WO2022060336A1 - Scrap grinding machine - Google Patents

Scrap grinding machine Download PDF

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Publication number
WO2022060336A1
WO2022060336A1 PCT/TR2021/050931 TR2021050931W WO2022060336A1 WO 2022060336 A1 WO2022060336 A1 WO 2022060336A1 TR 2021050931 W TR2021050931 W TR 2021050931W WO 2022060336 A1 WO2022060336 A1 WO 2022060336A1
Authority
WO
WIPO (PCT)
Prior art keywords
scrap
oil
enables
characteristic
grinding machine
Prior art date
Application number
PCT/TR2021/050931
Other languages
French (fr)
Inventor
Taner KÖYMEN
Nilay KÖYMEN
Berkay KÖYMEN
Original Assignee
Koeymen Taner
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Koeymen Taner filed Critical Koeymen Taner
Publication of WO2022060336A1 publication Critical patent/WO2022060336A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C18/00Disintegrating by knives or other cutting or tearing members which chop material into fragments
    • B02C18/06Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
    • B02C18/16Details
    • B02C18/24Drives
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C18/00Disintegrating by knives or other cutting or tearing members which chop material into fragments
    • B02C18/06Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
    • B02C18/08Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers
    • B02C18/10Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives within vertical containers with drive arranged above container
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C18/00Disintegrating by knives or other cutting or tearing members which chop material into fragments
    • B02C18/06Disintegrating by knives or other cutting or tearing members which chop material into fragments with rotating knives
    • B02C18/16Details
    • B02C18/18Knives; Mountings thereof
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C19/00Other disintegrating devices or methods
    • B02C19/0056Other disintegrating devices or methods specially adapted for specific materials not otherwise provided for
    • B02C19/0062Other disintegrating devices or methods specially adapted for specific materials not otherwise provided for specially adapted for shredding scrap metal, e.g. automobile bodies
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/08Separating or sorting of material, associated with crushing or disintegrating

Definitions

  • This invention is about a scrap grinding machine that can be used in grinding high tonnages of scrap metals.
  • Scrap machines in the current technique contains only the blades that enables shredding and this causes the scrap to be ground nonhomogenously. Applying more than one process (shredding, cutting, grinding etc.) on the scrap inside the machine, enables it to be more utilizable for keeping and using in recycle.
  • the "Scrap metal pressing machine” is described.
  • the invention is a scrap metal pressing machine which contains a top pressing lid that presses the main body and a ram that presses inside the body from the sides of the main body in order to press scrap metals within a main body.
  • This invention is a new technology that can overcome the disadvantages mentioned above, has an improved scrap screening system, can make mass grinding, shred high tonnages of load, has conveyor bands which enables the scraps to be transferred, can do not only shredding but also crushing, cutting and grinding processes.
  • Blades in our invention has four different jag forms for four different processes. These blades crush, shred, cut and grind the scraps entering the system. By this means, downsizing the big sized scraps entering system can be made much more efficiently and appropriately.
  • Our system is assembled to grind high tonnages of loads and corresponds to a weight of about 300 tons in total.
  • There's an automatic transmission system and a torque converter which is capable of rotating the flywheel section of a machine of this weight up to 3000 rpm and reduce and raise the rotations of it.
  • the rotation reducing-raising process in this system is enabled by the pneumatic systems in the transmission connected to the air compressor.
  • the scrap screening system in our invention enables the scraps entering the scrap grinding machine to be separated from other materials such as soil, sand etc. This happens by means of the screen pawls connected to the crank shaft which moves by the engine. While big sized scraps are directly transferred to the conveyor band through the transferring sheet, the small sized metals are separated from the soil by the magnetic field created by the inductive plate.
  • the hot oil circulating through the system can be continuously cooled down.
  • the oil passes through the radiator and gives its' heat to the environment and these capillary tubes happen to be cooled by the fan.
  • the gas cooling system it's the other way, meaning that compressed nitrogen passes through the radiator.
  • Radiators in the gas cooling system are generally located as dipped into the hot oil. Hot oils in here gives heat to the cold nitrogen passing through the radiator and the cooling process of hot oil is finalized.
  • Figure 1 Cross-section view showing the interior of the system.
  • FIG. 1 View of the jag sections on the blades.
  • FIG. 1 Perspective view of the scrap screen system.
  • Figure 4 View showing the bands on the scrap screen.
  • Figure 6 View of the shredding jag towards the motion direction.
  • Figure 7 View of the cutting jag towards the motion direction.
  • Figure 8 View of the grinding jag towards the motion direction.
  • the invention has the cylindrical formed block body (19) including the material inlet (19.1) and the material outlet (19.2) sections, the electric engine (1) located on top of the block body (19), the first oil pump (3) connected to the outlet shaft of the electric engine (1), the first hydromotor (4) connected in a way to convert the compressed oil from the first oil pump (3) to mechanical energy, the first automatic transmission (6) that shifts with the compressed air from the compressor and connected to the first hydromotor (4) outlet shaft, the hot oil tank (11) that stores the hot oil heated by motion and friction, the air oil cooling system (10) that enables the oil getting out of the hot oil tank (11) enter the radiator and be cooled down by cold air, at least one fan (12) that transfers the cold airflow to the air oil cooling system (10), the gas oil cooling system (9) that enables the hot oil to be cooled down by the nitrogen sent to the radiator, the cooled hydraulic tank (8) that preserves the temperature of the cold oil, the first oil pipe (5) that enables the flow of cold oil from the cooled hydraulic tank (8) to the first oil pump
  • the system subject to invention has blades (22) hardened with boron carbide.
  • the blades (22) mentioned in the invention includes the crushing jag (22.1), the shredding jag (22.2), the cutting jag (22.3) and the grinding jag (22.4) parts.
  • the invention includes a lid (2) located on top of the block body (19).
  • the invention has the column (23) that ensures the load balance of the moving turnplate (20) and has jags that can grind the materials.
  • the product subject to invention includes at least one bearing (7) that enables load balance in moving machine parts.
  • the system subject to invention has the material collection plate (24) that enables ground scraps' outlet from the block body (19).
  • the balls (25) included in the invention functions as reducing the friction during the rotation of the moving turnplate (20).
  • the scrap screen (26) in the invention is consisted of the following parts; the drop site (26.2) where the truck unloads the scrap pile, the ascending ramp (26.1) where the truck enters the drop site (26.2), at least one scrap barrier (26.3) that prevents the scraps entering system to leave off the system for safety purposes, at least one screen pawl (26.4) that scrabbles and separates the scrap-soil mixed pile, the crank shaft (26.5) connected to the screen pawls (26.4), the screen pawl engine (26.6) that provides rotational torque to the crank shaft (26.5), the soil band (26.9) that enables the transferring of the separated soil by means of rotating reels, the material transferring sheet (26.7) that transfers the dirt and soil separated from the screen pawls (26.4), the scrap conveyor band (26.8) that transfers the separated scrap to the material inlet (19.1) section, the inductive plate (26.12) that separates the residue metals in the soil by creating a magnetic field and the magnetic scrap separating band (26.10) that transfers the metals separated by the
  • the invention has the torque converter located between the first hydromotor (4), the first automatic transmission (6) and the second hydromotor (17), the second automatic transmission (18).
  • Basic components composing the system subject to invention are; the engine (1), the lid (2), the first oil pump (3), the first hydromotor (4), the first oil pipe (5), the first automatic transmission (6), the bearing (7), the cooled hydraulic tank (8), the gas oil cooling system (9), the air oil cooling system (10), the hot oil tank (11), the fan (12), the second oil pump tank (13), the second oil pipe (14), the radiator oil pipe (15), the second oil pump (16), the second hydromotor (17), the second automatic transmission (18), the block body (19), the moving tumplate (20), the flywheel (21), the blade(22), the column (23), the material collection plate (24), the ball (25) and the scrap screen (26).
  • the block body (19) in the invention has the material inlet (19.1) and the material outlet (19.2) sections.
  • the blade (22) mentioned in the invention is composed of the crushing jag (22.1), the shredding jag (22.2), the cutting jag (22.3) and the grinding jag (22.4) sections.
  • the scrap screen (26) includes the following parts; the ascending ramp
  • the engine (1) in the invention is located inside the block body (19).
  • the first oil pump (3) is connected at the engine (1) shaft end.
  • the lid (2) is located on top of the engine (1).
  • the first hydromotor (4) is connected to the first oil pump (3) outlet shaft.
  • the first automatic transmission (6) is connected to the first hydromotor (4) outlet shaft.
  • the flywheel (21) is located at the first automatic transmission (6) outlet shaft.
  • the second oil pump (16) is located at the flywheel (21) outlet.
  • the second hydromotor (17) is located at the second oil pump (16) outlet shaft and the second automatic transmission (18) is located at the second hydromotor (17) end.
  • the moving turnplate (20) is connected to the second automatic transmission (18) outlet shaft. There are blades on the moving turnplate (20) and inside the block body (19). The shredding jag
  • the cutting jag (22.3) and the grinding jags (22.4) are placed respectively at the upmost, middle and lowermost parts of the moving tumplate (20).
  • the column (23) is located under the moving tumplate (20) and the material collection plate (24) is located under the column (23).
  • At least one ball (25) is placed at the material collection plate (24) lower shaft.
  • the material inlet (19.1) section is connected with the scrap screen (26) and the material outlet (19.2) is connected with the material collection plate (24).
  • the connection between the first oil pump (3) and the cooled hydraulic tank (8) is made with the first oil pipe.
  • the connection between the second oil pump (16) and the second oil pump tank (13) is made with the second oil pipe (14).
  • the operating principle of the system subject to invention is as follows; the engine (1) in the system is powered by the power line.
  • the engine (1) shaft provides motion to the first oil pump (3) and the pump draws oil from the cooled hydraulic tank (8).
  • the pressurized oil is sent to the first hydromotor (4).
  • the first hydromotor (4) converts the pressurized oil to mechanical energy and transmits this energy to the first automatic transmission (6).
  • the first automatic transmission (6) With the compressed air from the compressor the first automatic transmission (6) can perform rotation reducing-raising when desired, the first automatic transmission (6) begins to rotate the 50 tons flywheel (21) connected to the outlet shaft from slow to an average speed until it reaches to 3000 rpm.
  • the second oil pump (16) connected to the flywheel (21) begins to create pressure.
  • the second oil pump (16) sends compressed oil to the second hydromotor (17) and the mechanical energy generated here is transmitted to the second automatic transmission (18). then the moving tumplate (20) and the blades (22) connected to the second automatic transmission begin to rotate. Meanwhile the truck approaching the ascending ramp

Abstract

This invention is about a scrap grinding machine that can be used in grinding high tonnages of scrap metals and its' characteristic is having; a block body (19), an electric engine (1), a first oil pump (3), a first hydromotor (4), a first automatic transmission (6), a hot oil tank (11), an air oil cooling system (10), one fan (12), a gas oil cooling system (9), a cooled hydraulic tank (8), a first oil pipe (5), a flywheel (21), a second oil pump (16), a second oil pipe (14), a second hydromotor (17), a second automatic transmission (18), a radiator oil pipe (15), a moving turnplate (20), one blade (22) and a scrap screen (26) connected to the material inlet (19.1) section.

Description

SCRAP GRINDING MACHINE
Technological Area:
This invention is about a scrap grinding machine that can be used in grinding high tonnages of scrap metals.
Current Situation of the Technique:
Today waste and scrap products that expired their life are used for recycling or disposed of according to their type. In order to successfully achieve the so said recycling or disposing of process these products must be downsized. To downsize the waste and scrap products, crusher and shredder machines are used.
In the current technique of the machines in use, the waste and scrap products given through a feeding tank are transferred to a section with blades attached on a turning rotor and then crushed. For the feeding tank in these machines are small, the parts can be downsized only after being crushed in an another machine. This brings a necessity to process in separate machines and so causes cost and inefficient process.
One of the other problems in the current technique is that many other materials can also be thrown to the feeding section of the scrap grinding machine along with scrap. Soil and other materials entering together with the scrap stick to the blade surfaces and gaps between the blades so causes the cutting not being able to be performed appropriately. For this reason, the scrap needs to be separated from these foreign materials.
Scrap machines in the current technique contains only the blades that enables shredding and this causes the scrap to be ground nonhomogenously. Applying more than one process (shredding, cutting, grinding etc.) on the scrap inside the machine, enables it to be more utilizable for keeping and using in recycle. In the patent application numbered TR201721790, the "Scrap metal pressing machine" is described. The invention is a scrap metal pressing machine which contains a top pressing lid that presses the main body and a ram that presses inside the body from the sides of the main body in order to press scrap metals within a main body.
In the patent application numbered US5044567A, the "Scrap grinding machine" is described. The purpose of the invention is to offer a scrap crushing machine that has a case constructed in a way to not to need to turn the screen wall anymore to quickly empty the case.
In the inventions mentioned above the scrap is only put to shredding process inside the machine. These machines fall short in grinding high tonnages of materials. There are no additional systems that separates the scrap entering the machine from other materials.
In conclusion, there's a need for a new technology that can overcome the disadvantages mentioned above, has an improved scrap screening system, can make mass grinding, shred high tonnages of load, has conveyor bands which enables the scraps to be transferred, can do not only shredding but also crushing, cutting and grinding processes.
Definition of Invention:
This invention is a new technology that can overcome the disadvantages mentioned above, has an improved scrap screening system, can make mass grinding, shred high tonnages of load, has conveyor bands which enables the scraps to be transferred, can do not only shredding but also crushing, cutting and grinding processes.
Blades in our invention has four different jag forms for four different processes. These blades crush, shred, cut and grind the scraps entering the system. By this means, downsizing the big sized scraps entering system can be made much more efficiently and appropriately. Our system is assembled to grind high tonnages of loads and corresponds to a weight of about 300 tons in total. There's an automatic transmission system and a torque converter which is capable of rotating the flywheel section of a machine of this weight up to 3000 rpm and reduce and raise the rotations of it. The rotation reducing-raising process in this system is enabled by the pneumatic systems in the transmission connected to the air compressor.
The scrap screening system in our invention enables the scraps entering the scrap grinding machine to be separated from other materials such as soil, sand etc. This happens by means of the screen pawls connected to the crank shaft which moves by the engine. While big sized scraps are directly transferred to the conveyor band through the transferring sheet, the small sized metals are separated from the soil by the magnetic field created by the inductive plate.
With the help of the two different cooling systems in our invention, the hot oil circulating through the system can be continuously cooled down. In the air cooling system, the oil passes through the radiator and gives its' heat to the environment and these capillary tubes happen to be cooled by the fan. In the gas cooling system it's the other way, meaning that compressed nitrogen passes through the radiator. Radiators in the gas cooling system are generally located as dipped into the hot oil. Hot oils in here gives heat to the cold nitrogen passing through the radiator and the cooling process of hot oil is finalized.
Description of Figures:
Invention will be explained by referring to the annexed figures this way function and characteristics of the invention will be understood more clearly but this is not intended to limit the invention with these specific arrangements. Contrary, it's intended to cover all alternatives, changes and equivalencies that can be included in the area the invention is described in by the claims in the annex. It's best to note that shown details are demonstrated and presented only for the purpose of explaining the preferred arrangements of the current invention and providing the most practical and easy definition of both the development of methods and the rules and conceptual features of the invention. In these figures;
Figure 1 Cross-section view showing the interior of the system.
Figure 2 View of the jag sections on the blades.
Figure 3 Perspective view of the scrap screen system.
Figure 4 View showing the bands on the scrap screen.
Figure 5 Perspective view of the crushing jag.
Figure 6 View of the shredding jag towards the motion direction.
Figure 7 View of the cutting jag towards the motion direction.
Figure 8 View of the grinding jag towards the motion direction.
Figures that will help to understand this invention are numbered as specified in the annexed picture and they are given below by their names.
Description of References:
1. Engine
2. Lid
3. First oil pump
4. First hydromotor
5. First oil pipe
6. First automatic transmission
7. Bearing
8. Cooled hydraulic tank
9. Gas oil cooling system
10. Air oil cooling system
11. Hot oil tank
12. Fan
13. Second oil pump tank
14. Second oil pipe
15. Radiator oil pipe 16. Second oil pump
17. Second hydromotor
18. Second automatic transmission
19. Block body
19.1. Material inlet
19.2. Material outlet
20. Moving turnplate
21. Flywheel
22. Blade
22.1. Crushing jag
22.2. Shredding jag
22.3. Cutting jag
22.4. Grinding jag
23. Column
24. Material collection plate
25. Ball
26. Scrap screen
26.1. Ascending ramp
26.2. Drop site
26.3. Scrap barrier
26.4. Screen pawls
26.5. Crank shaft
26.6. Screen pawl engine
26.7. Material transferring sheet
26.8. Scrap conveyor band
26.9. Soil band
26.10. Magnetic scrap separation band
26.11. Magnetic block
26.12. Inductive plate
Description of Invention: The invention has the cylindrical formed block body (19) including the material inlet (19.1) and the material outlet (19.2) sections, the electric engine (1) located on top of the block body (19), the first oil pump (3) connected to the outlet shaft of the electric engine (1), the first hydromotor (4) connected in a way to convert the compressed oil from the first oil pump (3) to mechanical energy, the first automatic transmission (6) that shifts with the compressed air from the compressor and connected to the first hydromotor (4) outlet shaft, the hot oil tank (11) that stores the hot oil heated by motion and friction, the air oil cooling system (10) that enables the oil getting out of the hot oil tank (11) enter the radiator and be cooled down by cold air, at least one fan (12) that transfers the cold airflow to the air oil cooling system (10), the gas oil cooling system (9) that enables the hot oil to be cooled down by the nitrogen sent to the radiator, the cooled hydraulic tank (8) that preserves the temperature of the cold oil, the first oil pipe (5) that enables the flow of cold oil from the cooled hydraulic tank (8) to the first oil pump (3), the flywheel (21) connected to the outlet shaft of the first automatic transmission (6), the second oil pump (16) connected to the flywheel (21) outlet shaft and takes the rotational motion from the flywheel (21), the second oil pump tank (13) that enables hydraulic oil feeding to the second oil pump (16), the second oil pipe (14) that enables connection between the second oil pump tank (13) and the second oil pump (16), the second hydromotor (17) connected in a way to convert the compressed oil from the second oil pump (16) to mechanical energy, the second automatic transmission (18) connected to the second hydromotor (17) outlet shaft and transmits the rotational torque to the moving tumplate (20), the radiator oil pipe (15) that enables the hot oil to be sent to the air oil cooling system (10), the moving turnplate (20) that turns together with the blades (22) on it towards the direction coming from the second automatic transmission (18) shaft, at least one blade (22) connected to the block body (19) and the moving turnplate (20) and shreds, cuts and grinds the scraps, the scrap screen (26) connected to the material inlet (19.1) section.
The system subject to invention has blades (22) hardened with boron carbide. The blades (22) mentioned in the invention includes the crushing jag (22.1), the shredding jag (22.2), the cutting jag (22.3) and the grinding jag (22.4) parts. The invention includes a lid (2) located on top of the block body (19). The invention has the column (23) that ensures the load balance of the moving turnplate (20) and has jags that can grind the materials. The product subject to invention includes at least one bearing (7) that enables load balance in moving machine parts. The system subject to invention has the material collection plate (24) that enables ground scraps' outlet from the block body (19). The balls (25) included in the invention functions as reducing the friction during the rotation of the moving turnplate (20).
The scrap screen (26) in the invention is consisted of the following parts; the drop site (26.2) where the truck unloads the scrap pile, the ascending ramp (26.1) where the truck enters the drop site (26.2), at least one scrap barrier (26.3) that prevents the scraps entering system to leave off the system for safety purposes, at least one screen pawl (26.4) that scrabbles and separates the scrap-soil mixed pile, the crank shaft (26.5) connected to the screen pawls (26.4), the screen pawl engine (26.6) that provides rotational torque to the crank shaft (26.5), the soil band (26.9) that enables the transferring of the separated soil by means of rotating reels, the material transferring sheet (26.7) that transfers the dirt and soil separated from the screen pawls (26.4), the scrap conveyor band (26.8) that transfers the separated scrap to the material inlet (19.1) section, the inductive plate (26.12) that separates the residue metals in the soil by creating a magnetic field and the magnetic scrap separating band (26.10) that transfers the metals separated by the magnetic field.
The invention has the torque converter located between the first hydromotor (4), the first automatic transmission (6) and the second hydromotor (17), the second automatic transmission (18).
Detailed Description of Invention:
Basic components composing the system subject to invention are; the engine (1), the lid (2), the first oil pump (3), the first hydromotor (4), the first oil pipe (5), the first automatic transmission (6), the bearing (7), the cooled hydraulic tank (8), the gas oil cooling system (9), the air oil cooling system (10), the hot oil tank (11), the fan (12), the second oil pump tank (13), the second oil pipe (14), the radiator oil pipe (15), the second oil pump (16), the second hydromotor (17), the second automatic transmission (18), the block body (19), the moving tumplate (20), the flywheel (21), the blade(22), the column (23), the material collection plate (24), the ball (25) and the scrap screen (26).
The block body (19) in the invention has the material inlet (19.1) and the material outlet (19.2) sections. The blade (22) mentioned in the invention is composed of the crushing jag (22.1), the shredding jag (22.2), the cutting jag (22.3) and the grinding jag (22.4) sections. And the scrap screen (26) includes the following parts; the ascending ramp
(26.1), the drop site (26.2), the scrap barriers (26.3), the screen pawls (26.4), the crank shaft (26.5), the screen pawl engine (26.6), the material transferring sheet (26.7), the scrap conveyor band (26.8), the soil band (26.9), the magnetic scrap separator (26.10), the magnetic block (26.11) and the inductive plate (26.12).
The engine (1) in the invention is located inside the block body (19). The first oil pump (3) is connected at the engine (1) shaft end. And the lid (2) is located on top of the engine (1). The first hydromotor (4) is connected to the first oil pump (3) outlet shaft. And the first automatic transmission (6) is connected to the first hydromotor (4) outlet shaft. The flywheel (21) is located at the first automatic transmission (6) outlet shaft. The second oil pump (16) is located at the flywheel (21) outlet. The second hydromotor (17) is located at the second oil pump (16) outlet shaft and the second automatic transmission (18) is located at the second hydromotor (17) end. The moving turnplate (20) is connected to the second automatic transmission (18) outlet shaft. There are blades on the moving turnplate (20) and inside the block body (19). The shredding jag
(22.2), the cutting jag (22.3) and the grinding jags (22.4) are placed respectively at the upmost, middle and lowermost parts of the moving tumplate (20). The column (23) is located under the moving tumplate (20) and the material collection plate (24) is located under the column (23). At least one ball (25) is placed at the material collection plate (24) lower shaft. The material inlet (19.1) section is connected with the scrap screen (26) and the material outlet (19.2) is connected with the material collection plate (24). The connection between the first oil pump (3) and the cooled hydraulic tank (8) is made with the first oil pipe. The connection between the second oil pump (16) and the second oil pump tank (13) is made with the second oil pipe (14).
The operating principle of the system subject to invention is as follows; the engine (1) in the system is powered by the power line. The engine (1) shaft provides motion to the first oil pump (3) and the pump draws oil from the cooled hydraulic tank (8). Then the pressurized oil is sent to the first hydromotor (4). The first hydromotor (4) converts the pressurized oil to mechanical energy and transmits this energy to the first automatic transmission (6). With the compressed air from the compressor the first automatic transmission (6) can perform rotation reducing-raising when desired, the first automatic transmission (6) begins to rotate the 50 tons flywheel (21) connected to the outlet shaft from slow to an average speed until it reaches to 3000 rpm. the second oil pump (16) connected to the flywheel (21) begins to create pressure. The second oil pump (16) sends compressed oil to the second hydromotor (17) and the mechanical energy generated here is transmitted to the second automatic transmission (18). then the moving tumplate (20) and the blades (22) connected to the second automatic transmission begin to rotate. Meanwhile the truck approaching the ascending ramp
(26.1) transfers the scrap pile to the drop site (26.2). The pile is scrabbled by the screen pawls (26.4) and the soil and metal is separated. The soil is transferred to the soil band (26.9) and the metal is transferred to the scrap conveyor band (26.8). Metals that can't be separated from the soil are stuck to the magnetic scrap separating band (26.10) with the inductive plate (26.12). Metal scraps on the scrap conveyor band (26.8) enters by the material inlet (19.1) and fills in the canal gaps in between. The scrap pile is respectively shredded, cut and ground by means of the blades (22). These ground scraps are then dropped on to the material collection plate (24) and sent from here to the material outlet
(19.2).

Claims

CLAIMS - The invention is about the scrap grinding machine and its' characteristic is having;
— the cylindrical formed block body (19) including the material inlet (19.1) and the material outlet (19.2) sections,
— the electric engine (1) located on top of the block body (19),
— the first oil pump (3) connected to the outlet shaft of the electric engine (1),
— the first hydromotor (4) connected in a way to convert the compressed oil from the first oil pump (3) to mechanical energy,
— the first automatic transmission (6) that shifts with the compressed air from the compressor and connected to the first hydromotor (4) outlet shaft,
— the hot oil tank (11) that stores the hot oil heated by motion and friction,
— the air oil cooling system (10) that enables the oil getting out of the hot oil tank
(11) enter the radiator and be cooled down by cold air,
— at least one fan (12) that transfers the cold airflow to the air oil cooling system (10),
— the gas oil cooling system (9) that enables the hot oil to be cooled down by the nitrogen sent to the radiator,
— the cooled hydraulic tank (8) that preserves the temperature of the cold oil,
— the first oil pipe (5) that enables the flow of cold oil from the cooled hydraulic tank (8) to the first oil pump (3),
— the flywheel (21) connected to the outlet shaft of the first automatic transmission (6),
— the second oil pump (16) connected to the flywheel (21) outlet shaft and takes the rotational motion from the flywheel (21),
— the second oil pump tank (13) that enables hydraulic oil feeding to the second oil pump (16),
— the second oil pipe (14) that enables connection between the second oil pump tank (13) and the second oil pump (16),
— the second hydromotor (17) connected in a way to convert the compressed oil from the second oil pump (16) to mechanical energy,
10
SUBSTITUTE SHEETS (RULE 26) — the second automatic transmission (18) connected to the second hydromotor (17) outlet shaft and transmits the rotational torque to the moving turnplate (20),
— the radiator oil pipe (15) that enables the hot oil to be sent to the air oil cooling system (10),
— the moving tumplate (20) that turns together with the blades (22) on it towards the direction coming from the second automatic transmission (18) shaft,
— at least one blade (22) connected to the block body (19) and the moving turnplate (20) and shreds,
— cuts and grinds the scraps, the scrap screen (26) connected to the material inlet (19.1) section.
2- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; blades (22) hardened with boron carbide.
3- What's mentioned in Claim 2 is the scrap grinding machine and its' characteristic is having; the blade (22) that includes the crushing jag (22.1), the shredding jag (22.2), the cutting jag (22.3) and the grinding jag (22.4) parts.
4- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; a lid (2) located on top of the block body (19).
5- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; the column (23) that ensures the load balance of the moving tumplate (20) and has jags that can grind the materials.
6- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; at least one bearing (7) that enables load balance in moving machine parts.
7- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; the material collection plate (24) that enables ground scraps' outlet from the block body (19). 8- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; at least one ball (25) that reduces the friction during the rotation of the moving turnplate (20).
9- What's mentioned in Claim 1 is the scrap scrap screen (26) and its' characteristic is having;
— the drop site (26.2) where the truck unloads the scrap pile,
— the ascending ramp (26.1) where the truck enters the drop site (26.2),
— at least one scrap barrier (26.3) that prevents the scraps entering system to leave off the system for safety purposes,
— at least one screen pawl (26.4) that scrabbles and separates the scrap-soil mixed pile,
— the crank shaft (26.5) connected to the screen pawls (26.4),
— the screen pawl engine (26.6) that provides rotational torque to the crank shaft (26.5),
— the soil band (26.9) that enables the transferring of the separated soil by means of rotating reels,
— the material transferring sheet (26.7) that transfers the dirt and soil separated from the screen pawls (26.4) to the soil band (26.9),
— the scrap conveyor band (26.8) that transfers the separated scrap to the material inlet (19.1) section,
— the inductive plate (26.12) that separates the residue metals in the soil by creating a magnetic field,
— the magnetic scrap separating band (26.10) that transfers the metals separated by the magnetic field.
10- What's mentioned in Claim 1 is the scrap grinding machine and its' characteristic is having; the torque converter located between the first hydromotor (4), the first automatic transmission (6) and the second hydromotor (17), the second automatic transmission (18).
PCT/TR2021/050931 2020-09-17 2021-09-14 Scrap grinding machine WO2022060336A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
TR2020/14784A TR202014784A2 (en) 2020-09-17 2020-09-17 SCRAP MILLING MACHINE
TR2020/14784 2020-09-17

Publications (1)

Publication Number Publication Date
WO2022060336A1 true WO2022060336A1 (en) 2022-03-24

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ID=75527111

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/TR2021/050931 WO2022060336A1 (en) 2020-09-17 2021-09-14 Scrap grinding machine

Country Status (2)

Country Link
TR (1) TR202014784A2 (en)
WO (1) WO2022060336A1 (en)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4146184A (en) * 1976-09-20 1979-03-27 Sivyer Steel Corporation Shredder with grate door
JPH0824688A (en) * 1994-07-13 1996-01-30 Meiwa Kikai Kk Hopper for material to be crushed of vertical crusher
CN203448140U (en) * 2013-08-07 2014-02-26 宁波金田冶炼有限公司 Continuous crushing separation production line for scrap copper
US20200038875A1 (en) * 2018-08-02 2020-02-06 Chip Systems International Metal scrap shredder having variable speed function

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4146184A (en) * 1976-09-20 1979-03-27 Sivyer Steel Corporation Shredder with grate door
JPH0824688A (en) * 1994-07-13 1996-01-30 Meiwa Kikai Kk Hopper for material to be crushed of vertical crusher
CN203448140U (en) * 2013-08-07 2014-02-26 宁波金田冶炼有限公司 Continuous crushing separation production line for scrap copper
US20200038875A1 (en) * 2018-08-02 2020-02-06 Chip Systems International Metal scrap shredder having variable speed function

Also Published As

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