CN209491357U - A kind of smart can control bores deep variable-frequency stepless speed-regulating cylinder vertical drill - Google Patents

Abstract

The utility model discloses a kind of smart can control and bores deep variable-frequency stepless speed-regulating cylinder vertical drill, including pedestal, the column with rack gear, variable-frequency motor, spindle box and PLC control system, main shaft is set in the spindle box, the outside of the main shaft is provided with the collar bush of rack gear, setting speed regulation gearshift, horizontal axis mechanism, feeding fine tuning gear and magnetic grid mechanism in the spindle box, worktable lifting mechanism is fixedly installed on the column, the spindle box front setting button formula control panel, and be electrically connected with PLC control system.The cylinder vertical drill of the utility model can be improved machining accuracy, especially main shaft (Z axis) self adaptation can reach≤0.04mm, the utility model kinetic energy is complete, cost is relatively low, using more safety and sanitation, while being also conducive to maintenance, and machine tool capability is greatly improved.

Description

A kind of smart can control bores deep variable-frequency stepless speed-regulating cylinder vertical drill

Technical field

The utility model relates to upright drill technical fields, and in particular to a kind of smart can control bores deep variable-frequency stepless speed-regulating circle Column vertical drill.

Background technique

Common upright drill is mostly traditional structure in the market, and main transformer speed is mostly belt cone or gear step speed change, in Small dimension vertical drill also has wide belt stepless speed regulation.In addition to small dimension vertical drill hand feed, remaining is tooth for axis feeding mechanism Wheel step speed change and lever, side tooth-like clutch control starting and stopping for feed motion, and boring deep control is then observation trunnion axis On dial or linear standards with main shaft synchronizing moving.The lifting overwhelming majority of workbench is the hand lifting of rack-and-pinion.

The vertical drill of this structure operates with laborious, trouble, and work efficiency is also difficult to be improved, and it is very poor to bore the precision controlled deeply (skilled worker also can only achieve 0.3~0.5mm) outside hand tapping, is unable to complete the little milling of some cuttings except conventional drilling Work is cut, this kind of drilling machine cutting fluid in cutting is splashed, and drill bit is penetrated or wound in chip four, and safety and sanitation are all affected.It is this kind of Vertical drill belongs to inexpensive in fact and object is not beautiful, has been difficult to expand in overseas market.The NC postprocessing product to grow up later, performance and precision All very well, but too expensive, the requirement to operator is also higher, is not suitable for single-piece, the occasion of small lot production and The enterprises such as repair of machine use.

Utility model content

The purpose of this utility model is that it is in view of the drawbacks of the prior art and insufficient, it is deep controllable and new to provide a kind of main shaft brill Type button control panel, while the frequency conversion that kinetic energy is complete, easy to operate, precision is high, safe operation, cost performance are high without Grade speed regulation cylinder vertical drill.

In order to achieve the above purposes, the technical solution adopted by the utility model is:, and a kind of smart can control bores deep frequency conversion stepless-adjustment Fast cylinder vertical drill, including pedestal, the column with rack gear, variable-frequency motor, spindle box and PLC control system, in the spindle box Main shaft is set, and the outside of the main shaft is provided with the collar bush of rack gear, and innovative point is: setting speed regulation in the spindle box Gear and magnetic grid mechanism are finely tuned in gearshift, horizontal axis mechanism, feeding, and worktable elevator is fixedly installed on the column Structure, the spindle box front setting button formula control panel, and be electrically connected with PLC control system；

The speed regulation gearshift includes primary axis, second level axis, three-level axis, gear change hand lever, fork, duplicate gear one, institute The output shaft for stating variable-frequency motor is inserted into primary axis, carries out transmission company by the way that gear is arranged between the primary axis and second level axis It connects, small one and large one two gears is set on the second level axis, suit setting duplicate gear one on the three-level axis, and duplicate gear One and second level axis on two gears between positional relationship form the position of upper, middle and lower three, that is, form quick shelves, sky Fork is arranged on the gear change hand lever in gear and shelves at a slow speed, and the gear change hand lever control fork moves up and down transposition, the fork band The duplicate gear one being set on dynamic three-level axis moves up and down, and the primary axis is fixedly connected with main shaft, the primary axis, two Speed regulation gearshift is formed by the different drive ratios between gear between grade axis, three-level axis；

The horizontal axis mechanism includes the trunnion axis engaged with collar bush upper rack, worm screw, worm gear, electromagnetic clutch, hair Spring, collector ring, hand feed handle, power feed button and the push rod in hand feed handle, the worm gear and Electromagnetic clutch is sleeved on the middle part of trunnion axis, and worm gear and worm screw engaged transmission, one end of the trunnion axis are set with clockwork spring bullet Spring, the other end are set with collector ring, and the hand feed handle is located at one end of collector ring, and pull hand feed handle and can lead to The horizontal movement for crossing trunnion axis drives main shaft to move up and down, and the power feed button is located at hand feed handle top, and presses After lower power feed button, push rod is contacted with collector ring, and connecting DC power supply is attracted electromagnetic clutch, is reached through feed change The torque of worm couple rotates trunnion axis；

Feeding fine tuning gear includes level Four axis, Pyatyi axis, six grades of axis, duplicate gear two, triple gear, convex Wheel, lever, pulling block, handwheel and dial, the level Four axis are arranged a set of duplicate gear two, are arranged a set of three on six grades of axis Join gear, the Pyatyi axis is arranged transmission gear, and the level Four axis, Pyatyi axis pass through each gear engaged transmission between six grades of axis Connection, and by the position between transformation duplicate gear two and triple gear, form six grades of amount of feeding and two neutral gears, described four Grade axis is connected by meshing transmission with three-level axis, and the quantity of the lever is two, and each respectively corresponds duplicate gear two and three Join gear, and pulling block is arranged in one end of each lever, the other end is connect with the same cam activation, the pulling block and duplex-gear Wheel two and triple gear are flexibly connected, and the cam is fixedly connected with the hand wheel, and the dial is located on handwheel；

The magnetic grid mechanism includes magnetic scale collet, reading head, nylon jacket, magnetic scale, upper limit switch, lower position switch and touches Block, magnetic scale collet one end clamp magnetic scale, and the other end is sleeved on collar bush, make magnetic scale and collar bush synchronizing moving, institute Magnetic scale external activity suit nylon jacket is stated, reading head is set in the nylon jacket, the nylon is set on the inner wall of spindle box On, the collision block is located at magnetic scale top, and the upper limit switch and lower position switch are located at the upper and lower ends of spindle box, and Magnetic scale can be in contact when up and down with upper limit switch and lower position switch, and the upper limit switch and lower limit are opened Guan Junyu PLC control system is electrically connected；

The worktable lifting mechanism includes the lifting set being sleeved on column, workbench, lifting set lever, driving cog Wheel, worm gear, transmission shaft, lifting motor, bevel gear, side tooth-like clutch, hand-operated lifting rocking handle and spring, the transmission gear with Rack gear on column is connected by meshing transmission, the worm gear and transmission gear engaged transmission, one end of the transmission shaft and worm gear Pair is fixedly connected, and wear side tooth-like clutch and hand-operated lifting rocking handle on the other end, the spring are located at side tooth-like clutch and hand Between dynamic lifting rocking handle, bevel gear is set on the output shaft of the lifting motor, bevel gear, and two are also provided on the transmission shaft A bevel gear intermeshing transmission connection.

Further, the primary axis lower end connects lubricating pump by setting gear drive.

Further, a through-hole is opened up on the spindle box, and spacer pin is set in through-hole, and the outer end of the spacer pin is set Set knob, inner end limits three-level axis, and the lower end of the three-level axis is arranged tip head, the tip head can be mounted in Milling cutter shank in main shaft is in contact.

Further, spindle locking mechanism is also set up in the horizontal axis mechanism, the spindle locking mechanism includes being located at Latch segment, pushing ram and the principal shaft locking handle of collar bush left and right ends, one end of the pushing ram are fixedly connected with latch segment, Its other end is fixedly connected with principal shaft locking handle, and the principal shaft locking handle rotation drives pushing ram rotation to drive latch segment phase To movement clamping spindle set.

Further, the equally distributed magnet steel in four, three-level axis top, the magnet steel and main shaft synchronous rotary, and magnetic Steel magnetic signal reaches button control panel through Hall element detection.

After adopting the above structure, the utility model has the beneficial effect that

The cylinder vertical drill of the utility model can be improved machining accuracy, and especially main shaft (Z axis) self adaptation can reach ≤ 0.04mm, the utility model kinetic energy is complete, cost is relatively low, using more safety and sanitation, while being also conducive to maintenance, machine tool capability It is greatly improved.

Detailed description of the invention

Fig. 1 is the monnolithic case figure of the utility model；

Fig. 2 is that gearshift installation diagram is adjusted the speed in the utility model；

Fig. 3 is horizontal axis mechanism equipment figure in the utility model；

Fig. 4 is feeding fine tuning gear installation diagram in the utility model；

Fig. 5 is magnetic grid mechanism installation diagram in the utility model；

Fig. 6 is worktable lifting mechanism outline drawing in the utility model；

Fig. 7 is worktable lifting mechanism installation diagram in the utility model；

Fig. 8 is the front view of cam in the utility model；

Fig. 9 is the side view of cam in the utility model；

Figure 10 is the rearview of cam in the utility model；

Figure 11 is the outline drawing of button control panel in the utility model.

Description of symbols:

1 pedestal, 2 columns, 3 variable-frequency motors, 4 spindle boxes, 5 main shafts, 6 collar bushes, 7 speed regulation gearshifts, 71 primary axis, 72 Second level axis, 73 three-level axis, 74 gear change hand levers, 75 forks, 76 duplicate gears one, 8 horizontal axis mechanisms, 81 trunnion axis, 82 worm screws, 83 Worm gear, 84 electromagnetic clutch, 85 clockwork springs, 86 collector rings, 87 hand feed handles, 88 power feed buttons, 89 push rods, 9 Feeding fine tuning gear, 91 level Four axis, 92 Pyatyi axis, 93 6 grades of axis, 94 duplicate gears two, 95 triple gears, 96 cams, 97 Lever, 98 pulling blocks, 99 handwheels, 910 dials, 10 magnetic grid mechanisms, 101 magnetic scale collets, 102 reading heads, 103 nylon jackets, 104 magnetic Ruler, 105 upper limit switches, 106 lower position switch, 107 collision blocks, 11 worktable lifting mechanisms, 111 lifting sets, 112 workbench, 113 lifting set levers, 114 transmission gears, 115 worm gears, 116 transmission shafts, 117 lifting motors, 118 bevel gears, 119 side teeth Clutch, 1110 hand-operated lifting rocking handles, 1111 springs, 12 button control panels, 13 lubricating pumps, 14 spacer pins, 15 knobs, 16 Spindle locking mechanism, 161 latch segments, 162 pushing rams, 163 principal shaft locking handles, 17 magnet steel, 18 Hall elements.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings.

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and specifically Embodiment, the present invention will be further described in detail.It should be appreciated that the specific embodiments described herein are only used To explain the utility model, it is not used to limit the utility model.

Referring to Fig. 1-11, a kind of smart can control bores deep variable-frequency stepless speed-regulating cylinder vertical drill, including pedestal 1, with rack gear Column 2, variable-frequency motor 3, spindle box 4 and PLC control system, spindle box 4 is interior to be arranged main shaft 5, and the outside of main shaft 5 is provided with tooth The collar bush 6 of item, the interior setting speed regulation gearshift 7 of spindle box 4, horizontal axis mechanism 8, feeding fine tuning gear 9 and magnetic grid machine Worktable lifting mechanism 11, the positive setting button formula control panel 12 of spindle box 4, and and PLC are fixedly installed on column 2 for structure 10 Control system is electrically connected；

In the present embodiment, button control panel 12 can operate PLC control system, convenient for control package unit Processing method.

Referring to Fig. 2, adjusting the speed gearshift 7 includes primary axis 71, second level axis 72, three-level axis 73, gear change hand lever 74, fork 75, duplicate gear 1, the output shaft of variable-frequency motor 3 are inserted into primary axis 71, are passed through between primary axis 71 and second level axis 72 Setting gear is sequentially connected, small one and large one two gears are arranged on second level axis 72, suit setting duplex-gear on three-level axis 73 1 are taken turns, and the positional relationship between two gears on duplicate gear 1 and second level axis 72 forms the position of upper, middle and lower three It sets, that is, forms quick shelves, neutral gear and shelves at a slow speed, fork 75 is set on gear change hand lever 74, gear change hand lever 74 controls fork 75 Transposition is moved up and down, fork 75 drives the duplicate gear 1 being set on three-level axis 73 to move up and down, primary axis 71 and master Axis 5 is fixedly connected, and primary axis 71, second level axis 72 form speed regulation by the different drive ratios between gear between three-level axis 73 and change Retaining device；In the present embodiment, 3 output shaft end of variable-frequency motor is plugged in toothed 71 hole of primary axis, is driven to through second level axis 72 Three-level axis 73, the sleeve type duplicate gear 1 on three-level axis 73 have the position of upper, middle and lower three, are low gear as shown in the figure, It is high gear upwards, it is in an intermediate position, it is " neutral gear ", specific so that light hand turns main shaft:

1, when fork 75 keeps the position in Fig. 1,73 duplicate gear in the pinion gear and three-level axis on second level axis 72 Gear wheel in one 76 is meshed, and is low or first gear；

2, when fork 75 moves up a gear, duplicate gear 1 on three-level axis 73 not with it is big on second level axis 72 Pinion gear contact, for " neutral gear "；

3, when fork 75 moves up again, pinion gear in duplicate gear 1 on three-level axis 73 with it is big on second level axis 72 Gear is meshed, and is top gear.

Referring to Fig. 3, horizontal axis mechanism 8 includes the trunnion axis 81 engaged with 6 upper rack of collar bush, worm screw 82, worm gear 83, electricity Magnet clutch 84, clockwork spring 85, collector ring 86, hand feed handle 87, power feed button 88 and be located at hand feed hand Push rod 89 in handle, worm gear 83 and electromagnetic clutch 84 are sleeved on the middle part of trunnion axis 81, and worm gear 83 engages biography with worm screw 82 Dynamic, one end of trunnion axis 81 is set with clockwork spring 85, and the other end is set with collector ring 86, and hand feed handle 87 is located at collector ring 86 one end, and pull hand feed handle 87 can by the horizontal movement of trunnion axis 81 drive main shaft 5 move up and down, it is motor-driven into It is located at the top of hand feed handle 87 to button 88, and after pressing power feed button 88, push rod 89 is contacted with collector ring 86, is connect Logical DC power supply is attracted electromagnetic clutch 84, and the torque for reaching worm couple through feed change rotates trunnion axis；Specifically , gear is set, and the gear is engaged with 6 upper rack of collar bush, pulling hand feed handle 87 can direct band on trunnion axis 81 Dynamic main shaft 5 moves up and down, and at this moment electromagnetic clutch 84 can only be together with 83 empty set of worm gear on trunnion axis 81, when pressing because not charging Power feed button 88 contacts push rod 89 with collector ring, is attracted electromagnetic clutch 84 by logical DC power supply, through feed change The torque for reaching worm gear rotates trunnion axis, then clicks power feed button 88 and make 84 power loss of electromagnetic clutch and stop Feeding.For ease of operation, when pressing the button setting acknowledgement key (the OK key) deeply of the brill on formula control panel 12, power feed is pressed Button 88 fails, and changes and is automatically controlled by electrical PLC；Clockwork spring 85 can ensure that trunnion axis 81 is in horizontality.

Referring to Fig. 4,8-10, feeding fine tuning gear 9 includes level Four axis 91, Pyatyi axis 92, six grades of axis 93, duplicate gear 2 94, a set of duplex-gear is arranged in triple gear 95, cam 96, lever 97, pulling block 98, handwheel 99 and dial 910, level Four axis 91 2 94 are taken turns, a set of triple gear 95 is set on six grades of axis 93, transmission gear, level Four axis 91, Pyatyi axis 92, six is arranged in Pyatyi axis 92 It is connected by meshing transmission between grade axis 93 by each gear, and passes through the position between transformation duplicate gear 2 94 and triple gear 95 It sets, forms six grades of amount of feeding and two neutral gears, level Four axis 91 is connected by meshing transmission with three-level axis 93, and the quantity of lever 97 is two It is a, and duplicate gear 2 94 and triple gear 95 are each respectively corresponded, and pulling block 98 is arranged in one end of each lever 97, it is another End is flexibly connected with the same cam 96, and pulling block 96 is flexibly connected with duplicate gear 2 94 and triple gear 95, cam 96 and hand Wheel 99 is fixedly connected, and dial 910 is located on handwheel 99；The feed change of vertical drill is by a duplicate gear 2 94 and one three Join the six grades of amount of feeding and two neutral positions that gear 95 forms, distinguished is that this eight gears only need ease rotation hand Any gear may be selected in 99 band moving cam 96 of wheel.The feeding fine tuning gear that Fig. 6 is shown can be seen that two slidings The mobile transposition of gear (duplex and three) is controlled by cam 96 and lever 97, and this mode biggest advantage is assembly letter Just, manipulating brisk and gear " will not fall gear ".

Referring to Fig. 5, magnetic grid mechanism 10 includes magnetic scale collet 101, reading head 102, nylon jacket 103, magnetic scale 104, upper limit Switch 105, lower position switch 106 and collision block 107,101 one end of magnetic scale collet clamp magnetic scale 104, and the other end is sleeved on main shaft On set 6, make magnetic scale 104 and 6 synchronizing moving of collar bush, 104 external activity of magnetic scale is set with nylon jacket 103, is arranged in nylon jacket 103 Reading head 102, nylon jacket 103 are arranged on the inner wall of spindle box 4, and collision block 107 is located at 104 top of magnetic scale, upper limit switch 105 The upper and lower ends of spindle box 4 are located at lower position switch 106, and magnetic scale 104 can be opened when up and down with upper limit Pass 105 and lower position switch 106 are in contact, and upper limit opens 105 passes and lower position switch 106 electrically connects with PLC control system It connects；In the present embodiment, magnetic scale 104 is our company's commission special manufacturer exploitation, has extra small section (9 × 15mm), is easily installed Small-sized displacement sensor, reading head 102 and 103 parallel connection of nylon jacket be each attached on spindle box 4, and magnetic scale 104 passes through nylon jacket 103 and spindle box bottom be packed on magnetic scale collet 101, magnetic scale collet 101 is then sleeved on collar bush 6, makes magnetic scale 104 and main shaft Cover 6(together with main shaft) synchronizing moving, reading head 102 export RS422 differential signal reach the wiring board based on PLC control system After (being mounted in the key panel back side) processing, 5 displacement of main shaft is shown on the third line display of panel.104 top of magnetic scale Collision block 107 to contact two limit switches, when touching with upper limit switch 105, variable-frequency motor 3, which stalls, simultaneously to be braked, main Axis 5 also stops displacement, and when magnetic scale 104 is synchronized with axis system to be moved down and touch lower position switch 106, variable-frequency motor 3 also stops Vehicle braking, so that playing the role of travel of spindle (200mm) limit sets electic protection.

It in the present embodiment, is provided in drilling depth and tapping depth, the brill pressed the button on formula control panel 12 is deep After acknowledgement key (OK key) is arranged, actually give the depth of setting preset lower electric signal instruction: time-varying frequency motor 3 is vertical in place for drilling Stop braking, tapping in place when main motor invert exit screw tap immediately.

The utility model combines feeding fine tuning gear 9, magnetic grid mechanism 10, button control panel 12 and PLC control System, the mismachining tolerance≤0.04mm of the utility model, and it is to bore same depth 5 that vertical drill industry original, which is performed the deep precision of brill, Mean depth error≤0.3mm is surveyed in hole, and original structure is extremely difficult to, and many user's especially Foreign Users are intended to bore Deep error≤0.1mm, therefore, the utility model are fully able to reach the requirement of processing precise degree.

Referring to Fig. 6-7, worktable lifting mechanism 11 includes the lifting set 111 being sleeved on column 2, workbench 112, lifting Set lever 113, transmission gear 114, worm gear 115, transmission shaft 116, lifting motor 117, bevel gear 118, side tooth-like clutch 119, hand-operated lifting rocking handle 1110 and spring 1111, transmission gear 114 are connected by meshing transmission with the rack gear on column 2, worm gear 115 are fixedly connected with 114 engaged transmission of transmission gear, one end of transmission shaft 116 with worm gear 115, wear side on the other end Tooth-like clutch 119 and hand-operated lifting rocking handle 1110, spring 1111 be located at side tooth-like clutch 119 and hand-operated lifting rocking handle 1110 it Between, bevel gear 118 is set on the output shaft of lifting motor 117, is also provided with bevel gear 118, and two bevel gears on transmission shaft 116 118 intermeshing transmission connections.Specifically, the section view of Fig. 6 is shown in detail with manual, automotive elevating function structure, figure Show that state is automotive elevating situation, the starting of lifting motor 117 is spelled through bevel gear 118 and 115 deceleration transmission of worm gear to worm gear The transmission gear 114(of dress one is engaged with rack) and worktable lifting is driven, if the propulsion of hand-operated lifting rocking handle 1110 makes side Tooth-like clutch 119 engage, shake hand-operated lifting rocking handle 1110 then can hand-operated lifting workbench 112, when hand-operated lifting rocking handle of slipping out of the hand 1110, side tooth-like clutch 119, which is automatically exited from, under the effect of spring 1111 is restored to automotive elevating state；After the completion of lifting action It pulls lifting set lever 113 lifting set is clamped on column, and for safety operation, settable microswitch is being locked When tight state, lifting set lever 113 drives microswitch cutting lifting motor circuit will not automotive elevating, only lifting set pine It just can turn on motor circuit when opening, while for safety operation, one travel switch can be housed in the upper and lower ends of lifting set To control two extreme positions up and down of lifting travel.

In the present embodiment, 71 lower end of primary axis connects lubricating pump 13 by setting gear drive.Specifically, working as variable-frequency motor 3 revolving speeds are 439.2~2777.8 r/min(frequency, 14.64~92.56 Hz), 5 revolving speed of main shaft is then 50~2200 r/min, 71 lower end a pair of gear reduced drive of primary axis can orient the fuel-displaced r/min of lubricating pump 13(310~1960 extremely with bidirectional rotation) There is provided spindle box 4 whole thin oil lubricants, which is cycloid rotator lubricating pump, more reliable and stable.

In the present embodiment, open up a through-hole, and spacer pin 14 is set in through-hole on spindle box 4, the outer end of spacer pin 14 is set Knob 15 is set, inner end limits three-level axis 73, and tip head is arranged in the lower end of three-level axis 73, and tip head can be led with being mounted in Milling cutter shank in axis is in contact.Specifically, the lower end of three-level axis 73 tip head for one close to Morse taper shank tang tip head, Position in Fig. 1 is upper limit position when main shaft works normally, after pulling out knob 15 and driving shifting outside spacer pin 14, main shaft System then surmounts upper limit position, make 73 lower end of three-level axis impact milling cutter shank and withdrawing, no longer need on the other hand take wedge iron on the other hand take Traditional withdrawing method that head taps.

In the present embodiment, for the ease of the use of various specifications milling cutter, the increasing of 6 lower end diameter of collar bush can be straight greatly with adapted Diameter bearing simultaneously makes to form " reinforced main shaft " in spindle taper hole retraction collar bush, and the screw hole of main shaft lower end four is to fasten milling cutter Or random milling cutter shank attachment.

Referring to Fig. 3, spindle locking mechanism 16 is also set up in horizontal axis mechanism 8, spindle locking mechanism 16 includes being located at main shaft Cover the latch segment 161, pushing ram 162 and principal shaft locking handle 163 of 6 left and right ends, one end of pushing ram 162 and latch segment 161 It is fixedly connected, the other end is fixedly connected with principal shaft locking handle 163, and the rotation of principal shaft locking handle 163 drives pushing ram 162 to revolve Turn to drive 161 relative motion clamping spindle set of latch segment.Specifically, needing to lock main shaft system when making milling work or tuning up System will not move axially, and need to only rotate principal shaft locking handle 163, and the rotation of pushing ram 162 drives 161 relative motion of latch segment, lock Tight block embraces clamping spindle set immediately, and reversely pulling handle easily can separately lock and loosen axis system.

In the present embodiment, the equally distributed magnet steel 17 in four, 73 top of three-level axis, magnet steel 17 and 5 synchronous rotary of main shaft, and Magnet steel magnetic signal reaches button control panel 12 through the detection of Hall element 18.Specifically, the round nut end on 73 top of three-level axis Face is embedded with four small magnet steel 17, and magnetic signal is after the detection of Hall element 18 when rotating with main shaft 5, then electric component translates analysis into main shaft Revolving speed is shown on button control panel 12, convenient for understanding and controlling the speed of mainshaft.

The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model Spirit and scope should all cover in the scope of the claims of the utility model.

Claims (5)

1. one kind can essence control bore deep variable-frequency stepless speed-regulating cylinder vertical drill, including pedestal, the column with rack gear, variable-frequency motor, Spindle box and PLC control system, the spindle box is interior to be arranged main shaft, and the outside of the main shaft is provided with the collar bush of rack gear, It is characterized by: setting speed regulation gearshift, horizontal axis mechanism, feeding fine tuning gear and magnetic grid machine in the spindle box Worktable lifting mechanism, the spindle box front setting button formula control panel, and and PLC is fixedly installed on the column in structure Control system is electrically connected；

The speed regulation gearshift includes primary axis, second level axis, three-level axis, gear change hand lever, fork, duplicate gear one, the change The output shaft of frequency motor is inserted into primary axis, is sequentially connected between the primary axis and second level axis by the way that gear is arranged, Small one and large one two gears are set on the second level axis, suit setting duplicate gear one on the three-level axis, and duplicate gear one Positional relationship between two gears on second level axis forms the position of upper, middle and lower three, that is, forms quick shelves, neutral gear Shelves at a slow speed, fork is arranged on the gear change hand lever, and the gear change hand lever control fork moves up and down transposition, the fork drive The duplicate gear one being set on three-level axis moves up and down, and the primary axis is fixedly connected with main shaft, the primary axis, second level Speed regulation gearshift is formed by the different drive ratios between gear between axis, three-level axis；

The horizontal axis mechanism includes the trunnion axis engaged with collar bush upper rack, worm screw, worm gear, electromagnetic clutch, clockwork spring bullet Spring, collector ring, hand feed handle, power feed button and the push rod in hand feed handle, the worm gear and electromagnetism Clutch sleeve is mounted in the middle part of trunnion axis, and worm gear and worm screw engaged transmission, one end of the trunnion axis are set with clockwork spring, The other end is set with collector ring, and the hand feed handle is located at one end of collector ring, and pulls hand feed handle and can pass through water The horizontal movement of flat axis drives main shaft to move up and down, and the power feed button is located at hand feed handle top, and presses machine After dynamic feeding button, push rod is contacted with collector ring, and connecting DC power supply is attracted electromagnetic clutch, reaches worm gear through feed change The torque of worm gear pair rotates trunnion axis；

The feeding fine tuning gear includes level Four axis, Pyatyi axis, six grades of axis, duplicate gear two, triple gear, cam, thick stick Bar, pulling block, handwheel and dial, the level Four axis are arranged a set of duplicate gear two, a set of three tooth are arranged on six grades of axis Wheel, the Pyatyi axis are arranged transmission gear, and the level Four axis, Pyatyi axis are connected by meshing transmission between six grades of axis by each gear, And by the position between transformation duplicate gear two and triple gear, six grades of amount of feeding and two neutral gears, the level Four axis are formed It is connected by meshing transmission with three-level axis, the quantity of the lever is two, and each respectively corresponds the tooth of duplicate gear two and three Wheel, and pulling block is arranged in one end of each lever, the other end is connect with the same cam activation, the pulling block and duplicate gear two It is flexibly connected with triple gear, the cam is fixedly connected with the hand wheel, and the dial is located on handwheel；

The magnetic grid mechanism includes magnetic scale collet, reading head, nylon jacket, magnetic scale, upper limit switch, lower position switch and collision block, Magnetic scale collet one end clamps magnetic scale, and the other end is sleeved on collar bush, makes magnetic scale and collar bush synchronizing moving, the magnetic Ruler external activity is set with nylon jacket, reading head is arranged in the nylon jacket, the nylon is set on the inner wall of spindle box, institute It states collision block and is located at magnetic scale top, the upper limit switch and lower position switch are located at the upper and lower ends of spindle box, and magnetic scale It when up and down, can be in contact with upper limit switch and lower position switch, the upper limit switch and lower position switch are equal It is electrically connected with PLC control system；

The worktable lifting mechanism include the lifting set being sleeved on column, workbench, lifting set lever, transmission gear, Worm gear, transmission shaft, lifting motor, bevel gear, side tooth-like clutch, hand-operated lifting rocking handle and spring, the transmission gear and vertical Rack gear on column is connected by meshing transmission, the worm gear and transmission gear engaged transmission, one end of the transmission shaft and worm gear Be fixedly connected, wear side tooth-like clutch and hand-operated lifting rocking handle on the other end, the spring be located at side tooth-like clutch and manually It goes up and down between rocking handle, bevel gear is set on the output shaft of the lifting motor, bevel gear, and two are also provided on the transmission shaft Bevel gear intermeshing transmission connection.

2. one kind according to claim 1 smart can be controlled and bore deep variable-frequency stepless speed-regulating cylinder vertical drill, it is characterised in that: described Primary axis lower end connects lubricating pump by setting gear drive.

3. one kind according to claim 1 smart can be controlled and bore deep variable-frequency stepless speed-regulating cylinder vertical drill, it is characterised in that: described A through-hole is opened up on spindle box, and spacer pin is set in through-hole, and knob is arranged in the outer end of the spacer pin, and inner end is to three-level axis It is limited, tip head is arranged in the lower end of the three-level axis, and the tip head can be in contact with the milling cutter shank in main shaft.

4. one kind according to claim 1 smart can be controlled and bore deep variable-frequency stepless speed-regulating cylinder vertical drill, it is characterised in that: described Spindle locking mechanism is also set up in horizontal axis mechanism, the spindle locking mechanism includes the locking positioned at collar bush left and right ends Block, pushing ram and principal shaft locking handle, one end of the pushing ram are fixedly connected with latch segment, the other end and principal shaft locking hand Handle is fixedly connected, and the principal shaft locking handle rotation drives pushing ram rotation to drive latch segment relative motion clamping spindle set.

5. one kind according to claim 1 smart can be controlled and bore deep variable-frequency stepless speed-regulating cylinder vertical drill, it is characterised in that: described The equally distributed magnet steel in four, three-level axis top, the magnet steel and main shaft synchronous rotary, and magnet steel magnetic signal is examined through Hall element Survey reaches button control panel.