CN219149522U - Ultra-precise walk heart type numerical control machine tool oil tank filtering structure - Google Patents

Abstract

The utility model discloses an oil tank filtering structure of an ultra-precise core-moving type numerical control machine tool, which comprises an oil tank body, wherein the oil tank body comprises an oil inlet area, a filtering area and an oil suction area, the filtering area comprises a baffle plate, a filtering screen plate C, a metal chip blocking mechanism A and a metal chip blocking mechanism B, one end of the baffle plate separates the oil inlet area from the oil suction area, the other end of the baffle plate separates the filtering area into a cooling oil channel A and a cooling oil channel B, the oil inlet area is communicated with the cooling oil channel A, the oil suction area is communicated with the cooling oil channel B, a cooling oil through hole is formed in the baffle plate, cooling oil in the cooling oil channel A flows into the cooling oil channel B through the filtering screen plate C, the metal chip blocking mechanism A is arranged in the cooling oil channel A, and the metal chip blocking mechanism B is arranged in the cooling oil channel B. The flow path of the cooling oil in the filtering area is long, and the cooling oil is precipitated and filtered, so that the metal scraps in the cooling oil are filtered more fully, and the filtering effect of the cooling stain is improved.

Description

Ultra-precise walk heart type numerical control machine tool oil tank filtering structure

Technical Field

The utility model relates to an ultra-precise core-moving type numerical control machine tool oil tank filtering structure, and belongs to the technical field of machine tool parts.

Background

The oil tank of lathe sets up in the lower part of lathe for hold cooling oil, cooling oil can cool off the cutter of lathe and the work piece of lathe processing, in order to improve the security of lathe processing work piece and improve the machining precision of work piece.

The prior machine tool oil tank is disclosed in China patent application with the publication number of CN115070502A, and comprises an oil suction area, an oil inlet area and a filtering area, wherein the oil inlet area is used for receiving cooling oil with slag flowing down from a machine tool in a use state, the cooling oil in the oil inlet area flows to the oil suction area through the filtering area, metal slag in the cooling oil is filtered by the filtering area, the oil suction area is provided with a cooling oil pump for sucking the filtered cooling oil, the oil inlet area is provided with an oil slag filtering box, the cooling oil with slag flowing down from the machine tool flows into the filtering area after being primarily filtered by the oil slag filtering box, the oil suction area and the oil inlet area are positioned at the same end of the oil tank, the rest is the filtering area, the filtering area is divided into a first cooling oil channel and a second cooling oil channel by a second filtering baffle, the first cooling oil channel is communicated with the oil inlet area and separated by the first filtering baffle, the cooling oil in the oil inlet area enters the first cooling oil channel after being filtered by the first filtering baffle, the cooling oil in the first cooling oil channel is communicated with the oil suction area, the cooling oil in the first cooling oil channel flows into the filtering area through the second filtering baffle, the filtering oil in the second cooling oil channel flows into the filtering area through the second filtering baffle, the filtering area and can be vertically arranged in the oil tank along the first filtering direction and the filtering area and the filtering tank is arranged in the slot.

According to the above patent application, two second filtering baffles are arranged in the filtering area, so that cooling oil can flow through the second filtering baffles immediately after flowing through the first filtering baffles and quickly flows into the oil suction area, the flowing path of the cooling oil in the above patent application is relatively short, the cooling oil is unfavorable for fully downwards depositing metal scraps in the cooling oil, the cooling oil in the above patent application is filtered only through the second filtering baffles in the filtering area, the flowing in the first cooling oil channel and the second cooling oil channel is not blocked, the downwards depositing of the metal scraps in the cooling oil is unfavorable, and therefore the filtering effect of the metal scraps in the cooling oil is not good as a whole, and due to the filter screen arranged on the second filtering baffles, the filter screen can be blocked when the metal scraps are attached to the filter screen, so that the cooling oil is prevented from flowing through, and the filtering of the cooling oil is unfavorable.

Disclosure of Invention

The utility model aims to provide an ultra-precise core type numerical control machine tool oil tank filtering structure, which solves the technical defect that in the prior art, the effect of filtering metal scraps of a machine tool cooling oil tank is poor.

In order to solve the problems, the utility model adopts the following technical scheme: the ultra-precise heart type numerical control machine tool oil tank filtering structure comprises an oil tank body, wherein the oil tank body comprises an oil inlet area, a filtering area and an oil suction area, the oil inlet area is used for receiving cooling oil with metal scraps flowing down from a machine tool in a use state, the filtering area is communicated with the oil inlet area and is provided with a filter screen A which is used for receiving the cooling oil in the oil inlet area and filtering the metal scraps in the cooling oil, the oil suction area is communicated with the filtering area and is provided with a filter screen B which is used for receiving the cooling oil filtered by the filtering area and sucking the filtered cooling oil by a cooling oil pump for cooling a machine tool cutter and a machined workpiece, the oil suction area and the oil inlet area are positioned at the same end of the oil tank body, the filtering area comprises a baffle plate, a filter screen C, a metal scraps blocking mechanism A and a metal scraps blocking mechanism B, the baffle plate is arranged along the length direction of the oil tank body, one end of the baffle plate separates an oil inlet area from an oil suction area, the other end of the baffle plate separates a filtering area into a cooling oil channel A and a cooling oil channel B, wherein the oil inlet area is communicated with the cooling oil channel A, a filter screen plate A is arranged between the oil inlet area and the cooling oil channel A, the oil suction area is communicated with the cooling oil channel B, the filter screen plate B is arranged between the oil suction area and the cooling oil channel B, one end of the baffle plate, which is far away from the oil inlet area and the oil suction area, is provided with a cooling oil through hole for cooling oil to flow from the cooling oil channel A to the cooling oil channel B, the filter screen plate C is detachably connected with the baffle plate, the filter screen plate C is arranged at the cooling oil through hole, cooling oil in the cooling oil channel A flows into the cooling oil channel B after being filtered by the filter screen plate C, the metal chip blocking mechanism A is arranged in the cooling oil channel A, the metal chip blocking mechanism B is arranged in the cooling oil channel B and used for blocking metal chips in the cooling oil when the cooling oil flows in the cooling oil channel A. The flow path of the cooling oil in the filtering area is longer, and when the cooling oil flows through the metal chip blocking mechanism A and the metal chip blocking mechanism B, the metal chips are blocked to be precipitated downwards, and finally the cooling oil entering the oil suction area is filtered and precipitated fully, so that the content of the metal chips in the cooling oil is low, and the filtering effect of the cooling oil is good.

As a further improvement of the utility model, the metal chip blocking mechanism A comprises a baffle A and a baffle B, wherein the baffle A is arranged on one side, close to the filter screen plate A, in the cooling oil channel A, two ends of the baffle A are respectively connected with the baffle and the inner wall of the oil tank body, a lower channel A for cooling oil to flow through is reserved at the bottom of the baffle A and the bottom of the oil tank body, the baffle B is arranged in the cooling oil channel A and between the baffle A and the filter screen plate C, two ends of the baffle B are respectively connected with the baffle and the inner wall of the oil tank body, the height of the baffle B is smaller than that of the baffle B, an upper channel A for cooling oil to flow through is formed at the top of the baffle B, the baffle C and the inner wall of the oil tank body are respectively connected, the baffle C is arranged at the bottom of the baffle C and the inner wall of the oil tank body, and the lower channel B for cooling oil to flow through is reserved at the bottom of the baffle C. In the utility model, the cooling oil in the cooling oil channel A flows through the lower channel A and the upper channel A in sequence, the baffle A and the baffle B block the metal scraps in the cooling oil, so that a part of the metal scraps sink down to the bottom of the oil tank body, and in the cooling oil channel B, the cooling oil flows through the upper channel B and the lower channel B in sequence, and the baffle C and the baffle D block the metal scraps in the cooling oil, so that the metal scraps in the cooling oil are further precipitated down, and the metal scraps in the cooling oil are filtered more fully and enter the oil suction area.

As a further improvement of the utility model, slots A are fixedly arranged on two sides of the baffle plate and one side of the opposite inner wall of the oil tank body, tops of the baffle plate A and the baffle plate D are bent towards one side to form a flanging A, two ends of the baffle plate A and the baffle plate D are respectively inserted into the slots A on the baffle plate and the inner wall of the oil tank body, two ends of the flanging A are supported by the tops of the slots A, slots B are fixedly arranged on two sides of the baffle plate and one side of the opposite inner wall of the oil tank body, two ends of the baffle plate B and the baffle plate C are respectively inserted into the slots B on the baffle plate and the inner wall of the oil tank body, and bottoms of the baffle plate B and the baffle plate C are attached to the bottom of the oil tank body. According to the utility model, the slot A is arranged, the baffle A and the baffle D are inserted into the slot A, so that the baffle A and the baffle D can be conveniently installed, the slot B is arranged, and the baffle B and the baffle C can be conveniently installed.

As a further improvement of the utility model, the tops of the baffle B and the baffle C are bent toward one side to form a flange B, and the lengths of the flange B on the baffle B and the flange B on the baffle C are respectively smaller than those of the baffle B and the baffle C. According to the utility model, the flange B is arranged, so that the baffle B and the baffle C can be installed by holding the flange B, and the baffle B and the baffle C can be conveniently installed.

As a further improvement of the utility model, two slots C are respectively arranged on two sides of the cooling oil through hole on the partition plate, and two ends of the filter screen plate C are arranged in the slots C and can move up and down in the slots C. According to the utility model, the slots C are arranged, so that the filter screen plate C can be conveniently installed and detached.

As a further improvement of the present utility model, elongated holes are formed at the middle and upper portions of the filter screen plate a, the filter screen plate B and the filter screen plate C. According to the utility model, by arranging the strip holes, when the filter meshes on the filter screen plate A, the filter screen plate B and the filter screen plate C are blocked by metal scraps, cooling oil can still flow through the filter screen plate A, the filter screen plate B and the filter screen plate C, and the strip holes are arranged at the middle upper parts of the filter screen plate A, the filter screen plate B and the filter screen plate C, so that the metal scraps deposited at the bottom of the oil tank body cannot flow through the strip holes along with the cooling oil.

In summary, the beneficial effects of the utility model are as follows: the flow path of the cooling oil in the filtering area is long, and the cooling oil is precipitated and filtered, so that the metal scraps in the cooling oil are filtered more fully, and the filtering effect of the cooling stain is improved.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic perspective view of another angle of the present utility model.

Wherein: 1. an oil tank body; 2. an oil inlet area; 3. a filtration zone; 4. an oil absorption region; 5. a filter screen plate A; 6. a filter screen plate B; 7. a partition plate; 8. a filter screen plate C; 9. a cooling oil passage A; 10. a cooling oil passage B; 11. a baffle A; 12. a baffle B; 13. a lower channel A; 14. an upper channel A; 15. a baffle C; 16. a baffle D; 17. an upper channel B; 18. a lower channel B; 19. a slot A; 20. flanging A; 21. a slot B; 22. b, flanging; 23. a slot C; 24. a slit hole; 25. and a cooling oil pump.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

The oil tank filtering structure of the ultra-precise walk-center type numerical control machine tool as shown in fig. 1 and 2 comprises an oil tank body 1, wherein the oil tank body 1 comprises an oil inlet area 2, a filtering area 3 and an oil suction area 4, the oil inlet area 2 is used for receiving cooling oil with metal scraps flowing down from the machine tool in a use state, the filtering area 3 is communicated with the oil inlet area 2, and a filter screen plate A5 is detachably arranged at the communication part of the filter area 3 and the oil inlet area 2, the filter area 3 is used for receiving the cooling oil in the oil inlet area 2 and filtering metal scraps in the cooling oil, i.e. the cooling oil in the oil inlet area 2 flows into the filtering area 3 after being filtered by the filtering screen A5, the oil suction area 4 in the utility model is communicated with the filtering area 3, and a filter screen plate B6 is detachably arranged at the communication position of the oil suction area 4 and the filter area 3, the oil suction area 4 is used for receiving cooling oil after the filter area 3 filters metal scraps, i.e. the cooling oil in the filtering area 3 flows into the oil suction area 4 after being filtered by the filtering screen B6, the filtered cooling oil in the oil suction area 4 is sucked and sprayed onto the cutter of the machine tool and the workpiece processed by the machine tool by the cooling oil pump 25 to cool the cutter of the machine tool and the workpiece processed by the machine tool, wherein the oil suction area 4 and the oil inlet area 2 are positioned at the same end of the oil tank body 1 and are separated, are not directly communicated, that is, the cooling oil in the oil inlet area 2 must flow through the filtering area 3 and be filtered by the filtering area 3 before entering the oil suction area 4 for machine tool use, and the connection mode of the filtering screen plate A5 and the filtering screen plate B6 and the oil tank body 1 in the present utility model is the prior art, and specific reference may be made to the Chinese patent application document with publication number of CN115070502A, and the present utility model will not be described in detail.

The filtering area 3 comprises a baffle 7, a filter screen plate C8, a metal chip blocking mechanism A and a metal chip blocking mechanism B, wherein the baffle 7 is arranged along the length direction of the oil tank body 1, the height of the baffle 7 is equal to that of the inside of the oil tank body 1, the baffle 7 is integrally formed with the inner surface of the oil tank body 1, the oil tank body 1 is cast together with the baffle 7 to strengthen the connection strength of the baffle 7 and the oil tank body 1 and the tightness of the connection, one end of the baffle 7 separates the oil inlet area 2 from the oil suction area 4, namely the oil inlet area 2 and the oil suction area 4 are actually separated by the baffle 7, the other end of the baffle 7 separates the filtering area 3 into a cooling oil channel A9 and a cooling oil channel B10 which are parallel to each other, the oil inlet area 2 is communicated with the cooling oil channel A9, the filter screen plate A5 is arranged between the soaking area and the cooling oil channel A9, the oil suction area 4 is communicated with the cooling oil channel B10, the filter screen plate B6 is arranged between the oil suction area 4 and the cooling oil channel B10, in order to enable cooling oil to flow from the cooling oil channel A9 to the cooling oil channel B10, two sides of a partition plate 7 penetrating through the partition plate 7 are arranged at one end, far away from the oil inlet area 2 and the oil suction area 4, of the partition plate 7 for cooling oil to flow from the cooling oil channel A9 to the cooling oil channel B10, the filter screen plate C8 is detachably connected with the partition plate 7, the filter screen plate C8 is arranged at the cooling oil through hole, cooling oil in the cooling oil channel A9 flows into the cooling oil channel B10 through the cooling oil through hole after being filtered by the filter screen plate C8, the metal chip blocking mechanism A in the utility model is arranged in the cooling oil channel A9, the metal chip blocking mechanism B is arranged in the cooling oil channel B10 and used for blocking metal chips in the cooling oil when the cooling oil flows in the cooling oil channel A9.

The utility model relates to a metal chip blocking mechanism A, which comprises a baffle A11 and a baffle B12, wherein the baffle A11 and the baffle B12 are made of metal plates, the baffle A11 is arranged in a cooling oil channel A9 and is close to one side of a filter screen plate A5, the baffle A11 is parallel to the filter screen plate A5, two ends of the baffle A11 are respectively and detachably connected with a baffle 7 and the inner wall of an oil tank body 1, a lower channel A13 for cooling oil to flow through is reserved at the bottom of the baffle A11 and the bottom of the oil tank body 1, the height of the baffle A11 is smaller than that of the baffle 7, when the baffle A11 is detachably arranged on the inner surfaces of the baffle 7 and the oil tank body 1, a gap is reserved between the baffle A11 and the bottom of the oil tank body 1, the gap forms a lower channel A13 for cooling oil to flow through, the baffle B12 is arranged in the cooling oil channel A9 and is positioned between the baffle A11 and the filter screen plate C8, two ends of the baffle B12 are respectively and detachably connected with the baffle 7 and the inner wall of the oil tank body 1, the baffle B12 has a height smaller than that of the baffle 7, after the baffle B12 is detachably mounted with the baffle 7 and the inner surface of the oil tank body 1, an upper channel A14 through which cooling oil flows is formed at the top of the baffle B12, through which cooling oil flows from the top of the baffle B12, the metal chip blocking mechanism B in the utility model comprises a baffle C15 and a baffle D16, the baffle C15 is arranged at one side of the cooling oil channel B10 near the filter screen plate C8, both ends of the baffle C15 are respectively connected with the baffle 7 and the inner wall of the oil tank body 1, the height of the baffle C15 is smaller than that of the baffle 7, an upper channel B17 through which cooling oil flows is formed at the top of the baffle C15, the mounting mode of the baffle C15 is the same as that of the baffle B12, specifically, the mounting structure of the baffle B12 can be referred to, the baffle D16 is arranged in the cooling oil channel B10 and is positioned between the baffle C15 and the filter screen plate B6, the two ends of the baffle plate D16 are respectively connected with the baffle plate 7 and the inner wall of the oil tank body 1, and a lower channel B18 for cooling oil to flow through is reserved at the bottom of the baffle plate D16 and the bottom of the oil tank body 1, and the installation structure of the baffle plate D16 is the same as that of the baffle plate A11, and specific reference can be made to the installation of the baffle plate A11.

The mounting structure of the baffle A11 and the baffle D16 in the utility model is specifically as follows: the two sides of the baffle plate 7 and one side opposite to the inner wall of the oil tank body 1 are fixedly provided with a slot A19, the slot A19 is formed by two angle steels, the angle steels are fixedly welded with the baffle plate 7 or the inner wall of the oil tank body 1, the tops of the baffle plate A11 and the baffle plate D16 are bent towards one side by 90 degrees to form a flanging A20, the lengths of the flanging A20 on the baffle plate A11 and the baffle plate D16 are respectively equal to those of the baffle plate A11 and the baffle plate D16, two ends of the baffle plate A11 and the baffle plate D16 are respectively inserted into the slot A19 on the inner wall of the baffle plate 7 and the inner wall of the oil tank body 1, the two ends of the flanging A20 can move up and down in the slot A19, after the flanging A20 is supported at the top of the slot A19, the baffle plate A11 and the baffle plate D16 cannot move downwards continuously in the slot A19 to leave a lower channel A13 and a lower channel B18. The specific structure for detachably mounting the baffle B21 and the baffle C15 in the utility model is as follows: slots B21 are fixedly formed on two sides of the baffle 7 and one side of the inner wall of the oil tank body 1, which are opposite to each other, two ends of the baffle B12 and the baffle C15 are respectively inserted into the slots B21 on the inner wall of the baffle 7 and the oil tank body 1, and the bottoms of the baffle B12 and the baffle C15 are attached to the bottom of the oil tank body 1, in order to facilitate the detachment of the baffle B12 and the baffle C15, the tops of the baffle B12 and the baffle C15 are bent towards one side by 90 degrees to form a flanging B22, and the lengths of the flanging B22 on the baffle B12 and the baffle C15 are respectively smaller than those of the baffle B12 and the baffle C15, so that the tops of the slots B21 do not abut against the flanging B22, and the bottoms of the baffle B12 and the baffle C15 are attached to the bottom surface of the oil tank body 1.

The specific structure for realizing the detachable installation of the filter screen plate C8 is as follows: two sides of the partition plate 7, which are positioned at the cooling oil through holes, are respectively provided with a slot C23, and two ends of the filter screen plate C8 are arranged in the slots C23 and can move up and down in the slots C23. In the utility model, the middle and upper parts of the filter screen plate A5, the filter screen plate B6 and the filter screen plate C8 are respectively provided with the strip holes 24, the strip holes 24 can be rectangular holes or waist-shaped holes, and when the meshes on the filter screen plate A5, the filter screen plate B6 and the filter screen plate C8 are blocked by metal scraps, cooling oil can flow through the filter screen plate A5, the filter screen plate B6 and the filter screen plate C8 through the strip holes 24, and because the strip holes 24 are positioned at the middle and upper parts of the filter screen plate A5, the filter screen plate B6 and the filter screen plate C8, the metal scraps deposited at the bottom of the oil tank body 1 can not flow through the filter screen plate A5, the filter screen plate B6 and the filter screen plate C8 along with the flow of the cooling oil.

All parts not specifically described in the above description are prior art or can be realized by prior art. Moreover, the embodiments of the present utility model are described in the preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model. Equivalent changes and modifications of the utility model are to be considered as technical scope of the present utility model.

Claims (6)

1. The utility model provides an ultra-precise walk heart formula digit control machine tool oil tank filtration, including oil tank body (1), oil tank body (1) include oil feed region (2), filtering area (3) and oil absorption region (4), oil feed region (2) are used for receiving the cooling oil that has the metal chip that flows down from the lathe under the user state, filtering area (3) communicate with each other with oil feed region (2) to be provided with filter screen plate A (5), be used for receiving the cooling oil of oil feed region (2), and filter the metal chip in the cooling oil, oil absorption region (4) communicate with each other with filtering area (3), and be provided with filter screen plate B (6), be used for receiving the cooling oil after the filtering area (3) filtering metal chip, and the cooling oil after the filtering is absorbed by cooling oil pump (25) supplies the cooling of lathe cutter and work piece, wherein oil absorption region (4) are located the same end of oil tank body (1) with oil feed region (2), its characterized in that: the filtering area (3) comprises a baffle plate (7), a filtering screen plate C (8), a metal chip blocking mechanism A and a metal chip blocking mechanism B, wherein the baffle plate (7) is arranged along the length direction of the oil tank body (1), one end of the baffle plate (7) separates the oil inlet area (2) from the oil suction area (4), the other end of the baffle plate (7) separates the filtering area (3) into a cooling oil channel A (9) and a cooling oil channel B (10), the oil inlet area (2) is communicated with the cooling oil channel A (9), the filtering screen plate A (5) is arranged between the oil inlet area and the cooling oil channel A (9), the oil suction area (4) is communicated with the cooling oil channel B (10), the filtering screen plate B (6) is arranged between the oil suction area (4) and the cooling oil channel B (10), one end of the baffle plate (7) far away from the oil inlet area (2) and one end of the oil suction area (4) is provided with a cooling oil through hole for cooling oil flowing from the cooling oil channel A (9) to the cooling oil channel B (10), the filtering screen plate C (8) is detachably connected with the baffle plate (7) and the filtering screen plate C (8) is arranged in the cooling oil channel A (9) and the cooling oil channel B (9) is arranged in the cooling oil channel B (9), the cooling oil blocking mechanism B is arranged in the cooling oil channel B (10) and used for blocking metal scraps in the cooling oil when the cooling oil flows in the cooling oil channel A (9).

2. The ultra-precise walk-center type numerical control machine tool oil tank filtering structure according to claim 1, wherein: the metal chip blocking mechanism A comprises a baffle A (11) and a baffle B (12), wherein the baffle A (11) is arranged on one side, close to a filter screen plate A (5), in a cooling oil channel A (9), of the baffle A (11) respectively connected with a baffle plate (7) and the inner wall of an oil tank body (1), a lower channel A (13) through which cooling oil flows is reserved at the bottom of the baffle A (11) and the bottom of the oil tank body (1), the baffle B (12) is arranged in the cooling oil channel A (9) and is positioned between the baffle A (11) and a filter screen plate C (8), two ends of the baffle B (12) are respectively connected with the baffle plate (7) and the inner wall of the oil tank body (1), the height of the baffle B (12) is smaller than that of the baffle plate (7), an upper channel A (14) through which cooling oil flows is formed at the top of the baffle B (12), the metal chip blocking mechanism B comprises a baffle C (15) and a baffle D (16), the baffle C (15) is arranged on one side, close to the filter screen plate C (8) in the cooling oil channel B (10), the two ends of the baffle C (15) are respectively connected with the two ends of the baffle C (7) and the upper wall (15) of the baffle plate (17) are respectively higher than the baffle plate (7) and the upper wall (17) is formed at the top of the baffle plate (7), baffle D (16) sets up in cooling oil passageway B (10) to be located between baffle C (15) and filter screen plate B (6), baffle D (16) both ends are connected with baffle (7) and oil tank body (1) inner wall respectively, and bottom and oil tank body (1) bottom of baffle D (16) leave the lower passageway B (18) that supplies cooling oil to flow through.

3. The ultra-precise walk-center type numerical control machine tool oil tank filtering structure according to claim 2, wherein: slot A (19) is fixedly arranged on two sides of the partition plate (7) and one side, opposite to the inner wall, of the oil tank body (1), a flange A (20) is formed by bending the tops of the baffle A (11) and the baffle D (16) towards one side, two ends of the baffle A (11) and the baffle D (16) are respectively inserted into the slot A (19) on the partition plate (7) and the inner wall of the oil tank body (1), two ends of the flange A (20) are supported by the top ends of the slot A (19), slot B (21) is fixedly arranged on two sides of the partition plate (7) and one side, opposite to the inner wall, of the oil tank body (1), two ends of the baffle B (12) and the baffle C (15) are respectively inserted into the slot B (21) on the partition plate (7) and the inner wall of the oil tank body (1), and the bottoms of the baffle B (12) and the baffle C (15) are attached to the bottom of the oil tank body (1).

4. The ultra-precise walk-center type numerical control machine tool oil tank filtering structure according to claim 3, wherein: the tops of the baffle B (12) and the baffle C (15) are bent towards one side to form a flanging B (22), and the lengths of the flanging B (22) on the baffle B (12) and the baffle C (15) are respectively smaller than those of the baffle B (12) and the baffle C (15).

5. The ultra-precise walk-center type numerical control machine tool oil tank filtering structure according to claim 1, wherein: two sides of the partition plate (7) which are positioned at the cooling oil through holes are respectively provided with a slot C (23), and two ends of the filter screen plate C (8) are arranged in the slots C (23) and can move up and down in the slots C (23).

6. The ultra-precise walk-center type numerical control machine tool oil tank filtering structure according to claim 1, wherein: elongated holes (24) are formed in the middle and upper parts of the filter screen plate A (5), the filter screen plate B (6) and the filter screen plate C (8).

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