CN112846322A

CN112846322A - High-temperature fluid check valve clack machining and overturning clamp and using method thereof

Info

Publication number: CN112846322A
Application number: CN202011624738.7A
Authority: CN
Inventors: 樊玉华; 刘文闯; 谢寿安; 吴向阳; 杨静; 秦醒盛; 韩会珍
Original assignee: Chongqing Yichenxing Industrial Design Co ltd
Current assignee: Chongqing Yichenxing Industrial Design Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention relates to the technical field of valve clack processing, in particular to a check valve clack processing and overturning clamp for high-temperature fluid, which comprises two turntables, a plurality of clamp parts, a dip dyeing part, a paint box, a transmission part and a heating part, wherein the two turntables are symmetrically arranged at the front end of processing equipment, the turntable is rotationally connected with the front end of the processing equipment, a plurality of clamp parts are annularly and uniformly distributed on the top of the turntable, the dip-dyeing part is arranged on the side edge of the transmission part, the dip-dyeing part is connected with the side edge of the transmission part in a sliding way, the paint box is arranged on the side edge of one end of the transmission part, so that the problem that in the valve clack processing process, one working procedure is carried out on each pair of valve clacks, the valve clacks are clamped once, the processing efficiency is low, the machining precision deviation is large easily caused by multiple times of clamping, the automation degree of valve flap machining is low, the invention also provides a use method of the check valve clack machining turning clamp for high-temperature fluid.

Description

High-temperature fluid check valve clack machining and overturning clamp and using method thereof

Technical Field

The invention relates to the technical field of valve clack processing, in particular to a valve clack processing and overturning clamp for a check valve for high-temperature fluid and a using method of the valve clack processing and overturning clamp.

Background

The service life and the sealing opening and closing times of the stop valve are directly influenced by the quality of the valve clack of the stop valve, the valve clack is a plug-shaped valve clack, the upper surface of the seal is a plane or a sea conical surface, and the valve clack linearly moves along the central line of a valve seat. Movement pattern of the valve stem, generic name: the hidden rod, or the lifting rotating rod type, can be used for controlling the flow of various types of fluids such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like. Therefore, this type of shut-off valve is very suitable for shut-off or regulation and throttling. The valve rod of the valve has relatively short opening or closing stroke and reliable cut-off function, and the valve is suitable for regulating flow rate owing to the proportional relation between the valve seat port change and the valve clack stroke.

The utility model with the publication number of CN208262327U discloses a stop valve clack machining fixture, which comprises a supporting plate, a horizontal supporting mechanism arranged on the supporting plate, auxiliary vertical plates arranged at two sides of the horizontal supporting mechanism, a horizontal clamping mechanism arranged on the auxiliary vertical plates, a centering mechanism arranged on one auxiliary vertical plate, and a depth control mechanism arranged on the centering mechanism and used for controlling the depth; the utility model discloses a precision to the through-hole of inside valve clack is directly influencing the life of valve, and because the phenomenon of the degree of depth that can not control to punch is invisible inside, not only can accurate positioning centering and step up, and can control the degree of depth, avoids the injury that the excessive depth caused valve inside.

The utility model with publication number CN211805023U discloses a valve flap processing tool of an air valve, which relates to the field of tool fixtures and provides the following proposal aiming at the problem of increased production cost in the current air valve flap processing mode, which comprises a supporting plate, wherein the upper surface of the supporting plate is symmetrically distributed and uniformly fixed with fixing frames, the outer side of the fixing frame is fixedly provided with a servo motor, the output end of the servo motor is positioned in the fixing frame, a rotating shaft which penetrates through the fixing frame is rotatably arranged at the upper end of the fixing frame, a fixing buckle is rotatably arranged at one end of the rotating shaft close to the fixing frame, and one end of the rotating shaft positioned in the fixed frame is fixedly provided with a rotating wheel which is connected with a servo motor through a belt, the fixing buckles are fixedly arranged on the fixing frame, and the first hydraulic cylinder and the fixing plate are respectively and fixedly arranged on the two groups of fixing buckles. The utility model discloses a novel structure, and easy operation practices thrift the cost, and the practicality is high, suitable popularization.

However, the above patents still have the following problems:

(1) in the valve clack processing process, every pair of valve clacks carry out a process, need carry out a clamping to the valve clack, machining efficiency is lower, and clamping many times causes the machining precision deviation great easily.

(2) The automation degree of valve clack processing is lower, and the consumption is great to the processing personnel.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a valve clack processing and overturning clamp for a check valve for high-temperature fluid and a using method thereof

The basic scheme of the invention is as follows: the utility model provides a check valve clack processing upset anchor clamps for high temperature fluid, includes two carousels, a plurality of anchor clamps portion, dip-dye portion, paint box, transmission portion and heating portion, two the processing equipment front end is located to the carousel symmetry, the carousel rotates with the processing equipment front end to be connected, and is a plurality of anchor clamps portion annular equipartition is at the carousel top, dip-dye portion is placed in the side of transmission portion, dip-dye portion and transmission portion side sliding connection, there is the paint box to arrange transmission portion one end side in, heating portion symmetric distribution is in transmission portion inner wall both sides, when dip-dye portion is elevating movement at transmission portion side, dip-dye portion is in when the operation low level, dip-dye portion is placed under anchor clamps portion.

Preferably, the clamp part comprises a clamp supporting assembly, a fixed clamp assembly and a movable clamp assembly, the clamp supporting assembly is connected with the plurality of clamp connecting plates, the fixed clamp assembly is fixed at the top of the clamp supporting assembly through bolts, and the movable clamp assembly is in sliding connection with the clamp supporting assembly;

the fixture supporting assembly comprises a fixture disc, the bottom of the fixture disc is connected with a fixture connecting plate, the fixed fixture assembly comprises a fixed fixture plate and two sliders, the fixed fixture plate is fixed at the top of the fixture disc through a plurality of bolts, a track is arranged in the fixed fixture plate and is in sliding connection with the two sliders, the two sliders are of wedge-shaped structures, the movable fixture assembly comprises two support columns of a fixture, a fixture connecting plate, a push rod, a sliding clamping block, a push rod fixing plate and a pusher, one end of each of the two support columns is fixed at the top of the fixture disc, the other end of each of the two support columns is respectively in fixed connection with two ends of the bottom of the fixture connecting plate through bolts, the sliding clamping block reciprocates in a frame line structure formed by encircling and overlapping the two support columns and the fixture connecting plate, two symmetrical wedge-shaped structures are arranged at the front end of, one end of the push rod is connected with the interior of the pusher in a sliding manner, and the other end of the push rod is fixed on the back of the sliding clamping block; the clamp is characterized in that two ends of the push rod fixing rod plate are fixed to the top of the clamp disc, a protruding push rod matching end is arranged in the middle of the push rod fixing plate, and the push rod is connected with the middle of the push rod fixing plate in a sliding mode.

Preferably, the turntable part comprises a turntable, a rotating connecting end and a plurality of clamp connecting plates, the rotating connecting end is arranged at the bottom of the turntable, the plurality of clamp connecting plates are annularly and uniformly distributed at the top of the turntable, and the bottom of the clamp disc is fixed at the top of the clamp connecting plates.

Preferably, the dip dyeing part comprises a moving support assembly, a moving assembly, a lifting assembly, a steering assembly and a dip dyeing assembly, wherein the moving assembly is arranged in the middle of the support assembly, the lifting assembly is arranged at the top of the moving assembly, the steering assembly is arranged at the top of the lifting assembly, the bottom of the steering assembly is rotatably connected with the top of the lifting assembly, and the dip dyeing assembly is rotatably connected with the steering assembly;

the supporting assembly comprises a first sliding plate and a supporting frame, the moving assembly comprises a moving sliding block and two guide rods, the supporting frame is a hollow frame-shaped structure formed by a plurality of supporting plates in an enclosing and overlapping mode, the back of the supporting frame is arranged in the first sliding plate, the first sliding plate is connected with the side edge of the transmission part in a sliding mode, the two guide rods are symmetrically arranged in the middle of the supporting frame, two ends of the guide rods are fixedly connected with two sides of the inner wall of the supporting frame respectively, the moving sliding block is of a cuboid block-shaped structure, a mounting groove is formed in the middle of the moving sliding block, two sliding holes are symmetrically formed in two sides of the moving block, and.

Preferably, lifting unit includes elevator, two lifter and lifter plate, turn to the subassembly including turning to the piece, the elevator bottom is fixed in the mounting groove, the elevator middle part symmetry is equipped with two and pushes away the chamber, two the lifter bottom is arranged in respectively that two push away intracavity portion, two the lifter pushes away chamber sliding connection with two respectively, two the lifter top is connected with the lifter plate bottom, turn to piece bottom and lifter plate top and rotate and be connected.

Preferably, the dip-dyeing component comprises a rotating driving block, a rotating connecting plate, a rotating support rod, two telescopic blocks, a plurality of telescopic rods, two sliding plates, two clamping plates and a dip-dyeing frame, the rotating driving block is arranged at the back of the steering block, the rotating connecting plate is arranged at the front end of the steering block, the outlet end of the rotating driving block passes through the steering block and the rotating connecting plate to be connected with the middle part of the rotating support rod, the side edges of the two telescopic blocks are fixed at the front end of the rotating support rod, the plurality of telescopic rods are respectively in sliding connection with the two telescopic blocks, the two sliding plates are in L-shaped structures, the inner walls of the two sliding plates are respectively and fixedly connected with the plurality of telescopic rods, the side edges of the sliding plates are provided with extension plates which are in sliding connection with the telescopic blocks, the two clamping plates are respectively and symmetrically arranged at two sides of the, and a grid plate is arranged at the bottom of the dip-dyeing frame.

Preferably, the transmission part comprises a transmission support frame, a plurality of support bases, a plurality of fixed shafts, a plurality of rolling shafts, a plurality of fixed rods, a plurality of baffles, a plurality of connecting sheets, a transmission motor, a speed reducer and a transmission net surface, the transmission support frame is formed by encircling and lapping a plurality of square rods, the plurality of support bases are respectively arranged at four corners of the bottom of the transmission support frame, the plurality of fixed rods are fixed at two sides of the transmission support frame, the fixed shafts are installed at one ends of the fixed rods, two ends of each rolling shaft are respectively and rotatably connected with the fixed shafts, the plurality of baffles are installed at the top of the transmission support frame through the plurality of connecting sheets, the transmission motor and the speed reducer are fixed at the side edges of the transmission support frame, the outlet end of the transmission motor is connected with the inlet end of the speed reducer, the outlet end of the speed reducer is connected with the rolling shafts, the plurality of rolling, the conveying net surface is arranged on the roller.

Preferably, the heating part comprises two heating connecting seats and a heating lamp tube, and the heating lamp tube is fixed on the baffle plate through the two heating connecting seats.

Preferably, the top of the paint box is provided with an opening, and one side, close to the dip-dyeing part, of the paint box is provided with a placing groove, so that the dip-dyeing part can be conveniently placed in the oil inlet paint box.

The invention also discloses a use method of the check valve clack processing and overturning clamp for the high-temperature fluid, which comprises the following steps:

s1, valve clack clamping: the valve clack machining raw material is placed on a clamp disc, the bevel edges of two sliding blocks are adjusted to abut against the outer wall of the valve clack machining raw material and fixed, a pusher is controlled to push a sliding clamping block forwards through a push rod until the sliding clamping block abuts against and is fastened to the periphery of the valve clack machining raw material, and whether clamping is tight is detected by detecting whether the plate-operated valve clack machining raw material slides or not;

s2, milling: milling the valve clack processing raw material on the clamp part by controlling processing equipment, and after the valve clack processing raw material on the top is processed, driving the clamp part to rotate by the processing equipment, and turning the valve clack processing raw material on the bottom to the top for processing;

s3, valve clack collection: after the valve clack is machined and turned over to the bottom, the dip-dyeing part slides to the bottom of the clamp part, the movable block slides forwards to drive the dip-dyeing frame to be arranged right below the clamp part, the pusher is controlled to drive the sliding clamping block to retreat, the valve clack is loosened, and the valve clack falls into the dip-dyeing frame;

s4, valve clack dip-dyeing: after receiving the valve clack, the movable block drives the dip-dyeing frame and retreats, the dip-dyeing part rises to the top of the transmission part, the steering block rotates, the dip-dyeing frame is driven to rotate to the top of the paint box, the dip-dyeing frame is placed to the inside of the paint box through the control lifting block, and waterproof dip-dyeing is carried out on the valve clack.

S5, valve clack drying and transporting: after the valve clack dip-dyeing, the control lifting block is lifted to dip-dye the frame, the steering block is rotated to the top of the transmission part, the rotation driving block drives the rotating support rod to rotate, the valve clack in the dip-dyeing frame is poured on the transmission part, and the valve clack on the transmission part is dried through the heating lamp tube.

The working principle and the advantages of the invention are as follows:

the valve clack processing device is provided with two rotating discs, the two rotating discs are provided with a plurality of clamp parts which are uniformly distributed in an annular mode, the two rotating discs are symmetrically installed on a rotating mechanism of processing equipment, processing of a plurality of procedures can be achieved through one-time clamping, the problem that clamping needs to be performed again after one-time processing procedure is performed on a single valve clack through one-time clamping is solved, operation repeatability and operation safety risks of operators are reduced, processing efficiency and processing quality of the processing equipment on the valve clack are improved, a dip-dyeing part collects the processed valve clack, waterproof paint dip-dyeing is performed on the valve clack by matching with an oil paint box, automation degree and versatility of the processing equipment are improved, after the valve clack dip-dyeing is completed, the dip-dyeing part conveys the valve clack to the top of a transmission part, and the valve clack is dried through heating parts arranged. Clamping valve lamella processing raw materials on the anchor clamps dish, the hypotenuse of adjusting two sliders supports and leans on the outer wall of valve clack processing raw materials and fixes, and the control impeller promotes the clamp splice that slides forward through the push rod, until supporting to lean on the fastening around valve clack processing raw materials, fastens the valve clack through impeller and push rod, replaces manual rotation to press from both sides tightly, has improved the tight dynamics of clamp and the clamping stability to the valve clack, and then has improved machining efficiency and the machining precision to the valve clack.

The collection of the valve clack that the processing was accomplished to the dip-dyeing portion, dip-dyeing and transport, through first sliding plate and transmission portion side sliding connection, accomplish the lift action of dip-dyeing portion on the transmission portion curb plate, the smoothness and the patency that the dip-dyeing portion goes up and down have been improved, sliding connection through movable block and two guide arms, the forward push of completion dip-dyeing portion has improved the stability of dip-dyeing portion antedisplacement, turn to the piece and accomplish the all-round rotation of dip-dyeing portion, realize going on in reciprocating of each step of operation. Rotate the drive block and drive rotatory branch and rotate, drive the upset of dip-dyeing frame simultaneously, the valve clack that will dip-dye in the frame is emptyd in transmission portion, and flexible piece is through opening and pressing from both sides of two splint of telescopic link control, dismantles the installation fast to the dip-dyeing frame of equidimension not, has prolonged the life of this dip-dyeing portion, and dip-dyeing frame bottom is equipped with the waffle slab, makes things convenient for the paint to get into and flow the dip-dyeing frame, has improved the use convenience of this dip-dyeing portion. The transmission portion transmits the valve clack that processing was accomplished, and the heating fluorescent tube is dried the valve clack, and transmission motor output power decelerates to required rotational speed through the reduction gear, drives the roller bearing and rotates, and then drives the conveying wire side and carries out the conveying of valve clack.

Drawings

FIG. 1 is a schematic structural view of a check valve flap machining turning fixture for high-temperature fluids according to the present invention;

FIG. 2 is a schematic view of the installation of a check valve flap machining turning clamp for high-temperature fluid on machining equipment;

FIG. 3 is a schematic structural view of a part of the structure of a check valve flap machining turning clamp for high-temperature fluid according to the present invention;

FIG. 4 is a schematic structural view of a dip-dyeing part in a check valve flap processing and overturning fixture for high-temperature fluid according to the invention;

reference numerals referred to in the drawings are:

a turntable 1; a turntable 101; a rotating link end 102; a clamp connection plate 103;

a clamp part 2; a clamp plate 201; a stationary jig plate 202; a slider 203; a support column 204; a clamp connection plate 205; a push rod 206; a slide clamp block 207; a push rod fixing plate 208; a pusher 209;

a dip-dyeing section 3; a first sliding plate 301; a support frame 302; the slider 303 is moved; a guide rod 304; a lifting block 305; a lifting rod 306; a lifting plate 307; the rotation driving block 308; a turning block 309; a rotation connecting plate 310; a rotating strut 311; a telescoping block 312; an extension pole 313; a slide plate 314; a clamp plate 315; a dip-dyeing frame 316; a mesh plate 317;

a paint tank 4; a placement groove 401; a transmission section 5; a support frame 501; a support base 502; a fixed shaft 503; a roller 504; a fixing bar 505; a baffle 506; a connecting sheet 507; a transmission motor 508; a decelerator 509; a transport web surface 510;

a heating section 6; a heating connection base 601; lamp 602 is heated.

Detailed Description

The following is further detailed by the specific embodiments:

the first embodiment is as follows:

as shown in fig. 1-4, a check valve clack processing upset anchor clamps for high temperature fluid, including two carousel 1, a plurality of anchor clamps portion 2, dip-dyeing portion 3, paint can 4, transmission portion 5 and heating portion 6, the processing equipment front end is located to two carousel 1 symmetries, carousel 1 rotates with the processing equipment front end to be connected, 2 annular equipartitions of a plurality of anchor clamps portion are at carousel 1 top, dip-dyeing portion 3 arranges the side of transmission portion 5 in, dip-

dyeing portion

3 and 5 side sliding connection of transmission portion, there is paint can 4 to arrange 5 one end sides of transmission portion in, heating portion 6 symmetric distribution is in 5 inner wall both sides of transmission portion, dip-dyeing portion 3 is when elevating movement is done at transmission portion 5 side, dip-dyeing portion 3 is when the operation low level, dip-dyeing portion 3 arranges anchor clamps portion 2 in under.

The valve clack processing machine is provided with two rotating discs 1, the two rotating discs 1 are respectively provided with a plurality of clamp parts 2 which are annularly and uniformly distributed, the two rotating discs 1 are symmetrically arranged on a rotating mechanism of processing equipment, the processing of a plurality of procedures on a plurality of valve clacks can be realized by one-time clamping, the problem that the valve clacks need to be clamped again after one-time processing procedure is carried out by one-time clamping is solved, the operation repeatability and the operation safety risk of operators are reduced, the processing efficiency and the processing quality of the processing equipment on the valve clacks are improved, the processed valve clacks are collected by a dip-dyeing part 3, the valve clacks are subjected to waterproof paint dip-dyeing by matching with an oil paint box 4, the automation degree and the versatility of the processing equipment are improved, after the valve clacks are subjected to dip-dyeing, the valve clacks are conveyed to the top of a conveying part 5 by the dip.

The clamp part 2 comprises a clamp supporting assembly, a fixed clamp assembly and a movable clamp assembly, the clamp supporting assembly is connected with a plurality of clamp connecting plates 103, the fixed clamp assembly is fixed at the top of the clamp supporting assembly through bolts, and the movable clamp assembly is connected with the clamp supporting assembly in a sliding manner;

the clamp supporting assembly comprises a clamp disc 201, the bottom of the clamp disc 201 is connected with a clamp connecting plate 103, the fixed clamp assembly comprises a fixed clamp plate 202 and two sliders 203, the fixed clamp plate 302 is fixed at the top of the clamp disc 201 through a plurality of bolts, a track is arranged in the fixed clamp plate 202 and is in sliding connection with the two sliders 203, the two sliders 203 are both in a wedge-shaped structure, the movable clamp assembly comprises two clamp supporting columns 204, a clamp connecting plate 205, a push rod 206, a sliding clamping block 207, a push rod fixing plate 208 and a pusher 209, one end of each of the two supporting columns 204 is fixed at the top of the clamp disc 201, the other end of each of the two supporting columns 204 is respectively in fixed connection with two ends of the bottom of the clamp connecting plate 205 through bolts, the sliding clamping block 207 performs reciprocating motion in a frame line structure formed by enclosing and overlapping the two supporting columns 204 and the clamp connecting plate 205, two, one end of the push rod 206 is connected with the inside of the pusher 209 in a sliding way, and the other end of the push rod 206 is fixed at the back of the sliding clamping block 207; the two ends of the push rod fixing rod plate 208 are fixed on the top of the clamp disc 201, the middle part of the push rod fixing plate 208 is provided with a convex push rod matching end, and the push rod 206 is connected with the middle part of the push rod fixing plate 208 in a sliding manner. The turntable part 1 comprises a turntable 101, a rotating connecting end 102 and a plurality of clamp connecting plates 103, wherein the rotating connecting end 102 is arranged at the bottom of the turntable 101, the plurality of clamp connecting plates 103 are annularly and uniformly distributed at the top of the turntable 101, and the bottom of a clamp disc 201 is fixed at the top of the clamp connecting plates 103.

Place valve clack processing raw materials on anchor clamps dish 201, the hypotenuse of adjusting two sliders 203 supports and leans on the outer wall of valve clack processing raw materials and fixes, control impeller 209 promotes slip clamp splice 207 forward through push rod 206, until supporting and leaning on the fastening around valve clack processing raw materials, fasten the valve clack through impeller 209 and push rod 206, replace manual rotation to press from both sides tightly, improved the tight dynamics of clamp and the clamping stability to the valve clack, and then improved machining efficiency and the machining precision to the valve clack.

The dip-dyeing part 3 comprises a moving support assembly, a moving assembly, a lifting assembly, a steering assembly and a dip-dyeing assembly, wherein the moving assembly is arranged in the middle of the support assembly, the lifting assembly is arranged at the top of the moving assembly, the steering assembly is arranged at the top of the lifting assembly, the bottom of the steering assembly is rotatably connected with the top of the lifting assembly, and the dip-dyeing assembly is rotatably connected with the steering assembly;

the supporting component includes first sliding plate 301 and support frame 302, the removal subassembly is including removing slider 303 and two guide arms 304, support frame 302 encloses the cavity frame shape structure that closes the overlap joint and form for a plurality of extension boards, support frame 302 back is arranged in to first sliding

plate

301, 5 side sliding connection of first sliding plate 301 and transmission part, support frame 303 middle part is arranged in to two guide arm 304 symmetries, two guide arm 304 both ends respectively with support frame 302 inner wall both sides fixed connection, it is cuboid massive structure to remove slider 303, it is equipped with the mounting groove to remove slider 303 middle part, removal block 303 bilateral symmetry is equipped with two sliding holes, two sliding holes respectively with two guide arm 304 sliding connection. Lifting unit includes elevator 305, two lifter 306 and lifter 307, turns to the subassembly and includes and turns to piece 309, and elevator 305 bottom is fixed in the mounting groove, and elevator 305 middle part symmetry is equipped with two and pushes away the chamber, and two lifter 306 bottoms are arranged in respectively and are pushed away intracavity portion, and two lifter 306 push away chamber sliding connection with two respectively, and two lifter 306 tops are connected bottom lifter 307, turn to piece 309 bottom and lifter 307 top and rotate and be connected.

The collection of the valve clack that the processing was accomplished is accomplished to dip-dye portion 3, dip-dye and transport, through first sliding

plate

301 and 5 side sliding connection of transmission portion, accomplish the lift action of dip-dye portion 3 on the 5 curb plates of transmission portion, the smoothness and the patency that dip-dye portion 3 goes up and down have been improved, sliding connection through movable block 303 and two guide arms 304, accomplish the antedisplacement of dip-dye portion 2, the stability of dip-dye portion 3 antedisplacement has been improved, turn to piece 309 and accomplish the 3 all-round rotations of dip-dye portion, realize the reciprocal of every step of operation and go on.

Example two:

dyeing portion

plate

The dip-dyeing component comprises a rotating driving block 308, a rotating connecting plate 310, a rotating support rod 311, two telescopic blocks 312, a plurality of telescopic rods 313, two sliding plates 314, two clamping plates 315 and a dip-dyeing frame 316, wherein the rotating driving block 308 is arranged at the back of the steering block 309, the rotating connecting plate 310 is arranged at the front end of the steering block 309, the outlet end of the rotating driving block 308 penetrates through the steering block 309 and the rotating connecting plate 310 to be connected with the middle part of the rotating support rod 311, the side edges of the two telescopic blocks 312 are fixed at the front end of the rotating support rod 311, the telescopic rods 313 are respectively connected with the two telescopic blocks 312 in a sliding manner, the two sliding plates 314 are of an L-shaped structure, the inner walls of the two sliding plates 314 are respectively fixedly connected with the telescopic rods 313, the side edges of the sliding plates 314 are provided with extension plates which are connected with the telescopic blocks 312 in a sliding manner, the, the bottom of the dip-dyeing frame 316 is provided with a grid plate 317; 4 open-tops of paint case, paint case 4 are close to one side of dip-dyeing portion 3 and are equipped with standing groove 401, and the oil feed paint case 4 is placed to dip-dyeing portion 3 of being convenient for.

Rotate drive block 308 and drive rotatory branch 311 and rotate, drive the upset of dip-dyeing frame 316 simultaneously, the valve clack that will dip-dyeing in the frame is emptyd on transmission portion 5, flexible piece 312 is through opening and the clamp of two splint 315 of telescopic link 313 control, carry out quick dismantlement installation to the dip-dyeing frame 316 of equidimension not, the life of this dip-dyeing portion 3 has been prolonged, dip-dyeing frame 316 bottom is equipped with grid plate 317, make things convenient for paint to get into and flow dip-dyeing frame 316, the convenience of use of this dip-dyeing portion 3 has been improved.

The transmission part 5 comprises a transmission support frame 501, a plurality of support bases 502, a plurality of fixed shafts 503, a plurality of rollers 504, a plurality of fixed rods 505, a plurality of baffles 506, a plurality of connecting pieces 507, a transmission motor 508, a speed reducer 509 and a transmission net surface 510, wherein the transmission support frame 501 is formed by surrounding and lapping a plurality of square rods, the plurality of support bases 502 are respectively arranged at four corners of the bottom of the transmission support frame 501, the plurality of fixed rods 505 are fixed at two sides of the transmission support frame 501, the fixed shafts 503 are arranged at one ends of the fixed rods 505, two ends of the rollers 504 are respectively rotatably connected with the fixed shafts 503, the plurality of baffles 506 are arranged at the top of the transmission support frame 501 through the plurality of connecting pieces 507, the transmission motor 508 and the speed reducer 509 are fixed at the side edge of the transmission support frame 501, the outlet end of the transmission motor 508 is connected with the inlet end of the speed, two ends of a plurality of rollers 504 are respectively connected with the transmission support frame 501 in a rotating way, and the transmission net surface 501 is arranged on the rollers 504. The heating part 6 includes two heating connection holders 601 and a heating lamp 602, and the heating lamp 602 is fixed to the blocking plate 506 through the two heating connection holders 601.

The transmission part 5 transmits the processed valve clack, the heating lamp tube 602 dries the valve clack, the transmission motor 508 outputs power, the power is reduced to the required rotating speed through the speed reducer 509, the roller 504 is driven to rotate, and then the transmission net surface is driven to transmit the valve clack.

s1, valve clack clamping: the valve clack machining raw material is placed on a clamp disc 201, the inclined edges of two sliding blocks 203 are adjusted to abut against the outer wall of the valve clack machining raw material and fixed, a control pusher 209 pushes a sliding clamping block 207 forwards through a push rod 206 until the sliding clamping block abuts against and is fastened on the periphery of the valve clack machining raw material, and whether clamping is tight or not is detected by detecting whether the plate-operated valve clack machining raw material slides or not;

s2, milling: milling the valve clack processing raw material on the clamp part 2 by controlling processing equipment, and after the valve clack processing raw material on the top is processed, driving the clamp part 2 to rotate by the processing equipment, and turning the valve clack processing raw material on the bottom to the top for processing;

s3, valve clack collection: after the valve clack is machined and turned to the bottom, the dip-dyeing part 3 slides to the bottom of the clamp part 2, the moving block 303 slides forwards to drive the dip-dyeing frame 316 to be arranged right below the clamp part 2, the pusher 209 is controlled to drive the sliding clamping block 207 to retreat, the valve clack is loosened, and the valve clack falls into the dip-dyeing frame 316;

s4, valve clack dip-dyeing: after the valve clack is received, the moving block 303 drives the dip-dyeing frame 316 to retreat, the dip-dyeing part 3 rises to the top of the transmission part 5, the turning block 309 rotates, the dip-dyeing frame 316 is driven to turn to the top of the paint box 4, the dip-dyeing frame 316 is placed to the inside of the paint box 4 through the control lifting block 305, and the valve clack is subjected to waterproof dip-dyeing.

S5, valve clack drying and transporting: after the valve clack is dip-dyed, the lifting block 305 is controlled to lift the dip-dyeing frame 316, the turning block 309 is rotated to the top of the transmission part 5, the driving block 308 is rotated to drive the rotating support rod 311 to rotate, the valve clack in the dip-dyeing frame 316 is poured on the transmission part 5, and the valve clack on the transmission part 5 is dried through the heating lamp tube 602.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims

1. The utility model provides a high temperature is check valve clack processing upset anchor clamps for fluid which characterized in that: comprises two turntables (1), a plurality of clamp parts (2), a dip-dyeing part (3), a paint box (4), a transmission part (5) and a heating part (6), wherein the two turntables (1) are symmetrically arranged at the front end of a processing device, the turntable (1) is rotationally connected with the front end of the processing equipment, a plurality of clamp parts (2) are annularly and uniformly distributed on the top of the turntable (1), the dip-dyeing part (3) is arranged at the side edge of the transmission part (5), the dip-dyeing part (3) is connected with the side edge of the transmission part (5) in a sliding way, the paint box (4) is arranged on one side of one end of the transmission part (5), the heating parts (6) are symmetrically distributed on two sides of the inner wall of the transmission part (5), when the dip-dyeing part (3) does lifting motion at the side edge of the transmission part (5), the dip-dyeing part (3) is at a running low position, and the dip-dyeing part (3) is arranged under the clamp part (2).

2. The turning clamp for machining the valve clack of the check valve for high-temperature fluid, according to claim 1, is characterized in that: the clamp part (2) comprises a clamp supporting assembly, a fixed clamp assembly and a movable clamp assembly, the clamp supporting assembly is connected with a plurality of clamp connecting plates (103), the fixed clamp assembly is fixed to the top of the clamp supporting assembly through bolts, and the movable clamp assembly is connected with the clamp supporting assembly in a sliding mode;

the clamp supporting assembly comprises a clamp disc (201), the bottom of the clamp disc (201) is connected with a clamp connecting plate (103), the fixed clamp assembly comprises a fixed clamp plate (302) and two sliding blocks (203), the fixed clamp plate (302) is fixed to the top of the clamp disc (201) through a plurality of bolts, a track and two sliding blocks (203) are arranged in the fixed clamp plate (302) and are in sliding connection, the two sliding blocks (203) are of wedge-shaped structures, the movable clamp assembly comprises two support columns (204) of a clamp, a clamp connecting plate (205), a push rod (206), a sliding clamping block (207), a push rod fixing plate (208) and a pusher (209), one ends of the two support columns (204) are fixed to the top of the clamp disc (201), and the other ends of the two support columns (204) are respectively and fixedly connected with two ends of the bottom of the clamp connecting plate (205), the sliding clamping block (207) reciprocates in a frame line structure formed by enclosing and overlapping two supporting columns (204) and a clamp connecting plate (205), two symmetrical wedge-shaped structures are arranged at the front end of the sliding clamping block (207), a push rod (206) is arranged at the outlet end of the pusher (209), one end of the push rod (206) is connected with the inside of the pusher (209) in a sliding manner, and the other end of the push rod (206) is fixed at the back of the sliding clamping block (207); the clamp is characterized in that two ends of the push rod fixing rod plate (208) are fixed to the top of the clamp disc (201), a convex push rod matching end is arranged in the middle of the push rod fixing plate (208), and the push rod (206) is connected with the middle of the push rod fixing plate (208) in a sliding mode.

3. The flap processing and overturning clamp for the check valve for high-temperature fluid, as claimed in claim 2, is characterized in that: the turntable part (1) comprises a turntable (101), a rotating connecting end (102) and a plurality of clamp connecting plates (103), wherein the rotating connecting end (102) is arranged at the bottom of the turntable (101), the plurality of clamp connecting plates (103) are annularly and uniformly distributed at the top of the turntable (101), and the bottom of the clamp disc (201) is fixed at the top of the clamp connecting plates (103).

4. The turning clamp for machining the valve clack of the check valve for high-temperature fluid, according to claim 3, is characterized in that: the dip-dyeing part (3) comprises a moving support assembly, a moving assembly, a lifting assembly, a steering assembly and a dip-dyeing assembly, wherein the moving assembly is arranged in the middle of the support assembly, the lifting assembly is arranged at the top of the moving assembly, the steering assembly is arranged at the top of the lifting assembly, the bottom of the steering assembly is rotatably connected with the top of the lifting assembly, and the dip-dyeing assembly is rotatably connected with the steering assembly;

the supporting component comprises a first sliding plate (301) and a supporting frame (302), the moving component comprises a moving sliding block (303) and two guide rods (304), the supporting frame (302) is a hollow frame-shaped structure formed by a plurality of supporting plates in an enclosing and overlapping mode, the back of the supporting frame (302) is arranged on the first sliding plate (301), the first sliding plate (301) is in sliding connection with the side edge of the transmission part (5), the two guide rods (304) are symmetrically arranged in the middle of the supporting frame (303), two ends of the guide rods (304) are fixedly connected with two sides of the inner wall of the supporting frame (302) respectively, the moving sliding block (303) is of a cuboid block structure, an installation groove is formed in the middle of the moving sliding block (303), two sliding holes are symmetrically formed in two sides of the moving block (303), and the two sliding holes are in sliding connection with the two.

5. The turning clamp for machining the valve clack of the check valve for high-temperature fluid, according to claim 4, is characterized in that: lifting unit includes elevator (305), two lifter (306) and lifter plate (307), it includes turns to piece (309) to turn to the subassembly, elevator (305) bottom is fixed in the mounting groove, elevator (305) middle part symmetry is equipped with two and pushes away the chamber, two lifter (306) bottom is arranged in respectively two and is pushed away intracavity portion, two lifter (306) pushes away chamber sliding connection with two respectively, two lifter (306) top is connected with lifter plate (307) bottom, turn to piece (309) bottom and lifter plate (307) top and rotate and be connected.

6. The turning clamp for machining the valve clack of the check valve for high-temperature fluid, according to claim 5, is characterized in that: the dip-dyeing component comprises a rotating driving block (308), a rotating connecting plate (310), a rotating support rod (311), two telescopic blocks (312), a plurality of telescopic rods (313), two sliding plates (314), two clamping plates (315) and a dip-dyeing frame (316), wherein the rotating driving block (308) is arranged at the back of the steering block (309), the rotating connecting plate (310) is arranged at the front end of the steering block (309), the outlet end of the rotating driving block (308) penetrates through the steering block (309) and the rotating connecting plate (310) to be connected with the middle part of the rotating support rod (311), the side edges of the two telescopic blocks (312) are fixed at the front end of the rotating support rod (311), the telescopic rods (313) are respectively in sliding connection with the two telescopic blocks (312), the two sliding plates (314) are in L-shaped structures, the inner walls of the two sliding plates (314) are respectively and fixedly connected with the telescopic rods (313), the side of the sliding plate (314) is provided with an extension plate, the extension plate is slidably connected with the telescopic block (312), the two clamping plates (315) are respectively and symmetrically arranged on two sides of the outer wall of the two sliding plates (314), the dip-dyeing frame (316) is detachably connected to the middle parts of the two clamping plates (315), and the bottom of the dip-dyeing frame (316) is provided with a grid plate (317).

7. The turning clamp for machining the valve clack of the check valve for high-temperature fluid, according to claim 6, is characterized in that: the transmission part (5) comprises a transmission support frame (501), a plurality of support bases (502), a plurality of fixed shafts (503), a plurality of rollers (504), a plurality of fixed rods (505), a plurality of baffles (506), a plurality of connecting pieces (507), a transmission motor (508), a speed reducer (509) and a transmission net surface (510), wherein the transmission support frame (501) is formed by encircling and lapping a plurality of square rods, the plurality of support bases (502) are respectively arranged at four corners of the bottom of the transmission support frame (501), the plurality of fixed rods (505) are fixed at two sides of the transmission support frame (501), the fixed shafts (503) are installed at one ends of the fixed rods (505), two ends of each roller (504) are respectively rotatably connected with the corresponding fixed shaft (503), the plurality of baffles (506) are installed at the top of the transmission support frame (501) through the plurality of connecting pieces (507), and the transmission motor (508) and the speed reducer (509) are fixed at the side edges, the play end of transmission motor (508) is connected with the entry end of reduction gear (509), the play end of reduction gear (509) is connected with roller bearing (504), and is a plurality of roller bearing (504) interval equipartition is in transmission support frame (501) middle part, and is a plurality of roller bearing (504) both ends rotate with transmission support frame (501) respectively and are connected, conveying wire side (501) are installed on roller bearing (504).

8. The flap processing and overturning clamp for the check valve for high-temperature fluid, according to claim 7, is characterized in that: the heating part (6) comprises two heating connecting seats (601) and a heating lamp tube (602), and the heating lamp tube (602) is fixed on the baffle plate (506) through the two heating connecting seats (601).

9. The flap processing and overturning clamp for the check valve for high-temperature fluid, according to claim 8, is characterized in that: the top of the paint box (4) is open, one side, close to the dip-dyeing part (3), of the paint box (4) is provided with a placing groove (401), and the dip-dyeing part (3) is convenient to place in the oil inlet paint box (4).

10. The flap processing and overturning clamp for the check valve for high-temperature fluid and the use method of the flap processing and overturning clamp are characterized in that:

s1, valve clack clamping: the valve clack machining raw material is placed on a clamp disc (201), the bevel edges of two sliding blocks (203) are adjusted to abut against the outer wall of the valve clack machining raw material and are fixed, a control pusher (209) pushes a sliding clamping block (207) forwards through a push rod (206) until the sliding clamping block abuts against and is fastened around the valve clack machining raw material, and whether clamping is tight or not is detected by detecting whether the plate-operated valve clack machining raw material slides or not;

s2, milling: milling the valve clack processing raw material on the clamp part (2) by controlling processing equipment, and after the valve clack processing raw material on the top is processed, driving the clamp part (2) to rotate by the processing equipment to turn the valve clack processing raw material on the bottom to the top for processing;

s3, valve clack collection: after the valve clack is machined and turned to the bottom, the dip-dyeing part (3) slides to the bottom of the clamp part (2), the moving block (303) slides forwards to drive the dip-dyeing frame (316) to be arranged right below the clamp part (2), the pusher (209) is controlled to drive the sliding clamping block (207) to retreat, the valve clack is loosened, and the valve clack falls into the dip-dyeing frame (316);

s4, valve clack dip-dyeing: after the valve clack is received, the moving block (303) drives the dip-dyeing frame (316) to retreat, the dip-dyeing part (3) rises to the top of the transmission part (5), the turning block (309) rotates to drive the dip-dyeing frame (316) to turn to the top of the paint box (4), the dip-dyeing frame (316) is lowered into the paint box (4) through controlling the lifting block (305), and waterproof dip-dyeing is carried out on the valve clack;

s5, valve clack drying and transporting: after the valve clack is dip-dyed, the lifting block (305) is controlled to lift the dip-dyeing frame (316), the steering block (309) rotates to the top of the transmission part (5), the rotating driving block (308) drives the rotating support rod (311) to rotate, the valve clack in the dip-dyeing frame (316) is poured on the transmission part (5), and the valve clack on the transmission part (5) is dried through the heating lamp tube.