CN109396205B

CN109396205B - Aluminum profile extruder and using method thereof

Info

Publication number: CN109396205B
Application number: CN201811543024.6A
Authority: CN
Inventors: 曹威; 申兵; 张博
Original assignee: ZHAOQING KEDA MACHINERY MANUFACTURING Co Ltd
Current assignee: ZHAOQING KEDA MACHINERY MANUFACTURING CO., LTD.
Priority date: 2018-12-17
Filing date: 2018-12-17
Publication date: 2020-03-27
Anticipated expiration: 2038-12-17
Also published as: CN109396205A

Abstract

The invention provides an aluminum profile extruder and a using method thereof, which comprises an extrusion molding machine and a water cooling area, the air-dry district, water supply system and automatic control, it has the feed inlet to just opening on the water-cooling district lateral wall of extrusion moulding machine's play feed cylinder, water-cooling district and air-dry district separate through the baffle, it has the intercommunicating pore to open in the middle of the baffle, it has the discharge gate to open the district lateral wall to air-dry, install atomizing nozzle and the water shower nozzle of surface cooling processing about the section bar in the water-cooling district, install the supply-air outlet of processing of blowing to the section bar about the surface is installed in the air-dry district, the slope sets up the guide plate between water-cooling district and the air-dry district, the guide plate end is connected with water supply system's back flow, the back flow is connected with water tank one, be equipped with the baffle in the water tank one, water. The extruder provided by the invention improves the heat dissipation efficiency and the resource utilization rate, has high automation degree and convenient use, and is beneficial to popularization and use.

Description

Aluminum profile extruder and using method thereof

Technical Field

The invention belongs to the field of production and processing of aluminum profiles, and particularly relates to an aluminum profile extruder and a using method thereof.

Background

At present, an aluminum profile extruder is mainly used for producing aluminum profiles with different specifications, the processing method is used for connecting an aluminum bar on a fixed forming die for extrusion forming, when the aluminum profile is extruded from an outlet of the aluminum bar extruder, due to the fact that the hardness of the profile is not enough due to high temperature, a set of profile conveying device is needed for finishing the final shaping conveying work of the aluminum profile. The common shaping device mainly adopts an air-cooled roller type conveying shaping device, and the structure of the shaping device mainly comprises a roller type conveyor, a fan and the like. Because the temperature of the aluminum profile is very high when the aluminum profile is extruded from the outlet of the extruder, and the air-cooled setting line is used alone, on one hand, the investment is required to be large, namely, the plant building area is enlarged, and large space resources are occupied; on the other hand, the heat dissipation is blown through wind power, the utilization rate of wind energy is low, the cooling effect is poor, and the yield is influenced. Therefore, a new cooling device is needed, which can improve the heat dissipation efficiency and the resource utilization rate.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the aluminum profile extruder and the use method thereof, which shorten the cooling route, improve the heat dissipation efficiency and simultaneously improve the resource utilization rate.

In order to achieve the purpose, the invention adopts the following technical scheme:

an aluminum profile extruder comprises an extrusion molding machine, a water cooling area, an air drying area, a water supply system and an automatic controller, wherein a feed inlet is formed in the side wall of the water cooling area, which is opposite to a discharge cylinder of the extrusion molding machine, the water cooling area and the air drying area are separated by a partition plate, a communication hole is formed in the middle of the partition plate for a profile to pass through, a discharge hole is formed in the side wall of the air drying area, the discharge cylinder, the feed inlet, the communication hole and the discharge hole are on the same horizontal plane, and atomizing nozzles and water nozzles capable of cooling the upper surface, the lower surface, the left surface and the right surface of the profile are installed in the water cooling area from top to bottom; air supply outlets of an air feeder capable of blowing air to the upper and lower surfaces of the section are arranged at the upper and lower parts in the air drying area; the water supply system is provided with a first water tank, a second water tank and a third water tank, a baffle is arranged in the first water tank, a filter is connected between the first water tank and the second water tank, the second water tank and the third water tank are both connected with a cooling device, and the cooling device is connected with a water supply pipe.

Preferably, atomizer installs and is close to the last top and the lower bottom of feed inlet, atomizer includes inlet channel, just right respectively two sets of three main atomizer of surface about the section bar and just right respectively two sets of three side atomizer of side about the section bar hug closely the outer wall in water-cooling district is equipped with the supply channel, the supply channel is connected with inlet channel.

Preferably, the water shower nozzle is installed and is close to the last top and the lower bottom setting of baffle, the water shower nozzle with atomizer's position and quantity set up the same, including inhalant canal, respectively just right two sets of three main water shower nozzles of surface about the section bar and respectively just right two sets of three side water shower nozzles of side about the section bar.

Preferably, be equipped with humidity transducer in the air-dry district, four angles in the air-dry district are equipped with the dehumidifier, humidity transducer with the dehumidifier with the automatic control electricity is connected.

Preferably, a conveying track is horizontally arranged to penetrate through the water cooling area and the air drying area, and the conveying track is composed of a plurality of conveying rods arranged at equal intervals and conveying rollers on the conveying rods.

Preferably, a guide plate is obliquely arranged between the water cooling area and the air drying area in a penetrating mode, and the tail end of the guide plate is connected with a return pipe of the water supply system.

Preferably, one bottom of the water tank is conical, a drain valve is arranged at the bottom of the water tank, the baffle in the water tank comprises a U-shaped baffle with one end fixed to the top of the right side in the water tank, a vertical downward baffle is arranged at the lower end of the U-shaped baffle, and a vertical upward baffle is arranged at an outlet of the water tank, which is close to the bottom of the water tank.

Preferably, an acidimeter is arranged in the second water tank, a drain valve is arranged at the bottom of the second water tank, the second water tank is connected with the cooling device through a first water pump, a third water tank is connected with the cooling device through a second water pump, the cooling device is connected with a water supply pipe provided with a third water pump, the water supply pipe is connected with the water supply pipeline, and the drain valve, the acidimeter, the first water pump and the second water pump are electrically connected with the automatic controller.

In addition, the use method of the aluminum profile extruder is further provided, and the use method comprises the following steps:

1) the section bar enters the water cooling area through the feed inlet under the conveying of the conveying track, and the upper surface, the lower surface, the left surface and the right surface of the section bar are subjected to spraying cooling treatment by the atomizing nozzles and the water nozzles in sequence;

2) the profile subjected to cooling treatment passes through the communicating hole to enter the air drying area, the upper surface and the lower surface of the profile are subjected to air blowing treatment by the air supply outlet, meanwhile, the automatic controller automatically controls the starting and the closing of the dehumidifier according to the humidity value monitored by the humidity sensor, and the profile is dried and then extends out of the discharge hole to enter the next operation;

3) the return water on the guide plate returns to the first water tank through the return pipe, the return water is limited by the baffle plate and then enters the second water tank through the filter, and the water in the second water tank is cooled by the cooling device and then is supplied to the water supply pipeline in a circulating manner;

4) and the automatic controller automatically controls the starting and the closing of the drain valve, the first water pump and the second water pump according to the PH value data monitored by the acidimeter.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention carries out spray cooling treatment of mist and water in all directions from top to bottom and from left to right, further obtains further cooling treatment while drying the water on the upper surface and the lower surface of the section bar in the air drying area, namely combines the atomizing nozzle, the water nozzle and the air drying treatment of the air drying area, and carries out a series of cooling and drying treatment on the section bar, thereby not only improving the heat dissipation efficiency of the section bar, but also ensuring the drying of the surface of the section bar when the section bar comes out from the discharge port.

2. The automatic controller controls the dehumidifier to work according to the data of the humidity sensor, the influence of the fan on the drying effect of the section bar due to the large humidity in the drying area is avoided, and the automation degree is high.

3. The water in the first water tank is subjected to primary sedimentation purification through the flow limiting effect of the baffle, and then is filtered by the filter to participate in the recycling of the spray water, so that the recycling rate of the spray water is improved, the water resource is saved, and the residues deposited at the bottom in the first water tank can be discharged and recycled, so that the energy is saved and the environment is protected; meanwhile, when the acidimeter monitors that the water in the water tank II does not meet the standard, the water tank III is used as a standby water tank, so that the using amount and the quality of spray water are guaranteed, and the section is prevented from being corroded due to the fact that the section is sprayed and cooled by using meta-acid or meta-alkali water.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a longitudinal sectional view of the atomizer of the present invention;

FIG. 3 is a top view of the delivery track of the present invention;

fig. 4 is a control structure diagram in the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the present embodiment provides an aluminum profile extrusion press, which includes an extrusion forming machine 1, a water cooling area 2, an air drying area 3, a water supply system 4 and an automatic controller 5, a feed inlet 26 is opened on the side wall of the water cooling area 2 facing the discharge barrel 11 of the extrusion forming machine 1, the water cooling area 2 and the air drying area 3 are separated by a partition plate 25, a communicating hole 27 is formed in the middle of the partition plate 25 for the sectional material to pass through, the side wall of the air drying area 3 is provided with a discharge hole 34, the discharge barrel 34, the feed inlet 26, the communication hole 27 and the discharge hole 34 are on the same horizontal plane, the outer wall 22 of the water cooling area 2, the outer wall 22 of the air drying area 3 and the partition plate 25 are made of heat insulating materials, a water supply pipeline 21 is arranged on the outer wall 22 close to the water cooling area 2, the upper part and the lower part in the water cooling zone 2 are provided with an atomizing nozzle 23 and a water nozzle 24 which can cool the upper surface, the lower surface, the left surface and the right surface of the section bar 28; the upper part and the lower part in the air drying area 3 are provided with air outlets 31 of an air feeder which can blow air to the upper surface and the lower surface of the section bar 28; the water supply system 4 is provided with a first water tank 46, a second water tank 43 and a third water tank 44, a baffle 47 is arranged in the first water tank 46, a filter 42 is connected between the first water tank 46 and the second water tank 43, the second water tank 43 and the third water tank 44 are both connected with a cooling device 45, and the cooling device 45 is connected with a water supply pipe 48.

Atomizer 23 is high pressure atomizer, atomizer 23 installs and is close to feed inlet 26's last top and bottom, atomizer 23 includes inhalant canal 231, just right respectively two sets of three main atomizer 23a of surface about the section bar 28 and just right respectively two sets of three side atomizer 23b of side about the section bar 28, main atomizer 23a with side atomizer 23b all with inhalant canal 231 communicates, inhalant canal 231 with supply pipeline 21 communicates.

Water shower nozzle 24 is installed and is being close to the last top and the lower bottom setting of baffle 25, water shower nozzle 24 with atomizer 23's position and quantity set up the same, including inhalant canal 231, respectively just right two sets of three main water shower nozzles of profile 28 upper and lower surface and respectively just right two sets of three side water shower nozzles of side about the profile, main water shower nozzle with side water shower nozzle all with inhalant canal 231 communicates.

The air supply outlet 31 is opposite to the upper surface and the lower surface of the section bar 28 for blowing air with a certain air quantity, a humidity sensor 36 is arranged in the air drying area 3, dehumidifier 32 is arranged at four corners in the air drying area 3, and the humidity sensor 36 and the dehumidifier 32 are electrically connected with the automatic controller 5.

A conveying track 33 is horizontally arranged through the water cooling area 2 and the air drying area 3, the conveying track 33 is composed of a plurality of conveying rods 331 which are arranged at equal intervals and conveying rollers 332 on the conveying rods 331, and the conveying track 33 is made of high-temperature-resistant and corrosion-resistant materials.

A guide plate 35 is obliquely arranged between the water cooling area 2 and the air drying area 3, and the tail end of the guide plate 35 is connected with a return pipe 41 of the water supply system 4.

The bottom of the first water tank 46 is conical, a first drain valve a is arranged at the bottom of the first water tank 46, the baffle 47 in the first water tank 46 comprises a U-shaped baffle 471, one end of the U-shaped baffle 471 is fixed to the top of the right side in the first water tank 46, a vertical downward baffle 472 is arranged at the lower end of the U-shaped baffle 471, and a vertical upward baffle 473 is arranged at an outlet, close to the first water tank 46, at the bottom of the first water tank 46.

An acidimeter 49 is arranged in the second water tank 43, a second drain valve b is arranged at the bottom of the second water tank 43, the second water tank 43 is connected with a cooling device 45 through a first water pump 4a, the third water tank 44 is connected with the cooling device 45 through a second water pump 4b, the cooling device 45 is connected with a water supply pipe 48 provided with a third water pump 4c, the water supply pipe 48 is connected with the water supply pipeline 21, the water supply pipeline 21 and the water supply pipe 48 are all made of heat-insulating materials, and the first drain valve a, the second drain valve b, the acidimeter 49, the first water pump 4a and the second water pump 4b are electrically connected with the automatic controller 5.

In addition, another embodiment also provides a using method of the aluminum profile extruding machine, which comprises the following steps:

1) the section bar 28 enters the water cooling area 2 through the feed port 26 under the conveying of the conveying track 33, the main atomizer 23a and the side atomizer 23b of the atomizer 23 perform omnibearing water spray treatment on the upper, lower, left and right surfaces of the section bar 28, namely, the section bar 28 is pre-cooled, the stress of the section bar 28 is reduced, the mechanical strength is improved, then the section bar 28 is also subjected to omnibearing water spray treatment through the water nozzle 24, the section bar is subjected to deep cooling treatment, the temperature of the section bar 28 is reduced to a certain temperature or below, and then the section bar enters the air drying area 3 through the conveying track 33 through the communication hole 27;

2) the air supply outlets 31 positioned at the upper and lower parts in the air drying area 3 perform air blowing treatment on the upper and lower surfaces of the profile 28, when the humidity sensor 36 in the air drying area 3 monitors that the humidity of the air in the air drying area 3 exceeds a predetermined value, the automatic controller 5 controls the four moisture extractors 32 to perform moisture extraction treatment on the air drying area 3, when the humidity sensor 36 monitors that the humidity in the air drying area 3 is reduced to another predetermined value, the automatic controller 5 controls the four moisture extractors 32 to stop the moisture extraction treatment, and the profile 28 is blown dry and then extends out through the discharge outlet 34 to enter the next operation;

3) during the cooling treatment of the profile 28 in the water cooling area 2 and the blowing treatment in the air drying area 3, the flow guide plate 35 in the air drying area 3 and the water cooling area 2 guides the return water falling from the profile 28 to the return pipe 41, the return water flows back to the first tank 46 through the return pipe 41, the water flowing into the first tank 46 firstly flows into the bottom of the first tank 46 after passing through the primary flow restriction of the U-shaped baffle 471, and is simultaneously subjected to the secondary flow restriction of the vertical downward baffle 472 and the tertiary flow restriction of the vertical upward baffle 473 near the outlet of the first tank 46, so that the speed of the water flow is reduced, solid impurities in the water flowing back into the first tank 46 are deposited on the conical bottom of the first tank 46 under the action of gravity, and the automatic controller 5 controls the first drain valve a to be opened, discharging the solid impurities; clear water at the upper middle layer of the first water tank 46 enters the filter 42 through a water pipe, enters the second water tank 43 after being filtered by the filter 42, is pumped into the cooling device 45 through the first water pump 4a, and is pumped into the water supply pipe 48 through the third water pump 4c to supply water for the water supply pipeline 21 in a circulating manner;

4) when the pH value of the water in the second water tank 43 is monitored by the acidimeter, the pH value of the water in the second water tank 43 is not in a preset range, the automatic controller 5 controls the first water pump 4a to stop working, the second water pump 4b is started simultaneously, the third water tank 44 pumps water to the cooling device, the water supply pipeline 21 supplies water, the automatic controller 5 controls the first water discharge valve a and the second water discharge valve b to be opened, the first water discharge valve a is closed after the water in the second water tank 43 is drained completely, and when the pH value of the water in the second water tank 43 is monitored by the acidimeter in the second water tank 43 and is in the preset range, the automatic controller 5 controls the second water pump 4b to stop working, and the first water pump 4a is started simultaneously, so that the water is pumped to the cooling device and supplies water to the water supply pipeline 21.

In conclusion, the invention shortens the cooling route, improves the heat dissipation efficiency and also improves the resource utilization rate; a standby water tank is provided, so that the quality of spray water is guaranteed; and the automation degree is high, the use is convenient, and the popularization and the use are facilitated.

It will be clear to a person skilled in the art that the scope of the present invention is not limited to the examples discussed in the foregoing, but that several amendments and modifications thereof are possible without deviating from the scope of the present invention as defined in the attached claims. While the invention has been illustrated and described in detail in the drawings and the description, such illustration and description are to be considered illustrative or exemplary and not restrictive. The invention is not limited to the disclosed embodiments.

Claims

1. An aluminum profile extruder comprises an extrusion molding machine (1), a water cooling area (2), an air drying area (3), a water supply system (4) and an automatic controller (5), it is characterized in that a feed inlet (26) is arranged on the side wall of the water cooling area (2) which is opposite to the discharge barrel (11) of the extrusion molding machine (1), the water cooling area (2) and the air drying area (3) are separated by a partition plate (25), a communication hole (27) is arranged in the middle of the clapboard (25) for the section bar (28) to pass through, the side wall of the air drying area (3) is provided with a discharge hole (34), the discharge barrel (11), the feed inlet (26), the communication hole (27) and the discharge hole (34) are on the same horizontal plane, atomizing nozzles (23) and water nozzles (24) which can cool the upper, lower, left and right surfaces of the section bar (28) are arranged in the water cooling zone (2) from top to bottom; air supply outlets (31) of an air feeder capable of blowing air to the upper surface and the lower surface of the section bar (28) are arranged at the upper part and the lower part in the air drying area (3); the water supply system (4) is provided with a first water tank (46), a second water tank (43) and a third water tank (44), a baffle (47) is arranged in the first water tank (46), a filter (42) is connected between the first water tank (46) and the second water tank (43), the second water tank (43) and the third water tank (44) are both connected with a cooling device (45), and the cooling device (45) is connected with a water supply pipe (48); the bottom of the first water tank (46) is conical, a first drain valve (a) is arranged at the bottom of the first water tank (46), the baffle (47) in the first water tank (46) comprises a U-shaped baffle (471) with one end fixed to the top of the right side in the first water tank (46), a vertical downward baffle (472) is arranged at the lower end of the U-shaped baffle (471), and a vertical upward baffle (473) is arranged at an outlet, close to the first water tank (46), at the bottom of the first water tank (46); the automatic water-saving device is characterized in that an acidity meter (49) is arranged in the second water tank (43), a second water discharge valve (b) is arranged at the bottom of the second water tank (43), the second water tank (43) is connected with the cooling device (45) through a first water pump (4a), a third water tank (44) is connected with the cooling device (45) through a second water pump (4b), the cooling device (45) is connected with a water supply pipe (48) provided with a third water pump (4c), the water supply pipe (48) is connected with the water supply pipeline (21), and the first water discharge valve (a), the second water discharge valve (b), the acidity meter (49), the first water pump (4a) and the second water pump (4b) are electrically connected with the automatic controller (5).

2. The aluminum profile extruding machine as claimed in claim 1, wherein the atomizing nozzles (23) are installed at the upper top and the lower bottom near the feed inlet (26), the atomizing nozzles (23) comprise a water inlet channel (231), two sets of three main atomizing nozzles (23a) which are respectively opposite to the upper and lower surfaces of the profile (28) and two sets of three side atomizing nozzles (23b) which are respectively opposite to the left and right sides of the profile (28), a water supply pipeline (21) is arranged on the outer wall (22) tightly attached to the water cooling area (2), and the water supply pipeline (21) is connected with the water inlet channel (231).

3. The aluminum profile extrusion machine according to claim 2, wherein the water nozzles (24) are arranged at the upper top and the lower bottom close to the partition plate (25), the positions and the number of the water nozzles (24) and the atomizing nozzles (23) are the same, and the water nozzles comprise water inlet channels (231), two groups of three main water nozzles respectively facing the upper surface and the lower surface of the profile (28) and two groups of three side water nozzles respectively facing the left side and the right side of the profile (28).

4. The aluminum profile extruding machine according to claim 3, wherein a humidity sensor (36) is arranged in the air drying area (3), a dehumidifier (32) is arranged at four corners inside the air drying area (3), and the humidity sensor (36) and the dehumidifier (32) are electrically connected with the automatic controller (5).

5. The aluminum profile extrusion machine according to claim 4, characterized in that a conveying track (33) is horizontally arranged through the water cooling area (2) and the air drying area (3), and the conveying track (33) consists of a plurality of conveying rods (331) which are arranged at equal intervals and conveying rollers (332) on the conveying rods (331).

6. The aluminum profile extrusion press as claimed in claim 5, characterized in that a deflector (35) is arranged obliquely through the space between the water cooling zone (2) and the air drying zone (3), the end of the deflector (35) being connected to the return pipe (41) of the water supply system (4).

7. The use method of the aluminum profile extruding machine as claimed in claim 6, is characterized by comprising the following steps:

1) the section bar (28) enters the water cooling area (2) through the feeding hole (26) under the conveying of the conveying track (33), and the upper surface, the lower surface, the left surface and the right surface of the section bar (28) are subjected to spraying cooling treatment by the atomizing nozzles (23) and the water nozzles (24) in sequence;

2) the profile (28) after being subjected to cooling treatment passes through the communication hole (27) and enters the air drying area (3), the upper surface and the lower surface of the profile (28) are subjected to air blowing treatment by the air supply opening (31), meanwhile, the automatic controller (5) automatically controls the starting and the closing of the dehumidifier (32) according to the humidity value monitored by the humidity sensor (36), and the profile (28) after being dried is extended out through the discharge hole (34) and enters the next step operation;

3) the return water on the guide plate (35) returns to the first water tank (46) through the return pipe (41), the return water is limited by the baffle (47) and then enters the second water tank (43) through the filter (42), and the water in the second water tank (43) is cooled by the cooling device (45) and then is supplied to the water supply pipeline (21) in a circulating mode;

4) and the automatic controller (5) automatically controls the starting and the closing of the first drain valve (a), the second drain valve (b), the first water pump (4a) and the second water pump (4b) according to the PH value data monitored by the acidimeter (49).