CN115846161A

CN115846161A - Machining device and machining method for corrosion-resistant valve

Info

Publication number: CN115846161A
Application number: CN202211643984.6A
Authority: CN
Inventors: 仝林东; 仝林辉; 任文良; 赵晰虎; 李焕景
Original assignee: Binzhou Dongli Metal Technology Co ltd
Current assignee: Binzhou Dongli Metal Technology Co ltd
Priority date: 2022-12-20
Filing date: 2022-12-20
Publication date: 2023-03-28
Anticipated expiration: 2042-12-20
Also published as: CN115846161B

Abstract

The invention discloses a machining device and a machining method of a corrosion-resistant valve. According to the invention, the track strip and the heating rod are arranged, the track strip is fixedly connected with the inner wall of the sealing cover, and the heating rod is positioned in the center of the sealing cover, so that the valve body is clamped by the drying assembly to move around the heating rod when moving, and the drying assembly can drive the valve body to rotate in the moving process, so that the valve body rotates three hundred sixty degrees around the heating rod, and thus the valve body is uniformly heated, the anticorrosive paint can be uniformly dried by uniform heating, and the problem of nonuniform drying of the valve body is solved.

Description

Machining device and machining method for corrosion-resistant valve

Technical Field

The invention belongs to the technical field of valve machining, and particularly relates to a machining device and a machining method for a corrosion-resistant valve.

Background

Valves are used in valves for fluid control systems, ranging from the simplest shut-off valves to the various valves used in extremely complex autonomous systems, and are of a wide variety of types and sizes. The valves can be used for controlling the flow of various fluids such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like, and are further divided into cast iron valves, cast steel valves, stainless steel valves, chromium molybdenum vanadium steel valves, dual-phase steel valves, plastic valves, nonstandard valves and the like according to the materials.

The corrosion is one of important elements causing valve damage, so the valve needs to be added with anti-corrosion paint in the processing process, the valve needs to be forged by a valve body before the anti-corrosion paint needs to be sprayed, casting heat treatment, corner cutting, corner and inner wall polishing, draining after cleaning and then spraying the anti-corrosion paint, the valve needs to enter a drying room for drying in order to increase the firmness of the anti-corrosion paint, the valve body is assembled with other parts such as a valve seat and a valve cover, a valve seat and a starting and closing part after waiting for cooling after drying, a valve rod, a support, a valve rod nut, a filler box, an upper sealing seat and other parts, the inspection is carried out after the assembly, the finished product is prevented from being unqualified, and the finished product is packaged after the inspection is qualified and then sold to the market.

The mode that common couple was hoisted side by side on the market drove the valve body and removes various processing equipment, and the valve body is dried through hoisting the entering stoving room, and the valve body that hoists can not rotate, and the source that generates heat in stoving room is concentrated on both sides, leads to the inhomogeneous problem of valve body stoving of mid portion.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a processing device and a processing method of a corrosion-resistant valve, which have the advantage of uniform drying and solve the problem of nonuniform drying of a valve body of the valve.

The invention is realized in this way, a processing device and a processing method of a corrosion-resistant valve, comprising a sealing cover, wherein a heating rod is fixedly arranged in the sealing cover, a track strip is fixedly connected in the sealing cover, and a drying assembly is arranged at the top of the track strip;

the drying assembly comprises a supporting plate, one end, far away from the closed cover, of the track strip is in contact with the bottom of the supporting plate, a bidirectional motor is fixedly mounted at the top of the supporting plate, a supporting column is sleeved at the output end of the top of the bidirectional motor, the top of the supporting column is fixedly connected with a top plate, a clamping tool is connected inside the top plate, and a rotating tool is connected at the output end of the top of the bidirectional motor;

the clamping tool comprises a screw, a positioning block is fixedly connected to the left side of the top plate, a rotating wheel is fixedly connected to the right side of the screw, the right side of the screw penetrates through the outer side of the top plate and is fixedly connected with the rotating wheel, a sliding block is sleeved on the surface of the screw and is meshed and connected with the surface of the screw through threads, and a movable clamping block is fixedly connected to the top of the sliding block;

a valve body is connected between the opposite sides of the positioning block and the movable clamping block, four balls are fixedly mounted on the opposite sides of the positioning block and the movable clamping block, and the other sides of the balls are in contact with the surface of the valve body;

the rotating tool comprises a rotating rod, the bottom of the rotating rod is fixedly mounted with the output end of the top of the bidirectional motor, the top of the rotating rod is fixedly connected with a first gear, the top of the first gear is connected with a second gear in a meshing manner, the right side of the second gear is connected with a rotating rod in a meshing manner, and the right side of the rotating rod is fixedly connected with a lower left corner ball;

the bottom of the supporting plate is fixedly connected with a track block, the track block is positioned in the track strip and slides, and the output end of the bottom of the bidirectional motor is fixedly connected with a moving tool;

the movable tool comprises a connecting rod, the top of the connecting rod is fixedly connected with the output end of the bottom of the two-way motor, a first bevel gear is fixedly connected to the bottom of the connecting rod, a second bevel gear is meshed with the bottom of the first bevel gear, threads are arranged on the surface of the second bevel gear, and a thread groove matched with the threads for use is formed in the track bar.

Preferably, the track bar is internally provided with a track groove matched with the track block, the track block slides along with the internal track of the track groove, and the track block and the track groove are in a T shape.

Preferably, a sliding groove matched with the sliding block is formed in the top plate, the sliding block is located in the sliding groove and slides, the first gear is located below the sliding groove, and an interlayer is arranged between the first gear and the sliding groove.

Preferably, the two sides of the bottom of the top plate are fixedly connected with mounting rods, the bottom of each mounting rod is fixedly connected with the top of the corresponding support plate, and the mounting rods are located on the two sides of the two-way motor.

Preferably, the track bar is spirally positioned inside the closed cover, and the spiral center of the track bar is level with the center of the heating rod.

Preferably, the number of the thread grooves is several, and the track grooves are uniformly distributed in the track bar.

Preferably, bearings are sleeved on the right side of the second bevel gear, the left side of the second bevel gear and the surface of the rotating rod, and the outer surfaces of the bearings are fixedly mounted with the inner walls of the sliding block and the positioning block respectively.

A method of using a corrosion resistant valve manufacturing apparatus, the method comprising the steps of:

s1: the valve body sprayed with the corrosion-resistant material is placed between the positioning block and the movable clamping block, and then is positioned through the clamping tool, so that the valve body is prevented from falling;

s2: starting the two-way motor to enable the output end of the two-way motor to drive the valve body of the valve to move and rotate simultaneously;

s3: the moving tool drives the clamping tool, the rotating tool, the supporting plate and the bidirectional motor to move;

s4: in the moving process, the rotating tool drives the valve body to rotate, so that the valve body is heated uniformly;

s5: when the output end of the bottom of the bidirectional motor reaches the rear side of the track bar, the output end of the bottom of the bidirectional motor rotates reversely, so that the movable tool drives the valve body of the valve to return;

s: and the returned valve body is detached through the clamping tool and replaced by another valve body, so that the operation is completed.

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

1. according to the invention, the track strip and the heating rod are arranged, the track strip is fixedly connected with the inner wall of the sealing cover, and the heating rod is positioned in the center of the sealing cover, so that the valve body is clamped by the drying assembly to move around the heating rod when moving, and the drying assembly can drive the valve body to rotate in the moving process, so that the valve body rotates three hundred sixty degrees around the heating rod, and thus the valve body is uniformly heated, the anticorrosive paint can be uniformly dried by uniform heating, and the problem of nonuniform drying of the valve body is solved.

2. According to the invention, the T-shaped track block and the track groove are arranged, so that the drying assembly is prevented from falling off in the process of walking along the track bar, the drying assembly is protected, the anti-corrosion paint is prevented from being uneven due to shaking generated when the drying assembly moves, and the valve body of the valve is fully heated uniformly.

3. The sliding groove is arranged, so that the distance between the positioning block and the movable clamping block can be changed, and the valve body limiting device is suitable for limiting valve bodies with different lengths.

4. According to the invention, the installation rod is arranged, and the installation rod mainly increases the firmness and the support between the top plate and the support plate, so that the drying assembly has better stability in operation.

5. According to the invention, by arranging the track bar and the heating rod, the drying assembly can rotate around the heating rod when moving in the track bar, so that the valve body of the valve is always opposite to the heating rod, and the valve body of the valve is rotated by the rotating tool, so that the valve body of the valve is dried more uniformly.

6. According to the invention, the thread grooves are arranged, the number of the thread grooves represents the moving distance of the second bevel gear, and the threads of the second bevel gear are meshed and connected with the thread grooves to drive the drying assembly to move.

7. According to the invention, the bearings are arranged, so that the stability of the second bevel gear, the second gear and the rotating rod during rotation is increased, and the position deviation of the second bevel gear, the second gear and the rotating rod after stress is prevented.

Drawings

FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a heater bar, track bar, and drying assembly according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a track bar and drying assembly provided by an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a drying assembly provided in an embodiment of the present invention;

FIG. 5 is a front perspective cross-sectional view of a drying assembly provided in accordance with an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5A according to an embodiment of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 5 at B in accordance with an embodiment of the present invention;

fig. 8 is an enlarged view of a portion of C in fig. 5 according to an embodiment of the present invention.

In the figure: 1. a closure cap; 2. a heating rod; 3. a track bar; 4. a support plate; 5. a bi-directional motor; 6. a support pillar; 7. a top plate; 8. clamping a tool; 81. a rotating wheel; 82. a screw; 83. a slider; 84. a clamping block; 85. positioning blocks; 9. a valve body; 10. rotating the tool; 101. a rotating rod; 102. a first gear; 103. a second gear; 104. rotating the rod; 11. a ball bearing; 12. a track block; 13. a track groove; 14. moving the tool; 141. a connecting rod; 142. a first bevel gear; 143. a second bevel gear; 144. a thread; 145. a thread groove; 15. a chute; 16. and (5) installing a rod.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 8, a device and a method for processing a corrosion-resistant valve according to an embodiment of the present invention include a sealing cover 1, a heating rod 2 is fixedly installed inside the sealing cover 1, a track bar 3 is fixedly connected inside the sealing cover 1, and a drying assembly is disposed at the top of the track bar 3;

the drying assembly comprises a supporting plate 4, one end, far away from a closed cover 1, of a track strip 3 is in contact with the bottom of the supporting plate 4, a bidirectional motor 5 is fixedly mounted at the top of the supporting plate 4, a supporting column 6 is sleeved at the output end of the top of the bidirectional motor 5, a top plate 7 is fixedly connected to the top of the supporting column 6, a clamping tool 8 is connected to the inside of the top plate 7, and a rotating tool 10 is connected to the output end of the top of the bidirectional motor 5;

the clamping tool 8 comprises a screw 82, a positioning block 85 is fixedly connected to the left side of the top plate 7, a rotating wheel 81 is fixedly connected to the right side of the screw 82, the right side of the screw 82 penetrates through the outer side of the top plate 7 to be fixedly connected with the rotating wheel 81, a sliding block 83 is sleeved on the surface of the screw 82, the sliding block 83 is meshed with the surface of the screw 82 through threads 144, and a movable clamping block 84 is fixedly connected to the top of the sliding block 83;

a valve body 9 is connected between the opposite sides of the positioning block 85 and the movable clamping block 84, four balls 11 are fixedly mounted on the opposite sides of the positioning block 85 and the movable clamping block 84, and the other sides of the balls 11 are in contact with the surface of the valve body 9;

the rotary tool 10 comprises a rotary rod 101, the bottom of the rotary rod 101 is fixedly mounted with the output end of the top of the bidirectional motor 5, the top of the rotary rod 101 is fixedly connected with a first gear 102, the top of the first gear 102 is connected with a second gear 103 in a meshed manner, the right side of the second gear 103 is connected with a rotary rod 104 in a meshed manner, and the right side of the rotary rod 104 is fixedly connected with a lower left corner ball 11;

the bottom of the supporting plate 4 is fixedly connected with a track block 12, the track block 12 slides in the track strip 3, and the output end of the bottom of the bidirectional motor 5 is fixedly connected with a movable tool 14;

the movable tool 14 comprises a connecting rod 141, the top of the connecting rod 141 is fixedly connected with the output end of the bottom of the two-way motor 5, the bottom of the connecting rod 141 is fixedly connected with a first bevel gear 142, the bottom of the first bevel gear 142 is connected with a second bevel gear 143 in a meshed mode, threads 144 are arranged on the surface of the second bevel gear 143, and a thread groove 145 matched with the threads 144 for use is formed in the track bar 3.

Referring to fig. 1, 2, 3, 5 and 8, a track groove 13 matched with a track block 12 is formed in the track bar 3, the track block 12 slides along the inner track of the track groove 13, and the track block 12 and the track groove 13 are T-shaped.

Adopt above-mentioned scheme: through setting up T shape orbit piece 12 and orbit groove 13, prevent that the in-process that the final assembly that dries from being located the walking of orbit strip 3 from taking place to drop, can guarantee when having reached the protection to the final assembly that dries that anticorrosive lacquer can not rock when removing because of the final assembly that dries and cause inhomogeneously, fully guarantee that valve body 9 is heated equally.

Referring to fig. 7, a sliding groove 15 used in cooperation with the sliding block 83 is formed in the top plate 7, the sliding block 83 slides in the sliding groove 15, the first gear 102 is located below the sliding groove 15, and an interlayer is arranged between the first gear 102 and the sliding groove 15.

Adopt above-mentioned scheme: through setting up spout 15, can make the distance between locating piece 85 and the removal grip block 84 change, be applicable to the valve body 9 of different length spacing.

Referring to fig. 1, 2, 4 and 6, mounting rods 16 are fixedly connected to both sides of the bottom of the top plate 7, the bottom of the mounting rods 16 is fixedly connected to the top of the supporting plate 4, and the mounting rods 16 are located at both sides of the bi-directional motor 5.

Adopt above-mentioned scheme: through setting up installation pole 16, installation pole 16 has mainly increased fastness and support between roof 7 and the backup pad 4, can make drying assembly stability in the operation better.

Referring to fig. 1, 2, 3 and 5, the track bar 3 is spirally positioned inside the closed cover 1, and the spiral center of the track bar 3 is horizontal to the center of the heating rod 2.

The scheme is adopted: through setting up orbit strip 3 and heating rod 2, drying assembly can make when being located 3 inside removals of orbit strip around heating rod 2 and rotate, makes valve body 9 remain throughout and is relative with heating rod 2, and rotatory valve body 9 through rotatory frock 10 makes valve body 9 dry more evenly.

Referring to fig. 5 and 8, the number of the screw grooves 145 is several, and the track grooves 13 are uniformly distributed inside the track bar 3.

Adopt above-mentioned scheme: by providing the screw grooves 145, the number of the screw grooves 145 represents the moving distance of the second bevel gear 143, and the screw 144 of the second bevel gear 143 is engaged with the screw grooves 145 to move the drying assembly.

Referring to fig. 6 and 8, bearings are sleeved on the right side of the second bevel gear 143, the left side of the second bevel gear 103, and the surface of the rotating rod 104, and the outer surfaces of the bearings are fixedly mounted with the inner walls of the slider 83 and the positioning block 85, respectively.

Adopt above-mentioned scheme: by providing the bearings, the stability of the second bevel gear 143, the second gear 103, and the rotating rod 104 during rotation is increased, and the second bevel gear 143, the second gear 103, and the rotating rod 104 are prevented from being displaced after being subjected to a force.

Referring to fig. 1, 2, 3, 4, 5, 6, 7 and 8, a method of using a corrosion resistant valve manufacturing apparatus includes the steps of:

s1: the valve body 9 sprayed with the corrosion-resistant material is placed between the positioning block 85 and the movable clamping block 84, and then the valve body 9 is positioned through the clamping tool 8 to prevent the valve body 9 from falling;

s2: starting the two-way motor 5 to enable the output end of the two-way motor 5 to drive the valve body 9 to move and rotate simultaneously;

s3: the moving tool 14 drives the clamping tool 8, the rotating tool 10, the supporting plate 4 and the bidirectional motor 5 to move;

s4: in the moving process, the rotating tool 10 drives the valve body 9 to rotate, so that the valve body 9 is heated uniformly;

s4: when the output end of the bottom of the bidirectional motor 5 reaches the rear side of the track bar 3, the output end is reversed, so that the movable tool 14 drives the valve body 9 to return;

s5: and the valve body 9 after returning is detached through the clamping tool 8 and replaced by another valve body, so that the operation is completed.

Adopt above-mentioned scheme: the problem of on the market couple hang the mode side by side and drive valve body 9 and remove various processing equipment commonly used is solved, valve body 9 is dried through hanging the entering stoving room, and the valve body 9 of hanging can not rotate, and the source of generating heat in stoving room is concentrated in both sides, leads to the valve body 9 of mid portion to dry inhomogeneously is solved.

The working principle of the invention is as follows:

when in use, a user puts the valve body 9 sprayed with the corrosion-resistant material between the positioning block 85 and the movable clamping block 84, keeps the bottom of the valve body 9 not in contact with the top plate 7, and ensures that the valve body 9 does not contact with the top plate 7 in the rotating process, then rotates the screw 82 through the rotating wheel 81, because the sliding block 83 is meshed with the surface of the screw 82 through the thread groove 145, the sliding block 83 is driven to move by the rotation of the screw 82, the movable clamping block at the top is driven to move by the movement of the sliding block 83, the ball 11 is driven to contact with the valve body 9 by the movable clamping block 84 along with the movement of the movable clamping block 84, the ball 11 can reduce the contact area with the valve body 9, in this way, uneven drying caused by the overlarge contact area in the drying process is avoided, when four balls 11 simultaneously contact with the valve body 9, the user loosens the rotating wheel 81, the valve body 9 is clamped by four balls 11 and will not fall off, then the user starts the two-way motor 5, two output ends of the two-way motor 5 drive the rotating rod 101 and the connecting rod 141 to rotate respectively, the rotating rod 101 rotates the first gear 102, because the first gear 102 is meshed with the rotating rod 104, the rotating of the first gear 102 drives the second gear 103 to rotate, the rotating rod 104 is driven by the rotating of the second gear 103 to rotate, the rotating rod 104 rotates with the ball 11 at the lower left corner, the rotating of the ball 11 will cause the valve body 9 to rotate, and simultaneously the connecting rod 141 drives the first bevel gear 142, because the first bevel gear 142 is meshed with the second bevel gear 143, the rotating of the first bevel gear 142 drives the second bevel gear 143 to rotate, because the surface of the second bevel gear 143 is sleeved with a thread 144, and the thread 144 is meshed with the thread groove 145 of the track bar 3, therefore, the rotation of the second bevel gear 143 drives the sliding track trace block 12 to move, the movement of the trace block 12 drives the drying assembly to move, the trace block 12 moves along with the trace of the trace groove 13, the rotating component of the drying assembly drives the valve body 9 to rotate by three hundred and sixty degrees in the moving process, the trace of the trace bar 3 enables the valve body 9 to move around the heating rod, the surface of the valve body 9 can be uniformly aligned with the heating rod, the temperature generated by the heating rod dries the valve body 9, and the drying uniformity is achieved.

In summary, the following steps: according to the processing device and the processing method of the corrosion-resistant valve, the problem of uneven drying of the valve body is solved by matching the sealing cover 1, the heating rod 2, the track strip 3, the supporting plate 4, the two-way motor 5, the supporting column 6, the top plate 7, the clamping tool 8, the valve body 9, the rotating tool 10, the ball 11, the track block 12, the track groove 13, the moving tool 14, the sliding groove 15 and the mounting rod 16.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a processingequipment of corrosion-resistant valve, includes closing cap (1), its characterized in that: a heating rod (2) is fixedly installed inside the closed cover (1), a track bar (3) is fixedly connected inside the closed cover (1), and a drying assembly is arranged at the top of the track bar (3);

the drying assembly comprises a supporting plate (4), one end, far away from a closed cover (1), of the track bar (3) is in contact with the bottom of the supporting plate (4), a bidirectional motor (5) is fixedly mounted at the top of the supporting plate (4), a supporting column (6) is sleeved at the output end of the top of the bidirectional motor (5), a top plate (7) is fixedly connected to the top of the supporting column (6), a clamping tool (8) is connected to the inside of the top plate (7), and a rotating tool (10) is connected to the output end of the top of the bidirectional motor (5);

the clamping tool (8) comprises a screw rod (82), a positioning block (85) is fixedly connected to the left side of the top plate (7), a rotating wheel (81) is fixedly connected to the right side of the screw rod (82), the right side of the screw rod (82) penetrates through the outer side of the top plate (7) and is fixedly connected with the rotating wheel (81), a sliding block (83) is sleeved on the surface of the screw rod (82), the sliding block (83) is connected with the surface of the screw rod (82) in a meshed mode through threads (144), and a movable clamping block (84) is fixedly connected to the top of the sliding block (83);

a valve body (9) is connected between one side of the positioning block (85) opposite to the movable clamping block (84), four balls (11) are fixedly mounted on one side of the positioning block (85) opposite to the movable clamping block (84), and the other side of each ball (11) is in contact with the surface of the valve body (9);

the rotary tool (10) comprises a rotating rod (101), the bottom of the rotating rod (101) is fixedly mounted with an output end of the top of the bidirectional motor (5), the top of the rotating rod (101) is fixedly connected with a first gear (102), the top of the first gear (102) is connected with a second gear (103) in a meshed manner, the right side of the second gear (103) is connected with a rotating rod (104) in a meshed manner, and the right side of the rotating rod (104) is fixedly connected with a lower left corner ball (11);

the bottom of the supporting plate (4) is fixedly connected with a track block (12), the track block (12) slides in the track strip (3), and the output end of the bottom of the bidirectional motor (5) is fixedly connected with a movable tool (14);

the movable tool (14) comprises a connecting rod (141), the top of the connecting rod (141) is fixedly connected with the output end of the bottom of the bidirectional motor (5), the bottom of the connecting rod (141) is fixedly connected with a first bevel gear (142), the bottom of the first bevel gear (142) is meshed with a second bevel gear (143), threads (144) are arranged on the surface of the second bevel gear (143), and a thread groove (145) matched with the threads (144) for use is formed in the track bar (3).

2. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: track groove (13) that use with the cooperation of track piece (12) are seted up to the inside of track strip (3), track piece (12) slide along with the inside orbit of track groove (13), track piece (12) and track groove (13) are the T shape.

3. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: the sliding groove (15) matched with the sliding block (83) is formed in the top plate (7), the sliding block (83) is located in the sliding groove (15) to slide, the first gear (102) is located below the sliding groove (15), and an interlayer is arranged between the first gear (102) and the sliding groove (15).

4. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: the two sides of the bottom of the top plate (7) are fixedly connected with mounting rods (16), the bottom of each mounting rod (16) is fixedly connected with the top of the corresponding supporting plate (4), and the mounting rods (16) are located on two sides of the two-way motor (5).

5. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: the track strip (3) is in a spiral shape and is positioned in the closed cover (1), and the spiral center of the track strip (3) and the circle center of the heating rod (2) are horizontal.

6. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: the number of the thread grooves (145) is a plurality, and the track grooves (13) are uniformly distributed in the track strips (3).

7. A corrosion resistant valve machining apparatus as claimed in claim 1, wherein: the right side of the second bevel gear (143), the left side of the second gear (103) and the surface of the rotating rod (104) are respectively sleeved with a bearing, and the outer surface of each bearing is fixedly installed with the inner walls of the sliding block (83) and the positioning block (85).

8. The use method of the machining device of the corrosion-resistant valve is characterized in that: a corrosion resistant valve for use as claimed in any one of claims 1 to 7, the method of use comprising the steps of:

s1: the valve body (9) sprayed with the corrosion-resistant material is placed between the positioning block (85) and the movable clamping block (84), and then the valve body (9) is positioned through the clamping tool (8) to prevent the valve body (9) from falling;

s2: starting the two-way motor (5) to enable the output end of the two-way motor (5) to drive the valve body (9) to rotate while moving;

s3: the moving tool (14) drives the clamping tool (8), the rotating tool (10), the supporting plate (4) and the bidirectional motor (5) to move;

s4: in the moving process, the rotating tool (10) drives the valve body (9) to rotate, so that the valve body (9) is heated uniformly;

s5: when the rear side of the track bar (3) is reached, the output end at the bottom of the bidirectional motor (5) rotates reversely, so that the movable tool (14) drives the valve body (9) to return;

s6: and the returned valve body (9) is detached through the clamping tool (8) and replaced by another one, so that the operation is completed.