A kind of process equipment of sewage purification system multiple-way valve
Technical field
The present invention relates to machining equipment technical fields, and in particular to a kind of sewage purification system multiple-way valve it is dedicated
Drilling processing equipment.
Background technique
With industrialized further deep and city gradually expansion, the various sewage of generation are consequently increased, and are
Protection environment, realizes sustainable development, and sewage purification has become an essential important ring in people's production and living
Section.In recent years, wastewater treatment in China industry is advanced by leaps and bounds, and overall development is in the rapid growth phase, is mainly manifested in sewage treatment
Installations and facilities are more and more diversified, sewage treatment capacity is expanded rapidly, wastewater treatment rate steadily improves, sewage load quickly increases
It is long etc..Urban wastewater treatment Facilities Construction has pushed environmental protection industry development, will not be low to the year two thousand twenty treatment rate of domestic sewage
In 90%, during being filtered purified treatment to production waste and sanitary sewage, it is net to produce diversified sewage
Change facilities and equipment and purification system.In more complex sewage purification treatment equipment and system, it is often necessary to use multi-pass water inlet
Valve, in the front end of sewage purification treatment equipment or system, setting multi-pass inlet valve is allowed to collecting multichannel sewage to be treated
Multi-path sewage collects into purified treatment is carried out in sewage disposal system, and the China such as Patent No. 2016201262839 is real
A kind of five-way valve for water purification system disclosed in new patent document;There are also industrial sewage purification processing to set
It is standby, the rear end for carrying out purified treatment to sewage is provided with multiway water valve, the water source point multichannel after purified treatment, which is sent to, to be needed
With in place of water, the grade usually handled by its decontamination process is different, by purified different degree of purity
Sewage point multichannel is delivered to various with different use demands places.
The multiway water valve used in these relatively large or more complex sewage purification systems, the shape of valve body are usually equal
In axial shape or column to shape, need to open up multiple water holes on its circumference, it is this opened up on the circumference of shaft-like valve body it is multiple
Via hole, for steel or copper valve body, current processing method is the clamping valve body on general process equipment, outside valve body
It drilling one by one on circumference, one hole of every brill need to remove valve body and replace again and carries out clamping again, and processing efficiency is lower, and
Multiple exchanging position clamping is also easy to cause the positioning accuracy to drill on valve body excircle lower.
Summary of the invention
To solve deficiencies of the prior art, the present invention provides a kind of Special drill processing for multiple-way valve
Equipment, to carry out automatic drilling processing to the multiway water valve used in sewage purification system or equipment, during clamped one time,
Water hole whole on valve body circumference can be processed, the degree of automation, positioning accuracy and in terms of, it is excellent
In existing General piercing process equipment.
To realize the above-mentioned technical purpose, the technical solution adopted in the present invention is as follows:
A kind of process equipment of sewage purification system multiple-way valve comprising:
One bed body, the bed level setting;
One control device, the control device are set to one end on bed body length direction;
One operating device, the operating device are set to the another side of bed body length direction, above-mentioned bed body setting
Between control device and operating device, is formed between the control device, bed body and operating device and be used for workpieces processing
Workspace;
One automatic drilling device of turning, the automatic drilling device of turning are movably set in above-mentioned work along the length direction of bed body
In area;
Wherein, the control device can receive artificial programming, and send control signal to automatic drilling device of turning, described
The control signal that automatic drilling device of turning can receive and identification control device is sent, and bore operation is carried out to workpiece;
As a further improvement of the present invention, the control device include the console being vertically disposed on ground and
The screw component being set between console and operating device;The screw component includes the first screw rod, the second screw rod, wherein
First screw rod, the second screw rod in up and down arrangement, first screw rod, the second screw rod central axis be parallel to each other, and
Parallel with the length direction of bed body, the power that the first screw rod of driving is additionally provided in the console around own axis supplies
Answer device, the driving end of first screw rod is equipped with the first belt pulley, the driving end of second screw rod be equipped with
The second isometrical belt pulley of first belt pulley passes through toothed belt transmission between first belt pulley and the second belt pulley;On
The automatic drilling device of turning stated is movably set on screw component along the length direction of the first screw rod.
The control device further includes the programing system being set on console, the programing system acceptable operating
The compiling of personnel, and control signal is issued to above-mentioned power supply device and automatic drilling device of turning.
As a further improvement of the present invention, the operating device includes the station arranged vertically, above-mentioned screw rod
Component is rotatably dispose between console and station, and the charging being connected to above-mentioned workspace is offered on the station
Mouthful, the feed inlet is rounded, and the clamp system being clamped to workpiece, the folder are additionally provided on the station
Tight mechanism is installed on feed inlet along the radially movable of feed inlet, and the clamp system uses Automatic Control, the behaviour
Make to be provided on platform and can receive the triggering of external force with the matched control switch of clamp system, the control switch, and realizes folder
Switching of the tight mechanism between clamped condition and release conditions.
As a further improvement of the present invention, auxiliary positioning clamping structure is additionally provided on above-mentioned console, it is described
Console is also provided with positioning clip slot on the end face opposite with station, wherein the depth direction and the first screw rod of positioning clip slot
Length direction is parallel, and the positioning clip slot is in coniform, and the notch for positioning clip slot gradually becomes smaller along its depth direction, institute
The positioning clip slot stated and above-mentioned feed inlet are coaxially arranged.
As a further improvement of the present invention, the automatic drilling device of turning includes the length direction activity along the first screw rod
The translation mechanism being set on screw component, the translation mechanism can be in the length of the first screw rod of driving lower edge of screw component
Direction moves reciprocatingly;The translation mechanism includes the translation wheel rim coaxially arranged with above-mentioned feed inlet and is set to translation
Wheel rim, the card slot coaxially arranged is equipped on the translation wheel rim, and above-mentioned gyration mechanism is movably installed in described
In card slot, the translation mechanism further includes the actuated element being set between screw component and translation wheel rim, the transmission
Element includes the mounting blocks being fixedly connected with translation wheel rim inner ring and the connection member being set between mounting blocks and screw component
Part, offer in the connecting element with the matched threaded hole of screw component, screw component, can when around own axis
Driving translation wheel rim moves reciprocatingly along the length direction of parallel first screw rod;
The automatic drilling device of turning further includes gyration mechanism, and the gyration mechanism is living along the circumferencial direction of translation wheel rim
It is dynamic to be installed on translation wheel rim, and the gyration mechanism can carry out 360 degree of rotation along the circumferencial direction of translation wheel rim
Movement, the gyration mechanism include that catch element, the peace of slide-and-guide cooperation are constituted along translation wheel rim circumferencial direction and card slot
Loaded on the motor one in catch element and for driving translation wheel rim circumferencial direction in catch element edge to move and it is set to clamping
Transmission component between element and translation mechanism and for being driven driving force;
The transmission component includes that coaxial rings are set to the gear ring of translation wheel rim periphery, are rotatably dispose in catch element
And with gear ring meshed gears, the gear is between gear ring and catch element, wherein the rotary shaft of the gear
The centerline axis parallel of line and translation wheel rim arranges that the input terminal of the gear passes through shaft coupling and above-mentioned motor one
It connects;The control sensor one of the control signal for receiving and processing programing system transmission is also equipped on the motor one,
The control sensor one can control switching of the motor one between working condition and halted state, meanwhile, the control
Sensor one processed can control switching of the motor one between rotating and reverse.
As a further improvement of the present invention, the end face that the catch element and card slot cooperate is also equipped with can be around itself
The cunning roller of axis rotation, wherein the centerline axis parallel of the central axis of sliding roller and translation wheel rim is arranged.
As a further improvement of the present invention, automatic drilling dress further includes telescoping mechanism, the telescoping mechanism
It is installed in the gyration mechanism, and can move reciprocatingly along the radial direction of translation wheel rim, the telescoping mechanism includes the
Three screw rods and driving third screw rod around own axis motor two, wherein the central axis edge of the third screw rod
The radial direction arrangement of wheel rim is translated, the telescoping mechanism and above-mentioned actuated element are placed in along the axial direction of translation wheel rim translates wheel
Side is enclosed, is provided with horizontally disposed mounting plate in the catch element, the third screw rod is rotatably dispose in mounting plate
On, the motor two is fixedly installed on mounting plate, and the output shaft end of the motor two passes through shaft coupling and third
The driving end of screw rod is coupled, and the control letter sent for receiving and locating above-mentioned reason programing system is additionally provided on the mounting plate
Number control sensor two, the control sensor two can control the cutting between working condition and halted state of motor two
It changes, meanwhile, the control sensor two can control switching of the motor two between rotating and reverse.
As a further improvement of the present invention, the automatic drilling device of turning further includes the drilling being installed on telescoping mechanism
Mechanism, the borehole drill construction include the driving plate being set on third screw rod, are equipped in the driving plate and third silk
The matched screw of bar, third screw rod can push driving plate to do reciprocal fortune along the direction for being parallel to third screw rod around own axis
Dynamic, the borehole drill construction further includes the motor three being installed in driving plate, wherein the output shaft axis of motor three and first
The centerline axis parallel of bar is arranged, the control sent for receiving and locating above-mentioned reason programing system is also equipped on the motor three
The control sensor four of signal processed, the control sensor four can control motor three between working condition and halted state
Switching, meanwhile, the control sensor four can control switching of the motor three between rotating and reverse;
The borehole drill construction further includes the drill body for being set to three output end of motor, and the drill body includes fixed plate, institute
The fixed plate stated is installed on motor three, and the drill body further includes the drill body ontology being detachably connected with fixed plate, wherein setting
The centerline axis parallel of the rotation axis and third screw rod that are placed in the drill bit on drill body ontology is arranged, is gone back on the drill body ontology
Matching installation has the control sensor three for receiving and locating the control signal that above-mentioned reason programing system is sent, and the control passes
Sensor three can control switching of the drill body ontology between working condition and halted state.
As a further improvement of the present invention, guidance set, the guiding group are additionally provided in above-mentioned telescoping mechanism
Part include be fixedly installed on mounting plate and with third screw rod parallel interval arrangement guiding slide bar, the third screw rod with
It is oriented to the suspension end co-planar arrangement of slide bar, and has end plate in the end Matching installation, matches and begins in the driving plate
The slide opening of slide-and-guide cooperation is constituted with guiding slide bar.
As a further improvement of the present invention, at the feed inlet equipped with safety door, on the control device also
It is equipped with and provides red police when safety door is in the open state with the matched warning system of safety door, the warning system
Show display, when safety door is in closed and locked state, green is provided and is shown.
Compared with prior art, the present invention the progress and advantage that obtain are that the degree of automation of the invention is higher, and
With good safety, and large batch of work pieces process is adapted to, with high production efficiency, positioning machining accuracy height, drilled
The beneficial effects such as precision height.
Detailed description of the invention
In order to illustrate the technical solution of the embodiments of the present invention more clearly, will make below to required in the embodiment of the present invention
Attached drawing is briefly described.It should be evident that drawings described below is only some embodiments of the present invention, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 is overall structure diagram of the invention.
Fig. 2 is the arrangement schematic diagram of feed inlet of the present invention.
Fig. 3 is schematic diagram of internal structure of the invention.
Fig. 4 is the arrangement schematic diagram of automatic drilling device of turning of the present invention.
Fig. 5 is the structural schematic diagram of automatic drilling device of turning of the present invention.
Cooperation schematic diagram of the Fig. 6 between translation mechanism of the invention, gyration mechanism, telescoping mechanism and borehole drill construction.
Cooperation schematic diagram of the Fig. 7 between translation mechanism of the invention, gyration mechanism and telescoping mechanism.
Fig. 8 is the structural schematic diagram of translation mechanism of the present invention.
Cooperation schematic diagram of the Fig. 9 between gyration mechanism of the present invention and telescoping mechanism.
Figure 10 is the schematic diagram of internal structure of gyration mechanism of the present invention.
Figure 11 is the external structure schematic diagram of gyration mechanism of the present invention.
Cooperation schematic diagram of the Figure 12 between gyration mechanism of the invention, telescoping mechanism and borehole drill construction.
Figure 13 is the structural schematic diagram of borehole drill construction of the present invention.
It is denoted as in figure:
100, bed body;
200, control device;210, the first screw rod;220, the second screw rod;230, programing system;240, warning lamp;250, fixed
Position clip slot;
300, operating device;310, station;311, feed inlet;312, clamp system;313, control switch;320, safety
Door;
400, automatic drilling device of turning;410, translation mechanism;411, wheel rim is translated;412, card slot;413, gear ring;415, it is driven
Element;415a, mounting blocks;415b, connecting element;415bb, threaded hole;420, gyration mechanism;421, catch element;421a, cunning
Roller;422, gear;423, motor one;424, sensor one is controlled;430, telescoping mechanism;431, third screw rod;432, motor two;
433, sensor two is controlled;434, mounting plate;435, it is oriented to slide bar;436, end plate;440, borehole drill construction;441, driving plate;
442, drill body;442a, control sensor three;443, motor three.
Specific embodiment
As shown in figure 1 to figure 13, a kind of process equipment of sewage purification system multiple-way valve, is mainly used in net to sewage
Radial hole on the valve body of the multiple-way valve set in change system carries out drilling processing, specifically at it in the circumference of the valve body of circular axle shape
On drill, which specifically includes:
One bed body 100, the bed body 100 are horizontally placed on ground;
One control device 200, the control device 200 are set to the one end on 100 length direction of bed body;
One operating device 300, the operating device 300 is set to the another side of 100 length direction of bed body, above-mentioned
Bed body 100 is set between control device 200 and operating device 300, the control device 200, bed body 100 and operation dress
Set the workspace for being formed between 300 and being used for workpieces processing;
One automatic drilling device of turning 400, the automatic drilling device of turning 400 are movably set in along the length direction of bed body 100
In above-mentioned workspace;
Wherein, the control device 200 can receive artificial programming, and send control signal to automatic drilling device of turning 400,
The control signal that the automatic drilling device of turning 400 can receive and identification control device 200 is sent, and drilling work is carried out to workpiece
Industry.
Specifically, as shown in Figure 3,4, the control device 200 includes the console arranged vertically and is set to control
Screw component between platform processed and operating device 300;The screw component includes the first screw rod 210, the second screw rod 220,
In the first screw rod 210, the second screw rod 220 in up and down arrangement, the central axis phase of first screw rod 210, the second screw rod 220
It is mutually parallel and parallel with the length direction of bed body 100, be additionally provided in the console the first screw rod 210 of driving around
The power supply device of own axis, in order to guarantee the synchronism of the first screw rod 210 and the rotation of the second screw rod 220, this reality
Example is applied using a power source while driving the scheme of the first screw rod 210, the movement of the second screw rod 220, specifically, described first
The driving end of screw rod 210 is equipped with the first belt pulley, and the driving end of second screw rod 220 is equipped with the first belt pulley etc.
Second belt pulley of diameter passes through toothed belt transmission between first belt pulley and the second belt pulley;Above-mentioned automatic drilling
Device 400 is set on screw component along the length direction of the first screw rod 210, in the upper and lower ends of automatic drilling device of turning 400, if
It is equipped with the threaded hole to match respectively with the first screw rod 210 and the second screw rod 220, passes through the first screw rod 210 and the second screw rod 220
Rotation, automatic drilling device of turning 400 can be driven to be moved left and right on the first screw rod 210 and the second screw rod 220.
Certainly, this two bars of the first screw rod 210, the second screw rod 220 can also be screw rod, Ling Yigen using wherein one
It is the structure of polished rod, when being screw rod using one root, another when being the structure of polished rod, then only needs screw rod above to rotate, under
The polished rod in face is fixed without rotating.Only using a screw rod, the traditional structure of another polished rod, automatic drilling device of turning can be made
400 positioning accuracies moved left and right are deteriorated.And upper and lower two are used all for the innovation structure of screw rod, as long as 210 He of the first screw rod
The rotation of second screw rod 220 is synchronous, can equally drive the moving left and right on screw rod of automatic drilling device of turning 400, and its movement
Positioning accuracy can be significantly improved than the mobile accuracy of a polished rod, a screw rod, so as to be obviously improved the position to drill on workpiece
Precision.
The control device 200 further includes the programing system 230 being set on console, the programing system 230
The compiling of acceptable operating personnel, and can control be issued to above-mentioned power supply device and automatic drilling device of turning 400 respectively
Signal processed.
The operating device 300 includes the station 310 arranged vertically, and above-mentioned screw component is rotatably dispose in control
Between platform and station 310, the feed inlet 311 being connected to above-mentioned workspace is offered on the station 310, it is preferred that
The feed inlet 311 is rounded, and the clamp system 312 being clamped to workpiece is additionally provided on the station 310, tool
Body, the clamp system 312 is installed on feed inlet 311 along the radially movable of feed inlet, in order to improve the safety of operation
Property, the safety of worker is protected, the clamp system 312 uses Automatic Control, is provided with and presss from both sides on the station 310
The matched control switch 313 of tight mechanism 312, the control switch 313 can receive the triggering of external force, and realize clamp system
312 switching between clamped condition and release conditions.
More optimally, in order to further increase the stability of workpiece, so that the precision of drilling is improved, above-mentioned console
On be additionally provided with auxiliary positioning clamping structure, specifically, being also provided on the console end face opposite with station 310
Clip slot 250 is positioned, wherein the locating clip that the depth direction of positioning clip slot 250 is parallel, described with the length direction of the first screw rod 210
Slot 250 is in coniform, and the notch for positioning clip slot 250 gradually becomes smaller along its depth direction, and the beneficial effect designed in this way exists
In carrying out positioning clamping to round tube class workpiece using the specific physical of circular conical surface;Particular, it is important that the locating clip
Slot 250 and above-mentioned feed inlet 311 are coaxially arranged.
As shown in Fig. 3 to Fig. 7, the automatic drilling device of turning 400 includes setting along the length direction activity of the first screw rod 210
The translation mechanism 410 and gyration mechanism 420 being placed on screw component, the translation mechanism 410 can be in the drivings of screw component
The length direction of the first screw rod of lower edge 210 moves reciprocatingly;Specifically, the translation mechanism 410 includes and above-mentioned feed inlet
311 coaxially arranged translation wheel rims 411 and the gear ring 413 being set on translation 411 outer circumference surface of wheel rim, the translation wheel
The card slot 412 coaxially arranged is equipped on circle 411, above-mentioned gyration mechanism 420 is movably installed in the card slot 412
Interior, the translation mechanism 410 further includes being set to screw component and translating the actuated element 415 between wheel rim 411, specifically
, the actuated element 415 includes the mounting blocks 415a being fixedly connected with translation 411 inner ring of wheel rim and is set to mounting blocks
It is offered and the matched spiral shell of screw component on connecting element 415b, the connecting element 415b between 415a and screw component
Pit 415bb, screw component can drive translation wheel rim 411 along the length of parallel first screw rod 210 when around own axis
Degree direction moves reciprocatingly.
The gyration mechanism 420 translates on wheel rim 411 along movable be installed on of circumferencial direction of translation wheel rim 411, and
And the gyration mechanism 420 can carry out 360 degree of rotary motion along the circumferencial direction of translation wheel rim 411, specifically, described
Gyration mechanism 420 include along translation 411 circumferencial direction of wheel rim and card slot 412 constitute slide-and-guide cooperation catch element 421,
It is installed on the motor 1 in catch element 421 and for driving catch element 421 to move along translation 411 circumferencial direction of wheel rim
And it is set to the transmission component between catch element 421 and translation mechanism 410 and for being driven driving force.
More specifically, the transmission component includes that coaxial rings are set to the gear ring 413 of translation 411 periphery of wheel rim, turn
It is dynamic be set in catch element 421 and with 413 meshed gears 422 of gear ring, the gear 422 is located at gear ring 413 and blocks
It connects between element 421, wherein Preferable scheme is that the central axis of the rotation axis of the gear 422 and translation wheel rim 421
The input terminal of parallel arrangement, the gear 422 is coupled by shaft coupling with the rotary shaft of above-mentioned motor 1;Described
The control sensor 1 of the control signal for receiving and processing the transmission of programing system 230 is also equipped on motor 1,
Switching of the control controllable motor 1 of sensor 1 between working condition and halted state, meanwhile, institute
Switching of the control controllable motor 1 of sensor 1 stated between rotating and reverse.
More optimally, in order to reduce the frictional force between catch element 421 and card slot 412, the catch element 421
The end face cooperated with card slot 412 is also equipped with can be around the cunning roller 421a of own axis, wherein the central axis of sliding roller 421a
It is arranged with the centerline axis parallel of translation wheel rim 411.
The automatic drilling device of turning 400 further includes telescoping mechanism 430, and the telescoping mechanism 430 is installed on described
In gyration mechanism 420, and can along translation wheel rim 411 radial direction move reciprocatingly, so as to the workpiece to different tube diameters with
And different depth require workpiece carry out bore operation, specifically, the telescoping mechanism 430 include third screw rod 431 and
Drive third screw rod 431 around the motor 2 432 of own axis, wherein the central axis of the third screw rod 431 is along flat
The radial arrangement of wheel rim 411 is moved, more specifically, the telescoping mechanism 430 and above-mentioned actuated element 415 are along translation wheel rim
411 axial direction, which is placed in, translates 411 side of wheel rim, and horizontally disposed mounting plate 434 is provided in the catch element 421,
The third screw rod 431 is rotatably dispose on mounting plate 434, and the motor 2 432 is fixedly installed on mounting plate 434,
And the output shaft end of the motor 2 432 is coupled by shaft coupling with the driving end of third screw rod 431, the mounting plate
The control sensor 2 433 for receiving and processing the control signal that above-mentioned reason programing system 230 is sent is additionally provided on 434,
Switching of the control controllable motor 2 432 of sensor 2 433 between working condition and halted state, meanwhile, institute
Switching of the control controllable motor 2 432 of sensor 2 433 stated between rotating and reverse.
As shown in Figure 12,13, the automatic drilling device of turning 400 further includes the drilling machine being installed on telescoping mechanism 430
Structure 440, specifically, the borehole drill construction 440 includes the driving plate 441 being set on third screw rod 431, the driving plate
Driving plate 441 can be pushed around own axis with the matched screw of third screw rod 431, third screw rod 431 by being equipped on 441
It moves reciprocatingly along the direction for being parallel to third screw rod 431, the borehole drill construction 440 further includes being installed in driving plate 441
Motor 3 443, wherein the centerline axis parallel of the output shaft axis of motor 3 443 and the first screw rod 210 arrange, the electricity
The control sensor four for receiving and locating the control signal that above-mentioned reason programing system 230 is sent, institute are also equipped on machine 3 443
The control sensor four stated can control switching of the motor 3 443 between working condition and halted state, meanwhile, the control
Sensor four processed can control switching of the motor 3 443 between rotating and reverse.
The borehole drill construction 440 further includes the drill body 442 for being set to 3 443 output end of motor, specifically, the brill
Body 442 includes fixed plate, and the fixed plate is installed on motor 3 443, is provided with bevel gear transmission in drill body 442,
The rotary motion of the motor shaft in motor 3 443 can be converted to by drill body 442 rotary motion of the drill bit in drill body 442.
The drill body 442 further includes the drill body ontology being detachably connected with fixed plate, is provided in the drill bit on drill body ontology
The centerline axis parallel of rotation axis and third screw rod 431 arranges that going back Matching installation on the drill body ontology has for receiving
And handle three 442a of control sensor for the control signal that above-mentioned reason programing system 230 is sent, the control sensor three
442a can control switching of the drill body ontology between working condition and halted state.
More optimally, in order to improve borehole drill construction 440 along the stationarity of translation 411 radial motion of wheel rim, above-mentioned stretches
It is additionally provided with guidance set in contracting mechanism 430, specifically, the guidance set includes being fixedly installed on mounting plate 434 simultaneously
And the guiding slide bar with 431 parallel interval of third screw rod arrangement, the suspension end of the third screw rod 431 and guiding slide bar 435
Co-planar arrangement, and have end plate 436 in the end Matching installation, matching offers and guiding slide bar in the driving plate 441
435 constitute the slide opening of slide-and-guide cooperation.
More perfectly, in order to further increase the safety of production, equipped with safety door at the feed inlet 311
320, it is also equipped with and the matched warning system 240 of safety door 320, the warning system 240 on the control device 200
When safety door 320 is in the open state, red warning display is provided, when safety door 320 is in closed and locked state, is provided
Green is shown.
Working principle: in actual work, operator opens safety door 320, and by workpiece and feed inlet to be processed
311 are in coaxial state, and operator is parallel to the first screw rod 210 to workpiece application and is directed toward positioning clip slot by feed inlet 311
250 thrust, which enters in bed body 100 after pushing workpiece to sequentially pass through feed inlet 311, translation wheel rim 411, until workpiece
Until end side far from hand enters positioning clip slot 250 and supports real contact with positioning clip slot 250, at this point, external force is removed, at itself
Workpiece is contacted close to the end side of feed inlet 311 with clamp system 312 under the action of gravity, and operator is made by control switch
It obtains clamp system 312 and completes the switching to clamped condition from release conditions, safety door 320 is closed and locked by operator, behaviour
Make personnel to input located in connection/form dimension (length, diameter etc.) of workpiece in programing system 230, and will need to exist simultaneously
In relative dimensions (position, angle etc.) the input programing system 230 to drill on workpiece, the control drilling dress of programing system 230
It sets 400 and automatic, accurate bore operation is carried out to workpiece according to the borehole data of operator's input, after process finishing, operation
Personnel drill safety door 320, and by control switch 313 clamp system 312 are switched from clamped condition to release conditions,
Then, operator takes out workpiece out of bed body 100, and is put into new workpiece to be processed, carries out repeatedly.
As the process equipment that the further expansion to embodiment of the present invention application range, present embodiment propose, separately
It can be also used for other outside and need to carry out the workpiece of drilling processing on shaft-like circumference, for example drill to the round on lock core
Processing, or processed for the processing to round on lumen class Musical Instrument, such as round above flute, the round above clarinet
Deng.
It is to be understood that above-mentioned specific embodiment is only that presently preferred embodiments of the present invention and institute's application technology are former
Reason.It will be understood by those skilled in the art that various modifications, equivalent replacement, variation etc. can also be done to the present invention.But this
A little transformation, all should be within protection scope of the present invention without departing from spirit of the invention.In addition, present specification and power
Some terms used in sharp claim are not limitation, are merely for convenience of describing.