CN203993365U - A kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping - Google Patents

Abstract

The utility model relates to a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, and compared with prior art solved the defect that bolt sphere processing indexing mechanism not have to lock the function of stopping.The utility model comprises Y-axis assembly and X-axis assembly, the interior ring of X-axis bearing is provided with grip slipper, one end of grip slipper is connected with servo motor B, the other end of grip slipper is fixed with to lock and stops dish and locating shaft is installed, processed bolt sphere is installed on locating shaft, the position of the X-axis locking member that contacts with piston and X-axis locking member and the lock dish of stopping is all installed corresponding on two front beams of U-shaped runner assembly; Y-axis augmentor is installed on U-shaped base, and the position that Y-axis locking member and Y-axis locking member are installed on Y-axis augmentor is corresponding with any one cylindrical drum.Retaining mechanism of the present utility model, in the inside of indexing system, can effectively guarantee to adjust precision and machining accuracy.

Description

A kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping

Technical field

The utility model relates to machining equipment technical field, is a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping specifically.

Background technology

It is more and more general that modern grid structure is applied, and successfully applies to all kinds of large-scale gymnasiums, museum, terminal, railway station etc., and for meeting various moulding demands, the connecting rod of grid node is also more and more, more and more higher to its requirement on machining accuracy.In the process of bolt sphere, the indexing means of bolt sphere has determined the quality of machining accuracy to a great extent.

Traditional bolt sphere processing method, is that engine lathe is reequiped, and knife rest is removed, and installs manual calibration frock additional, and the cutters such as milling, brill, tapping are fixed on main shaft, rotarily drives cutter, and reach the object of bolt sphere right in the face, boring and tapping by main shaft.The method machining accuracy is low, and while particularly there is multiple irregular angle, manual calibration deviation is larger, directly affects bolt-ball net frame quality.At present, with digital-controlled scaling unit, substituting manual indexing means becomes a development trend, and patent name is a kind of machining machine and tool and processing method (number of patent application: the solution that 201310106009.6) just proposes a kind of numerical control scale-division thereof of Novel net frame bolt sphere.Its operating desk by U-shaped rotating turret, index dial base and milling machine partly forms, and diaxon rotation, reaches the pose adjustment of bolt sphere.But this device does not have retaining mechanism, location only has the nature of wait to stop.If consider, at the outside additional retaining mechanism of system, have following problem, indexing means overall structure is not compact yet, and after driving-chain, precision reduces and be expensive.Also have a major hidden danger and defect,, when carrying out additional retaining mechanism location, outside, bolt sphere adds trade union and produces displacement, affects the machining accuracy of bolt sphere, even can cause bolt sphere to be slided in process simultaneously.How to develop a kind of bolt sphere processing unit (plant) that lock brake apparatus and indexing means are combined as a whole and become the technical problem of being badly in need of solution.

Utility model content

The purpose of this utility model is there is no the stop defect of function of lock in order to solve bolt sphere processing indexing mechanism in prior art, provides a kind of and solves the problems referred to above with the stop rack bolt ball processing digital-controlled scaling unit of function of lock.

To achieve these goals, the technical solution of the utility model is as follows:

A kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, comprise U-shaped base and U-shaped rotating frame component, U-shaped rotating frame component comprises X-axis bearing block and front beam, the quantity of front beam is 2, front beam is fixedly mounted on respectively the two ends of X-axis bearing block, also comprise Y-axis assembly and X-axis assembly

Y-axis assembly comprises the Y-axis bearing block of two lead arm ends that are fixedly mounted on respectively U-shaped base, the quantity of Y-axis bearing block is 2, Y-axis bearing is all installed in Y-axis bearing block, on, the pivot extended line of lower two Y-axis bearings overlaps and forms Y-axis rotation centerline, 2 front beams of U-shaped runner assembly all by cylindrical drum, are run through installation and cylindrical drum is installed in the Y-axis bearing of U-shaped base lead arm end, the inside of cylindrical drum is all provided with piston, on the cylinder cap of cylindrical drum, have hole, the quantity of cylindrical drum is 2, the other end of one of them cylindrical drum is connected with servomotor A by shaft coupling, X-axis assembly comprises the X-axis bearing block of being located at U-shaped rotating turret root, and X-axis bearing is installed in X-axis bearing block, the pivot extended line of X-axis bearing form X-axis rotation centerline and with Y-axis rotation centerline quadrature,

The interior ring of X-axis bearing is provided with grip slipper, one end of grip slipper is connected with servo motor B, the other end of grip slipper is fixed with to lock and stops dish and locating shaft is installed, processed bolt sphere is installed on locating shaft, the position of the X-axis locking member that contacts with piston and X-axis locking member and the lock dish of stopping is all installed corresponding on 2 front beams of U-shaped runner assembly; Y-axis augmentor is installed on U-shaped base, and the position that Y-axis locking member and Y-axis locking member are installed on Y-axis augmentor is corresponding with any one cylindrical drum.

Described X-axis locking member is the brake holding of X-axis simply supported beam, and described Y-axis locking member is the brake holding of Y-axis simply supported beam.

Described X-axis locking member is the brake holding of X-axis cantilever beam, and one end of X-axis cantilever beam brake holding is fixedly mounted on X-axis bearing block, and described Y-axis locking member is Y-axis cantilever beam locking member.

Described cylindrical drum is ram pot, and the hole that is positioned at cylinder cap in cylindrical drum is connected with s pump.

Described cylindrical drum is pressure tank, and the hole that is positioned at cylinder cap in cylindrical drum is connected with high-pressure pump.

Described Y-axis augmentor is electric pushrod, cylinder, hydraulic cylinder or cam.

Also comprise the junction that the sector disk installed with front beam level and sector disk are positioned at front beam and X-axis bearing block, cantilever beam the stop one end of sheet B of sheet A and cantilever beam of stopping is separately fixed on the seating plane of U-shaped base, and cantilever beam the stop other end of sheet B of sheet A and cantilever beam of stopping lays respectively at the two sides of sector disk; The top of screw rod is arranged in the screw hole of cylinder body, cylinder body is placed on through the lead arm of U-shaped base the top that cantilever beam is stopped sheet A, the bottom of screw rod is run through cantilever beam the stop sheet B and be arranged on the cantilever beam sheet B below of stopping of sheet A and cantilever beam that stops successively, kinematic axis is installed in cylinder body, the other end of kinematic axis and the cantilever beam sheet A that stops is connected, and cantilever beam stop sheet B and the sector disk three of sheet A, cantilever beam that stop contacts when kinematic axis presses down.

beneficial effect

Of the present utility model a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, compared with prior art retaining mechanism, in the inside of indexing system, can effectively guarantee to adjust precision and machining accuracy.The design of stopping dish by X-axis locking member and lock, has guaranteed that the stable lock of X-axis is stopped; By Y-axis locking member, for the design of stopping of the lock of cylindrical drum, guaranteed that the stable lock of Y-axis is stopped.The utility model can not produce the movement of bolt sphere in process, has compact conformation, cheap feature.

accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model

Fig. 2 is internal structure schematic diagram of the present utility model.

Fig. 3 is main body cutaway view of the present utility model.

Fig. 4 is explosive view of the present utility model.

Fig. 5 is the digital-controlled scaling unit internal structure schematic diagram that in the utility model, Y-axis locking member is simply supported beam.

Fig. 6 is the digital-controlled scaling unit internal structure schematic diagram that in the utility model, X-axis locking member is simply supported beam.

Fig. 7 is the structure cutaway view of the second embodiment that in the utility model, Y-axis lock is stopped

Fig. 8 is the three-dimensional structure diagram of the second embodiment that in the utility model, Y-axis lock is stopped

Wherein, beam, 3-Y bearing housing, 4-Y axle bearing, 5-cylindrical drum, 6-piston before 1-U type base, 2-, 7-shaft coupling, 8-servomotor A, 9-X bearing housing, 10-X axle bearing, 11-grip slipper, 12-lock stop dish, 13-locating shaft, 14-bolt sphere, the brake holding of 15-X axle cantilever beam, the brake holding of 16-X axle simply supported beam, 17-Y axle cantilever beam locking member, the brake holding of 18-Y axle simply supported beam, 19-Y axle augmentor, 30-sector disk, 31-cantilever beam stop sheet A, 32-cantilever beam stop sheet B, 33-kinematic axis, 34-cylinder body, 35-screw rod, 81-servo motor B.

The specific embodiment

For making that architectural feature of the present utility model and the effect reached are had a better understanding and awareness, in order to preferred embodiment and accompanying drawing, coordinate detailed explanation, be described as follows:

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, described in the utility model a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, comprise U-shaped base 1 and U-shaped rotating frame component, U-shaped rotating frame component comprises X-axis bearing block 9 and front beam 2, the quantity of front beam 2 is 2, front beam 2 is fixedly mounted on respectively the two ends of X-axis bearing block 9, form on the whole one U-shaped.

Also comprise Y-axis assembly and X-axis assembly, Y-axis assembly comprises the Y-axis bearing block 3 of two lead arm ends that are fixedly mounted on respectively U-shaped base 1, and the quantity of Y-axis bearing block 3 is 2.The interior Y-axis bearing 4 that is all provided with of Y-axis bearing block 3, Y-axis bearing 4 can be large specification bearing, a large specification bearing is all installed two Y-axis bearing blocks 3 are interior; Y-axis bearing 4 also can be selected small dimension bearing, and two small dimension bearings are installed respectively in two Y-axis bearing blocks 3.The pivot extended line of Y-axis bearing 4 overlaps and forms Y-axis rotation centerline, and the rotary manipulation of Y-axis rotates along Y-axis rotation centerline, when Y-axis is rotated, drives U-shaped rotating frame component to rotate together.2 front beams 2 of U-shaped runner assembly are all run through installation by cylindrical drum 5, and cylindrical drum 5 runs through front beam 2 and is arranged on front beam 2.Cylindrical drum 5 is installed in the Y-axis bearing 4 of U-shaped base 1 lead arm end, the quantity of cylindrical drum 5 is also 2, cylindrical drum 5 becomes the intermediate connector of front beam 2 and Y-axis bearing 4, and U-shaped runner assembly rotates on Y-axis bearing 4, has formed and can drive U-shaped rotating frame component to carry out Y-axis rotation.

The inside of cylindrical drum 5 is all provided with piston 6, and piston 6 carries out piston movement in cylindrical drum 5.Cylindrical drum 5 practical functions are the cylinder body 34 of piston 6, on the cylinder cap of cylindrical drum 5, have hole, by hole, can adopt various ways to realize the motion of piston 6.In the utility model, cylindrical drum 5 has two, can on the cylinder cap of two cylindrical drum 5, all establish hole, carries out the Synchronous motion control of two pistons 6 simultaneously; Also can only on the cylinder cap of a cylindrical drum 5, establish hole therein, carry out the motion control of a piston 6, it all can be realized X-axis locking member lock is stopped and coiled 12 pressing operation.The first embodiment as piston 6 in cylindrical drum 5 interior motions, cylindrical drum 5 can be ram pot, the hole that is positioned at cylinder cap in cylindrical drum 5 is connected with s pump.By s pump, from the hole of cylinder cap, toward in, fill highly pressurised liquid, thereby realize the piston movement of piston 6 based on hydraulic way.The second embodiment as piston 6 in cylindrical drum 5 interior motions, cylindrical drum 5 can be pressure tank, the hole that is positioned at cylinder cap in cylindrical drum 5 is connected with high-pressure pump, by high-pressure pump, from the hole of cylinder cap, fills gases at high pressure toward in, thereby realizes the piston movement of piston 6 based on air pressure mode.The other end of one of them cylindrical drum 5 is connected with servomotor A8 by shaft coupling 7, and servomotor A8 controls the rotation of Y-axis, because cylindrical drum 5 is fixing with Y-axis bearing 4 by front beam 2, therefore in any one cylindrical drum 5, installs and just can realize the rotation of Y-axis.Can certainly in two cylindrical drum 5, servomotor A8 be all installed, carry out Synchronization Control.

X-axis assembly comprises the X-axis bearing block 9 of being located at U-shaped rotating turret 2 roots, and X-axis bearing 10 is installed in X-axis bearing block 9, and X-axis bearing 10 uses for X-axis rotation.The pivot extended line of X-axis bearing 10 form X-axis rotation centerline and with Y-axis rotation centerline quadrature, the installation site of X-axis bearing 10 and two Y-axis bearings 4 forms quadrature on extended line.The interior ring of X-axis bearing 10 is provided with grip slipper 11, and one end of grip slipper 11 is connected with servo motor B 81, and servo motor B 81 is controlled X-axis by grip slipper 11 and rotated.The other end of grip slipper 11 is fixed with to lock and stops dish 12 and locating shaft 13 is installed, and locks the dish 12 of stopping and is located between grip slipper 11 and locating shaft 13, and locating shaft 13 is for construction bolt ball 14.By the work of servo motor B 81, drive grip slipper 11 to rotate, thereby drive bolt sphere 14 around the rotation of X-axis.

The installation site of the X-axis locking member that contacts with piston 6 and X-axis locking member and the lock dish 12 of stopping is all installed corresponding on 2 front beams 2 of U-shaped runner assembly, X-axis locking member is done motion among a small circle under the promotion of piston 6, through can 12 contact with the lock dish of stopping after motion among a small circle, thereby play the effect of stopping of locking.As shown in Fig. 3, Fig. 4 and Fig. 6, X-axis locking member can be X-axis cantilever beam brake holding 15 or X-axis simply supported beam brake holding 16, X-axis cantilever beam brake holding 15 locks based on cantilever beam principle the control of stopping, X-axis simply supported beam brake holding 16 locks based on simply supported beam principle the control of stopping, though X-axis cantilever beam brake holding 15 and X-axis simply supported beam brake holding 16 locks are stopped, principle is different, but can under active force, carry out distortion among a small circle equally, after active force disappears, restore to the original state.X-axis locking member is in the embodiment of X-axis cantilever beam brake holding 15, and one end of X-axis cantilever beam brake holding 15 is fixedly mounted on X-axis bearing block 9, and the other end is unfixing.During piston 6 motion, first through front beam 2, then X-axis cantilever beam brake holding 15 is ejected with the lock dish 12 of stopping and contact, thereby play the effect of stopping of locking.X-axis locking member is in the embodiment of X-axis simply supported beam brake holding 16, based on simply supported beam principle, the two ends of X-axis simply supported beam brake holding 16 are all fixedly mounted on X-axis bearing block 9, during piston 6 motion, first through front beam 2, again X-axis simply supported beam brake holding 16 is ejected and form micro-distortion, thereby contact with the lock dish 12 of stopping, thereby play the effect of stopping of locking.

On U-shaped base 1, Y-axis augmentor 19 is installed, Y-axis locking member and Y-axis locking member are installed corresponding with any one cylindrical drum 5 on Y-axis augmentor 19, Y-axis locking member moves under the effect of Y-axis augmentor 19, and cylindrical drum 5 is carried out to brake holding, thereby realize, for the lock of Y-axis, stops.As shown in Figure 1, Figure 2, shown in Fig. 4 and Fig. 5, with X-axis locking member in like manner, Y-axis locking member can be also Y-axis cantilever beam locking member 17 or Y-axis simply supported beam brake holding 18, same Y-axis augmentor 19 can be also electric pushrod, cylinder, hydraulic cylinder or cam, as long as Y-axis augmentor 19 is realized motive power, provide the Y-axis locking member can be for the brake holding of cylindrical drum 5.Because the quantity of cylindrical drum 5 is 2, Y-axis locking member and Y-axis augmentor 19 can be 1, for one of them cylindrical drum 5, carry out brake holding.Also can be 2, guarantee 2 Y-axis augmentor 19 Synchronization Control.

In order to strengthen the locking effect of Y-axis, also for fear of Y-axis, in long-term locking operation, can cause the damage of cylindrical drum 5, can also add a kind of locking mode using in movement locus among a small circle when Y-axis, these two kinds of locking modes also can be combined together use.The second embodiment of stopping as Y-axis lock, also comprises and sector disk 30 that front beam 2 levels are installed, front beam 2 has two, can be before any one on beam 2 level sector disk 30 is installed.The installation site of sector disk 30 is positioned at the junction of front beam 2 and X-axis bearing block 9, be that sector disk 30 was arranged near (seating plane of front beam 2 is for connecting the intermediate member of two lead arms) on the seating plane of front beam 2, for being used in combination with cantilever beam sheet A31 and the cantilever beam sheet B32 that stops that stops.Cantilever beam the stop one end of sheet B32 of sheet A31 and cantilever beam of stopping is separately fixed on the seating plane of U-shaped base 1, stop sheet A31 and cantilever beam of cantilever beam stopped sheet B32 equally based on cantilever beam principle, one end is fixed on the seating plane of U-shaped base 1, and the other end can fluctuate up and down.Cantilever beam the stop other end of sheet B32 of sheet A31 and cantilever beam of stopping lays respectively at the two sides of sector disk 30, when stopping the downward deformation of sheet A31, cantilever beam can contact sector disk 30, when cantilever beam, stop when sheet B32 makes progress deformation and equally also can contact sector disk 30, the lock sector disk 30 of stopping, thereby lock stop before beam 2.

It is upper that cylinder body 34 is placed on the cantilever beam sheet A31 that stops through the lead arm of U-shaped base 1, and when cylinder body 34 is placed on to benefit that cantilever beam stops on sheet A31 and is that kinematic axis 33 in cylinder body 34 stretches out through U-shaped base 1, reaction force is to the cantilever beam sheet B32 that stops; If be placed on the lead arm of U-shaped base 1, reaction force is to U-shaped base 1, does not so just reach cantilever beam sheet A31 and the cantilever beam object that sheet B32 folds of stopping of stopping.Because cylinder body 34 is stopped on sheet B32 at stop sheet A31 and cantilever beam of cantilever beam by screw rod 35 is spacing, so cylinder body 34 is upper without being fixed on the cantilever beam sheet A31 that stops, and can also by press down cantilever beam stop sheet A31 realize cantilever beam stop sheet B32 on draw.The bottom of screw rod 35 is run through cantilever beam the stop sheet B32 and to be arranged on the cantilever beam sheet B32 that stops upper of sheet A31 and cantilever beam that stops successively, and screw rod 35 and the cantilever beam sheet B32 that stops can fixedly mount also and can movablely install, and movable installation can design projection or utilize spiro rod cap etc.Kinematic axis 33 is installed in cylinder body 34, and kinematic axis 33 can be hydraulic pressure or air pressure in the interior motion of cylinder body 34, provides hydraulic pressure or air pressure also can have various ways, and hydraulic pump, air pump or electric pushrod can be directly installed on cylinder body 34; Also hole be can on cylinder body 34, open, from cylindrical drum 5, hydraulic pressure or air pressure drawn to hole; As long as realize the motion of kinematic axis 33 in cylinder body 34.The top of screw rod 35 is arranged in the screw hole of cylinder body 34, and for the installation of cylinder body 34, the quantity of screw rod 35 is 4 conventionally.The other end of kinematic axis 33 and the cantilever beam sheet A31 that stops is connected, and when kinematic axis 33 presses down, cantilever beam stop sheet B32 and sector disk 30 threes of sheet A31, cantilever beam that stop contact.Like this when kinematic axis 33 is during in the interior motion of cylinder body 34, press down the cantilever beam sheet A31 that stops, the cantilever beam sheet B32 that stops stops together with sheet A3 and clamps sector disk 30 with cantilever beam under reaction force, the function thereby the lock of realizing Y-axis is stopped.

During actual use, bolt sphere 14 is fixedly mounted on locating shaft 13, and locating shaft 13 is fixed in grip slipper 11, when needs rotation location, unclamps X-axis locking member and Y-axis locking member.Servo motor B 81 work, drive locating shaft 13 rotations, complete the angle adjustment of bolt sphere X-axis line.Servomotor A8 work, drives cylindrical drum 5 rotations, completes the angle adjustment of bolt sphere 14Y axis, thereby meets in bolt sphere 14 process requirements at any angle.After angle adjustment completes, in the hole in cylindrical drum 5, be filled with highly pressurised liquid or highly pressurised liquid, the output shaft that promotes piston 6 outwards moves, compress cantilever beam brake holding 15 or X-axis simply supported beam brake holding 16, it is tightly embraced and lock the dish 12 of stopping, thus locking X-axis, and X-axis can not be rotated; 19 work of Y-axis augmentor, Y-axis cantilever beam locking member 17 or Y-axis simply supported beam brake holding 18 are moved forward, make Y-axis cantilever beam locking member 17 or Y-axis simply supported beam brake holding 18 distortion, tightly push down cylindrical drum 5, thereby locking Y-axis, Y-axis can not be rotated, and then starts the relevant processing work of right in the face, boring and tapping of bolt sphere 14.

More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what in above-described embodiment and description, describe is principle of the present utility model; under the prerequisite that does not depart from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall in claimed scope of the present utility model.The protection domain that the utility model requires is defined by appending claims and equivalent thereof.

Claims (7)

1. one kind with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, comprise U-shaped base (1) and U-shaped rotating frame component, U-shaped rotating frame component comprises X-axis bearing block (9) and front beam (2), the quantity of front beam (2) is 2, front beam (2) is fixedly mounted on respectively the two ends of X-axis bearing block (9), it is characterized in that: also comprise Y-axis assembly and X-axis assembly, Y-axis assembly comprises the Y-axis bearing block (3) of two lead arm ends that are fixedly mounted on respectively U-shaped base (1), the quantity of Y-axis bearing block (3) is 2, Y-axis bearing (4) is all installed in Y-axis bearing block (3), on, the pivot extended line of lower two Y-axis bearings (4) overlaps and forms Y-axis rotation centerline, 2 front beams (2) of U-shaped runner assembly all by cylindrical drum (5), are run through installation and cylindrical drum (5) is installed in the Y-axis bearing (4) of U-shaped base (1) lead arm end, the inside of cylindrical drum (5) is all provided with piston (6), on the cylinder cap of cylindrical drum (5), have hole, the quantity of cylindrical drum (5) is 2, the other end of one of them cylindrical drum (5) is by shaft coupling (7) and servomotor A(8) be connected,

X-axis assembly comprises the X-axis bearing block (9) of being located at U-shaped rotating turret (2) root, and X-axis bearing (10) is installed in X-axis bearing block (9), the pivot extended line of X-axis bearing (10) form X-axis rotation centerline and with Y-axis rotation centerline quadrature;

The interior ring of X-axis bearing (10) is provided with grip slipper (11), one end of grip slipper (11) is connected with servo motor B (81), the other end of grip slipper (11) is fixed with to lock and stops dish (12) and locating shaft (13) is installed, locating shaft (13) is upper installs processed bolt sphere (14), the position of the X-axis locking member that contacts with piston (6) and X-axis locking member and the lock dish (12) of stopping is all installed corresponding on 2 front beams (2) of U-shaped runner assembly; Y-axis augmentor (19) is installed on U-shaped base (1), and the position that Y-axis locking member and Y-axis locking member are installed on Y-axis augmentor (19) is corresponding with any one cylindrical drum (5).

2. according to claim 1 a kind ofly it is characterized in that: described X-axis locking member is X-axis simply supported beam brake holding (16) with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, described Y-axis locking member is Y-axis simply supported beam brake holding (18).

3. according to claim 1 a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, it is characterized in that: described X-axis locking member is X-axis cantilever beam brake holding (15), it is upper that one end of X-axis cantilever beam brake holding (15) is fixedly mounted on X-axis bearing block (9), and described Y-axis locking member is Y-axis cantilever beam locking member (17).

4. according to claim 1 a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, it is characterized in that: described cylindrical drum (5) is ram pot, and the hole that is positioned at cylinder cap in cylindrical drum (5) is connected with s pump.

5. according to claim 1 a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, it is characterized in that: described cylindrical drum (5) is pressure tank, and the hole that is positioned at cylinder cap in cylindrical drum (5) is connected with high-pressure pump.

6. according to claim 1 a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, it is characterized in that: described Y-axis augmentor (19) is electric pushrod, cylinder, hydraulic cylinder or cam.

7. according to claim 1 a kind of with the lock rack bolt ball processing digital-controlled scaling unit of function of stopping, it is characterized in that: also comprise that the sector disk (30) installed with front beam (2) level and sector disk (30) are positioned at the junction of front beam (2) and X-axis bearing block (9), the cantilever beam sheet A(31 that stops) and the cantilever beam sheet B(32 that stops) one end be separately fixed on the seating plane of U-shaped base (1), the cantilever beam sheet A(31 that stops) and the cantilever beam sheet B(32 that stops) the other end lay respectively at the two sides of sector disk (30), the top of screw rod (35) is arranged in the screw hole of cylinder body (34), cylinder body (34) is placed on the cantilever beam sheet A(31 that stops through the lead arm of U-shaped base (1)) top, the bottom of screw rod (35) is run through the cantilever beam sheet A(31 that stops successively) and the cantilever beam sheet B(32 that stops) and be arranged on the cantilever beam sheet B(32 that stops) below, kinematic axis (33) is installed in cylinder body (34), the other end of kinematic axis (33) and the cantilever beam sheet A(31 that stops) be connected, and the cantilever beam sheet A(31 that stops when kinematic axis (33) presses down), the cantilever beam sheet B(32 that stops) and sector disk (30) three contact.