaping mold 1022 to shape the aluminum rod, the five aluminum rods can be simultaneously shaped and extruded, finally one end of the aluminum rod which is punched and shaped penetrates out from one side of the second extrusion cylinder 2 and penetrates into the corresponding flow guiding cavity 301, the air cooler 3 works, and cold air is blown into the flow guiding cavity 301, the extrusion tube 2 rotates and drives the connecting shaft 3011 to rotate, the impeller 3012 outside the connecting shaft 3011 breaks up cold air blown out by the air cooler 3, the flowing speed and the flowing area of the cold air are increased, the extrusion tube 2 rotates and simultaneously rotates an aluminum profile, the surface of the aluminum profile is fully contacted with the cold air, the purpose of rapid cooling is achieved, redundant air in the diversion cavity 301 flows out from openings at two sides of the diversion cavity 301, another implementation mode exists, one end of the aluminum profile subjected to stamping shaping penetrates out from one side of the second extrusion tube 2 and penetrates into a corresponding water pump A403 in a spraying groove 402, water in the liquid groove 4 is led into the cold water machine 401, the water is led out through a water pump B404 after being cooled by the cold water machine 401, and the aluminum profile is sprayed on the surface of the aluminum profile in the spraying groove 402 through a spray head 4041, the aluminum profile rotates and simultaneously, the surface of the aluminum profile is fully contacted with the cold water, the purpose of cooling is achieved, and redundant water flows into the liquid groove 4 for collection, and thus circulation is achieved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. An aluminum profile extruder, includes support frame (1), its characterized in that: a multi-rod hot shearing furnace (101) is arranged on one side above the supporting frame (1), and an extrusion box (102) is fixedly arranged in the middle of the upper part of the supporting frame (1);

an extrusion mechanism capable of extruding the aluminum bar is arranged in the extrusion box (102), and an air cooling mechanism capable of rapidly cooling the aluminum profile is arranged above the support frame (1);

the extrusion mechanism comprises an extrusion cylinder (2), a connecting plate (201), a connecting rod (2011), a servo electric cylinder (2012), a servo motor (202), a feed roller (203) and a motor (2031);

the extrusion box is characterized in that extrusion cylinders (2) are symmetrically connected to the two sides of the inside of the extrusion box (102) in a rotating mode, connecting plates (201) are symmetrically arranged inside the extrusion cylinders (2), the connecting plates (201) are arranged in a U-shaped mode, connecting rods (2011) are fixedly arranged on the two sides above the connecting plates (201), the other ends of the connecting rods (2011) extend to the outside of the extrusion cylinders (2) through holes, servo cylinders (2012) are symmetrically arranged outside the extrusion cylinders (2), the tail ends of the servo cylinders (2012) are connected with the connecting rods (2011) through connecting blocks, one side of each connecting plate (201) is rotationally connected with a feeding roller (203), at least five feeding rollers (203) are arranged on one side of each connecting plate (201), adjacent feeding rollers (203) are connected through chain transmission, chain wheels meshed with the chains are nested outside the feeding rollers (203), a motor (2031) is arranged on one side of each connecting plate (201), and an output shaft of the motor (2031) is connected with the corresponding feeding roller (203) through a coupler;

the servo motor (202) is symmetrically embedded and installed on two sides of the inside of the extrusion box (102), an output shaft of the servo motor (202) is in transmission connection with a corresponding extrusion cylinder (2) through a chain, and chain wheels meshed with the chain are nested and arranged on the outside of the extrusion cylinder (2) and the outside of the output shaft of the servo motor (202).

2. An aluminum profile extruder as in claim 1, wherein: two symmetrical extrusion barrels (2) are in a group, five groups of extrusion barrels (2) are shared, and a through hole is formed in the middle of each extrusion barrel (2) and corresponds to a discharge hole of the multi-rod hot shearing furnace (101).

3. An aluminum profile extruder as in claim 1, wherein: the middle part embedding is installed in extrusion case (102) hydraulic telescoping rod (1021), shaping mould (1022) is fixed to hydraulic telescoping rod (1021) end, and hydraulic telescoping rod (1021) and shaping mould (1022) quantity is five.

4. An aluminum profile extruder as in claim 1, wherein: the air cooling mechanism comprises an air cooler (3) and a diversion cavity (301);

an air cooler (3) is arranged on one side below the support frame (1), a diversion cavity (301) is fixedly arranged at the position, corresponding to the air cooler (3), of the other side above the support frame (1), and openings for the aluminum profile to penetrate through are formed in two sides of the diversion cavity (301).

5. An aluminum profile extruder as in claim 4, wherein: the inside rotation of water conservancy diversion chamber (301) is connected with connecting axle (3011), and connecting axle (3011) one end runs through water conservancy diversion chamber (301) one side and extends to extrusion case (102) inside, and connecting axle (3011) are connected with the extrusion section of thick bamboo (2) transmission that is close to through the chain, and the outside of extrusion section of thick bamboo (2) and connecting axle (3011) outside all nest be provided with chain engagement's sprocket, impeller (3012) are installed in the outside of connecting axle (3011) and the equidistance nest of water conservancy diversion chamber (301) corresponding department.

6. An aluminum profile extruder as in claim 4, wherein: the number of the air cooler (3) and the number of the diversion cavities (301) are five.