CN113969382A

CN113969382A - Double-control device with main and auxiliary valves and production process thereof

Info

Publication number: CN113969382A
Application number: CN202111057170.XA
Authority: CN
Inventors: 杨杰; 娄近春; 谢建国; 项敏敏; 王学鹏; 杨连成; 陈杨
Original assignee: Jinggong Valve Group Co Ltd
Current assignee: Jinggong Valve Group Co Ltd
Priority date: 2021-09-09
Filing date: 2021-09-09
Publication date: 2022-01-25

Abstract

A double control device with main and auxiliary valves and a production process thereof belong to the technical field of lock valves, and aim to solve the problems that the existing galvanizing processing mode is generally carried out separately, a pipe is placed in a galvanizing pool to be soaked, so that galvanizing can be finished, after galvanizing, the surface of the pipe is uneven and convex, the surface evenness of the pipe is influenced, the pipe cannot be installed in a narrow space, after galvanizing, the galvanized pipe needs longer time to be air-dried and shaped, so that the surface evenness of the pipe is influenced, automatic galvanizing and quick drying cannot be achieved, and the treatment cannot be avoided, through a grabbing mechanism, an electric slide rail, a movable plate, a transmission belt and a grid transmission belt, the effects of conveying and galvanizing the pipe can be achieved, through a positioning mechanism, a drying box and a polishing mechanism, the purposes of quickly positioning and drying the pipe and processing the surface of the pipe are achieved.

Description

Double-control device with main and auxiliary valves and production process thereof

Technical Field

The invention relates to the technical field of locking valves, in particular to a double-control device with a main valve and an auxiliary valve and a production process thereof.

Background

The locking valve is a valve device composed of a valve body, a valve core, a valve rod and a locking mechanism, wherein the locking mechanism is a valve rod connected with the valve core and arranged in a locking hole of the valve body, a spring, a pawl and a ratchet locking cap are arranged on the valve rod, the valve body is a tee joint, one way is a bypass cap, the valve core is also provided with three through holes corresponding to the valve body, after the position of the valve core is adjusted, the ratchet locking cap is screwed on, a user can not open the valve by himself, the locking valve has reversing and locking functions, and can control the on-off of a group of heating and water supply systems, and the opening and the closing can not be opened in a nondestructive mode, so that the effective control is realized.

The intelligent locking valve can be controlled doubly, and the family user and the closing department can control the intelligent locking valve individually, in the using process, the main and auxiliary valves can provide strong adaptability for the intelligent locking valve, the pipe in the intelligent locking valve needs to be galvanized to prolong the service life of the intelligent locking valve when being processed, in conclusion, the existing galvanizing processing mode is usually carried out separately, the pipe is placed into a galvanizing pool to be soaked, so that galvanizing can be finished, after galvanization, the surface of the pipe can generate uneven bulges to influence the surface evenness of the pipe, the galvanized pipe cannot be installed in a small space, the galvanized pipe needs to be air-dried and molded for a long time after being galvanized, thereby influencing the surface smoothness of the pipe and failing to achieve the effects of automatic galvanizing, quick drying and avoiding processing.

Therefore, a dual control device with primary and secondary valves and a process for manufacturing the same are needed to solve the above problems.

Disclosure of Invention

The invention aims to provide processing equipment with a main valve and auxiliary valve double-control device, which solves the problems that the existing galvanizing processing mode is usually carried out separately, a pipe is placed in a galvanizing pool to be soaked, so that galvanizing can be finished, after galvanizing, the surface of the pipe is uneven and convex, the surface evenness of the pipe is influenced, the pipe cannot be installed in a narrow space, after galvanizing, the galvanized pipe needs longer time to be air-dried and shaped, the surface evenness of the pipe is influenced, automatic galvanizing, quick drying and processing avoidance cannot be achieved, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a machining apparatus having a primary and secondary valve dual control device, comprising:

a supporting seat;

the surface of the transmission belt is fixedly connected with the inner wall of the supporting seat, and one side, close to the supporting seat, of the connecting block is fixedly connected with the supporting seat;

the device comprises a galvanizing box, a base and a grid conveyor belt, wherein one side of the galvanizing box, which is close to the connecting block, is fixedly connected with the connecting block, one side of the galvanizing box, which is far away from the connecting block, is fixedly connected with the base, and the surface of the grid conveyor belt is fixedly connected with the inner wall of the base;

the drying box, one side of the drying box close to the base is fixedly connected with the base, one side of the grid conveyor belt close to the drying box penetrates through the inner cavity of the drying box, and the drying box is used for drying the galvanized pipe;

the supporting seat, the connecting block and one side of the base close to the electric sliding rail are fixedly connected with the electric sliding rail, and the movable plate close to one side of the electric sliding rail is fixedly connected with the electric sliding rail;

the grinding mechanism is movably connected with the drying box at one side close to the drying box and is used for grinding the surface of the dried pipe;

the grabbing mechanism is fixedly connected with the movable plate at one side close to the movable plate and used for grabbing the pipe;

the number of the positioning mechanisms is a plurality, the bottom of each positioning mechanism is fixedly connected with the top of the grid conveyor belt, and the positioning mechanisms are used for positioning the pipes.

Further, the polishing mechanism comprises a motor, a movable rod, a gear, a polishing disc, a sliding block, teeth, a box body and a shell, one side of the shell close to the drying box is movably connected with the drying box, one side of the motor close to the shell is fixedly connected with the shell, one side of the motor close to the shell penetrates through the inner cavity of the shell and is fixedly connected with the movable rod, one side of the movable rod close to the gear is fixedly connected with the gear, the bottom of the shell is fixedly connected with the top of the box body, the surface of the sliding block is movably connected with the inner wall of the box body, the number of the teeth is a plurality, tooth fixed mounting in the surface of sliding block, the top of tooth with the bottom cooperation of gear is used, the surface of polishing dish with the inner wall fixed connection of sliding block.

Further, snatch the mechanism and include first cylinder, backup pad, fixed plate and automatic clamping jaw, the backup pad is close to one side of fly leaf with fly leaf fixed connection, the bottom of first cylinder with the top fixed connection of backup pad, the bottom of first cylinder run through to the bottom of backup pad and with the top fixed connection of fixed plate, the quantity of automatic clamping jaw is two, the top of automatic clamping jaw with the bottom fixed connection of fixed plate.

Further, positioning mechanism includes locating plate, two electric telescopic handle and two positioning disks, the bottom of locating plate with the top fixed connection of net conveyer belt, electric telescopic handle's inner wall with the fixed surface of locating plate is connected, the positioning disk be close to electric telescopic handle's one side with electric telescopic handle fixed connection.

Further, the top fixedly connected with of transmission band places the board, the quantity of placing the board is a plurality of.

Furthermore, a supporting block is fixedly connected to one side, away from the base, of the drying box, a second cylinder is fixedly connected to the top of the supporting block, and the bottom of the second cylinder penetrates through the bottom of the supporting block and is fixedly connected with the top of the shell.

Further, the bottom of casing with the top of box body all seted up with the gear with the movable hole that the tooth cooperation was used, the inner wall of box body seted up with the sliding tray that the sliding block cooperation was used.

Further, the inner wall fixedly connected with drying apparatus of stoving case, the top of stoving case seted up with the stoving hole that the drying apparatus cooperation was used, the quantity of drying apparatus is a plurality of, the stoving case is kept away from one side fixedly connected with of base collects the box.

The invention also provides another technical scheme: the double control device with the main valve and the auxiliary valve comprises: the pressure relief pipe comprises a control box, a conveying pipe and a pressure relief pipe, wherein the bottom of the control box is fixedly connected with the top of the conveying pipe, the pressure relief pipe is arranged on the surface of the conveying pipe, and two ends of the pressure relief pipe are communicated with the conveying pipe.

The invention also provides another technical scheme: the production process of the double-control device with the main valve and the auxiliary valve comprises the following steps: the method specifically comprises the following steps:

s1, placing the pipe to be processed on a placing plate, conveying the placing plate through a conveying belt, and driving the pipe to move, wherein after the pipe is moved to the bottom of an automatic clamping jaw, a first air cylinder starts to operate, the first air cylinder drives a fixing plate to move, the fixing plate drives the automatic clamping jaw to move, so that the automatic clamping jaw clamps the pipe, and after the pipe is clamped, the first air cylinder retracts, and the pipe is moved to a suspended state;

s2, when the pipe is in a suspended state, the electric slide rail runs, the electric slide rail drives the movable plate to move, the movable plate drives the first air cylinder to move, so that the pipe can be driven to move, the pipe is moved to the top of the galvanizing box, at the moment, the first air cylinder runs, the first air cylinder drives the pipe to enter the inner cavity of the galvanizing box, the pipe can be soaked and galvanized, the service life of the pipe can be prolonged, and the occurrence of rusting is reduced;

s3, after the pipe is soaked for a certain time, the first cylinder operates to move the pipe to the inner cavity of the galvanizing box, at the moment, the electric slide rail operates to drive the pipe to move, the pipe is moved to the top of the grid conveyor belt, at the moment, the first cylinder operates to place the pipe on the positioning plate, after the pipe is placed on the positioning plate, the electric telescopic rod operates to drive the positioning plate to position the galvanized pipe, the grid conveyor belt drives the pipe to enter the inner cavity of the drying box, the dryer operates to rapidly dry the pipe by matching with the drying holes, and meanwhile, as the grid conveyor belt is in a grid shape, the surface of the pipe can be uniformly dried;

s4, when the pipe is moved to the end of the mesh conveyor belt, the pipe is dried, the motor is started, the motor drives the movable rod to rotate, the movable rod drives the gear to rotate, the gear rotates to cooperate with the teeth to drive the sliding block to rotate, the sliding block drives the polishing disc to rotate, at the moment, the second cylinder operates, the second cylinder drives the shell to move, the shell drives the box body to move, so that the box body moves to a position parallel to the pipe, the pipe moves continuously and moves into the inner cavity of the box body, the surface of the pipe can be polished through the polishing disc, irregular bulges on the surface of the pipe are polished off, when the end of the pipe is about to move into the inner cavity of the box body, the electric telescopic rod drives the positioning disc to separate from positioning of the pipe, the second cylinder drives the box body to rise, the blocking of the positioning plate when the positioning plate moves is avoided, and the pipe is pushed continuously by the positioning plate, the inner cavity of the box body is pushed, after the surface of the pipe is polished, the pipe falls into the inner cavity of the collecting box, and the pipe can be processed.

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

1. the invention provides a double control device with a main valve and an auxiliary valve and a production process thereof, which can lead a user to place a pipe to be processed on a placing plate when the user needs to galvanize the pipe by matching a grabbing mechanism, an electric slide rail, a movable plate, a transmission belt and a grid transmission belt, the placing plate is conveyed by the transmission belt, the pipe can be driven to move, after the pipe is moved to the bottom of an automatic clamping jaw, a first air cylinder starts to operate, the first air cylinder drives a fixed plate to move, the fixed plate drives the automatic clamping jaw to move, so that the automatic clamping jaw clamps the pipe, after the pipe is clamped, the first air cylinder retracts to move the pipe to a suspended state, when the pipe is in the suspended state, the electric slide rail operates, the electric slide rail drives the movable plate to move, the first air cylinder is driven to move, and the pipe can be driven to move, move tubular product to the top of galvanizing tank, at this moment, first cylinder operation, first cylinder drive tubular product enter into the inner chamber of galvanizing tank to can soak the zinc-plating to tubular product, the life of multiplicable tubular product reduces rusty phenomenon and takes place, has reached the purpose of galvanizing to tubular product.

2. The invention provides a double control device with a main valve and an auxiliary valve and a production process thereof, when a user needs to quickly dry a pipe and treat the surface of the pipe by the cooperation of a positioning mechanism, a drying box and a polishing mechanism, the user enables a first air cylinder to operate after the pipe is soaked for a certain time, the pipe is moved to an inner cavity of a galvanizing box, at the moment, an electric slide rail operates, the electric slide rail can drive the pipe to move, the pipe is moved to the top of a grid conveyor belt, at the moment, the first air cylinder operates, the pipe is placed on a positioning plate, after the pipe is placed on the positioning plate, an electric telescopic rod operates, the electric telescopic rod drives a positioning plate to position the galvanized pipe, the grid conveyor belt drives the pipe to enter the inner cavity of the drying box, a dryer operates, and the pipe is quickly dried by the cooperation of the positioning plate, the drying box is used for drying the pipe, meanwhile, as the grid conveyor belt is in a grid shape, the surface of the pipe can be uniformly dried, when the pipe moves to the tail end of the grid conveyor belt, the pipe is dried, the motor is started, the motor drives the movable rod to rotate, the movable rod drives the gear to rotate, the gear rotates and is matched with the teeth to drive the sliding block to rotate, the sliding block drives the polishing disc to rotate, at the moment, the second cylinder operates, the second cylinder drives the shell to move, the shell drives the box body to move, the box body moves to a position parallel to the pipe, the pipe continuously moves and moves into the inner cavity of the box body, the surface of the pipe can be polished through the polishing disc, irregular bulges on the surface of the pipe are polished off, when the tail end of the pipe is about to move into the inner cavity of the box body, the electric telescopic rod drives the positioning disc to separate from the positioning of the pipe, and the second cylinder drives the box body to ascend simultaneously, avoid its hindrance when producing the removal to the locating plate, tubular product is promoted by the promotion that the locating plate lasts, impels the inner chamber of box body, finishes the back polishing to the surface of tubular product, and tubular product drops to the inner chamber of collecting the box, has reached and has carried out fast drying and the purpose of handling its surface to the tubular product.

Drawings

FIG. 1 is a schematic diagram showing the overall structure of a processing apparatus having a dual control device for primary and secondary valves according to the present invention;

FIG. 2 is a schematic perspective view of a part of a machining apparatus having a dual control device for primary and secondary valves according to the present invention;

FIG. 3 is a schematic perspective view of a polishing mechanism in a processing apparatus having a dual control device for primary and secondary valves according to the present invention;

FIG. 4 is an exploded view of a part of a machining apparatus having a double control device for primary and secondary valves according to the present invention;

FIG. 5 is a schematic view of a gripping mechanism of a processing apparatus having a dual control device for primary and secondary valves according to the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 1 at B;

FIG. 7 is a cross-sectional view of a drying box in a processing apparatus having a dual control device for a main valve and an auxiliary valve according to the present invention;

fig. 8 is a partially enlarged view of a portion a in fig. 1.

In the figure: 1. a supporting seat; 2. a polishing mechanism; 201. a motor; 202. a movable rod; 203. a gear; 204. Grinding disc; 205. a slider; 206. teeth; 207. a box body; 208. a housing; 3. a grabbing mechanism; 301. a first cylinder; 302. a support plate; 303. a fixing plate; 304. automatic clamping jaws; 4. a positioning mechanism; 401. positioning a plate; 402. positioning a plate; 403. an electric telescopic rod; 5. a conveyor belt; 6. a movable plate; 7. connecting blocks; 8. a galvanizing tank; 9. an electric slide rail; 10. a base; 11. a mesh conveyor belt; 12. A second cylinder; 13. a support block; 14. a collection box; 15. a drying box; 16. a control box; 17. a delivery pipe; 18. a pressure relief pipe; 19. a movable hole; 20. a sliding groove; 21. drying the holes; 22. a dryer; 23. Placing the plate.

Detailed Description

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

As shown in fig. 1 to 8, a machining apparatus having a double control device for primary and secondary valves includes: the device comprises a supporting seat 1, a transmission belt 5 and a connecting block 7, wherein the surface of the transmission belt 5 is fixedly connected with the inner wall of the supporting seat 1, and one side, close to the supporting seat 1, of the connecting block 7 is fixedly connected with the supporting seat 1;

the device comprises a galvanizing box 8, a base 10 and a grid conveyor belt 11, wherein one side of the galvanizing box 8, which is close to the connecting block 7, is fixedly connected with the connecting block 7, one side of the galvanizing box 8, which is far away from the connecting block 7, is fixedly connected with the base 10, and the surface of the grid conveyor belt 11 is fixedly connected with the inner wall of the base 10;

the drying box 15, one side of the drying box 15 close to the base 10 is fixedly connected with the base 10, one side of the grid conveyor belt 11 close to the drying box 15 penetrates into the inner cavity of the drying box 15, and the drying box 15 is used for drying the galvanized pipe;

the support seat 1, the connecting block 7 and one side of the base 10 close to the electric slide rail 9 are fixedly connected with the electric slide rail 9, and one side of the movable plate 6 close to the electric slide rail 9 is fixedly connected with the electric slide rail 9;

one side, close to the drying box 15, of the polishing mechanism 2 is movably connected with the drying box 15, and the polishing mechanism 2 is used for polishing the surface of the dried pipe;

one side, close to the movable plate 6, of the grabbing mechanism 3 is fixedly connected with the movable plate 6, and the grabbing mechanism 3 is used for grabbing the pipe;

positioning mechanism 4, positioning mechanism 4's quantity is a plurality of, and positioning mechanism 4's bottom and the top fixed connection of net conveyer belt 11, and positioning mechanism 4 is used for the location tubular product.

Referring to fig. 3 and 4, in this example, the grinding mechanism 2 includes a motor 201, a movable rod 202, a gear 203, a grinding disc 204, a sliding block 205, teeth 206, a box 207 and a housing 208, one side of the housing 208 close to the drying box 15 is movably connected to the drying box 15, one side of the motor 201 close to the housing 208 is fixedly connected to the housing 208, one side of the motor 201 close to the housing 208 penetrates through an inner cavity of the housing 208 and is fixedly connected to the movable rod 202, one side of the movable rod 202 close to the gear 203 is fixedly connected to the gear 203, a bottom of the housing 208 is fixedly connected to a top of the box 207, a surface of the sliding block 205 is movably connected to an inner wall of the box 207, the number of the teeth 206 is several, the teeth 206 are fixedly mounted on a surface of the sliding block 205, the top of the teeth 206 is used in cooperation with a bottom of the gear 203, a surface of the grinding disc 204 is fixedly connected to an inner wall of the sliding block 205, by providing the grinding mechanism 2, when the pipe needs to be polished on the concave-convex part of the surface after being dried, the motor 201 is started, the motor 201 drives the movable rod 202 to rotate, the movable rod 202 drives the gear 203 to rotate, the gear 203 rotates to be matched with the teeth 206 to drive the sliding block 205 to rotate, the sliding block 205 drives the polishing disc 204 to rotate, at the moment, the second cylinder 12 operates, the second cylinder 12 drives the shell 208 to move, the shell 208 drives the box body 207 to move, the box body 207 moves to a position parallel to the pipe, the pipe continuously moves to move into the inner cavity of the box body 207, the surface of the pipe can be polished through the polishing disc 204, irregular bulges on the surface of the pipe are polished off, when the tail end of the pipe is about to move into the inner cavity of the box body 207, the electric telescopic rod 403 drives the positioning disc 401 to separate from positioning of the pipe, and the second cylinder 12 drives the box body 207 to ascend simultaneously, so that the positioning disc 402 is prevented from blocking when moving, the pipe is continuously pushed by the positioning plate 402 to push the inner cavity of the box body 207, and after the surface of the pipe is polished, the surface of the pipe can be polished.

Referring to fig. 5, in the present embodiment, the gripping mechanism 3 includes a first cylinder 301, a supporting plate 302, a fixing plate 303 and an automatic clamping jaw 304, one side of the supporting plate 302 close to the movable plate 6 is fixedly connected to the movable plate 6, the bottom of the first cylinder 301 is fixedly connected to the top of the supporting plate 302, the bottom of the first cylinder 301 penetrates through to the bottom of the supporting plate 302 and is fixedly connected to the top of the fixing plate 303, the number of the automatic clamping jaws 304 is two, the top of the automatic clamping jaw 304 is fixedly connected to the bottom of the fixing plate 303, by arranging the grabbing mechanism 3, the pipe can be grabbed to a required position through the grabbing mechanism 3 and can be accurately placed to the required position, meanwhile, the automation degree of the pipe machining is increased, the machining efficiency is increased, accidents are reduced, the stability is improved, and the purposes of conveniently grabbing the pipe and increasing the machining efficiency are achieved.

Referring to fig. 6, in this example, the positioning mechanism 4 includes a positioning plate 402, two electric telescopic rods 403 and two positioning disks 401, the bottom of the positioning plate 402 is fixedly connected to the top of the grid conveyor belt 11, the inner wall of the electric telescopic rod 403 is fixedly connected to the surface of the positioning plate 402, one side of the positioning disk 401 close to the electric telescopic rod 403 is fixedly connected to the electric telescopic rod 403, by setting the positioning mechanism 4, after a pipe is placed on the positioning plate 402, the electric telescopic rod 403 operates, the electric telescopic rod 403 drives the positioning disk 401 to position the galvanized pipe, so as to prevent the pipe from deviating when being conveyed, and meanwhile, the pipe cannot rotate when being polished, thereby increasing the stability during processing, and achieving the purpose of positioning the pipe.

Referring to fig. 8, in this example, the top of the conveying belt 5 is fixedly connected with the placing plates 23, the number of the placing plates 23 is several, and the placing plates 23 are arranged, so that a user can stably convey a pipe by placing the pipe on the placing plates 23 when the user needs to process the pipe, thereby avoiding the phenomenon that the pipe falls off when being processed, increasing stability, and achieving the purpose of stably conveying the pipe.

Referring to fig. 4, in this example, a supporting block 13 is fixedly connected to a side of the drying box 15 away from the base 10, a second cylinder 12 is fixedly connected to a top of the supporting block 13, a bottom of the second cylinder 12 penetrates through to a bottom of the supporting block 13 and is fixedly connected to a top of the housing 208, and the second cylinder 12 can drive the box 207 to move by using the supporting block 13 and the second cylinder 12 in a matching manner, so that the box 207 can move to a position where the positioning plate 402 is not hindered from moving, thereby achieving a purpose of moving the box 207 and avoiding a jamming phenomenon.

Referring to fig. 4, in this example, the bottom of the housing 208 and the top of the box 207 are both provided with a movable hole 19 used in cooperation with the gear 203 and the teeth 206, the inner wall of the box 207 is provided with a sliding groove 20 used in cooperation with the sliding block 205, by providing the movable hole 19, when the gear 203 and the teeth 206 are in cooperation, there is enough rotating space, so as to avoid the gear 203 and the teeth 206 from being locked when rotating, by providing the sliding groove 20, the sliding block 205 can be more stable when the inner cavity of the sliding groove 20 rotates, so as to avoid skewing, so as to increase stability, and achieve the purpose of avoiding the gear 203 and the teeth 206 from being locked and making the sliding block 205 more stable when rotating.

Please refer to fig. 1 and 7, in this example, the inner wall fixedly connected with drying apparatus 22 of drying box 15, drying hole 21 used with drying apparatus 22 is set up at the top of drying box 15, the number of drying apparatus 22 is a plurality of, one side fixedly connected with collection box 14 of base 10 is kept away from to drying box 15, use through the cooperation that sets up drying apparatus 22 and drying hole 21, can make drying apparatus 22 accessible drying hole 21 absorb the outside air and heat it, carry out drying process to the tubular product after the galvanization, can reach the purpose of quick drying tubular product, the user need not wait for the time of a long time to carry out natural air drying, the efficiency of processing has been increased.

Referring to fig. 2, in this example, a dual control device with primary and secondary valves is also provided, including: control box 16, conveyer pipe 17 and pressure release pipe 18, the bottom of control box 16 and the top fixed connection of conveyer pipe 17, pressure release pipe 18 sets up in the surface of conveyer pipe 17, and pressure release pipe 18's both ends and conveyer pipe 17 intercommunication through setting up pressure release pipe 18, can alleviate the pressure in the conveyer pipe 17, avoid the too big phenomenon that takes place the inflation of pressure in the conveyer pipe 17, have reached the purpose of pressure release.

The production process of the double-control device with the main valve and the auxiliary valve is also provided, and the production process specifically comprises the following steps:

s1, placing the pipe to be processed on a placing plate 23, conveying the placing plate 23 through a conveying belt 5 to drive the pipe to move, starting to operate a first air cylinder 301 after moving to the bottom of an automatic clamping jaw 304, driving a fixing plate 303 to move by the first air cylinder 301, driving the automatic clamping jaw 304 to move by the fixing plate 303 to enable the automatic clamping jaw 304 to clamp the pipe, and retracting the first air cylinder 301 after clamping the pipe to move to a suspended state;

s2, when the pipe is in a suspended state, the electric slide rail 9 runs, the electric slide rail 9 drives the movable plate 6 to move, the movable plate 6 drives the first air cylinder 301 to move, so that the pipe can be driven to move, the pipe is moved to the top of the galvanizing box 8, at the moment, the first air cylinder 301 runs, and the first air cylinder 301 drives the pipe to enter the inner cavity of the galvanizing box 8, so that the pipe can be soaked for galvanizing, the service life of the pipe can be prolonged, and the occurrence of rusting phenomenon can be reduced;

s3, after the pipe is soaked for a certain time, the first cylinder 301 operates to move the pipe to the inner cavity of the galvanizing box 8, at the moment, the electric slide rail 9 operates, the electric slide rail 9 can drive the pipe to move, the pipe is moved to the top of the grid conveyor belt 11, at the moment, the first cylinder 301 operates to place the pipe on the positioning plate 402, when the pipe is placed on the positioning plate 402, the electric telescopic rod 403 operates, the electric telescopic rod 403 drives the positioning plate 401 to position the galvanized pipe, the grid conveyor belt 11 drives the pipe to enter the inner cavity of the drying box 15, the dryer 22 operates, the pipe is rapidly dried by matching with the drying holes 21, and meanwhile, because the grid conveyor belt 11 is in a grid shape, the surface of the pipe can be uniformly dried;

s4, when the pipe is moved to the end of the grid conveyor belt 11, the pipe is dried, the motor 201 is started, the motor 201 drives the movable rod 202 to rotate, the movable rod 202 drives the gear 203 to rotate, the gear 203 rotates to cooperate with the teeth 206 to drive the sliding block 205 to rotate, the sliding block 205 drives the polishing disc 204 to rotate, at this time, the second cylinder 12 operates, the second cylinder 12 drives the shell 208 to move, the shell 208 drives the box body 207 to move, the box body 207 moves to a position parallel to the pipe, the pipe moves continuously and moves into the inner cavity of the box body 207, the surface of the pipe can be polished through the polishing disc 204, irregular bulges on the surface of the pipe are polished off, when the end of the pipe is about to move into the inner cavity of the box body 207, the electric telescopic rod 403 drives the positioning disc 401 to separate from the positioning of the pipe, and the second cylinder 12 drives the box body 207 to ascend simultaneously, avoid its hindrance when producing the removal to locating plate 402, tubular product is pushed by locating plate 402 lasts, impels the inner chamber of box body 207, finishes polishing the surface of tubular product after, and tubular product drops to the inner chamber of collecting box 14, can accomplish the processing to tubular product.

In summary, the following steps: the invention provides a double control device with a main valve and an auxiliary valve and a production process thereof, wherein a pipe to be processed is placed on a placing plate 23, the placing plate 23 is conveyed by a conveying belt 5 to drive the pipe to move, after the pipe is moved to the bottom of an automatic clamping jaw 304, a first air cylinder 301 starts to operate, the first air cylinder 301 drives a fixed plate 303 to move, the fixed plate 303 drives the automatic clamping jaw 304 to move, so that the automatic clamping jaw 304 clamps the pipe, after the pipe is clamped, the first air cylinder 301 retracts to move the pipe to a suspended state, when the pipe is in the suspended state, an electric sliding rail 9 operates, the electric sliding rail 9 drives a movable plate 6 to move, the movable plate 6 drives the first air cylinder 301 to move, so that the pipe can be driven to move, the pipe is moved to the top of a galvanizing box 8, at the moment, the first air cylinder 301 operates, the first air cylinder 301 drives the pipe to enter an inner cavity of the galvanizing box 8, so as to dip the pipe for galvanizing, which can prolong the service life of the pipe and reduce the occurrence of rusting, after the pipe is dipped for a certain time, the first cylinder 301 is operated to move the pipe to the inner cavity of the galvanizing tank 8, at this time, the electric slide rail 9 is operated, the electric slide rail 9 can drive the pipe to move, the pipe is moved to the top of the grid conveyor belt 11, at this time, the first cylinder 301 is operated to place the pipe on the positioning plate 402, when the pipe is placed on the positioning plate 402, the electric telescopic rod 403 is operated, the electric telescopic rod 403 drives the positioning plate 401 to position the galvanized pipe, the grid conveyor belt 11 drives the pipe to enter the inner cavity of the drying tank 15, the dryer 22 is operated to rapidly dry the pipe by matching with the drying hole 21, and simultaneously, because the grid conveyor belt 11 is in a grid shape, the surface of the pipe can be uniformly dried, when the pipe moves to the end of the mesh conveyor belt 11, the pipe is dried, the motor 201 is started, the motor 201 drives the movable rod 202 to rotate, the movable rod 202 drives the gear 203 to rotate, the gear 203 rotates to cooperate with the teeth 206 to drive the sliding block 205 to rotate, the sliding block 205 drives the polishing disc 204 to rotate, at this time, the second cylinder 12 operates, the second cylinder 12 drives the shell 208 to move, the shell 208 drives the box body 207 to move, the box body 207 moves to a position parallel to the pipe, the pipe continuously moves to move into the inner cavity of the box body 207, the surface of the pipe can be polished through the polishing disc 204, irregular bulges on the surface of the pipe are polished off, when the end of the pipe is about to move into the inner cavity of the box body 207, the electric telescopic rod drives the positioning disc 401 to separate from positioning the pipe, and simultaneously the second cylinder 12 drives the box body 207 to rise, so as to avoid the blockage of the positioning plate 403 when the positioning disc moves, the pipe is pushed continuously by the positioning plate 402 to push the inner cavity of the box body 207, and after the surface of the pipe is polished, the pipe falls into the inner cavity of the collecting box 14, so that the pipe can be processed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A processing equipment with a primary and secondary valve double-control device is characterized by comprising:

a support base (1);

the device comprises a transmission belt (5) and a connecting block (7), wherein the surface of the transmission belt (5) is fixedly connected with the inner wall of the supporting seat (1), and one side, close to the supporting seat (1), of the connecting block (7) is fixedly connected with the supporting seat (1);

the device comprises a galvanizing box (8), a base (10) and a grid conveyor belt (11), wherein one side, close to the connecting block (7), of the galvanizing box (8) is fixedly connected with the connecting block (7), one side, far away from the connecting block (7), of the galvanizing box (8) is fixedly connected with the base (10), and the surface of the grid conveyor belt (11) is fixedly connected with the inner wall of the base (10);

the drying box (15), one side of the drying box (15) close to the base (10) is fixedly connected with the base (10), one side of the grid conveyor belt (11) close to the drying box (15) penetrates through the inner cavity of the drying box (15), and the drying box (15) is used for drying the galvanized pipe;

the support seat (1), the connecting block (7) and one side, close to the electric sliding rail (9), of the base (10) are fixedly connected with the electric sliding rail (9), and one side, close to the electric sliding rail (9), of the movable plate (6) is fixedly connected with the electric sliding rail (9);

the grinding mechanism (2), one side of the grinding mechanism (2) close to the drying box (15) is movably connected with the drying box (15), and the grinding mechanism (2) is used for grinding the surface of the dried pipe;

the grabbing mechanism (3), one side of the grabbing mechanism (3) close to the movable plate (6) is fixedly connected with the movable plate (6), and the grabbing mechanism (3) is used for grabbing the pipe;

positioning mechanism (4), the quantity of positioning mechanism (4) is a plurality of, the bottom of positioning mechanism (4) with the top fixed connection of net conveyer belt (11), positioning mechanism (4) are used for fixing a position tubular product.

2. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 1, wherein: the polishing mechanism (2) comprises a motor (201), a movable rod (202), a gear (203), a polishing disc (204), a sliding block (205), teeth (206), a box body (207) and a shell (208), wherein the shell (208) is close to one side of the drying box (15) and movably connected with the drying box (15), the motor (201) is close to one side of the shell (208) and fixedly connected with the shell (208), one side of the motor (201) close to the shell (208) penetrates through an inner cavity of the shell (208) and is fixedly connected with the movable rod (202), one side of the movable rod (202) close to the gear (203) and fixedly connected with the gear (203), the bottom of the shell (208) and the top of the box body (207) are fixedly connected, the surface of the sliding block (205) is movably connected with the inner wall of the box body (207), the number of the teeth (206) is a plurality of, the teeth (206) are fixedly mounted on the surface of the sliding block (205), the top of the teeth (206) is matched with the bottom of the gear (203) for use, and the surface of the polishing disc (204) is fixedly connected with the inner wall of the sliding block (205).

3. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 1, wherein: snatch mechanism (3) and include first cylinder (301), backup pad (302), fixed plate (303) and automatic clamping jaw (304), backup pad (302) are close to one side of fly leaf (6) with fly leaf (6) fixed connection, the bottom of first cylinder (301) with the top fixed connection of backup pad (302), the bottom of first cylinder (301) run through to the bottom of backup pad (302) and with the top fixed connection of fixed plate (303), the quantity of automatic clamping jaw (304) is two, the top of automatic clamping jaw (304) with the bottom fixed connection of fixed plate (303).

4. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 1, wherein: positioning mechanism (4) include locating plate (402), two electric telescopic handle (403) and two positioning disks (401), the bottom of locating plate (402) with the top fixed connection of net conveyer belt (11), the inner wall of electric telescopic handle (403) with the fixed surface of locating plate (402) is connected, positioning disk (401) are close to one side of electric telescopic handle (403) with electric telescopic handle (403) fixed connection.

5. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 1, wherein: the top fixedly connected with of transmission band (5) places board (23), the quantity of placing board (23) is a plurality of.

6. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 2, wherein: one side, far away from the base (10), of the drying box (15) is fixedly connected with a supporting block (13), the top of the supporting block (13) is fixedly connected with a second cylinder (12), and the bottom of the second cylinder (12) penetrates through the bottom of the supporting block (13) and is fixedly connected with the top of the shell (208).

7. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 2, wherein: the bottom of casing (208) with the top of box body (207) all seted up with gear (203) with movable hole (19) that tooth (206) cooperation was used, the inner wall of box body (207) seted up with sliding tray (20) that sliding block (205) cooperation was used.

8. The processing equipment with the double control device of the main valve and the auxiliary valve as claimed in claim 1, wherein: the inner wall fixedly connected with drying apparatus (22) of stoving case (15), the top of stoving case (15) seted up with drying apparatus (22) cooperation use drying hole (21), the quantity of drying apparatus (22) is a plurality of, stoving case (15) are kept away from one side fixedly connected with collection box (14) of base (10).

9. A double control device with a main valve and an auxiliary valve is characterized in that: the double control device with the main valve and the auxiliary valve is mainly completed by matching the processing equipment with the double control device with the main valve and the auxiliary valve, which is disclosed by any one of claims 1 to 8, wherein the double control device with the main valve and the auxiliary valve comprises: the pressure relief pipe comprises a control box (16), a delivery pipe (17) and a pressure relief pipe (18), wherein the bottom of the control box (16) is fixedly connected with the top of the delivery pipe (17), the pressure relief pipe (18) is arranged on the surface of the delivery pipe (17), and two ends of the pressure relief pipe (18) are communicated with the delivery pipe (17).

10. A production process of a double-control device with a main valve and an auxiliary valve is characterized in that: the production process of the double control device with the main valve and the auxiliary valve is mainly completed by matching the processing equipment with the double control device with the main valve and the auxiliary valve, which is disclosed by any one of claims 1 to 8 and comprises the following steps: the method specifically comprises the following steps:

s1, placing the pipe to be processed on a placing plate (23), conveying the placing plate (23) through a conveying belt (5), and driving the pipe to move, wherein after the pipe is moved to the bottom of an automatic clamping jaw (304), a first air cylinder (301) starts to operate, the first air cylinder (301) drives a fixing plate (303) to move, the fixing plate (303) drives the automatic clamping jaw (304) to move, so that the automatic clamping jaw (304) clamps the pipe, and after the pipe is clamped, the first air cylinder (301) retracts to move the pipe to a suspended state;

s2, when the pipe is in a suspended state, the electric slide rail (9) runs, the electric slide rail (9) drives the movable plate (6) to move, the movable plate (6) drives the first air cylinder (301) to move, so that the pipe can be driven to move, the pipe is moved to the top of the galvanizing box (8), at the moment, the first air cylinder (301) runs, and the first air cylinder (301) drives the pipe to enter the inner cavity of the galvanizing box (8), so that the pipe can be soaked and galvanized, the service life of the pipe can be prolonged, and the occurrence of rusting phenomena can be reduced;

s3, after the pipe is soaked for a certain time, the first cylinder (301) operates to move the pipe to the inner cavity of the galvanizing tank (8), the electric sliding rail (9) runs, the electric sliding rail (9) can drive the pipe to move, the pipe is moved to the top of the grid conveyor belt (11), the first air cylinder (301) runs at the moment, the pipe is placed on the positioning plate (402), after the pipe is placed on the positioning plate (402), the electric telescopic rod (403) operates, the electric telescopic rod (403) drives the positioning plate (401) to position the galvanized pipe, the grid conveyor belt (11) drives the pipe to enter the inner cavity of the drying box (15), the dryer (22) operates to rapidly dry the pipe by matching with the drying hole (21), meanwhile, the grid conveyor belt (11) is in a grid shape, so that the surface of the pipe can be uniformly dried;

s4, when the pipe moves to the tail end of the grid conveyor belt (11), the pipe is dried, the motor (201) is started, the motor (201) drives the movable rod (202) to rotate, the movable rod (202) drives the gear (203) to rotate, the gear (203) rotates to be matched with the teeth (206) to drive the sliding block (205) to rotate, the sliding block (205) drives the polishing disc (204) to rotate, at the moment, the second cylinder (12) operates, the second cylinder (12) drives the shell (208) to move, the shell (208) drives the box body (207) to move, so that the box body (207) moves to a position parallel to the pipe, the pipe moves continuously and moves into the inner cavity of the box body (207), the surface of the pipe can be polished through the polishing disc (204), irregular bulges on the surface of the pipe are polished, when the tail end of the pipe is about to move into the inner cavity of the box body (207), electric telescopic handle (403) drive positioning disk (401) break away from the location to tubular product, and second cylinder (12) drive box body (207) simultaneously and rise, avoid its hindrance when producing the removal to locating plate (402), and tubular product is pushed by the promotion that locating plate (402) lasts, impels the inner chamber of box body (207), finishes the back polishing to the surface of tubular product, and tubular product drops to the inner chamber of collecting box (14), can accomplish the processing to tubular product.