CN111906293A - Full-automatic diesel engine pouring production line - Google Patents

Abstract

The invention discloses a full-automatic diesel engine pouring production line, which comprises: the automatic casting machine comprises a smelting furnace, a molten iron conveying system, an automatic casting furnace, an automatic casting machine and an automatic cleaning and carrying robot, wherein the smelting furnace, the molten iron conveying system, the automatic casting furnace, the automatic casting machine and the automatic cleaning and carrying robot are sequentially arranged, the molten iron conveying system is used for conveying molten iron in the smelting furnace, the automatic casting machine is used for manufacturing a cylinder sleeve blank from the molten iron kept warm by the automatic casting furnace, the automatic cleaning and carrying robot is used for cleaning and carrying the cylinder sleeve blank manufactured by the automatic casting machine, the automatic casting machine comprises a station large turntable vertical to the ground, a plurality of mold placing positions are arranged on one side of the circular outer surface. The automatic molten iron conveying device is simple in structure, the molten iron conveying system is added, automatic molten iron conveying is achieved, the problem that labor intensity of workers in a diesel engine cylinder sleeve production line is high is solved, and full automation of the production line is achieved; the large rotary table of the station is arranged perpendicular to the ground, so that the occupancy rate of a workshop is reduced.

Description

Full-automatic diesel engine pouring production line

Technical Field

The invention relates to the field of diesel engine pouring, in particular to a full-automatic diesel engine pouring production line.

Background

The cylinder sleeve of the diesel engine is a key part of a heavy mechanical engine, and the performance of the engine is directly influenced by the product quality and the performance stability of the cylinder sleeve. The casting mold is used as a diesel engine cylinder sleeve casting production line. At present, a horizontal production line is mostly adopted in China, the horizontal production line occupies a large area, central shafts are distributed uniformly through central circular discs, the required strength of the central shafts is high, the reliability is poor, the maintenance is difficult, and the production line of the cylinder sleeves of the diesel engines in China is mostly produced in a manual or semi-automatic mode, so that the per-capita yield is low, and the labor intensity is high.

Disclosure of Invention

The invention aims to provide a full-automatic diesel engine pouring production line to solve the problems in the background technology.

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

a full-automatic diesel engine casting production line includes: the automatic casting machine comprises a smelting furnace, a molten iron conveying system, an automatic casting furnace, an automatic casting machine and an automatic cleaning and carrying robot, wherein the smelting furnace, the molten iron conveying system, the automatic casting furnace, the automatic casting machine and the automatic cleaning and carrying robot are sequentially arranged, the molten iron conveying system is used for conveying molten iron in the smelting furnace, the automatic casting machine is used for manufacturing a cylinder sleeve blank from the molten iron kept warm by the automatic casting furnace, the automatic cleaning and carrying robot is used for cleaning and carrying the cylinder sleeve blank manufactured by the automatic casting machine, the automatic casting machine comprises a station large turntable vertical to the ground, a plurality of mold placing positions are arranged on one side of the circular outer surface.

As a further scheme of the invention: the molten iron transportation system is used for transporting the molten iron of the smelting furnace to the automatic pouring furnace and comprises a transportation track, a transportation trolley, a ladle and a lifting control system of the ladle, the ladle and the lifting control system of the ladle are connected with one end of the transportation trolley, and one end of the transportation trolley, which is not connected with the ladle and the lifting control system of the ladle, is connected with the transportation track.

As a further scheme of the invention: the transportation track comprises a transportation main track and a transportation auxiliary track, the transportation track is arranged between the smelting furnace and the automatic pouring furnace, the transportation main track is arranged on one side of the automatic pouring furnace, and the transportation auxiliary track is arranged on one side of the transportation main track where the automatic pouring furnace is not arranged.

As a further scheme of the invention: the automatic pouring furnace comprises a furnace body, a water baffle, a plug rod control system and an inductor, wherein the inductor is used for preserving heat of molten iron in the furnace body, the water baffle and the plug rod control system are used for controlling release of the molten iron, and the water baffle is arranged below the plug rod control system and used for blocking a molten iron discharging port of the automatic pouring furnace.

As a further scheme of the invention: the automatic casting machine comprises an intermediate shaft, a station large turntable, a spraying working section, a casting working section, a cooling working section, a demolding working section, an automatic inoculation mechanism for releasing an inoculant to the casting working section, and an automatic temperature detection system for measuring the temperature of a mold demoulded from the demolding working section, wherein the station large turntable is arranged on the intermediate shaft and rotates around the intermediate shaft.

As a further scheme of the invention: the spraying workshop section includes automatic spraying mechanism with the other mould of automatic spraying mechanism places the position, automatic spraying mechanism is used for right the mould internal surface that the position was placed to the mould sprays, the pouring workshop section includes automatic pouring platform truck with the other mould of automatic pouring platform truck places the position, automatic pouring platform truck is used for right the mould that the position was placed to the mould pours, the cooling workshop section include automatic cooling mechanism with the other mould of automatic cooling mechanism places the position, automatic cooling mechanism is used for right the mould that the position was placed to the mould cools off, the drawing of patterns workshop section includes automatic demoulding mechanism with the other mould of automatic demoulding mechanism places the position, automatic demoulding mechanism is used for right the mould that the position was placed to the mould demolds.

As a further scheme of the invention: the automatic casting machine is characterized in that a clamping and loosening device is arranged beside a mold placing position of the demolding working section and used for clamping and loosening a mold, the clamping and loosening device comprises a driving device connected with the automatic casting machine, the driving device is connected with one end of a connecting rod, a clamp is arranged at the end, not provided with the driving device, of the connecting rod, and the driving device can drive the clamp to clamp and loosen the mold through the connecting rod.

As a further scheme of the invention: the automatic pouring trolley is connected with the automatic pouring furnace through signals and used for jointly controlling pouring, and the automatic pouring trolley is arranged below a molten iron discharging opening of the automatic pouring furnace.

As a further scheme of the invention: the automatic inoculation mechanism is connected with the automatic pouring trolley and used for releasing an inoculant into a pouring ladle of the automatic pouring trolley to inoculate molten iron before the molten iron is released by the automatic pouring furnace.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the molten iron conveying system is added to automatically convey the smelted molten iron into the automatic casting furnace, so that the problems of semi-automation, high labor intensity of workers and low per capita yield in a diesel engine cylinder sleeve production line are solved, and the full automation of the production line is realized; through with station carousel perpendicular to ground is placed, has reduced space factory building occupation ratio.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a front view of the molten iron transporting system;

FIG. 3 is a top view of the molten iron transport system;

FIG. 4 is a schematic structural view of an automatic casting furnace and an automatic casting trolley;

FIG. 5 is a schematic view of the clamp release mechanism;

FIG. 6 is a schematic structural view of an automatic casting machine;

FIG. 7 is a side view of the station carousel.

In the figure: 1-smelting furnace, 2-molten iron transportation system, 21-transportation rail, 211-transportation main rail, 212-transportation auxiliary rail, 22-transportation trolley, 23-ladle and lifting control system thereof, 3-automatic pouring furnace, 31-furnace body, 32-water baffle, 33-stopper rod control system, 4-automatic pouring machine, 41-automatic pouring trolley, 42-automatic inoculation mechanism, 43-automatic spraying mechanism, 44-automatic temperature detection system, 45-automatic demoulding mechanism, 46-station large turntable, 461-mould placing position, 47-automatic cooling mechanism, 48-intermediate shaft, 49-clamping and loosening device, 491-driving device, 492-connecting rod, 493-clamping device, 5-automatic cleaning and transporting robot, etc, 6-spraying section, 7-pouring section, 8-cooling section and 9-demoulding section.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, in an embodiment of the present invention, a full-automatic diesel engine casting production line includes a smelting furnace 1, a molten iron transportation system 2 for transporting molten iron in the smelting furnace 1, an automatic casting furnace 3, an automatic casting machine 4 for manufacturing a cylinder liner blank from molten iron retained in the automatic casting furnace 3, and an automatic cleaning and carrying robot 5 for cleaning and carrying the cylinder liner blank manufactured by the automatic casting machine 4, where the automatic casting machine 4 includes a station large turntable 46 perpendicular to the ground, one side of a circular outer surface of the station large turntable is provided with a plurality of mold placing positions 461, and a spraying section 6, a casting section 7, a demolding section 8, and a cooling section 9 are sequentially arranged in a rotation direction of the station large turntable 46.

Specifically, the molten iron transportation system 2 is configured to transport molten iron of the smelting furnace 1 to the automatic pouring furnace 3, the molten iron transportation system 2 includes a transportation rail 21, a transportation trolley 22, and a ladle and a lifting control system 23 thereof, the ladle has a width of 1.29m and a height of 1.15m, the ladle and the lifting control system thereof are connected to one end of the transportation trolley 22, one end of the transportation trolley, which is not connected to the ladle and the lifting control system 23 thereof, is connected to the transportation rail 21, the transportation rail 21 has a height of 6.04m from the ground, the transportation rail has a thickness of 0.36m, the transportation rail 21 includes a transportation main rail 211 and a transportation auxiliary rail 212, the transportation rail 21 is disposed between the smelting furnace 1 and the automatic pouring furnace 3, the transportation main rail 211 is disposed on one side of the automatic pouring furnace 3, the transportation auxiliary rail 212 is disposed on one side of the transportation main rail 211, which is not disposed on the automatic pouring furnace 3, after the ladle and the lifting control system 23 thereof obtain molten iron from the smelting furnace 1, the transport trolley 22 carries the ladle and the lifting control system 23 thereof together with the main transport track 21 to transport the ladle to the automatic pouring furnace 3, the ladle pours the molten iron into the automatic pouring furnace 3, and at this time, the auxiliary transport track 212 beside the main transport track 211 moves to the position of the main transport track 211 along with the ladle and the lifting control system 23 thereof, so that the transport track 21 is not interrupted, a plurality of ladles and the lifting control systems 23 thereof can be transported simultaneously, the automation of molten iron transportation is realized, and the manual work intensity is reduced.

Specifically, the automatic pouring furnace 3 comprises a furnace body 31, a water baffle 32, a plug rod control system 33 and an inductor, wherein the inductor is used for preserving heat of molten iron in the furnace body, the water baffle 32 and the plug rod control system 33 are used for controlling release of the molten iron, and the water baffle 32 is arranged below the plug rod control system 33 and used for blocking an iron discharging port of the automatic pouring furnace 3.

Specifically, the automatic casting machine 4 includes an intermediate shaft 48, a station large turntable 46, a spraying section 6, a casting section 7, a cooling section 8, a demolding section 9, an automatic inoculation mechanism 42 for releasing an inoculant to the casting section 7, and an automatic temperature detection system 44 for measuring the temperature of a mold demolded from the demolding section 9, the station large turntable 46 is arranged on the intermediate shaft 48 and rotates around the intermediate shaft 48, eight mold placing positions 461 are arranged on one side of the circular outer surface of the station large turntable 46 and used for placing the mold, the station large turntable 46 is arranged perpendicular to the ground, the floor area is reduced, the plant utilization rate is increased, the spraying section 6 includes an automatic spraying mechanism 43 and the mold placing positions 461 beside the automatic spraying mechanism 43, the casting section 7 includes an automatic casting trolley 41 and the mold placing positions 461 beside the automatic casting trolley 41, the cooling section 8 includes an automatic cooling mechanism 47 and a mold placing position 461 beside the automatic cooling mechanism 47, and the demolding section 9 includes an automatic demolding mechanism 45 and a mold placing position 461 beside the automatic demolding mechanism 45.

Specifically, after the mold reaches the casting section 7, a signal is transmitted to a water baffle 32 of the automatic casting furnace 3; after the water baffle 32 is opened, a signal is transmitted to the automatic inoculation mechanism 42 to start to release the inoculant; after the inoculant is released, a signal is transmitted to a plug rod control system 33 of the automatic pouring furnace 3 to open a plug rod for water discharging; after the weight of the discharged water reaches the standard set by the program, the automatic pouring trolley scale transmits a signal to a stopper rod control system 33 of the automatic pouring furnace 3 to close the stopper rod; after the plug rod of the automatic pouring furnace 3 is closed, a signal is transmitted to the automatic pouring trolley 41, meanwhile, the automatic pouring trolley scale also transmits a release signal to the automatic pouring trolley 41, and the automatic pouring trolley 41 moves the automatic pouring trolley 41 to a mold placed in the pouring section 7 for pouring after receiving the two signals; the stopper rod control system 33 transmits a closing signal to the water guard 32 after closing the stopper rod, and closes the water guard 32.

Specifically, a clamping and releasing device 49 is arranged beside a mold placing position 461 of the demolding station 9, the clamping and releasing device 49 is used for clamping and releasing the mold, the clamping and releasing device 49 comprises a driving device 491 connected with the automatic casting machine 4, the driving device is connected with one end of a connecting rod 492, a clamp 493 is arranged at one end of the connecting rod 492 where the driving device 491 is not arranged, and the driving device 491 controls the clamp 493 to complete the process of releasing and clamping the mold through the connecting rod 492.

Specifically, the automatic spraying mechanism 43 sprays a release agent on the inner surface of the mold at the mold placement position 461 for subsequent demolding, and after the spraying is completed, the mold is continuously rotated by the motor of the station turntable 46 and sent to the casting section 6.

Specifically, the automatic pouring trolley 41 pours molten iron into the mold which has been sprayed with the release agent through the spraying section 6, and after the pouring is completed, the mold is continuously rotated by the motor of the station turntable 46 and sent to the cooling section 8.

Specifically, the automatic cooling mechanism 47 is disposed on the opposite side of the automatic spraying mechanism 43, and cools the mold that has been cast with molten iron through the casting section 7 four times, so as to shorten the mold forming time, and after cooling, the mold is continuously rotated by the motor of the station turntable 46 and sent to the demolding section 9.

Specifically, the automatic demolding mechanism 45 demolds the mold which has been cooled by the cooling section 8, so as to obtain a cylinder liner blank.

Specifically, the automatic temperature detection system 44 is configured to measure the temperature of the mold demolded from the demolding section 9, if the mold exceeds a set value, the mold automatically idles for one week and then performs spraying, and if the mold meets the set value, the mold is continuously rotated by the motor of the station turntable 46, and is sent to the spraying section 6, and the cycle of cleaning, spraying, pouring, cooling, and demolding is performed again.

Specifically, the carrying robot in the automatic cleaning and carrying robot 5 carries the cylinder sleeve blank obtained by demolding to an automatic cleaning machine to clean the demolding agent, the cleaned cylinder sleeve blank is continuously carried to the placed material frame by the carrying robot, and the whole cylinder sleeve blank production process is finished.

The invention has novel structure and stable operation, when in use, the smelting furnace 1 trains molten iron, the molten iron transportation system 2 transports the molten iron trained by the smelting furnace 1 to the automatic casting furnace 3, the mould is arranged on the station large turntable 46, the station large turntable 46 rotates, the mould is sent to the spraying section 6, the automatic spraying mechanism 43 is used for spraying, after the spraying is finished, the mould rotates to the casting section 7, the automatic casting trolley 41 starts to reach the position below the automatic casting furnace 3 for receiving the molten iron, the automatic inoculation mechanism 42 starts to release the inoculant, the automatic casting furnace 3 starts to release the molten iron, after the molten iron meets the set technological requirements, the automatic casting furnace 3 stops releasing the molten iron, the automatic casting trolley 41 starts to cast, after the casting is finished, the station large turntable 46 rotates, the mould is sent to the cooling section 8, the mould on the cooling station 463 is cooled by the automatic cooling mechanism 4 for four times, the mold rotates to a demolding working section 9, a cylinder sleeve blank is obtained through demolding by an automatic demolding mechanism 45, an automatic temperature detection system 44 for demolding starts temperature measurement, the temperature of the mold is monitored, the mold is released when the mold is qualified, circular spraying is carried out after the temperature is qualified due to unqualified idle rotation for one circle, a carrying robot in an automatic cleaning and carrying robot 5 carries the cylinder sleeve blank obtained through demolding to an automatic cleaning machine to clean the demolding agent, the cylinder sleeve blank after cleaning is continuously carried to a placed material frame by the carrying robot, and the whole cylinder sleeve blank production process is finished.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a full-automatic diesel engine casting production line which characterized in that includes: smelting furnace (1) that arrange in proper order, be used for the transportation molten iron conveying system (2), automatic pouring stove (3) of molten iron in smelting furnace (1), be used for with automatic casting machine (4) of cylinder liner blank are made into to automatic pouring stove (3) heat retaining molten iron to and be used for cleaning and carrying automatic cleaning transfer robot (5) of the cylinder liner blank that automatic pouring machine (4) were made, automatic pouring machine (4) contain with ground vertically station carousel (46), and this station carousel circular surface one side is provided with a plurality of mould and places position (461) the direction of rotation of station carousel (46) has set gradually spraying workshop section (6), pouring workshop section (7), drawing of patterns workshop section (8), cooling workshop section (9).

2. The full-automatic diesel engine pouring production line according to claim 1, characterized in that the molten iron transportation system (2) is used for transporting the molten iron of the smelting furnace (1) to the automatic pouring furnace (3), and the molten iron transportation system (2) comprises a transportation rail (21), a transportation trolley (22), and a ladle and a lifting control system (23) thereof, wherein the ladle and the lifting control system thereof are connected with one end of the transportation trolley (22), and the transportation trolley is connected with the transportation rail (21) at the end which is not connected with the ladle and the lifting control system (23) thereof.

3. A fully automatic diesel engine casting line according to claim 2, characterized in that the transportation rail (21) comprises a transportation main rail (211) and a transportation sub rail (212), the transportation rail (21) is arranged between the smelting furnace (1) and the automatic casting furnace (3), the transportation main rail (211) is arranged on the side of the automatic casting furnace (3), and the transportation sub rail (212) is arranged on the side of the transportation main rail (211) where the automatic casting furnace (3) is not arranged.

4. The full-automatic diesel engine pouring production line according to claim 1, characterized in that the automatic pouring furnace (3) comprises a furnace body (31), a water baffle (32), a stopper rod control system (33) and an inductor, wherein the inductor is used for preserving heat of molten iron in the furnace body, the water baffle (32) and the stopper rod control system (33) are used for controlling molten iron release, and the water baffle (32) is arranged below the stopper rod control system (33) and used for blocking a molten iron release nozzle of the automatic pouring furnace (3).

5. The full-automatic diesel engine pouring production line according to claim 1, characterized in that the automatic pouring machine (4) comprises an intermediate shaft (48), a station large rotating disc (46), a spraying section (6), a pouring section (7), a cooling section (8), a demolding section (9), an automatic inoculation mechanism (42) for releasing inoculant to the pouring section (7), and an automatic temperature detection system (44) for measuring the temperature of the mold demolded from the demolding section (9), wherein the station large rotating disc (46) is arranged on the intermediate shaft (48) and rotates around the intermediate shaft (48).

6. The fully automatic diesel engine casting line according to claim 5, characterized in that the spraying section (6) comprises an automatic spraying mechanism (43) and a mold placing position (461) beside the automatic spraying mechanism (43), the automatic spraying mechanism (43) is used for spraying the inner surface of the mold placing position (461), the casting section (7) comprises an automatic casting trolley (41) and a mold placing position (461) beside the automatic casting trolley (41), the automatic casting trolley (41) is used for casting the mold of the mold placing position (461), the cooling section (8) comprises an automatic cooling mechanism (47) and a mold placing position (461) beside the automatic cooling mechanism (47), the automatic cooling mechanism (47) is used for cooling the mold of the mold placing position (461), the demolding working section (9) comprises an automatic demolding mechanism (45) and a mold placing position (461) beside the automatic demolding mechanism (45), and the automatic demolding mechanism (45) is used for demolding the mold of the mold placing position (461).

7. The full-automatic diesel engine pouring production line according to claim 6, characterized in that a clamping and loosening device (49) is arranged beside a mold placing position (461) of the demolding station (9), the clamping and loosening device (49) is used for clamping and loosening a mold, the clamping and loosening device (49) comprises a driving device (491) connected with the automatic pouring machine (4), the driving device is connected with one end of a connecting rod (492), a clamp (493) is arranged at the end of the connecting rod (492) where the driving device (491) is not arranged, and the driving device (491) can drive the clamp (493) to clamp and loosen the mold through the connecting rod (492).

8. The full-automatic diesel engine pouring production line according to claim 6, characterized in that the automatic pouring trolley (41) is connected with the automatic pouring furnace (3) through signals for controlling pouring together, and the automatic pouring trolley (41) is arranged below a molten iron discharging port of the automatic pouring furnace (3).

9. The full-automatic diesel engine pouring production line according to claim 6, characterized in that said automatic inoculation mechanism (42) is connected with said automatic pouring trolley (41) and is used for releasing inoculant into a pouring ladle of said automatic pouring trolley (41) to inoculate molten iron before molten iron is released from said automatic pouring furnace (3).

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