CN113021074B - Maintenance tool for storing numerical control cutter for long time - Google Patents

Abstract

The invention discloses a maintenance tool for long-time storage of a numerical control cutter, which belongs to the field of maintenance tools of the numerical control cutter, and the maintenance tool for long-time storage of the numerical control cutter is characterized in that ultrasonic waves can enable maintenance liquid to infiltrate the surface of a main body of the numerical control cutter, when a maintenance ball collides with the main body of the numerical control cutter, the maintenance ball is torn into a plurality of fragments, part of the fragments can be firmly attached to the surface of the main body of the numerical control cutter under the action of a strengthening net, meanwhile, the maintenance liquid can gradually infiltrate into a three-dimensional space structure formed by a filling pipe under the action of the ultrasonic waves along with the exposure of the filling pipe to the outside, a reserved protective layer is formed in the filling pipe to form double protection with a protective film on the surface of the main body of the numerical control cutter, the maintenance can be realized aiming at part of the high-cost numerical control cutter, even if the numerical control cutter is not suitable for a long time, the phenomenon of rusting is not easy to occur, the subsequent normal use of the numerical control cutter is not easily influenced.

Description

Maintenance tool for storing numerical control cutter for long time

Technical Field

The invention relates to the field of numerical control cutter maintenance tools, in particular to a maintenance tool for long-time storage of a numerical control cutter.

Background

The numerically controlled machine tool is one kind of automatic machine tool with program control system. The control system is capable of logically processing and decoding a program defined by a control code or other symbolic instructions, represented by coded numbers, which are input to the numerical control device via the information carrier. After operation, the numerical control device sends out various control signals to control the action of the machine tool, and the parts are automatically machined according to the shape and the size required by the drawing.

The numerical control cutter is a common tool in numerical control machining, and is also called as a cutting tool. Cutting tools in a broad sense include both cutting tools and abrasive tools; meanwhile, the numerical control cutter comprises a cutter bar, a cutter handle and other accessories besides a cutting blade, the frequently-used numerical control cutter does not need extra maintenance, and the selection of the proper cutting fluid is the best maintenance mode, because the mode has lower cost, the high-speed steel cutter needs certain maintenance, the cutting fluid on the cutter can be wiped off in a short time (for several days), the cutter is coated or sprayed with the machine oil, and if the cutter is not used for a long time, butter needs to be coated and the cutter is wrapped by neutral packing paper.

The traditional long-time maintenance method of the numerical control cutter is mainly an oil seal, the surface of the numerical control cutter is wrapped by engine oil or other maintenance oil, so that the numerical control cutter is not easy to directly contact with air, the numerical control cutter is not easy to be oxidized and rusted by oxygen and steam in the air, the method has a good protection effect on the numerical control cutter in a short time, but along with the increase of time, a notch is easily formed in an oil film wrapping the surface of the numerical control cutter, the numerical control cutter is exposed to the outside, the numerical control cutter is rusted, and the subsequent normal use of the numerical control cutter is influenced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a maintenance tool for storing a numerical control cutter for a long time, which can realize maintenance of a part of high-cost numerical control cutters, is not easy to generate corrosion even if the numerical control cutters are not suitable for a long time, and is not easy to influence the subsequent normal use of the numerical control cutters.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A maintenance tool for storing numerical control cutters for a long time comprises a maintenance tank, wherein a maintenance chamber is formed in the maintenance tank, a plurality of mounting grooves are formed in a bottom plate of the maintenance chamber, an ultrasonic generating device is fixedly connected in each mounting groove, a placing frame matched with the maintenance chamber is placed in the maintenance chamber, a through hole is formed in the lower end of the placing frame, a separating net frame is fixedly connected in the through hole, a numerical control cutter main body is placed in the maintenance tank, one end of the numerical control cutter main body penetrates through the separating net frame and extends to the lower side of the placing frame, a magnetic fixing ring is connected between the separating net frame and the numerical control cutter main body and is fixedly connected with the separating net frame, maintenance liquid is placed in the maintenance chamber, the numerical control cutter main body is submerged by the liquid level of the maintenance liquid, a plurality of maintenance balls are placed in the maintenance liquid, it is a plurality of the maintenance ball all suspends in the maintenance liquid, it has the packing chamber to chisel in the maintenance ball, it has the prefabricated groove to cut on the inner wall in packing chamber, pack the intracavity and bury underground and pack chamber assorted reinforcing net, reinforcing net has the trend of outside inflation, it has a plurality of prefabricated breachs to cut on the reinforcing net, it has the filling tube to pack the intracavity packing, and is adjacent the filling tube winding forms three-dimensional space spatial structure together, the filling tube is close to the one end and the maintenance ball fixed connection of maintenance ball, can realize carrying out the maintenance to the high-cost numerical control cutter of part, even the numerical control cutter is not suitable for the phenomenon that also is difficult for appearing the corrosion for a long time, is difficult for influencing the follow-up normal use of numerical control cutter.

Further, the maintenance jar with place and be connected with the blotter between the frame, the blotter with place frame fixed connection, reduce the maintenance jar and receive the influence of placing the frame vibrations, increase the holistic stability of maintenance jar.

Furthermore, the surface fixed connection elastic ring of maintenance ball, the both ends of elastic ring all run through the maintenance ball and with reinforceing net fixed connection, the elastic ring chooses for use elastic rubber to make, and the elastic ring can play the effect of buffering, reduces the produced impact of maintenance ball striking for the maintenance ball is difficult for taking place to break because of striking each other.

Furthermore, an elastic cavity is formed in the elastic ring, air with standard atmospheric pressure is filled in the elastic cavity, the elasticity and the maximum elastic deformation of the elastic ring are increased, the maintenance ball is easy to be attached to the numerical control cutter body under the action of the reinforcing net, and the protection effect of the maintenance ball is improved.

Furthermore, one end of the filling pipe close to the maintenance ball is twisted into a plurality of line groups, the line groups are distributed in the maintenance ball in a radial mode, the line groups penetrate through the maintenance ball and are fixedly connected with the prefabricated notch, and on the premise that the overall strength of the maintenance ball is influenced, the connection strength between the filling pipe and the maintenance ball is increased, so that the filling pipe is required to be separated from the inner wall of the maintenance ball.

Furthermore, the part that the filling pipe is located maintenance ball inside includes the main pipe body, the main pipe body is three-dimensional heliciform, and is adjacent the main pipe body entangles and forms a plurality of inclosed compartments together, and when the maintenance ball broke, the filling pipe that is in on different maintenance ball fragments can separate rapidly under huge impact in the twinkling of an eye, and still adjacent main pipe body then can be because of the elasticity of self is replied fast to rebuild inclosed compartments again.

Furthermore, a plurality of capillary cracks are cut on the side wall of the main pipe body, the capillary cracks penetrate through the main pipe body, the maintenance liquid can penetrate through the capillary cracks to enter the main pipe body, and the effect of maintaining the maintenance liquid in the main pipe body is improved.

Furthermore, the main pipe body is filled with filling fibers, one end of each filling fiber, which is close to the main pipe body, is fixedly connected with the main pipe body, and the filling fibers are wound on the main pipe body to form a three-dimensional space structure, so that the effect of the filling pipe for storing the maintenance liquid is further improved.

Furthermore, the maintenance liquid is engine oil selected by the numerical control cutter main body during normal work, and the engine oil is vacuumized before maintenance and use, so that the possibility of corrosion of the maintenance liquid for maintenance on the numerical control cutter main body is reduced.

Furthermore, black pigment dissolved in the maintenance liquid is put in the maintenance liquid, the numerical control cutter main body is taken out when being reused after being stored for a long time, and after the maintenance ball, the filling pipe and the maintenance liquid attached to the surface of the numerical control cutter main body are removed, when cracks exist in the appearance of the numerical control cutter main body, the pigment can form traces matched with the cracks on the surface of the numerical control cutter main body, the pigment can be dissolved in the numerical control cutter main body screened out to be abraded, and the cutter collapse accident is not easy to occur in the using process.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

in the normal use process of the scheme, the ultrasonic wave generated by the ultrasonic wave generating device can enable the maintenance liquid to infiltrate the surface of the numerical control cutter main body, the maintenance ball can also do irregular motion in the maintenance liquid under the action of the ultrasonic wave, when the maintenance ball collides with the numerical control cutter main body, the maintenance ball can be torn into a plurality of fragments along the directions of the prefabricated groove and the prefabricated gap, part of the fragments can be firmly attached to the surface of the numerical control cutter main body under the action of the reinforcing net which always has the expansion trend, the fragments can also press and cover part of the maintenance liquid on the surface of the numerical control cutter main body to form a coating layer before being attached to the surface of the numerical control cutter main body, meanwhile, along with the filling pipe is exposed to the outside, under the action of the ultrasonic wave, the maintenance liquid can gradually infiltrate into a three-dimensional space structure formed by the filling pipe, and a reserved protective layer is formed in the filling pipe, the protective film on the surface of the numerical control cutter body is protected by the maintenance ball and the filling pipe, so that the maintenance effect of the numerical control cutter is improved.

The maintenance can be carried out on part of high-cost numerical control tools, even if the numerical control tools are not suitable for a long time, the phenomenon of corrosion is not easy to occur, and the subsequent normal use of the numerical control tools is not easy to be influenced.

Meanwhile, a small amount of soluble pigment is doped into the maintenance liquid, the numerical control cutter main body is taken out when being reused after being stored for a long time, and after the maintenance ball, the filling pipe and the maintenance liquid attached to the surface of the numerical control cutter main body are removed, when the numerical control cutter main body shows cracks, the pigment can form traces matched with the cracks on the surface of the numerical control cutter main body, can be dissolved in the abraded numerical control cutter main body, and is not easy to cause cutter breakage accidents in the using process.

Drawings

FIG. 1 is a front sectional view of the main structure of the NC tool maintenance device of the present invention;

FIG. 2 is a schematic structural diagram of the NC tool maintenance apparatus of the present invention;

FIG. 3 is a front cross-sectional view of a maintenance ball of the present invention;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural view of a fill tube of the present invention;

fig. 6 is a schematic cross-sectional view of the filling tube of the present invention.

The reference numbers in the figures illustrate:

the ultrasonic wave generator comprises a maintenance tank 1, a maintenance chamber 2, a placement frame 3, a separation screen frame 4, a magnetic fixing ring 5, a cushion pad 6, a mounting groove 7, an ultrasonic wave generating device 8, a numerical control cutter main body 9, maintenance liquid 10, a maintenance ball 11, a filling cavity 12, a prefabricated groove 13, a reinforcing screen 14, a prefabricated notch 15, an elastic ring 16, an elastic cavity 17, a filling pipe 18, a main pipe 1801, filling fibers 1802 and capillary cracks 1803.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is to be understood that the embodiments described are merely exemplary embodiments, rather than exemplary embodiments, and that all other embodiments may be devised by those skilled in the art without departing from the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the connection can be direct connection or indirect connection through an intermediate medium, and can be communication inside the model adapting element. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-4, a maintenance tool for storing a numerical control cutter for a long time comprises a maintenance tank 1, a maintenance chamber 2 is drilled in the maintenance tank 1, a plurality of mounting grooves 7 are drilled on a bottom plate of the maintenance chamber 2, an ultrasonic generator 8 is fixedly connected in each of the mounting grooves 7, a placement frame 3 matched with the maintenance chamber 2 is placed in the maintenance chamber 2, a through hole is drilled at the lower end of the placement frame 3, a separation net frame 4 is fixedly connected in the through hole, a numerical control cutter body 9 is placed in the maintenance tank 1, one end of the numerical control cutter body 9 penetrates through the separation net frame 4 and extends to the lower side of the placement frame 3, a magnetic fixing ring 5 is connected between the separation net frame 4 and the numerical control cutter body 9, the magnetic fixing ring 5 is fixedly connected with the separation net frame 4, a maintenance liquid 10 is placed in the maintenance chamber 2, the numerical control cutter body 9 is submerged by the liquid level of the maintenance liquid 10, a plurality of maintenance balls 11 are placed in the maintenance liquid 10, a plurality of maintenance balls 11 all suspend in maintenance liquid 10, it has filling chamber 12 to open in the maintenance ball 11, it has prefabricated groove 13 to open on the inner wall of filling chamber 12, it strengthens net 14 with filling chamber 12 assorted to bury underground in filling chamber 12, it has the trend of outside inflation to strengthen net 14, it has a plurality of prefabricated breachs 15 to open on strengthening net 14, it is filled with filling tube 18 to fill the intracavity 12, adjacent filling tube 18 twines and forms three-dimensional space spatial structure together, one end and the maintenance ball 11 fixed connection that filling tube 18 is close to maintenance ball 11.

In the normal use process of the scheme, the ultrasonic wave generated by the ultrasonic wave generating device 8 forms a cavitation effect on the surface of the numerical control cutter main body 9, so as to remove stains on the surface of the numerical control cutter main body 9, meanwhile, the maintenance liquid 10 infiltrates the surface of the numerical control cutter main body 9, the maintenance ball 11 also moves irregularly in the maintenance liquid 10 under the action of the ultrasonic wave, when the maintenance ball 11 collides with the numerical control cutter main body 9, the relative balance of each structure in the maintenance ball 11 can be rapidly broken through by the instant energy generated by the collision, so that the maintenance ball 11 can be torn into a plurality of fragments along the directions of the prefabricated groove 13 and the prefabricated gap 15, part of the fragments can be firmly attached to the surface of the numerical control cutter main body 9 under the action of the reinforcing mesh 14 which always has an expansion tendency, the other part of the fragments sinks to be broken by themselves and air is discharged outwards, and the overall density is increased, and the impurities on the surface of the numerical control cutter main body 9 are captured and sunk together, the fragments are attached to the surface of the numerical control cutter main body 9, part of the maintenance liquid 10 is pressed and covered on the surface of the numerical control cutter main body 9 to form a coating layer, meanwhile, the maintenance liquid 10 can gradually infiltrate into a three-dimensional space structure formed by the filling pipe 18 under the action of ultrasonic waves along with the fact that the filling pipe 18 is exposed to the outside, a reserved protective layer is formed in the filling pipe 18 and forms double protection with a protective film on the surface of the numerical control cutter main body 9, and meanwhile, the protective film on the surface of the numerical control cutter main body 9 is protected by the maintenance ball 11 and the filling pipe 18, and the maintenance effect of the numerical control cutter is improved.

In particular, in the present scheme, each structure shown in fig. 1 is for demonstration, and is not related to the actual size of each mechanism in actual production, and a technician in the field needs to design a component with an appropriate size according to the actual situation, and meanwhile, the technician can design a plurality of stations for the numerical control tool body 9 according to the actual demand, thereby increasing the maintenance efficiency.

The maintenance can be carried out on part of high-cost numerical control tools, even if the numerical control tools are not suitable for a long time, the phenomenon of corrosion is not easy to occur, and the subsequent normal use of the numerical control tools is not easy to be influenced.

Referring to fig. 1, a buffer pad 6 is connected between the maintenance tank 1 and the placing frame 3, and the buffer pad 6 is fixedly connected with the placing frame 3, so that the influence of the vibration of the placing frame 3 on the maintenance tank 1 is reduced, and the overall stability of the maintenance tank 1 is improved.

Referring to fig. 3-6, an elastic ring 16 is fixedly connected to the surface of the maintenance ball 11, two ends of the elastic ring 16 penetrate through the maintenance ball 11 and are fixedly connected to the reinforcing net 14, the elastic ring 16 is made of elastic rubber, the elastic ring 16 can play a role of buffering, impact generated by the impact of the maintenance ball 11 is reduced, the maintenance ball 11 is not easily broken due to the mutual impact, an elastic cavity 17 is drilled in the elastic ring 16, air with standard atmospheric pressure is filled in the elastic cavity 17, the elasticity and the maximum elastic deformation of the elastic ring 16 are increased, the maintenance ball 11 is easily attached to the numerical control tool body 9 under the action of the reinforcing net 14, the protection effect is increased, one end of the filling tube 18 close to the maintenance ball 11 is screwed into a plurality of line groups, the line groups are distributed radially in the maintenance ball 11, the line groups penetrate through the maintenance ball 11 and are fixedly connected to the prefabricated notch 15, on the premise of affecting the overall strength of the maintenance ball 11, the connection strength between the filling tube 18 and the maintenance ball 11 is increased, so that the filling tube 18 is necessarily separated from the inner wall of the maintenance ball 11, the part of the filling tube 18 located inside the maintenance ball 11 comprises a main tube body 1801, the main tube body 1801 is in a three-dimensional spiral shape, adjacent main tube bodies 1801 are intertwined together to form a plurality of closed compartments, when the maintenance ball 11 is broken, the filling tubes 18 located on different fragments of the maintenance ball 11 can be rapidly separated under huge instant impact, the still adjacent main tube bodies 1801 can rapidly recover due to the elasticity of the main tube bodies 1801, and the closed compartments are reconstructed, a plurality of capillary cracks 1803 are drilled on the side wall of the main tube body 1801, the capillary cracks 1803 penetrate through the main tube body 1801, the maintenance liquid 10 can penetrate through the capillary cracks 1803 to enter the main tube body 1801, the effect of the main tube body 1801 for storing the maintenance liquid 10 is increased, filling fibers 1802 are filled in the main tube body 1801, one end of the filling fibers 1802 close to the main tube body 1801 is fixedly connected with the main tube body 1801, the packing fibers 1802 are intertwined with each other in the main tube body 1801 to form a three-dimensional space structure, further increasing the effect of the packing tube 18 in retaining the curing liquid 10.

The maintenance liquid 10 selects the machine oil selected by the numerical control cutter main body 9 when normally working, the machine oil is vacuumized before maintenance, the possibility that the maintenance liquid 10 for maintenance causes erosion to the numerical control cutter main body 9 is reduced, the black pigment dissolved in the maintenance liquid 10 is put in the maintenance liquid, after the numerical control cutter main body 9 is stored for a long time and reused, the numerical control cutter main body 9 is taken out, the maintenance ball 11 attached to the surface of the numerical control cutter main body 9, the filling pipe 18 and the maintenance liquid 10 are removed, when cracks exist on the numerical control cutter main body 9, the pigment can form marks matched with the cracks on the surface of the numerical control cutter main body 9, the marks can be dissolved in the numerical control cutter main body 9 with abrasion, and the cutter breakage accident is not easy to occur in the using process.

In the normal use process of the scheme, the ultrasonic wave generated by the ultrasonic wave generating device 8 can enable the maintenance liquid 10 to infiltrate the surface of the numerical control cutter main body 9, the maintenance ball 11 can also do irregular motion in the maintenance liquid 10 under the action of the ultrasonic wave, when the maintenance ball 11 collides with the numerical control cutter main body 9, the maintenance ball 11 can be torn into a plurality of fragments along the directions of the prefabricated groove 13 and the prefabricated gap 15, and part of the fragments can be firmly attached to the surface of the numerical control cutter main body 9 under the action of the reinforcing net 14 which always has the expansion tendency until the surface of the numerical control cutter main body 9 is completely covered, the fragments can be attached to the surface of the numerical control cutter main body 9, part of the maintenance liquid 10 can be pressed and covered on the surface of the numerical control cutter main body 9 to form a covering layer, and simultaneously along with the exposure of the filling pipe 18 to the outside, under the action of the ultrasonic wave, the maintenance liquid 10 can gradually infiltrate into the three-dimensional space structure formed by the filling pipe 18, a reserved protective layer is formed in the filling pipe 18 to form double protection with a protective film on the surface of the numerical control cutter main body 9, the protective film on the surface of the numerical control cutter main body 9 is protected by the maintenance ball 11 and the filling pipe 18 to increase the maintenance effect of the numerical control cutter, maintenance can be carried out on a part of high-cost numerical control cutters, even if the numerical control cutters are not suitable for a long time, the phenomenon of corrosion is not easy to occur, the subsequent normal use of the numerical control cutters is not easy to be influenced, a small amount of soluble pigment is doped in the maintenance liquid 10, after the numerical control cutter main body 9 is stored for a long time and reused, the numerical control cutter main body 9 is taken out, the maintenance ball 11, the filling pipe 18 and the maintenance liquid 10 attached to the surface of the numerical control cutter main body 9 are removed, and when cracks exist on the numerical control cutter main body 9, the pigment can form marks matched with the cracks on the surface of the numerical control cutter main body 9, can be dissolved in the numerical control cutter main body 9 which is screened out to be worn, and is not easy to have cutter breakage accidents in the using process.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. A maintenance instrument that is used for numerical control cutter to deposit for a long time, includes maintenance jar (1), its characterized in that: the maintenance device is characterized in that a maintenance chamber (2) is drilled in the maintenance tank (1), a plurality of mounting grooves (7) are drilled on a bottom plate of the maintenance chamber (2), a plurality of ultrasonic wave generating devices (8) are fixedly connected to the inner parts of the mounting grooves (7), a frame (3) matched with the maintenance chamber is placed in the maintenance chamber (2), a through hole is drilled at the lower end of the frame (3), a separation net frame (4) is fixedly connected to the inside of the through hole, a numerical control cutter main body (9) is placed in the maintenance tank (1), one end of the numerical control cutter main body (9) penetrates through the separation net frame (4) and extends to the lower side of the frame (3), a magnetic fixing ring (5) is connected between the separation net frame (4) and the numerical control cutter main body (9), the magnetic fixing ring (5) is fixedly connected with the separation net frame (4), and a maintenance liquid (10) is placed in the maintenance chamber (2), numerical control cutter main part (9) is submerged to the liquid level of maintenance liquid (10), it has a plurality of maintenance balls (11), and is a plurality of maintenance ball (11) all suspend in maintenance liquid (10) to put in maintenance liquid (10), it has filled chamber (12) to open in maintenance ball (11), it has prefabricated groove (13) to open on the inner wall of filling chamber (12), it strengthens net (14) with filling chamber (12) assorted to bury underground in filling chamber (12), it has outside expanded trend to strengthen net (14), it has a plurality of prefabricated breachs (15) to open on strengthening net (14), it is filled with filling tube (18) to fill chamber (12), and is adjacent filling tube (18) twine together and form three-dimensional space spatial structure, one end and maintenance ball (11) fixed connection that filling tube (18) are close to maintenance ball (11).

2. The tool of claim 1, wherein the tool is a tool for long-term storage of numerically controlled tools, and the tool comprises: the maintenance jar (1) with place and be connected with blotter (6) between frame (3), blotter (6) with place frame (3) fixed connection.

3. A service tool for long term storage of numerically controlled tools according to claim 1, wherein: the surface of the maintenance ball (11) is fixedly connected with an elastic ring (16), two ends of the elastic ring (16) penetrate through the maintenance ball (11) and are fixedly connected with the reinforcing net (14), and the elastic ring (16) is made of elastic rubber.

4. A service tool for long term storage of numerically controlled tools according to claim 3, wherein: an elastic cavity (17) is formed in the elastic ring (16) in a chiseled mode, and air with standard atmospheric pressure is filled in the elastic cavity (17).

5. A service tool for long term storage of numerically controlled tools according to claim 1, wherein: one end of the filling pipe (18) close to the maintenance ball (11) is twisted into a plurality of line groups, and the line groups are distributed in a radial shape in the maintenance ball (11).

6. A service tool for long term storage of numerically controlled tools according to claim 1, wherein: the part of the filling pipe (18) inside the maintenance ball (11) comprises a main pipe body (1801), the main pipe body (1801) is in a three-dimensional spiral shape, and the adjacent main pipe bodies (1801) are entangled to form a plurality of closed compartments.

7. A service tool for long term storage of numerically controlled tools according to claim 6, wherein: a plurality of capillary cracks (1803) are cut on the side wall of the main pipe body (1801), and the capillary cracks (1803) penetrate through the main pipe body (1801).

8. A service tool for long term storage of numerically controlled tools according to claim 6, wherein: the main pipe body (1801) is filled with filling fibers (1802), and one end, close to the main pipe body (1801), of the filling fibers (1802) is fixedly connected with the main pipe body (1801).

9. A service tool for long term storage of numerically controlled tools according to claim 1, wherein: the maintenance liquid (10) is engine oil selected when the numerical control cutter main body (9) works normally, and the engine oil is vacuumized before maintenance and use.

10. A service tool for long term storage of numerically controlled tools according to claim 1, wherein: black pigment dissolved in the curing liquid (10) is put in the curing liquid.

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