CN208322329U - A kind of controllable shaping cutting device of pipeline Mosaic face - Google Patents

Abstract

A controllable forming and cutting device for a pipe splicing surface, comprising a cutting unit arranged on one side and a pipe feeding unit arranged on the other side opposite to the cutting unit; the cutting unit comprises a machine base, which is installed on the machine base The driving motor on the base, the rotating shaft installed on the base and drivingly connected to the driving motor, the forming template mechanism fixedly connected to the base, and the forming template mechanism slidably connected to the forming template mechanism and fixedly connected to the A forming guide mechanism that rotates the shaft to follow up, the forming template mechanism is provided with a forming preset sliding surface, and the forming guide mechanism is provided with a sliding connection portion slidably connected with the forming preset sliding surface; The pipe feeding unit includes a clamping seat frame, two movable clamping plates, at least one pair of pressing blocks and a driving mechanism. The utility model has the advantages of simple structure, convenient use, meeting the needs of various cutting surfaces, high automation, low cost input, stable and controllable feeding, and good operation safety, and is very worthy of being popularized and used in the field.

Description

A kind of controllable shaping cutting device of pipeline Mosaic face

Technical field

The utility model relates to pipe cutting technical field, specifically a kind of controllable shaping cutting device of pipeline Mosaic face.

Background technique

It is completed currently, most of for the cutting operation of pipeline especially stainless steel pipes by abrasive cutoff saw.Abrasive cutoff saw Although cutting speed is than very fast, its cutting accuracy is lower, and spark when cutting is larger, and kerf quality is poor.Therefore, sand Wheel saw can only meet the pipe cutting of less demanding to cutting accuracy, without being able to satisfy answering for the more demanding occasion of cut quality With；Secondly, this abrasive cutoff saw generally can only according to the control of operator, to form relatively simple pipeline section, such as it is longitudinal sectional, Beveling etc., is unable to complete more complicated section；Furthermore this abrasive cutoff saw mainly dominates operation, therefore its by operator manually Operating process is influenced by the subjective factor of operator, it is possible to further decrease cut quality and cutting accuracy；In addition, It is also possible to being damaged to operator in the use process of abrasive cutoff saw.

As the patent document of Patent No. CN206276969U discloses a kind of hand-held hard pipe cutter, including card Tight part and cut portion, the cut portion include hand holding handle and cutting blade, and the upper end of the hand holding handle is equipped with cavity, institute It states and is equipped with battery in the upper end cavity of hand holding handle, be additionally provided on the upper end outer wall of the hand holding handle and be connected with the battery Switch, the inside of the hand holding handle is equipped with electric telescopic rod, and the hand holding handle is stretched out in the end of the electric telescopic rod Except end, the cutting blade is installed on the end of the electric telescopic rod, the cutting blade and the electric telescopic rod It is respectively connected with the battery and the switch, the gripping part includes retainer ring and push rod, and the retainer ring includes two One end of opposite semicircle loop-drive, two semicircle loop-drives is hinged, and hinged place is equipped with articulated shaft, and two semicircle loop-drives can It rotates to open and close the retainer ring along the articulated shaft, and two semicircle loop-drives are fixed by the articulated shaft In front of the end of the hand holding handle, the other end of two semicircle loop-drives is connected separately with connection sheet, two connections On piece is equipped with mounting hole and connection bolt, is consolidated the connection sheet bolt of two semicircle loop-drives by the connection bolt, described There are four push rod is total, four push rods are evenly distributed on the circumference of the retainer ring, and the push rod is screw rod, each described to push away Bar passes through the semicircle loop-drive and is fixed by nut and the semicircle loop-drive, and each push rod stretches to inside the retainer ring Conduit saddle is equipped at one end.The cutting machine of the patent disclosure is although easy to carry, operates, but it cannot still be detached from manually In the case where operation, the higher section of precision and increasingly complex section in addition to the straight section of single solution for diverse problems are formed, and also still There are the higher risks damaged to people.

Summary of the invention

The technical purpose of the utility model is to provide a kind of controllable shaping cutting device of pipeline Mosaic face, relative to such as sand The structures such as wheel saw, hand-held cutting machine and function are relatively simple or need traditional cutting equipment of manually auxiliary operation, solution Certainly it can not form that more complicated section, cutting accuracy are relatively low, are easy the problem of damaging to people.

The specific technical solution of the utility model is as follows: a kind of controllable shaping cutting device of pipeline Mosaic face, including is set to The cutter unit of side and set on the other side of the relatively described cutter unit give pipe unit；The cutter unit include base, The driving motor that is mounted on the base, be mounted on the base and be sequentially connected in the driving motor rotation axis, It is fixedly connected on the forming panel mechanism of the base and is slidably connected to the forming panel mechanism and is fixedly connected on described Rotation axis and carry out servo-actuated molding guiding mechanism, the forming panel mechanism is equipped with the default sliding face of molding, the molding Guiding mechanism is equipped with the slide connecting part being slidably connected with the default sliding face of the molding；It is described to pipe unit include holder framework, Set on the intracorporal opposite side each other of the holder frame two pieces of ambulatory splints, be respectively provided on two pieces of ambulatory splint surfaces extremely Few a pair of compact heap and the opposite driving mechanism drawn close of two pieces of ambulatory splints is driven, is equipped in the holder framework described in supplying It inside sliding slot that ambulatory splint is slidably connected and opposite for ambulatory splint sliding draws close and the activity communicated with the outside world is engraved Cavity.

Preferably, the forming panel mechanism includes being connected to the fixed plate of the base and being connected to the fixed plate On formed body, the fixed plate is detachably connected with the base and/or the formed body detachably connects with the fixed plate It connects, the default sliding face of molding is set on the formed body.

Preferably, the molding guiding mechanism include the follower disk for being fixedly connected on the rotation axis, be located at it is described with Moving plate side is oriented to substrate, positioned at the cutting substrate of the follower disk other side and across the follower disk, the guiding base The moveable combination of guide rod of plate, the cutting substrate, the moveable combination of guide rod is horizontally moveable relative to the follower disk, the moveable combination of guide rod Both ends be separately fixed at the guiding substrate, on the cutting substrate, the slide connecting part is set on the guiding substrate, institute It states and is additionally provided with reset assembly between guiding substrate and the follower disk.

Preferably, the reset assembly include one end be fixed on the guiding substrate and the other end pass through it is described servo-actuated The reset guide rod of disk and the reset spring being nested on the reset guide rod, the reset guide rod can water relative to the follower disk Translation is dynamic.

Preferably, the guiding substrate, the follower disk, be equipped on the cutting substrate match for the work The positioning strip hole that dynamic guide rod passes through, the positioning strip hole two sides on the follower disk are equipped with to be nested with leads in the activity Bar Upper shaft sleeve, the axle sleeve are detachably connected with the follower disk.

Preferably, the slide connecting part includes being fixedly connected on the guide wheel mounting base for being oriented to substrate and being located at described lead The guide wheel in mounting base is taken turns, the guide wheel is slidably connected on the default sliding face of the molding.

Preferably, the cutting substrate is equipped with cutting part, the cutting part includes being fixedly connected on the cutting base The cutting mounting base of plate and the cutter head being located in the cutting mounting base.

Preferably, the driving mechanism includes clamping driving source, being connected to two pieces of ambulatory splint bottoms Two horizontal racks, the driven gear for engaging connection with two horizontal racks simultaneously and transmission connection drive in the clamping Transmission component between source and the driven gear；Between two horizontal racks are relatively oblique opposite side and exist each other Every space, the tooth socket of the horizontal rack is arranged towards the clearance space, and the driven gear is set in the clearance space.

Preferably, the transmission component includes that one end is connected to the vertical pivot of the driven gear, is connected to the vertical pivot The drive bevel gear and one end that the drive bevel gear of the other end, engagement are connected to the drive bevel gear are connected to the initiative taper The horizontal axis of gear, the other end of the horizontal axis are connected to clamping driving source.

Preferably, the holder framework is mounted on a positioning seat, the positioning seat is mounted on a pedestal, described fixed Position seat is also connected with feeding adjusting mechanism, and the feeding adjusting mechanism includes the feed screw set on the base and is connected to The Feed servo system source of the feed screw.

Preferably, the pedestal is equipped with guiding conduit, the positioning seat bottom is equipped with and matches with the guiding conduit Guide runner.

Preferably, the center line of follower disk is with the centerline by forming the body that default sliding road surrounds with always On line.

The technological merit of the utility model is that the controllable shaping cutting device structure of the pipeline Mosaic face is simple, user Just, the forming panel mechanism can preset the cutting route to pipeline section, the molding guiding mechanism and the shaping mould Trigger structure is linked and is cut along preset cutting route to pipeline, can be completed without human assistance operation higher The cutting operation of the Multiple Shape section of precision, the forming panel mechanism itself are ready for multiple so as to dismounting and change, meet more Kind section needs, and device integrated automation degree is high, and cost input is lower, and pipeline feeds stably and controllable, good operation safety, non- Constant value obtains to be promoted the use of in the art.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model embodiment；

Fig. 2 is the partial structural diagram of the utility model embodiment；

Fig. 3 is the partial structural diagram of the utility model embodiment；

Corresponding each section title is numbered in figure is respectively as follows: 1- pedestal, 11- feed screw, 12- is oriented to conduit, 2- base, 21- driving motor, 22- rotation axis, 3- positioning seat, 31- guide runner, 32- Feed servo system source, 4- fixed plate, 41- fixed plate, The default sliding face of 411- molding, 5- follower disk, 6- guiding substrate, 61- guide wheel mounting base, 62- guide wheel, 7- cutting substrate, 71- are cut Cutting mounting base, 72- cutter head, 8- moveable combination of guide rod, 81- axle sleeve, 9- resets guide rod, 91- reset spring, b1- holder framework, B2- ambulatory splint, b21- compact heap, b22- horizontal rack, b3- driven gear, b4- clamp driving source, b5- vertical pivot, b6- transmission Bevel gear, b7- drive bevel gear, b8- horizontal axis.

Specific embodiment

Below in conjunction with attached drawing, by specific embodiment, the utility model is described in further detail:

See Fig. 1, Fig. 2, a kind of embodiment of the controllable shaping cutting device of pipeline Mosaic face, the cutting list including being set to side Member and set on the other side of opposite cutter unit give pipe unit；The driving that cutter unit includes base 2, is mounted on base 2 Motor 21, be mounted on base 2 and be sequentially connected in driving motor 21 rotation axis 22, be fixedly connected on the shaping mould of base 2 It trigger structure and is slidably connected to forming panel mechanism and is fixedly connected on rotation axis 22 and carries out servo-actuated molding guiding mechanism, at Type template mechanism is equipped with the default sliding face 411 of molding, and molding guiding mechanism is equipped with to be connected with the default sliding sliding of face 411 of molding The slide connecting part connect；To pipe unit include holder framework b1, opposite side each other in holder framework b1 two pieces of ambulatory splint b2, What the two pieces of ambulatory splint b2 of at least a pair of compact heap b21 and drive being respectively provided on two pieces of surfaces ambulatory splint b2 were drawn close relatively Driving mechanism is equipped in holder framework b1 for the ambulatory splint b2 inside sliding slot being slidably connected and the phase for ambulatory splint b2 sliding To the activity hollow out chamber drawn close and communicated with the outside world.

Forming panel mechanism includes the fixed plate 4 for being connected to base 2 and the formed body 41 being connected in fixed plate 4, molding Default sliding face 411 is set on formed body 41.Formed body 41 is detachably connected with fixed plate 4, and it is different actually to prepare multiple bands The default sliding face 411 of molding formed body 41, formed body 41 and fixed plate 4 are detachably connected and facilitate formed body 41 in fixation Bolt apertures can be arranged on formed body 41 and fixed plate 4, and carry out the fixation that is spirally connected with screw for replacement on plate 4, can also be with The bayonet to match is set and clamp carries out buckle fixation；Certain formed body 41 be also possible to 4 one of fixed plate, and fix Plate 4 is detachably fixed with base 2 or formed body 41 is detachably fixed with fixed plate 4, fixed plate 4 is the integrated portion on base 2 Part, the modes such as being detachably connected, which equally can be, is spirally connected, snaps connection actually meet and change the default sliding face of molding in real time on demand 411 needs.In diagram, formed body 41 is an annular body, and a circle slideway is provided in the annular body, and as molding is pre- If sliding face 411, the guide wheel 62 of slide connecting part is slided along default sliding face 411 is formed, and final drive cutting part movement cuts out pre- If section.

Forming guiding mechanism includes the follower disk 5 for being fixedly connected on rotation axis 22, the guiding substrate positioned at 5 side of follower disk 6, the cutting substrate 7 positioned at 5 other side of follower disk and the moveable combination of guide rod 8 across follower disk 5, guiding substrate 6, cutting substrate 7, it is living Dynamic guide rod 8 is horizontally moveable relative to follower disk 5, and the both ends of moveable combination of guide rod 8 are separately fixed at guiding substrate 6, cutting substrate 7 On, slide connecting part is set on guiding substrate 6.Follower disk 5 follows 22 radial rotating of rotation axis, then by moveable combination of guide rod 8 with action-oriented Substrate 6 and cutting substrate 7 rotate together；And be oriented to substrate 6 and be also connected with slide connecting part, slide connecting part includes being fixedly connected on guiding base The guide wheel mounting base 61 of plate 6 and the guide wheel 62 being located in guide wheel mounting base 61, guide wheel 62 are slidably connected at the default sliding face of molding On 411.Slide connecting part is slided along the route in the default sliding face 411 of molding, and because 8 both ends of moveable combination of guide rod be oriented to substrate 6, cut The fixation of cutting board 7, rest part are horizontally movable relative to follower disk 5, therefore final cutting substrate 7 can be in radial rotating Subsidiary axial movement simultaneously, and this compound motion of cutting substrate 7 is the cutting that a default section is carried out to pipeline Movement.Cutting substrate 7 is equipped with cutting part, and cutting part includes being fixedly connected on the cutting mounting base 71 of cutting substrate 7 and being located at Cut the cutter head 72 in mounting base 71, the not necessarily metallic blade body of cutter head 72, cutter head 72 in the present embodiment A variety of cutting equipments can be connected to realize the cutting modes such as gas flame cuttiug, plasma cut, laser cutting in addition, itself be institute Select the fixation cutter head assembly that cutting mode is final.

Reset assembly is additionally provided between guiding substrate 6 and follower disk 5, reset assembly includes that one end is fixed on guiding substrate 6 Above reset guide rod 9 and the reset spring 91 that is nested on reset guide rod 9 of the other end across follower disk 5, resets guide rod 9 relatively It is horizontally moveable in follower disk 5.After completing cutting action, guiding substrate 6 is resetted, pure too numerous by manually adjusting It is trivial, practical operation demand is not met yet, therefore add one and reset guide rod 9 and a reset spring 91, recycle slide connecting part and molding pre- If the relationship that is slidably connected in sliding face 411, it is to be cut finish to make entirely to form guiding mechanism naturally be returned to initial shape State.

Guiding substrate 6, follower disk 5 are equipped with the positioning strip passed through for moveable combination of guide rod 8 to match on cutting substrate 7 Hole, the positioning strip hole two sides on follower disk 5, which are equipped with, to be nested in 8 Upper shaft sleeve 81 of moveable combination of guide rod, and axle sleeve 81 and follower disk 5 are removable Unload connection.Axle sleeve 81 enables moveable combination of guide rod 8 is smooth to move horizontally, and the presence for strip hole of transposing makes moveable combination of guide rod 8 can be with Radial fine tuning is carried out to be more convenient by the way it is also possible that the position of cutting substrate 7 can be finely adjusted therewith in different situations Under cutting operation.

Referring back to Fig. 3, driving mechanism includes two for clamping driving source b4, being connected to two pieces of bottoms ambulatory splint b2 Horizontal rack b22, the driven gear b3 for engaging connection with two horizontal rack b22 simultaneously and transmission connection are clamping driving source b4 With the transmission component between driven gear b3；Two horizontal rack b22 are relatively oblique opposite side and there is interval sky each other Between, the tooth socket of horizontal rack b22 is arranged towards clearance space, and driven gear b3 is set in clearance space.Transmission component includes one The vertical pivot b5, the drive bevel gear b6 for being connected to the vertical pivot b5 other end, engagement that end is connected to driven gear b3 are connected to transmission cone The drive bevel gear b7 of gear b6 and one end are connected to the horizontal axis b8 of drive bevel gear b7, and the other end of horizontal axis b8 is connected to clamping Driving source b4.Clamping driving source b4 can be manually controlled for the component of hand crank etc with realizing, or the components such as motor It is automatically controlled with realizing, the kind of drive by taking aforementioned transmission component as an example is described in detail in the present embodiment, naturally it is also possible to pass through The components such as other gears, belt change the structure at another set of transmission connection, are finally driven gear b3 to be driven.Work as driven tooth When taking turns b3 rotation, drives two horizontal rack b22 opposite and move, that is, drive two ambulatory splint b2 along internal sliding slot phase Xiang Erdong, final effect are exactly so that the pairs of compact heap b21 on both sides is opposite and moves, i.e. extruding fastens tube body therebetween. In order to optimize clamp effect, clamping slot can be set on compact heap b21, clamping slot can be V-arrangement；It can be set on certain compact heap b21 At least two clampings protrusion is set, clamps and forms interval trough between protrusion, can equally further strengthen clamping effect；In addition preceding Clamp pad can also be increased in these settings by stating, and can also reinforce clamping effect, so that clamping is more stable, similar adaptation tube body shape Can applying thereon with protective additional clamping structure for shape, is not limited with aforementioned.

Holder framework b1 is mounted on a positioning seat 3, and positioning seat 3 is mounted on a pedestal 1, positioning seat 3 be also connected with into To regulating mechanism, feeding adjusting mechanism includes that the feed screw 11 being located on pedestal 1 and the feeding for being connected to feed screw 11 are driven Dynamic source 32, Feed servo system source 32 can be hand crank to be manually controlled, and the electrical equipments such as motor can be set also to carry out It automatically controls.Pedestal 1 is equipped with guiding conduit 12, and 3 bottom of positioning seat is equipped with and the guiding matched guide runner 31 of conduit 12.It is fixed The presence of position seat 3 is exactly to drive entire clamp system mobile, adjusts the supplying position of pipeline, is more convenient cutting operation.Pedestal 1 is not The mounting base that only can be used as positioning seat 3 can also be used as a total mounting base and install whole device.Positioning seat 3 In can also be arranged for transmission component installation and movable installation cavity, itself may act as transmission component depends on fixed part Part, as shown.In addition, the center line of follower disk 5 and the centerline by forming the body that default sliding road 411 surrounds On the same line, guarantee not generating any interference, cooperation positioning strip hole is smooth accurately to realize cutting.

Whole work process are as follows: tube body is clamped after adjusting good position by clamp system across clamping caliper a7, can be with Continue the position of adjusting positioning seat 3 by feeding adjusting mechanism, so that tube body enters station to be cut；Start driving after regulating Motor 21 drives entire molding guiding mechanism movement by the connection of rotation axis 22 and follower disk 5, mainly cutting substrate 7 Radial rotating, while passing through the connection of slide connecting part and the default sliding face 411 of molding, make axial movement there are one cutting substrates 7, The radial and axial composite move of cutting substrate 7 finally realizes cutting of the cutter head 72 to tube body, and cuts out default Section, default section just determine that the automation that device meets a variety of sections is cut by forming the shape setting in default sliding face 411 Demand is cut, cutting relative accuracy is high, and safety is good, and cost input is low, and it is easy to operate, it can easily be accommodated control, improve working efficiency, Labor intensity of workers is reduced, be worth promoting use, can be not only used for pipe cutting field certainly, is equally usable in solid The close cutting field such as cylinder.

Claims (10)

1. A controllable forming and cutting device for pipe splicing surfaces, characterized in that: it comprises a cutting unit arranged on one side and a pipe feeding unit arranged on the other side relative to the cutting unit; the cutting unit comprises a machine base ( 2), a drive motor (21) installed on the machine base (2), a rotating shaft (22) installed on the machine base (2) and drivingly connected to the drive motor (21), a fixed connection A forming template mechanism on the machine base (2) and a forming guide mechanism slidably connected to the forming template mechanism and fixedly connected to the rotating shaft (22) for follow-up, the forming template mechanism is provided with forming A preset sliding surface (411), the forming guide mechanism is provided with a sliding part slidably connected with the forming preset sliding surface (411); the pipe feeding unit includes a clamping frame body (b1), Two movable splints (b2) located on opposite sides of each other in the clamp frame body (b1), and at least a pair of pressing blocks (b21) respectively provided on the surfaces of the two movable splints (b2) and a drive mechanism that drives the two movable splints (b2) to move closer together, and the clamp base frame (b1) is provided with an internal chute for sliding connection of the movable splint (b2) and an internal chute for the movable splint (b2). b2) A movable hollow cavity that slides relatively close to and communicates with the outside world. 2 . A controllable forming and cutting device for pipe splicing surfaces according to claim 1 , wherein the forming template mechanism comprises a fixing plate ( 4 ) connected to the machine base ( 2 ) and a fixed plate ( 4 ) connected to the The forming body (41) on the fixing plate (4), the fixing plate (4) and the machine base (2) are detachably connected and/or the forming body (41) and the fixing plate (4) are detachable The connection is disassembled, and the molded pre-set sliding surface (411) is provided on the molded body (41). 3. A controllable forming and cutting device for pipe splicing surfaces according to claim 1 or 2, characterized in that: the forming guide mechanism comprises a follower plate (5) fixedly connected to the rotating shaft (22), The guiding substrate (6) on one side of the follower plate (5), the cutting substrate (7) on the other side of the follower plate (5) and passing through the follower plate (5), the A movable guide rod (8) for guiding the base plate (6) and the cutting base plate (7), the movable guide rod (8) can move horizontally with respect to the follower plate (5), and the movable guide rod (8) ) are respectively fixed on the guide base plate (6) and the cutting base plate (7), and the sliding part is provided on the guide base plate (6). 4 . The controllable forming and cutting device for pipe splicing surfaces according to claim 3 , wherein a reset component is further provided between the guide base plate ( 6 ) and the follower plate ( 5 ). 5 . The reset assembly includes a reset guide rod (9) with one end fixed on the guide base plate (6) and the other end passing through the follower plate (5), and a reset spring sleeved on the reset guide rod (9) (91), the reset guide rod (9) can move horizontally relative to the follower plate (5). 5 . The controllable forming and cutting device for pipe splicing surfaces according to claim 3 , wherein the guide base plate ( 6 ), the follower plate ( 5 ) and the cutting base plate ( 7 ) are all on the guide base plate ( 6 ). 6 . There is a matching elongated hole for position adjustment through which the movable guide rod (8) passes, and both sides of the elongated position adjustment hole on the follower plate (5) are provided with sleeves on the A shaft sleeve (81) is placed on the movable guide rod (8), and the shaft sleeve (81) is detachably connected to the follower plate (5). 6. A controllable forming and cutting device for pipe splicing surfaces according to claim 3, characterized in that: the sliding part comprises a guide wheel mounting seat (61) fixedly connected to the guide base plate (6) and a device A guide wheel (62) on the guide wheel mounting seat (61), the guide wheel (62) is slidably connected to the pre-formed sliding surface (411). 7 . A controllable forming and cutting device for pipe splicing surfaces according to claim 3 , characterized in that: the cutting base plate ( 7 ) is provided with a cutting part, and the cutting part comprises a cutting part that is fixedly connected to the cutting base plate ( 7 . 7) The cutting mounting seat (71) and the cutting head (72) provided on the cutting mounting seat (71). 8 . A controllable forming and cutting device for pipe splicing surfaces according to claim 1 , wherein the driving mechanism comprises a clamping driving source (b4), which is respectively connected to the bottom of the two movable splints (b2). 9 . The two horizontal racks (b22), the driven gear (b3) meshingly connected with the two horizontal racks (b22) at the same time, and the transmission connection are between the clamping drive source (b4) and the driven gear The transmission assembly between (b3); the two horizontal racks (b22) are diagonally opposite to each other and there is an interval between each other, and the tooth slots of the horizontal racks (b22) are arranged toward the interval , the driven gear (b3) is arranged in the interval space. 9 . The controllable forming and cutting device for pipe splicing surfaces according to claim 8 , wherein the transmission assembly comprises a vertical shaft (b5) connected to the driven gear (b3) at one end, and connected to the The drive bevel gear (b6) at the other end of the vertical shaft (b5), the drive bevel gear (b7) meshed with the drive bevel gear (b6), and the horizontal shaft (b7) at one end connected to the drive bevel gear (b7) b8), the other end of the horizontal shaft (b8) is connected to the clamping drive source (b4). 10. A controllable forming and cutting device for pipe splicing surfaces according to claim 1, characterized in that: the clamping seat frame body (a1) is mounted on a positioning seat (3), and the positioning seat (3) Installed on a base (1), the positioning seat (3) is also connected with a feed adjustment mechanism, and the feed adjustment mechanism includes a feed screw (11) provided on the base (1) and a connection The feed drive source (32) of the feed screw (11).