CN106624022A - Throttling valve machining device - Google Patents

Abstract

The invention provides a throttling valve machining device, and belongs to the technical field of automatic machining. The throttling valve machining device solves the technical problem that an existing throttling valve is inconvenient to machine and low in machining efficiency. According to the technical scheme, the throttling valve machining device comprises a horizontally-arranged working platform, a rotary disc movably connected with the working platform, clamp assemblies connected with the rotary disc and used for fixing workpieces, a first machining assembly arranged on the working platform, capable of machining main holes and counterbore holes in the workpieces and capable of conducting polishing on the main holes and the counterbore holes, and a second machining assembly arranged on the working platform and capable of machining inclined holes in the workpieces. The throttling valve machining device has the beneficial effects that the first machining assembly and the second machining assembly can sequentially machine the main holes and the inclined holes in the workpieces installed on all clamp assemblies, so that a valve body with the main holes and the inclined holes can be machined and molded through one device at a time, machining is relatively convenient, and the machining efficiency of the valve body is improved.

Description

A kind of choke valve processing unit (plant)

Technical field

The invention belongs to automate processing technique field, it is related to a kind of processing unit (plant), it is especially a kind of for choke valve Processing unit (plant).

Background technology

Choke valve is that choke valve is in structure by changing throttling section or chock length to control the valve of fluid flow Other parts such as adjusting rod, valve plug including valve body and on valve body, wherein valve body is the topmost part of choke valve, Its restriction effect to choke valve plays leading role.

The valve body of choke valve is in process, it usually needs drilled on valve body, according to the machining angle in hole, can It is divided into straight hole and inclined hole, during processing straight hole, auger spindle is vertical with the surface of valve body, conveniently processes and machining accuracy is easily controlled, and During processing inclined, auger spindle is obliquely installed and forms the angle less than 90 degree with the surface of valve body, not easy processing and machining accuracy hardly possible To control.

Existing valve body, if processing is all straight hole, can be completed, if straight hole should be processed again by an equipment Inclined hole, then cannot be completed by an equipment, cause that the processing technology of valve body is cumbersome, and working (machining) efficiency is relatively low.

In sum, in order to solve the technical problem that above-mentioned processing unit (plant) is present, need to design a kind of choke valve plus frock Put, the processing unit (plant) can process straight hole and inclined hole on throttling valve body simultaneously, process more convenient, high in machining efficiency.

The content of the invention

The purpose of the present invention is the problems referred to above existed for prior art, it is proposed that a kind of choke valve processing unit (plant), should Processing unit (plant) can process straight hole and inclined hole on throttling valve body simultaneously, process more convenient, high in machining efficiency.

The purpose of the present invention can be realized by following technical proposal：A kind of choke valve processing unit (plant), including

Workbench, it is horizontally disposed with；

Rotating disk, it is movably connected with workbench；

Clamp assembly, it is connected and for fixing workpiece with rotating disk；

First processing assembly, its be arranged on workbench and can process on workpiece main aperture, counter sink and to main aperture with Counter sink is polished；

Second processing assembly, it is arranged on workbench and can process on workpiece inclined hole.

In a kind of above-mentioned choke valve processing unit (plant), first processing assembly has three groups, per group of first processing assembly bag Include

First support arm, it is flexibly connected with workbench；

First processing axle, it is erect and arranges and be movably connected with first support arm；

Three first processing axles can respectively to work pieces process main aperture, counter sink and polishing.

In a kind of above-mentioned choke valve processing unit (plant), second processing assembly has two groups, per group of second processing assembly bag Include

Second support arm, it is flexibly connected with workbench；

Second processing axle, it is obliquely installed and is movably connected with second support arm, and the processing axle can relative second support arm fortune Move and process on workpiece inclined hole.

In a kind of above-mentioned choke valve processing unit (plant), second processing assembly also includes

3rd support arm, it is flexibly connected with workbench；

Limit shaft, it is flexibly connected with the 3rd support arm, and limit shaft energy the 3rd support arm motion relatively simultaneously can be against workpiece On.

In a kind of above-mentioned choke valve processing unit (plant), the bullport for being provided through limit shaft is inclined on the limit shaft, The second processing axle can be stretched in bullport and to work pieces process.

In a kind of above-mentioned choke valve processing unit (plant), the guiding groove for extending transversely through limit shaft is provided with the limit shaft, The perforate face relative with the second processing axle is formed with guiding groove, the bullport is opened on perforate face and through spacing Axle.

In a kind of above-mentioned choke valve processing unit (plant), the lower end of the limit shaft is convexly equipped with insertion axle, and insertion axle external diameter is little In limit shaft external diameter, the insertion axle insertion main aperture is interior and limit shaft is against on workpiece.

In a kind of above-mentioned choke valve processing unit (plant), the clamp assembly includes

Base；

Mounting groove, it is arranged on base, and the mounting groove is used to accommodate workpiece；

Regulating block, it is located in mounting groove；

Adjusting rod, it is installed on base and stretches into and is connected with regulating block in mounting groove, and the adjusting rod can make regulating block In mounting groove and adjust the width of mounting groove.

In a kind of above-mentioned choke valve processing unit (plant), the base side is provided with limiting cylinder, is provided with base Support base, is provided with limited block above limiting cylinder, and described limited block one end is connected with limiting cylinder, limited block middle part with Support seat is flexibly connected, and the limiting cylinder can drive limited block to rotate and make the limited block other end by Work-sheet pressing.

In a kind of above-mentioned choke valve processing unit (plant), the workbench lower section is provided with moveable casing, the casing Interior empty and open top, workbench is connected with the top of casing, and discharging opening is offered on wall box, sets casing is tilted The lower end for being equipped with guide plate and guide plate extends to discharge outlet.

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

1st, in the present invention, by the rotation of rotating disk, the first processing assembly and the second processing assembly being arranged on workbench Can successively to the work pieces process main aperture and inclined hole on each clamp assembly so that can lead to the valve body of inclined hole with main aperture The disposable machine-shaping of equipment is crossed, processes more convenient, improve the working (machining) efficiency of valve body.

2nd, limit shaft is set in the second processing axle side being obliquely installed, before the second processing axle is to Workpiece boring, can be in advance Limit shaft is set to be against on workpiece, so as to workpiece is against on clamp assembly, it is to avoid workpiece is subjected to displacement, when improve Workpiece boring Stability, improve machining accuracy.

3rd, this structure is particluarly suitable for processing inclined in the existing hole of workpiece, plus man-hour, and limit shaft can be stretched in workpiece In some main apertures, then the second processing axle through the bullport on limit shaft enter into inside workpiece and inside workpiece processing with The inclined hole that existing main aperture is communicated, limit shaft can prevent workpiece to be subjected to displacement, and the second processing axle passes through limit shaft again to workpiece It is processed, it is to avoid the second processing axle is subjected to displacement, and further increases the machining accuracy of workpiece.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention.

Fig. 2 is the dimensional structure diagram of the first processing assembly in the present invention.

Fig. 3 is the dimensional structure diagram of the second processing assembly in the present invention.

Fig. 4 is the three-dimensional structure diagram of limit shaft in the present invention.

Fig. 5 is the three-dimensional structure diagram of clamp assembly in the present invention.

Fig. 6 is the three-dimensional structure diagram of casing in the present invention.

Fig. 7 is the three-dimensional structure diagram of workpiece (valve body) in the present invention.

In figure, 10, workpiece；11st, main aperture；12nd, counter sink；13rd, inclined hole；

100th, workbench；110th, the first fixed column；120th, the second fixed column；

200th, rotating disk；

300th, first support arm；310th, the first processing axle；320th, the first drive cylinder；321st, the first mounting seat；330th, first Motor；

400th, second support arm；410th, the second processing axle；420th, the first adapter sleeve；430th, the second drive cylinder；431st, second Mounting seat；440th, the second motor；

500th, the 3rd support arm；510th, limit shaft；511st, bullport；512nd, opening slot；513rd, perforate face；514th, insertion axle； 520th, the second adapter sleeve；530th, the 3rd drive cylinder；540th, the 4th drive cylinder；

600th, base；610th, mounting groove；620th, regulating block；630th, adjusting rod；640th, block；650th, fixed block；660th, lead To bar；670th, limiting cylinder；680th, limited block；681st, briquetting；690th, support base.

700th, casing；710th, fixed plate；720th, discharging opening；730th, stock guide；740th, guide plate.

Specific embodiment

The following is the specific embodiment of the present invention and combine accompanying drawing, technical scheme is further described, But the present invention is not limited to these embodiments.

As shown in figure 1, a kind of choke valve processing unit (plant) of the invention, including workbench 100, rotating disk 200, clamp assembly, One processing assembly and the second processing assembly.

Workbench 100 is horizontally disposed with, and rotating disk 200 is arranged on the middle part of workbench 100 and is movably connected with workbench 100, should Rotating disk 200 can horizontally rotate on workbench 100, and clamp assembly has edge that is multigroup and being evenly distributed on rotating disk 200, the fixture Component is used to fix workpiece 10, and the first processing assembly is arranged on workbench 100 and is located at the side of rotating disk 200, as shown in fig. 7, First processing assembly can process main aperture 11, counter sink 12 on workpiece 10 and main aperture 11 is polished with counter sink 12, and second Processing assembly is arranged on workbench 100 and can process on workpiece 10 inclined hole 13.

During work, rotating disk 200 is rotated on workbench 100, and with the synchronous axial system of rotating disk 200, first adds multigroup clamp assembly Work component carries out successively the processing of the counter sink 12 coaxial with main aperture 11 of main aperture 11 to the workpiece 10 on each clamp assembly, and Main aperture 11, counter sink 12 are polished, then the second processing assembly is successively to each work Jing after the processing of the first processing assembly Part 10 carries out inclined hole 13 and processes so that main aperture 11 and inclined hole 13 are disposably processed on workpiece 10, so as to improve workpiece 10 (i.e. Valve body) working (machining) efficiency.

As shown in Fig. 2 first processing assembly has three groups and is sequentially distributed counterclockwise around the left side of rotating disk 200, Per group of first processing assembly all includes that first support arm 300, first processes axle 310, and three first support arms 300 are horizontally disposed with, Workbench 100 is erect successively positioned at the left side of rotating disk 200 and is provided with three first fixed columns 110, three first support arms 300 and three The first fixed column of root 110 connects one to one and can rotate relative to the first fixed column 110, and three first processing axles 310 are erect and set Put and it is corresponding respectively be movably connected with three first support arms 300, each first processing axle 310 can be relatively corresponding first Arm 300 is rotated, and three first processing axles 310 can process successively the counter sink coaxial with main aperture 11 of main aperture 11 to each workpiece 10 12, and the main aperture 11 after processing and counter sink 12 are polished.

Further, erect in each first support arm 300 and first drive cylinder 320 is installed, in each the first driving The top of cylinder 320 is provided with the first mounting seat 321, and in each first mounting seat 321 the first motor 330 is provided with, That root first processing axle 310 be separately mounted on three the first drive cylinders 320 and with the corresponding phase of first motor 330 Even, each first drive cylinder 320 can drive corresponding first processing axle 310 in the vertical direction movement, each first driving Motor 330 can drive the corresponding first processing axial rotation of axle 310, using the first drive cylinder 320, the first motor 330 It is connected with the first processing axle 310 so that the energy vertical shift of the first processing axle 310 and rotation, realizes the first processing axle 310 to work The processing of part 10.

Except adopting said structure, the first processing assembly can also be a first support arm 300 and three first processing axles 310 combination, will three first processing axles 310 be movably arranged in same first support arm 300, and drive by same first Cylinder 320 of taking offence drives it to move up and down, and by same first motor 330 its rotation is driven, and can also realize above-mentioned functions, And can be appropriate cost-effective.

As shown in figure 3, second processing assembly has two groups and is sequentially distributed counterclockwise around the right side of rotating disk 200, Per group of second processing assembly includes that second support arm 400 and second processes axle 410, and second support arm 400 is with the activity of workbench 100 even Connect, two second support arms 400 are horizontally disposed with, erect successively positioned at the right side of rotating disk 200 on workbench 100 and be provided with two Second fixed column 120, two second support arms 400 connect one to one with two second fixed columns 120 and can relative second fixations Post 120 horizontally rotates, two second processing axles 410 be obliquely installed and it is corresponding respectively be flexibly connected with two second support arms 400, Each second processing axle 410 can be rotated relative to corresponding second support arm 400, and two second processing axles 410 can successively in workpiece Diverse location on 10 processes inclined hole 13, according to the quantity of inclined hole 13, can arrange the corresponding second processing quantity of axle 410, because This, the quantity of the second processing axle 410 is not limited to two.

As shown in figure 3, second processing assembly also includes the 3rd support arm 500 and limit shaft 510, the 3rd support arm 500 has Two and it is flexibly connected with two the second fixed columns 120, likewise, the 3rd support arm 500 also can be with respect to the level of the second fixed column 120 Rotate, limit shaft 510 there are two to be flexibly connected with two the 3rd support arms 500 respectively, the limit shaft 510 can relative 3rd support arm 500 motions simultaneously can be against on workpiece 10.

Herein, by arranging limit shaft 510, before the second processing axle 410 is to the drilling of workpiece 10, limit shaft 510 can in advance be made It is against on workpiece 10, so as to workpiece 10 is against on clamp assembly, it is to avoid workpiece 10 is subjected to displacement, when improve the drilling of workpiece 10 Stability and machining accuracy.

As shown in figure 4, inclining the bullport 511 for being provided through limit shaft 510, the bullport on the limit shaft 510 511 angle of inclination is consistent with the angle of inclination of processing axle, and the processing axle can stretch in bullport 511 and workpiece 10 is added Work.

In the present invention, before the second processing axle 410 is processed, limit shaft 510 is against first on workpiece 10, plays solid to workpiece 10 It is set for using, improves the machining accuracy of workpiece 10, on this basis, the second processing axle 410 is placed through on limit shaft 510 again Bullport 511, bullport 511 serves guiding, position-limiting action so that the second processing axle 410 faster, can be reached more accurately Need the position of drilling, the second processing axle 410 plus man-hour to be not easy to be subjected to displacement, further increase the processing essence of workpiece 10 Degree, herein, the position of the bullport 511, angle can be pre-set, so so that the inclined hole 13 for processing can be completely Meet design requirement.

What deserves to be explained is, in addition to opening up bullport 511 on limit shaft 510, moreover it is possible to adopt other structures, example Such as, a bootstrap block is set on the outer surface of limit shaft 510, the guiding groove being obliquely installed then is opened up on bootstrap block, limit Position axle 510 can only move axially in guiding groove and cannot transverse shifting, or, above-mentioned bullport 511 is arranged at and is drawn On guide block, therefore, its position-limiting action is not limited to said structure in the present invention.

Further, the opening slot 512 for extending transversely through limit shaft 510 is provided with the limit shaft 510, in opening slot The perforate face 513 relative with processing axle is formed with 512, it is preferred that the perforate face 513 is vertical with processing axle, the bullport 511 are opened on perforate face 513 and through limit shaft 510, that is to say, that the bullport 511 is also vertical with perforate face 513 's.

Erect due to limit shaft 510 and arranged, the surface for adding limit shaft 510 is arcwall face, if processing on limit shaft 510 The above-mentioned bullport 511 being obliquely installed, one be bullport 511 perforate difficulty it is larger, occur that locating effect is poor in addition, precision Uncontrollable the problems such as, and horizontal opening slot 512 is first opened up on limit shaft 510, and make to be formed in opening slot 512 and processing The vertical perforate face of axle 513, is then opened in bullport 511 on the perforate face 513, and plane is relative to arcwall face so that draw The processing of guide hole 511 is more prone to, and positioning more accurately, substantially increases the machining accuracy of bullport 511.

Further, the lower end of the limit shaft 510 is convexly equipped with insertion axle 514, and the external diameter of insertion axle 514 is less than limit shaft 510 external diameter and the two formation axial step shape structure, the main aperture 11 is processed by a upper operation, that is to say, that the main aperture 11 is also the hole for having to process, and inclined hole 13 needs to be processed further in main aperture 11, the insertion master of the insertion axle 514 Hole 11 is interior and limit shaft 510 is against on workpiece 10.

Compare and directly inclined hole 13 is opened up on workpiece 10, inclined hole 13 is opened up in manufactured main aperture 11, its difficulty is more Greatly, it is higher to requirement on machining accuracy, and insertion axle 514 is set in the bottom of limit shaft 510, in the insertion main aperture 11 of insertion axle 514 And cross spacing effect is played to main aperture 11, add limit shaft 510 and be against on workpiece 10, so as to further increase workpiece 10 Stability, also improves the machining accuracy of processing axle, it is seen then that this structure is particluarly suitable for processing above-mentioned in the existing hole of workpiece 10 Inclined hole 13.

Certainly, limit shaft 510, processing axle and the fit structure of the two are not limited to be directed to the processing inclined in main aperture 11 13 situation, the cooperation of the two is also applied for directly processing inclined 13 or main aperture 11 on workpiece 10.

As shown in figure 3, the first adapter sleeve 420 is provided with the second support arm 400, it is solid in first adapter sleeve 420 The second drive cylinder 430 is connected with, the second processing axle 410 is connected and the second processing with the piston rod of the second drive cylinder 430 Axle 410 can be moved relative to the second drive cylinder 430, and the second motor 440 is provided with the second drive cylinder 430, and this Two motors 440 are arranged in one second mounting seat 431 and the second mounting seat 431 and the second drive cylinder 430 are connected, described Second motor 440 is connected and the second processing axle 410 can be driven to rotate with the second processing axle 410.

Second processing axle 410 after processing and processing, be required for flexible movement, herein, second support arm 400 with Second fixed column 120 is on the premise of the center of circle rotates, the second processing axle 410 further to be driven using the second drive cylinder 430 It is mobile, and drive the second processing axle 410 to rotate using the second motor 440 so that the second processing axle 410 can rotary drilling While hole, also can in its axial direction move, to facilitate the second processing axle 410 to stretch into or escape leading hole 511, meet the Two demands that processing axle 410 is contacted from limit shaft 510 with the same face of workpiece 10 or faces different with workpiece 10 respectively contacts.

As shown in figure 3, be provided with the 3rd drive cylinder 530 on the 3rd support arm 500, the described 3rd drives and is connected with the Two adapter sleeves 520, the second adapter sleeve 520 is connected with the piston rod of the 3rd drive cylinder 530 and the 3rd drive cylinder 530 can drive Second adapter sleeve 520 is moved, and in the second adapter sleeve 520 the 4th drive cylinder 540 and the driving of limit shaft 510 and the 4th are fixed with Cylinder 540 is connected, and the limit shaft 510 can be moved and be against on workpiece 10 relative to the 4th drive cylinder 540.

In the present invention, after mounting or when taking out, limit shaft 510 needs to be moved to and contact or leave with workpiece 10 workpiece 10 Workpiece 10, it is therefore desirable to which limit shaft 510 can be moved flexibly, herein, turns in the 3rd support arm 500 by the center of circle of the second fixed column 120 On the premise of dynamic, the second adapter sleeve 520 is further driven to move forward and backward using the 3rd drive cylinder 530, and using the 4th Drive cylinder 540 is moved driving the in the vertical direction of limit shaft 510 so that the movement of the second adapter sleeve 520 more flexibly, move Flowing mode variation, scope of activities are wider, the positioning of convenient limit shaft 510.

What deserves to be explained is, in said structure, the 3rd adapter sleeve, limit shaft 510, second process the movement of axle 410, and The rotation of the second processing axle 410, can realize otherwise, for example, the 3rd adapter sleeve, the processing axle of limit shaft 510, second 410 mobile can coordinate drive by oil cylinder or motor with rack-and-pinion, and the rotation of the second processing axle 410 can pass through conveyer belt Realize with the form of drive.

As shown in figure 5, the clamp assembly has six groups, every group of clamp assembly includes base 600, mounting groove 610, regulating block 620 are arranged on base 600 and for accommodating workpiece 10 with adjusting rod 630, mounting groove 610, it is preferred that in the upper of base 600 Surface is provided with block 640, and the fixed block 650 of the upper surface of prominent base 600, the gear are provided with the lateral wall of base 600 Described mounting groove 610 is formed between block 640 and fixed block 650, the regulating block 620 is located in mounting groove 610, adjusting rod 630 On fixed block 650 and stretch into and be connected with regulating block 620 in mounting groove 610, it is preferred that also set up on fixed block 650 There is the guide post 660 positioned at the both sides of adjusting rod 630, two guide posts 660 are connected also through fixed block 650 and with regulating block 620, when When rotating adjusting rod 630, regulating block 620 can move and adjust the width of mounting groove 610 in mounting groove 610.

Using this structure, workpiece 10 is arranged in mounting groove 610, can pass through regulating block 620 workpiece 10 is clamped or Loosen, be easy to the installation and dismounting of workpiece 10, meanwhile, this structure can meet the workpiece 10 of different model size.

In the present invention, clamp assembly has six groups, and three group of first processing assembly adds two group of second processing assembly to have five altogether Machining position, that is to say, that when wherein five groups clamp assemblies are corresponding with five machining positions respectively and in machining state, there is one group Clamp assembly in can idle condition, and one group of clamp assembly is installed more, be easy to that whole equipment is lower in working order to change workpiece 10 so that workpiece 10 is processed synchronously to be carried out with more transducing, without the need for making equipment quit work after change workpiece 10 again, save replacing The time of workpiece 10, and as needed, one or more groups of clamp assemblies can be installed more.

Further, the side of base 600 is provided with limiting cylinder 670, and in the top of limiting cylinder 670 limited location is installed Block 680, one end of limited block 680 and the piston rod of limiting cylinder 670 are connected, the middle part of limited block 680 be arranged on base 600 On support base 690 be articulated and connected, the other end lower surface of limited block 680 is embedded with briquetting 681, the briquetting 681 be located at install The top of groove 610, when workpiece 10 is provided with mounting groove 610, limiting cylinder 670 can drive limited block 680 and be turned with pin joint Move, and control briquetting 681 and be against on workpiece 10 so that workpiece 10 is first fixed after being installed on base 600, to workpiece 10 The effect of Primary Location is served, the stability of workpiece 10 is improve, is the positioning of limit shaft 510, spacing and processing axle Processing provides precondition.

As shown in fig. 6, the lower section of the workbench 100 is provided with moveable casing 700, empty in the casing 700 and top Portion's opening, two pieces of fixed plates 710 being connected with the two lateral walls of casing 700 respectively, workbench are provided with the top of casing 700 100 two ends are respectively and fixedly installed in two fixed plates 710, and on the side wall of casing 700 discharging opening 720 is offered, it is preferred that The stock guide 730 being connected with the outer surface of casing 700 is provided with the discharging opening 720, guide plate is provided with casing 700 is tilted 740 and guide plate 740 lower end extend to it is at discharging opening 720 and equal with stock guide 730.

This equipment carries out Drilling operation to workpiece 10, and a large amount of chips can be produced in process, and adopts after said structure, The chip produced in the process of workpiece 10 can be passed sequentially through guide plate 740 and receipts are discharged outside casing 700 and concentrated with stock guide 730 Collection, serves environmental-protection function, it is ensured that the cleaning of workbench 100.

The present invention in an initial condition, first by the clamp assembly of 10 installed therein free time of workpiece.

As rotating disk 200 is rotated, workpiece 10 is delivered to successively three group of first processing assembly by the clamp assembly equipped with workpiece 10 On carry out main aperture 11, counter sink 12 and process, and main aperture 11, counter sink 12 are polished, in the process of workpiece 10, can be Workpiece 10 is installed on the follow-up clamp assembly for freeing out successively.

When being provided with the clamp assembly of workpiece 10 and turning at the second processing assembly, limit shaft 510 passes through the 3rd support arm 500th, the sports level of the second adapter sleeve 520 is moved to the top of workpiece 10, and the 4th drive cylinder 540 drives limit shaft 510 to erect Translation is moved and the insertion axle 514 of the bottom of limit shaft 510 is entered in the main aperture 11 of workpiece 10, and limit shaft 510 is against workpiece On 10 upper surface so that workpiece 10 is further compacted.

Second processing axle 410 is moved horizontally to adjacent with limit shaft 510 by second support arm 400, and makes the second processing axle 410 is relative with the bullport 511 on limit shaft 510, and the second drive cylinder 430 drives second to process axle 410 in an inclined direction Move and extend in bullport 511 and contact with the madial wall of main aperture 11, the second motor 440 drives second to process 410 turns of axle Move and process on the madial wall of main aperture 11 inclined hole 13.

After the completion of processing of workpiece 10, workpiece 10 is removed successively from clamp assembly.

Specific embodiment described herein is only explanation for example spiritual to the present invention.Technology neck belonging to of the invention The technical staff in domain can be made various modifications to described specific embodiment or supplement or replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Claims (10)

1. a kind of choke valve processing unit (plant), including

Workbench, it is horizontally disposed with；

Rotating disk, it is movably connected with workbench；

Clamp assembly, it is connected and for fixing workpiece with rotating disk；

First processing assembly, it is arranged on workbench and can process on workpiece main aperture, counter sink and to main aperture and countersunk head Polish in hole；

Second processing assembly, it is arranged on workbench and can process on workpiece inclined hole.

2. a kind of choke valve processing unit (plant) according to claim 1, it is characterised in that：First processing assembly has three Group, per group of first processing assembly includes

First support arm, it is flexibly connected with workbench；

First processing axle, it is erect and arranges and be movably connected with first support arm；

Three first processing axles can respectively to work pieces process main aperture, counter sink and polishing.

3. a kind of choke valve processing unit (plant) according to claim 1, it is characterised in that：Second processing assembly has two Group, per group of second processing assembly includes

Second support arm, it is flexibly connected with workbench；

Second processing axle, it is obliquely installed and is movably connected with second support arm, and the processing axle second support arm can be moved simultaneously relatively Inclined hole is processed on workpiece.

4. a kind of choke valve processing unit (plant) according to claim 3, it is characterised in that：Second processing assembly also includes

3rd support arm, it is flexibly connected with workbench；

Limit shaft, it is flexibly connected with the 3rd support arm, and limit shaft energy the 3rd support arm motion relatively simultaneously can be against on workpiece.

5. a kind of choke valve processing unit (plant) according to claim 4, it is characterised in that：It is tiltedly installed with the limit shaft Through the bullport of limit shaft, the second processing axle can be stretched in bullport and to work pieces process.

6. a kind of choke valve processing unit (plant) according to claim 5, it is characterised in that：It is provided with the limit shaft laterally Through the guiding groove of limit shaft, the perforate face relative with the second processing axle is formed with guiding groove, the bullport is opened in On perforate face and through limit shaft.

7. a kind of choke valve processing unit (plant) according to claim 4 or 5 or 6, it is characterised in that：The lower end of the limit shaft Insertion axle is convexly equipped with, insertion axle external diameter is less than limit shaft external diameter, and the insertion axle insertion main aperture is interior and limit shaft is against on workpiece.

8. a kind of choke valve processing unit (plant) according to claim 1, it is characterised in that：The clamp assembly includes

Base；

Mounting groove, it is arranged on base, and the mounting groove is used to accommodate workpiece；

Regulating block, it is located in mounting groove；

Adjusting rod, it is installed on base and stretches into and is connected with regulating block in mounting groove, and the adjusting rod can make regulating block in peace In tankage and adjust the width of mounting groove.

9. a kind of choke valve processing unit (plant) according to claim 8, it is characterised in that：The base side arranges limited location Cylinder, is provided with support base on base, and limited block, described limited block one end and limiting cylinder are provided with above limiting cylinder It is connected, limited block middle part is flexibly connected with support base, and the limiting cylinder can drive limited block to rotate and make the limited block other end By Work-sheet pressing.

10. a kind of choke valve processing unit (plant) according to claim 1, it is characterised in that：The workbench lower section is provided with Moveable casing, empty and open top in the casing, workbench is connected with the top of casing, offers on wall box Discharging opening, in the tilted lower end for being provided with guide plate and guide plate of casing discharge outlet is extended to.