CN116551029A - Valve processingequipment - Google Patents

Abstract

The invention relates to the technical field of valve machining, in particular to a valve machining device which comprises a bottom plate and a machining table, wherein an operation table is arranged at the top of the machining table, a round hole is formed in the center of the top of the operation table, a valve body is arranged at the top of the operation table, a first interface end and a second interface end are symmetrically arranged on the outer wall of the top end of the valve body, a first opening end and a second opening end are symmetrically arranged at the upper end and the lower end of the valve body, a first drilling mechanism is arranged at the top of the bottom plate and is used for carrying out drilling operation on the first interface end and the second interface end, a portal frame is arranged at the top of the bottom plate, two turnover mechanisms are symmetrically arranged on the outer walls of the two sides of the portal frame, and a second drilling mechanism is arranged at the top end of the portal frame.

Description

Valve processingequipment

Technical Field

The invention relates to the technical field of valve machining, in particular to a valve machining device.

Background

A valve is a device that controls the direction, pressure and flow of a fluid. The device is widely used for fluid pipelines such as liquid or gas and the like, and is used for realizing the switching and reversing of the fluid and the pressure or flow change in the pipelines, so that the fluid system terminal can realize a certain function.

The Chinese patent of patent No. CN111375798B discloses valve body superfinishing equipment, including the clamp fixture that is used for pressing from both sides tight installation valve body, the processing platform that is located the clamp fixture in the neighborhood, slidable mounting is on the processing platform's drilling mechanism, install on the processing platform, be located the cohesion mechanism between clamp fixture and the drilling mechanism, through utilizing drilling mechanism's slip to drive cohesion mechanism and hug tightly the interface end that waits to bore the processing, offset the pressure that comes from drilling mechanism to the interface end drilling brings, make the valve body wholly can not lead to the valve body to appear rotatory trend at drilling in-process because of drilling mechanism's pressure, solve the valve body because of the uneven problem that leads to of the machining precision that leads to of drilling atress.

However, the above-mentioned patent has the following disadvantages in the actual use process: the drill bit of this patent can only carry out drilling operation to one side interface end of valve body once, when carrying out drilling to the opposite side interface end of valve body, needs manual rotation adjustment to the position of valve body, and machining efficiency is low.

Disclosure of Invention

The invention aims to provide a valve processing device, which solves the problems that the position of a valve body needs to be manually rotated and adjusted and the processing efficiency is low when the interface end on the other side of the valve body is drilled in the prior art.

The technical scheme of the invention is as follows:

the utility model provides a valve processingequipment, includes bottom plate and processing platform, the top of processing platform is equipped with the operation panel, the top center department of operation panel is equipped with the round hole, the valve body has been placed at the top of operation panel, symmetry is provided with first interface end and second interface end on the top outer wall of valve body, the upper and lower both ends symmetry of valve body is provided with first open end and second open end, the top of processing platform is equipped with four first spacing subassembly that set up around the centre of a circle equidistant of round hole, four the top of first spacing subassembly passes the inner wall of round hole and valve body and contradicts, the top of operation panel is equipped with four second spacing subassembly that set up around the centre of a circle of round hole, four the one end of second spacing subassembly is contradicted with the second open end, the top of bottom plate is equipped with first drilling mechanism, first drilling mechanism is used for carrying out drilling operation to first interface end and second interface end, the top frame of bottom plate has the portal frame, symmetry is provided with two tilting mechanism on the both sides outer wall of portal frame is used for carrying out tilting mechanism, tilting mechanism is used for carrying out drilling operation to the second open end to the valve body.

Further, first spacing subassembly includes slide rail, sliding block, first hydraulic push rod, lift cylinder, lifter plate and first conflict piece, the slide rail level sets up the top at the processing platform, sliding block slidable mounting is on the slide rail, first hydraulic push rod level sets up the top at the processing platform to first hydraulic push rod's output is connected with the sliding block, the vertical setting of lift cylinder is at the top of sliding block, the lifter plate is installed on the output of lift cylinder, and the top of lifter plate passes the round hole and extends to in the valve body, the top at the lifter plate is installed to first conflict piece, and the one end that the lifter plate was kept away from to first conflict piece is contradicted with the inner wall of valve body.

Further, the second spacing subassembly includes spout, movable block, connecting plate, second conflict piece, removes rack, mount, mobile motor and movable gear, the top at the operation panel is seted up to the spout, movable block slidable mounting is on the spout, be equipped with the recess on the top outer wall of movable block, the top edge at the movable block is installed to the connecting plate, the top at the connecting plate is installed to the second conflict piece to the bottom of second conflict piece is contradicted with the top of second open end, the movable rack level sets up in the recess, the top at the operation panel is installed to the mount, the vertical setting of mobile motor is on the mount, movable gear installs on the output shaft of movable motor to movable gear and movable rack meshing.

Further, first drilling mechanism includes axis of rotation, dwang, rotation motor, driving gear, driven gear, two guide rails, two carrier, two pull rods and two first drilling subassemblies, two the guide rail symmetry sets up at the top of bottom plate, two carrier slidable mounting respectively on two guide rails to two carrier are the symmetry setting, the axis of rotation rotates the bottom center department of installing at the processing platform, the dwang is installed in the bottom of axis of rotation, two the one end of pull rod articulates with the both ends of dwang respectively, two the other end of pull rod articulates with the bottom of two carrier respectively, rotation motor is vertical to be set up in the bottom of processing platform, the driving gear is installed on rotation motor's output shaft, driven gear installs in the axis of rotation to driven gear and driving gear meshing, two first drilling subassemblies symmetry sets up on two carrier.

Further, first drilling subassembly includes U type frame, link, first motor, first rotation axis, first shaft coupling, first rotary disk, first drilling spare, sweeps collection spare, diaphragm, receiver and two supports, U type frame is installed on the top outer wall of bearing frame, the link is installed and is kept away from one side of bearing frame at U type frame, first motor level sets up in U type frame, first rotation axis rotates and installs on the link, first shaft coupling is installed on the output shaft of first motor to first shaft coupling and first rotation axis fixed connection, the tip at first rotation axis is installed to first rotary disk, first drilling spare is installed and is kept away from one side of first rotation axis at first rotary disk, two the support symmetry sets up on the link, sweeps collection spare is installed between two supports, the diaphragm level sets up on the outer wall of bearing frame, the receiver is installed at the top of diaphragm, and the receiver is located the below of sweeps collection spare.

Further, the first drilling piece includes adjustment tank, regulating block, first driving motor, first drill bit, first lead screw slip table and regulating plate, the adjustment tank is seted up on the outer wall of first rotary disk, regulating block slidable mounting is on the adjustment tank, first driving motor level sets up on the regulating block, first drill bit is installed on first driving motor's output shaft, first lead screw slip table is vertical to be set up on the outer wall of first rotary disk, the regulating plate is installed on first lead screw slip table's mobile terminal to regulating plate and regulating block fixed connection.

Further, the sweeps collecting piece is including collecting box, second motor, first gear, second gear and two connecting axles, it installs between two supports to collect the box through two connecting axle rotations, it is located the below of first drill bit to collect the box, the second motor level sets up on the outer wall of one of them support, first gear is installed on the output shaft of second motor, the tip at one of them connecting axle is installed to the second gear to second gear and first gear engagement.

Further, tilting mechanism includes logical groove, lifting block, second hydraulic push rod, pivot, turnover disc, turnover motor, third gear, fourth gear, clamping assembly and two perpendicular rails, it sets up on the bottom lateral wall of portal frame to lead to the groove, two perpendicular rail symmetry sets up in logical inslot, lifting block slidable mounting is on two perpendicular rails, the vertical bottom that sets up at logical groove of second hydraulic push rod to the output and the lifting block of second hydraulic push rod are connected, the turnover shaft rotates and installs on the lifting block, the front end at the pivot is installed to the turnover disc, turnover motor level sets up on the outer wall of lifting block, the output shaft at turnover motor is installed to the third gear, the rear end at the pivot is installed to the fourth gear and third gear meshing, clamping assembly level sets up the one side of keeping away from the pivot at the turnover disc, clamping assembly includes support frame, third hydraulic push rod and arc clamp splice, the support frame is installed on the outer wall of turnover disc, the level sets up the hydraulic clamp splice at the third arc top of support frame.

Further, the second drilling mechanism comprises a fourth hydraulic push rod, a lifting frame, a third motor, a second rotating shaft, a second coupling, a second rotating disc and a second drilling assembly, wherein the fourth hydraulic push rod is vertically arranged at the top of the portal frame, the lifting frame is arranged at the output end of the fourth hydraulic push rod, the second rotating shaft is rotatably arranged at the bottom end of the lifting frame, the third motor is vertically arranged at the top end of the lifting frame, the second coupling is arranged on the output shaft of the third motor, the second coupling is fixedly connected with the second rotating shaft, the second rotating disc is arranged at the bottom of the second rotating shaft, and the second drilling assembly is arranged at the bottom of the second rotating disc.

Further, the second drilling assembly comprises a transverse groove, a mounting block, a second driving motor, a second drill bit, a second screw rod sliding table and a linkage plate, wherein the transverse groove is formed in the bottom of the second rotating disc, the mounting block is slidably mounted on the transverse groove, the second driving motor is vertically arranged at the bottom of the mounting block, the second drill bit is mounted on an output shaft of the second driving motor, the second screw rod sliding table is horizontally arranged at the bottom of the second rotating disc, and the linkage plate is mounted on the moving end of the second screw rod sliding table and fixedly connected with the mounting block.

The invention provides a valve processing device through improvement, which has the following improvements and advantages compared with the prior art:

the method comprises the following steps: according to the invention, the second drilling mechanism is used for drilling the first opening end, after the first opening end is drilled, the two turnover mechanisms are used for clamping the valve body synchronously, then the four first limiting assemblies and the four second limiting assemblies are used for resetting to cancel limiting on the inner wall and the second opening end of the valve body, then the two turnover mechanisms are used for continuously and synchronously moving the valve body upwards by a certain height and then turning over 180 degrees, at the moment, the positions of the first opening end and the second opening end are exchanged, then the two turnover mechanisms are used for continuously and synchronously moving the valve body downwards to be placed on the top of the operation table, finally the four first limiting assemblies and the four second limiting assemblies are used for continuously and limiting on the inner wall and the first opening end of the valve body, the second drilling mechanism is used for drilling the second opening end, automatic drilling operation on the first interface end, the second interface end, the first opening end and the second opening end is realized, manual rotation adjustment on the position of the valve body is not needed, and the machining efficiency is greatly improved.

And two,: according to the invention, the driving gear is driven to rotate by the operation of the rotating motor, the driving gear drives the rotating shaft and the rotating rod to rotate by the driven gear, the rotating rod pulls the two bearing frames to move close to each other by the two pull rods, and the two bearing frames drive the two first drilling assemblies to move close to each other, so that the two first drilling assemblies can conveniently and synchronously drill the first interface end and the second interface end.

And thirdly,: according to the invention, the first drilling part works and the scrap collecting part collects scraps generated by drilling, so that the scraps are prevented from splashing everywhere, the second motor works regularly to drive the first gear to rotate, the first gear drives the collecting box and the two connecting shafts to rotate by using the second gear, the collecting box rotates for a certain angle to be in an inclined state, and the scraps in the collecting box are poured into the storage box, so that the aim of regularly and automatically cleaning the scraps by the collecting box is fulfilled.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic perspective view of the valve body of the present invention;

FIG. 4 is a schematic view of a partial perspective view of the present invention;

FIG. 5 is a schematic diagram of a partial perspective view of the present invention;

FIG. 6 is a schematic view of a partial perspective view of the present invention;

FIG. 7 is an enlarged view at A in FIG. 6;

FIG. 8 is a schematic perspective view of a first drilling mechanism according to the present invention;

FIG. 9 is a schematic diagram showing a first drilling mechanism in a perspective view;

FIG. 10 is a schematic perspective view of a first drilling assembly of the present invention;

FIG. 11 is a schematic perspective view of a first drilling assembly according to the present invention;

FIG. 12 is a schematic view of a partial perspective view of the present invention;

FIG. 13 is a schematic view of a partial perspective view of the present invention;

FIG. 14 is a schematic perspective view of a second drilling mechanism according to the present invention;

fig. 15 is a schematic perspective view of a second drilling mechanism according to the present invention.

Reference numerals illustrate:

the base plate 1, the portal frame 11, the processing table 2, the operation table 3, the round hole 31, the valve body 4, the first interface end 41, the second interface end 42, the first opening end 43, the second opening end 44, the first stopper assembly 5, the slide rail 51, the slide block 52, the first hydraulic push rod 53, the lift cylinder 54, the lift plate 55, the first abutting block 56, the second stopper assembly 6, the slide groove 61, the moving block 62, the connection plate 63, the second abutting block 64, the moving rack 65, the fixing bracket 66, the moving motor 67, the moving gear 68, the first drilling mechanism 7, the rotation shaft 71, the rotation rod 72, the rotation motor 73, the driving gear 74, the driven gear 75, the guide rail 76, the carrier 77, the pull rod 78, the first drilling assembly 79, the u-shaped frame 791, the connection frame 792, the first motor 793, the first rotation shaft 7931, the first coupling 7932, the first rotation disc 794, the first drilling member 795, the adjustment groove 7951, the adjustment block 7952, the first driving motor 7953, the first drill bit 7954, the first screw slider 7955, the adjusting plate 7956, the scrap collecting piece 796, the collecting box 7961, the second motor 7962, the first gear 7963, the second gear 7964, the connecting shaft 7965, the cross plate 797, the receiving box 798, the bracket 799, the tilting mechanism 8, the through slot 81, the lifting block 811, the second hydraulic push rod 82, the tilting shaft 83, the tilting disk 84, the tilting motor 85, the third gear 86, the fourth gear 87, the clamping assembly 88, the supporting frame 881, the third hydraulic push rod 882, the arc-shaped clamp block 883, the vertical rail 89, the second drilling mechanism 9, the fourth hydraulic push rod 91, the lifting frame 92, the third motor 93, the second rotating shaft 94, the second coupling 95, the second rotating disc 96, the second drilling assembly 97, the cross slot 971, the mounting block 972, the second driving motor 973, the second drill bit 974, the second screw 975, and the linkage plate 976.

Detailed Description

The following detailed description of the present invention clearly and fully describes the technical solutions of the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a valve machining device through improvement, as shown in fig. 1-15, the valve machining device comprises a bottom plate 1 and a machining table 2, an operation table 3 is arranged at the top of the machining table 2, a round hole 31 is formed in the center of the top of the operation table 3, a valve body 4 is placed at the top of the operation table 3, a first interface end 41 and a second interface end 42 are symmetrically arranged on the outer wall of the top end of the valve body 4, a first opening end 43 and a second opening end 44 are symmetrically arranged at the upper end and the lower end of the valve body 4, four first limiting components 5 which are arranged at equal intervals around the round hole 31 are arranged at the top of the machining table 2, the top ends of the four first limiting components 5 penetrate through the round hole 31 and are in contact with the inner wall of the valve body 4, four second limiting components 6 which are arranged at equal intervals around the round hole 31 are arranged at the top of the operation table 3, a first drilling mechanism 7 is arranged at the top of the bottom plate 1, a first port end and a second port end 44 are symmetrically arranged at the outer wall of the top of the valve body 4, a first port mechanism 7 is used for carrying out drilling operation on the first port end 41 and the second port end 11 and a second port mechanism 11 are symmetrically arranged at the two sides of the port frame 11, a portal frame 8 is arranged at the top end 4 is used for carrying out hole opening operation on the two port 11, and the two port frame 11 is provided with two port opening mechanisms 11 respectively, and the port opening mechanism 11 is used for carrying out hole opening operation on the port mechanism 11; by placing the valve body 4 on the top of the operation table 3, manually aligning the center of the valve body 4 with the center of the round hole 31, then operating the four first limiting assemblies 5 to perform interference limiting on the inner wall of the bottom end of the valve body 4, simultaneously operating the four second limiting assemblies to perform interference limiting on the second opening end 44, ensuring that the valve body 4 cannot deviate in the drilling process, then operating the first drilling mechanism 7 to simultaneously drill the first interface end 41 and the second interface end 42, then operating the second drilling mechanism 9 to drill the first opening end 43, after the first opening end 43 is drilled, operating the two turnover mechanisms 8 to clamp the valve body 4 synchronously, then resetting the four first limiting assemblies 5 and the four second limiting assemblies 6 to cancel the limiting on the inner wall of the valve body 4 and the second opening end 44, then two tilting mechanisms 8 continue to synchronously work to upwards move the valve body 4 by a certain height and then turn over 180 degrees, at this time, the positions of the first opening end 43 and the second opening end 44 are exchanged, then two tilting mechanisms 8 continue to synchronously work to downwards move the valve body 4 to the top of the operating platform 3, finally four first limiting assemblies 5 and four second limiting assemblies 6 continue to work to limit the inner wall of the valve body 4 and the first opening end 43, and the second drilling mechanism 9 works to drill the second opening end 44, so that through the steps, the automatic drilling operation on the first interface end 41, the second interface end 42, the first opening end 43 and the second opening end 44 is realized, the manual rotation adjustment on the position of the valve body 4 is not needed, and the machining efficiency is greatly improved.

Specifically, the first limiting component 5 includes a sliding rail 51, a sliding block 52, a first hydraulic push rod 53, a lifting cylinder 54, a lifting plate 55 and a first collision block 56, the sliding rail 51 is horizontally arranged at the top of the processing table 2, the sliding block 52 is slidably mounted on the sliding rail 51, the first hydraulic push rod 53 is horizontally arranged at the top of the processing table 2, the output end of the first hydraulic push rod 53 is connected with the sliding block 52, the lifting cylinder 54 is vertically arranged at the top of the sliding block 52, the lifting plate 55 is mounted on the output end of the lifting cylinder 54, the top end of the lifting plate 55 extends into the valve body 4 through the round hole 31, the first collision block 56 is mounted at the top end of the lifting plate 55, and one end of the first collision block 56 away from the lifting plate 55 collides with the inner wall of the valve body 4; the sliding block 52 is driven to move away from the first hydraulic push rod 53 on the sliding rail 51 through the operation of the first hydraulic push rod 53, the sliding block 52 drives the lifting plate 55 to move to the lower side of the round hole 31, then the lifting cylinder 54 is operated to drive the lifting plate 55 and the first abutting block 56 to move upwards, the first abutting block 56 moves upwards into the valve body 4, finally the sliding block 52 is driven by the operation of the first hydraulic push rod 53 to move close to the first hydraulic push rod 53, the sliding block 52 drives the first abutting block 56 to move close to the inner wall of the valve body 4, the first abutting block 56 moves to abut against the inner wall of the valve body 4, the abutting limit is realized on the inner wall of the bottom end of the valve body 4, and the position of the valve body 4 is ensured not to deviate in the drilling process.

Specifically, the second limiting component 6 includes a sliding chute 61, a moving block 62, a connecting plate 63, a second abutting block 64, a moving rack 65, a fixing frame 66, a moving motor 67 and a moving gear 68, wherein the sliding chute 61 is arranged at the top of the operating platform 3, the moving block 62 is slidably mounted on the sliding chute 61, a groove is arranged on the outer wall of the top end of the moving block 62, the connecting plate 63 is mounted at the top edge of the moving block 62, the second abutting block 64 is mounted at the top end of the connecting plate 63, the bottom of the second abutting block 64 abuts against the top of the second opening end 44, the moving rack 65 is horizontally arranged in the groove, the fixing frame 66 is mounted at the top of the operating platform 3, the moving motor 67 is vertically arranged on the fixing frame 66, the moving gear 68 is mounted on the output shaft of the moving motor 67, and the moving gear 68 is meshed with the moving rack 65; the movable gear 68 is driven to rotate by the operation of the movable motor 67, the movable gear 68 drives the movable block 62 to move on the sliding groove 61 near the valve body 4 by utilizing the movable rack 65, the movable block 62 drives the second abutting block 64 to move near the valve body 4 by utilizing the connecting plate 63, the second abutting block 64 moves to abut against the top of the second opening end 44, and when the positions of the first opening end 43 and the second opening end 44 are exchanged, the second abutting block 64 moves to abut against the top of the first opening end 43, so that the position of the valve body 4 is ensured not to deviate in the drilling process.

Specifically, the first drilling mechanism 7 includes a rotating shaft 71, a rotating rod 72, a rotating motor 73, a driving gear 74, a driven gear 75, two guide rails 76, two bearing frames 77, two pull rods 78 and two first drilling components 79, the two guide rails 76 are symmetrically disposed at the top of the bottom plate 1, the two bearing frames 77 are respectively slidably mounted on the two guide rails 76, the two bearing frames 77 are symmetrically disposed, the rotating shaft 71 is rotatably mounted at the center of the bottom of the processing table 2, the rotating rod 72 is mounted at the bottom of the rotating shaft 71, one ends of the two pull rods 78 are respectively hinged with two ends of the rotating rod 72, the other ends of the two pull rods 78 are respectively hinged with the bottom ends of the two bearing frames 77, the rotating motor 73 is vertically disposed at the bottom of the processing table 2, the driving gear 74 is mounted on the output shaft of the rotating motor 73, the driven gear 75 is mounted on the rotating shaft 71, the driven gear 75 is meshed with the driving gear 74, and the two first drilling components 79 are symmetrically disposed on the two bearing frames 77; the driving gear 74 is driven to rotate through the operation of the rotating motor 73, the driving gear 74 drives the rotating shaft 71 and the rotating rod 72 to rotate through the driven gear 75, the rotating rod 72 pulls the two bearing frames 77 to move close to each other through the two pull rods 78, the two bearing frames 77 drive the two first drilling assemblies 79 to move close to each other, the two first drilling assemblies 79 are convenient to synchronously drill the first interface end 41 and the second interface end 42, the position of the valve body 4 does not need to be manually adjusted in a rotating mode, and the machining efficiency is improved.

Specifically, the first drilling assembly 79 comprises a U-shaped frame 791, a connecting frame 792, a first motor 793, a first rotating shaft 7931, a first coupler 7932, a first rotating disc 794, a first drilling member 795, a waste chip collecting member 796, a cross plate 797, a storage box 798 and two brackets 799, wherein the U-shaped frame 791 is arranged on the outer wall of the top end of the bearing frame 77, the connecting frame 792 is arranged on one side of the U-shaped frame 791 far away from the bearing frame 77, the first motor 793 is horizontally arranged in the U-shaped frame 791, the first rotating shaft 7931 is rotatably arranged on the connecting frame 792, the first coupler 7932 is arranged on the output shaft of the first motor 793, the first coupler 7932 is fixedly connected with the first rotating shaft 7931, the first rotating disc 794 is arranged at the end of the first rotating shaft 7931, the first drilling member 795 is arranged on one side of the first rotating disc 794 far away from the first rotating disc 7931, the two brackets 799 are symmetrically arranged on the two brackets 792 and the storage box 796 are arranged on the top of the storage box 796 and are arranged on the cross plate 796; the first drilling piece 795 is driven to move close to the valve body 4 through the bearing frame 77, the first drilling piece 795 carries out single perforating on the first interface end 41 and the second interface end 42, after the single perforating is completed, the bearing frame 77 moves reversely to drive the first drilling piece 795 to move away from the valve body 4 for a certain distance, then the first motor 793 works to drive the first coupler 7932 and the first rotating shaft 7931 to rotate, the first rotating shaft 7931 drives the first rotating disc 794 and the first drilling piece 795 to rotate, the first drilling piece 795 rotates to correspond to the position of the next perforating, then the bearing frame 77 continues to drive the first drilling piece 795 to move close to the valve body 4, the first drilling piece 795 carries out perforating again on the first interface end 41 and the second interface end 42, the steps are repeated until all holes required on the first drilling piece 795 and the second interface end 42 are perforated, the waste scraps generated by drilling are collected by the waste scraps collecting piece 796 while the first drilling piece 795 works, the waste scraps are prevented from being splashed to the place, and the waste scraps collecting piece 796 is poured into the waste scraps collecting box to be cleaned regularly, and the waste scraps are stored in the waste scraps collecting box.

Specifically, the first drilling member 795 includes an adjusting slot 7951, an adjusting block 7952, a first driving motor 7953, a first drill bit 7954, a first screw sliding table 7955 and an adjusting plate 7956, wherein the adjusting slot 7951 is formed on the outer wall of the first rotating disc 794, the adjusting block 7952 is slidably mounted on the adjusting slot 7951, the first driving motor 7953 is horizontally arranged on the adjusting block 7952, the first drill bit 7954 is mounted on the output shaft of the first driving motor 7953, the first screw sliding table 7955 is vertically arranged on the outer wall of the first rotating disc 794, the adjusting plate 7956 is mounted on the moving end of the first screw sliding table 7955, and the adjusting plate 7956 is fixedly connected with the adjusting block 7952; the adjusting plate 7956 and the adjusting block 7952 are driven to move through the operation of the first screw rod sliding table 7955, the adjusting block 7952 drives the first drill bit 7954 to move to correspond to the opening position, accurate opening of the first drill bit 7954 is facilitated, the first drive motor 7953 works to drive the first drill bit 7954 to rotate at a high speed, and the first drill bit 7954 rotates at a high speed to carry out opening work on the first interface end 41 and the second interface end 42.

Specifically, the scrap collecting member 796 includes a collecting box 7961, a second motor 7962, a first gear 7963, a second gear 7964 and two connecting shafts 7965, the collecting box 7961 is rotatably installed between the two brackets 799 through the two connecting shafts 7965, the collecting box 7961 is positioned under the first drill bit 7954, the second motor 7962 is horizontally disposed on an outer wall of one of the brackets 799, the first gear 7963 is installed on an output shaft of the second motor 7962, the second gear 7964 is installed at an end of one of the connecting shafts 7965, and the second gear 7964 is engaged with the first gear 7963; the sweeps generated by the first drill bit 7954 opening fall into the collection box 7961 to be collected, the second motor 7962 works regularly to drive the first gear 7963 to rotate, the first gear 7963 drives the collection box 7961 and the two connecting shafts 7965 to rotate by utilizing the second gear 7964, the collection box 7961 rotates for a certain angle to be in an inclined state, the sweeps in the collection box 7961 are poured into the storage box 798, and the purpose that the collection box 7961 automatically clears the sweeps regularly is achieved.

Specifically, the turnover mechanism 8 includes a through slot 81, a lifting block 811, a second hydraulic push rod 82, a turnover shaft 83, a turnover disc 84, a turnover motor 85, a third gear 86, a fourth gear 87, a clamping assembly 88 and two vertical rails 89, wherein the through slot 81 is formed on the bottom end side wall of the portal frame 11, the two vertical rails 89 are symmetrically arranged in the through slot 81, the lifting block 811 is slidably mounted on the two vertical rails 89, the second hydraulic push rod 82 is vertically arranged at the bottom of the through slot 81, the output end of the second hydraulic push rod 82 is connected with the lifting block 811, the turnover shaft 83 is rotatably mounted on the lifting block 811, the turnover disc 84 is mounted at the front end of the turnover shaft 83, the turnover motor 85 is horizontally arranged on the outer wall of the lifting block 811, the third gear 86 is mounted on the output shaft of the turnover motor 85, the fourth gear 87 is mounted at the rear end of the turnover shaft 83, the fourth gear 87 is meshed with the third gear 86, the clamping assembly 88 is horizontally arranged on one side of the turnover shaft 8884, which is far from the third support frame 881, the third support frame 88 is horizontally arranged on the turnover shaft 883, and the arc-shaped push rod is horizontally arranged on the outer wall of the turnover shaft 881; the arc-shaped clamping blocks 883 are driven to move close to the valve body 4 through the operation of the third hydraulic push rod 882, the arc-shaped clamping blocks 883 are moved to be in contact with the outer wall of the valve body 4, the arc-shaped clamping blocks 883 in the two turnover mechanisms 8 are mutually close to move to clamp the valve body 4, then the second hydraulic push rod 82 is operated to drive the lifting block 811 to move upwards for a certain distance, the lifting block 811 drives the valve body 4 to move upwards for a certain height, then the turnover motor 85 is operated to drive the third gear 86 to rotate, the third gear 86 is utilized to drive the turnover shaft 83 and the turnover disc 84 to rotate 180 degrees, the turnover disc 84 drives the valve body 4 to rotate 180 degrees to realize turnover, at the moment, the positions of the first opening end 43 and the second opening end 44 are adjusted, then the second hydraulic push rod 82 is continuously operated to drive the lifting block 811 to move downwards to reset, the lifting block 811 drives the valve body 4 to be placed at the top of the operating table 3, and finally the third hydraulic push rod 882 is continuously operated to drive the arc-shaped clamping blocks 883 to move away from the valve body 4 to facilitate the subsequent operation of the second drilling mechanism 9 to drill the second opening end 44.

Specifically, the second drilling mechanism 9 includes a fourth hydraulic push rod 91, a lifting frame 92, a third motor 93, a second rotating shaft 94, a second coupling 95, a second rotating disc 96 and a second drilling assembly 97, wherein the fourth hydraulic push rod 91 is vertically arranged at the top of the portal frame 11, the lifting frame 92 is installed at the output end of the fourth hydraulic push rod 91, the second rotating shaft 94 is rotatably installed at the bottom end of the lifting frame 92, the third motor 93 is vertically arranged at the top end of the interior of the lifting frame 92, the second coupling 95 is installed on the output shaft of the third motor 93, the second coupling 95 is fixedly connected with the second rotating shaft 94, the second rotating disc 96 is installed at the bottom of the second rotating shaft 94, and the second drilling assembly 97 is installed at the bottom of the second rotating disc 96; the lifting frame 92 is driven to move downwards through the operation of the fourth hydraulic push rod 91, the lifting frame 92 drives the second drilling assembly 97 to move downwards, the second drilling assembly 97 moves downwards to be close to the first opening end 43, then the second drilling assembly 97 performs single drilling on the first opening end 43, after the single drilling is completed, the lifting frame 92 is driven to move upwards by a certain distance through the fourth hydraulic push rod 91, the lifting frame 92 drives the second drilling assembly 97 to move upwards by a certain distance, then the third motor 93 is driven to rotate by the second rotary shaft 94 and the second rotary disc 96 through the second coupler 95, the second rotary disc 96 drives the second drilling assembly 97 to rotate, the second drilling assembly 97 rotates to correspond to the next hole on the first opening end 43, then the fourth hydraulic push rod 91 and the second drilling assembly 97 cooperate to perform continuous drilling on the first opening end 43, and after the positions of the first opening end 43 and the second opening end 44 are exchanged, the second drilling assembly 97 performs continuous drilling on the second opening end 44.

Specifically, the second drilling assembly 97 includes a horizontal slot 971, a mounting block 972, a second driving motor 973, a second drill bit 974, a second screw sliding table 975 and a linkage plate 976, the horizontal slot 971 is formed at the bottom of the second rotating disc 96, the mounting block 972 is slidably mounted on the horizontal slot 971, the second driving motor 973 is vertically arranged at the bottom of the mounting block 972, the second drill bit 974 is mounted on an output shaft of the second driving motor 973, the second screw sliding table 975 is horizontally arranged at the bottom of the second rotating disc 96, the linkage plate 976 is mounted at the moving end of the second screw sliding table 975, and the linkage plate 976 is fixedly connected with the mounting block 972; the linkage plate 976 and the mounting block 972 are driven to move through the operation of the second screw rod sliding table 975, the mounting block 972 drives the second drill bit 974 to move to correspond to the hole opening position, the hole opening precision of the second drill bit 974 is guaranteed, then the second drive motor 973 works to drive the second drill bit 974 to rotate at a high speed, and the second drill bit 974 drills the first opening end 43 and the second opening end 44.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Valve processingequipment, including bottom plate (1) and processing platform (2), its characterized in that: the top of processing platform (2) is equipped with operation panel (3), the top center department of operation panel (3) is equipped with round hole (31), valve body (4) have been placed at the top of operation panel (3), symmetry is provided with first interface end (41) and second interface end (42) on the top outer wall of valve body (4), the upper and lower both ends symmetry of valve body (4) is provided with first open end (43) and second open end (44), the top of processing platform (2) is equipped with four first spacing subassembly (5) of equidistant setting around the centre of a circle of round hole (31), four the top of first spacing subassembly (5) is passed round hole (31) and is contradicted with the inner wall of valve body (4), the top of operation panel (3) is equipped with four second spacing subassembly (6) of equidistant setting around the centre of a circle of round hole (31), the top of bottom plate (1) is equipped with first drilling mechanism (7), first drilling mechanism (7) are used for setting up the top of two portal frame (11) on the top of first interface (1) and two portal frame (4), the two turnover mechanisms (8) are used for performing turnover operation on the valve body (4), a second drilling mechanism (9) is arranged at the top end of the portal frame (11), and the second drilling mechanism (9) is used for performing drilling operation on the first opening end (43) and the second opening end (44).

2. A valve processing apparatus as defined in claim 1, wherein: the utility model provides a first spacing subassembly (5) includes slide rail (51), sliding block (52), first hydraulic push rod (53), lift cylinder (54), lifter plate (55) and first conflict piece (56), slide rail (51) level sets up the top at processing platform (2), sliding block (52) slidable mounting is on slide rail (51), first hydraulic push rod (53) level sets up the top at processing platform (2) to the output and the sliding block (52) of first hydraulic push rod (53) are connected, lift cylinder (54) vertical setting is at the top of sliding block (52), lifter plate (55) are installed on the output of lift cylinder (54) to the top of lifter plate (55) is passed round hole (31) and is extended to in valve body (4), the top at lifter plate (55) is installed to first conflict piece (56), and the one end that lifter plate (55) were kept away from to first conflict piece (56) is contradicted with the inner wall of valve body (4).

3. A valve processing apparatus as defined in claim 1, wherein: the second limiting assembly (6) comprises a sliding groove (61), a moving block (62), a connecting plate (63), a second abutting block (64), a moving rack (65), a fixing frame (66), a moving motor (67) and a moving gear (68), wherein the sliding groove (61) is formed in the top of the operating table (3), the moving block (62) is slidably mounted on the sliding groove (61), a groove is formed in the outer wall of the top end of the moving block (62), the connecting plate (63) is mounted at the top edge of the moving block (62), the second abutting block (64) is mounted at the top end of the connecting plate (63), the bottom of the second abutting block (64) abuts against the top of the second opening end (44), the moving rack (65) is horizontally arranged in the groove, the fixing frame (66) is mounted on the top of the operating table (3), the moving motor (67) is vertically arranged on the fixing frame (66), the moving gear (68) is mounted on an output shaft of the moving motor (67), and the moving gear (68) is meshed with the moving rack (65).

4. A valve processing apparatus as defined in claim 1, wherein: the first drilling mechanism (7) comprises a rotating shaft (71), a rotating rod (72), a rotating motor (73), a driving gear (74), a driven gear (75), two guide rails (76), two bearing frames (77), two pull rods (78) and two first drilling components (79), wherein the two guide rails (76) are symmetrically arranged at the top of a bottom plate (1), the two bearing frames (77) are respectively and slidably arranged on the two guide rails (76), the two bearing frames (77) are symmetrically arranged, the rotating shaft (71) is rotatably arranged at the center of the bottom of a processing table (2), the rotating rod (72) is arranged at the bottom of the rotating shaft (71), one ends of the two pull rods (78) are respectively hinged with two ends of the rotating rod (72), the other ends of the two pull rods (78) are respectively hinged with the bottom ends of the two bearing frames (77), the rotating motor (73) is vertically arranged at the bottom of the processing table (2), the driving gear (74) is arranged on an output shaft of the rotating motor (73), the rotating shaft (71) is rotatably arranged at the bottom of the processing table (73), and the driven gear (75) is symmetrically arranged on the two driven gears (75).

5. A valve processing apparatus as defined in claim 4, wherein: the first drilling assembly (79) comprises a U-shaped frame (791), a connecting frame (792), a first motor (793), a first rotating shaft (7931), a first coupler (7932), a first rotating disc (794), a first drilling part (795), a waste chip collecting part (796), a transverse plate (797), a storage box (798) and two brackets (799), wherein the U-shaped frame (791) is arranged on the outer wall of the top end of the bearing frame (77), the connecting frame (792) is arranged on one side of the U-shaped frame (791) far away from the bearing frame (77), the first motor (793) is horizontally arranged in the U-shaped frame (791), the first rotating shaft (7931) is rotatably arranged on the connecting frame (792), the first coupler (7932) is arranged on the output shaft of the first motor (793), the first coupler (7932) is fixedly connected with the first rotating shaft (7931), the first rotating disc (794) is arranged on the end of the first rotating disc (796) far away from the first rotating disc (793), the two brackets (799) are symmetrically arranged on the two sides of the first rotating disc (796) far away from the bearing frame (796), the storage box (798) is mounted on top of the transverse plate (797), and the storage box (798) is located below the scrap collecting piece (796).

6. A valve processing apparatus as defined in claim 5, wherein: the first drilling part (795) comprises an adjusting groove (7951), an adjusting block (7952), a first driving motor (7953), a first drill bit (7954), a first screw rod sliding table (7955) and an adjusting plate (7956), wherein the adjusting groove (7951) is formed in the outer wall of the first rotating disc (794), the adjusting block (7952) is slidably mounted on the adjusting groove (7951), the first driving motor (7953) is horizontally arranged on the adjusting block (7952), the first drill bit (7954) is mounted on the output shaft of the first driving motor (7953), the first screw rod sliding table (7955) is vertically arranged on the outer wall of the first rotating disc (794), the adjusting plate (7956) is mounted on the moving end of the first screw rod sliding table (7955), and the adjusting plate (7956) is fixedly connected with the adjusting block (7952).

7. A valve processing apparatus as defined in claim 6, wherein: the sweeps collecting piece (796) comprises a collecting box (7961), a second motor (7962), a first gear (7963), a second gear (7964) and two connecting shafts (7965), the collecting box (7961) is rotatably installed between two supports (799) through the two connecting shafts (7965), the collecting box (7961) is located below a first drill bit (7954), the second motor (7962) is horizontally arranged on the outer wall of one of the supports (799), the first gear (7963) is installed on the output shaft of the second motor (7962), the second gear (7964) is installed at the end portion of one of the connecting shafts (7965), and the second gear (7964) is meshed with the first gear (7963).

8. A valve processing apparatus as defined in claim 1, wherein: the turnover mechanism (8) comprises a through groove (81), a lifting block (811), a second hydraulic push rod (82), a turnover shaft (83), a turnover disc (84), a turnover motor (85), a third gear (86), a fourth gear (87), a clamping component (88) and two vertical rails (89), wherein the through groove (81) is formed in the side wall of the bottom end of the portal frame (11), the two vertical rails (89) are symmetrically arranged in the through groove (81), the lifting block (811) is slidably arranged on the two vertical rails (89), the second hydraulic push rod (82) is vertically arranged at the bottom of the through groove (81), the output end of the second hydraulic push rod (82) is connected with the lifting block (811), the turnover shaft (83) is rotatably arranged on the lifting block (811), the turnover disc (84) is arranged at the front end of the turnover shaft (83), the turnover motor (85) is horizontally arranged on the outer wall of the lifting block (811), the third gear (86) is arranged on the output shaft (85), the fourth gear (87) is meshed with the turnover shaft (83) and is arranged at the back of the horizontal rotation shaft (83), the clamping assembly (88) comprises a supporting frame (881), a third hydraulic push rod (882) and an arc-shaped clamping block (883), wherein the supporting frame (881) is installed on the outer wall of the turnplate (84), the third hydraulic push rod (882) is horizontally arranged at the top of the supporting frame (881), and the arc-shaped clamping block (883) is installed on the output end of the third hydraulic push rod (882).

9. A valve processing apparatus as defined in claim 1, wherein: the second drilling mechanism (9) comprises a fourth hydraulic push rod (91), a lifting frame (92), a third motor (93), a second rotating shaft (94), a second coupling (95), a second rotating disc (96) and a second drilling assembly (97), wherein the fourth hydraulic push rod (91) is vertically arranged at the top of the portal frame (11), the lifting frame (92) is arranged at the output end of the fourth hydraulic push rod (91), the second rotating shaft (94) is rotatably arranged at the bottom end of the lifting frame (92), the third motor (93) is vertically arranged at the top end of the lifting frame (92), the second coupling (95) is arranged on the output shaft of the third motor (93), the second coupling (95) is fixedly connected with the second rotating shaft (94), the second rotating disc (96) is arranged at the bottom of the second rotating shaft (94), and the second drilling assembly (97) is arranged at the bottom of the second rotating disc (96).

10. A valve processing apparatus as defined in claim 9, wherein: the second drilling assembly (97) comprises a transverse groove (971), a mounting block (972), a second driving motor (973), a second drill bit (974), a second screw rod sliding table (975) and a linkage plate (976), wherein the transverse groove (971) is formed in the bottom of the second rotating disc (96), the mounting block (972) is slidably mounted on the transverse groove (971), the second driving motor (973) is vertically arranged at the bottom of the mounting block (972), the second drill bit (974) is mounted on an output shaft of the second driving motor (973), the second screw rod sliding table (975) is horizontally arranged at the bottom of the second rotating disc (96), the linkage plate (976) is mounted on the moving end of the second screw rod sliding table (975), and the linkage plate (976) is fixedly connected with the mounting block (972).