CN104858948B - Multi-saw-web numerical control tenoning machine - Google Patents

Abstract

The invention relates to a multi-saw-web numerical control tenoning machine. A tenon oblique head feeding upper table base is fixed to one side of a multi-saw-web numerical control tenoning machine frame, a tenon oblique head feeding upper table for fixing a workpiece is arranged on the tenon oblique head feeding upper table base, and a pivot angle rotating base rotating in the circumferential direction is arranged on the other side of the multi-saw-web numerical control tenoning machine. A vertical bolt frame walking guide rail extending horizontally is arranged on the pivot angle rotating base. A vertical saw web with central axis parallel to a horizontal plane and a horizontal saw web with central axis perpendicular to the horizontal plane are arranged on lifting guide rails through lifting bearing seats, the vertical saw web is in driven connection with a vertical saw web motor for rotation, and the horizontal saw web is in driven connection with a horizontal saw web motor for rotation. The vertical saw web can slide in the central axis direction of the vertical saw web back and forth relative to the corresponding lifting bearing seat, and the horizontal saw web can slide in the central axis direction of the horizontal saw web back and forth relative to the corresponding lifting bearing seat. The multi-saw-web numerical control tenoning machine is simple and reasonable in structure, high in automation degree, machining efficiency and machining accuracy.

Description

A kind of many saw blades Numerical Control Tenonning Machine

Technical field

The present invention relates to a kind of numerical control seat mortising machine technical field, especially a kind of many saw blades Numerical Control Tenonning Machine.

Background technology

At present, the processing of carpenter's tenon and tongue-and-groove, generally requires the operation by twice or more and machine just can complete, Through twice or multiple charging and discharging, its inefficiency, and precision is difficult to control.

Content of the invention

It is an object of the invention to solving above-mentioned the deficiencies in the prior art, and provide a kind of simple and reasonable for structure, automatization Degree is high, high in machining efficiency, the high many saw blades Numerical Control Tenonning Machine of machining accuracy.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of many saw blades Numerical Control Tenonning Machine, including numerical control many saw blades tenon frame, is characterized in that；

Described numerical control many saw blades tenon frame side is fixed with tenon plagiocephaly feeding and appears on the stage base, and tenon plagiocephaly feeding is appeared on the stage base The tenon plagiocephaly feeding being provided with fixing workpiece is appeared on the stage, and numerical control many saw blades tenon frame opposite side is provided with the pendulum that circumferentially direction rotates Angle turns base；

Pivot angle turns base and is provided with horizontal-extending vertical stock walking guide rail, and in vertical stock walking guide rail, slip seat is provided with along height The vertical stock that degree direction extends, vertical stock is provided with riser guide along short transverse；

It is provided with vertical saw blade and horizontal saw blade, the central axis of vertical saw blade and water by lifting fulcrum bearing on riser guide Plane is parallel, the central axis of horizontal saw blade and horizontal plane, and vertical saw blade is driven by vertical saw blade motor and switches through dynamic, leveling saw Piece is switched through dynamic by the drive of horizontal saw blade motor；

Vertical saw blade can with OQ t fulcrum bearing along vertical saw blade central axial direction slide anteroposterior, horizontal saw blade can With OQ t fulcrum bearing along vertical saw blade central axial direction slide anteroposterior.

Using many saw blades Numerical Control Tenonning Machine of this structure, it is located at, by sliding to sit vertical stock, the vertical stock that pivot angle turns base In walking guide rail, make the vertical stock being provided with vertical saw blade and horizontal saw blade both can realize horizontal sliding feed, can lead to again Cross pivot angle and turn base around numerical control many saw blades tenon frame circular-rotation, realize the axial rotation with horizontal plane, so that saw blade is existed More flexible during sawing, oscilaltion can be realized along riser guide in conjunction with the lifting fulcrum bearing being provided with first and second saw blade, with And vertical saw blade and horizontal saw blade all can be along the central axial direction slide anteroposterior of vertical saw blade so that vertical saw blade and level Saw blade can realize multi-shaft interlocked it is achieved that the motion track of similar mechanical handss, when sawing goes out tenon, saw blade can be realized relatively For round and smooth run trace, enter knife in saw blade and sawing will not be missed and injure the other parts of timber when going out knife, can effectively carry High working (machining) efficiency, improves machining accuracy, realizes multiple difference tenons, the digital control processing of tongue-and-groove.

The present invention can also be solved using following technical measures:

Numerical control many saw blades tenon frame opposite side is provided with frame pivoting support, and pivot angle turns the base seat that circumferentially slides and is located at machine On frame pivoting support, numerical control many saw blades tenon bottom of the frame is fixed with swing angle electric, and pivot angle turns base bottom along frame revolution The central axis holding is connected with pivot angle circumference rotating shaft, pivot angle circumference rotating shaft and swing angle electric drive connection；Frame pivoting support is made For ring-shaped guide rail, make pivot angle turn base and can realize circumferential slippage, adjust the saw cutting angle of vertical saw blade or horizontal saw blade, for example The tenon of 45 degree of sawing or tongue-and-groove is needed to rotate 45 degree it is possible to pivot angle being turned base and turning by home position, you can to realize；In addition Pivot angle turns base bottom and is additionally provided with the annular groove with the cooperation of frame pivoting support.

Riser guide is arranged on the front end face and rear end face of vertical stock, and lifting fulcrum bearing is slided by vertical stock lifting slider Dynamic seat is located on front end face and the riser guide of rear end face, and the side of lifting fulcrum bearing is fixed with vertical stock lifting motor and vertical bolt Frame elevating screw, vertical stock elevating screw is slidably connected with lifting fulcrum bearing, vertical stock lifting motor and vertical stock elevating screw One end drive connection；The front/rear end of vertical stock is respectively mounted riser guide, can be lifting fulcrum bearing when oscilaltion is slided More stable it is ensured that machining accuracy.

Lifting fulcrum bearing bottom surface is fixed with vertical saw blade motor plate, and vertical saw blade motor plate is provided with the first vertical stock walking Guide rail, vertical saw blade motor is slidably mounted in the first vertical stock walking guide rail, the vertical saw blade motor axle of vertical saw blade motor Extend lifting fulcrum bearing and vertical saw blade is installed, vertical saw blade motor, along the first vertical stock walking guide rail slide anteroposterior, makes to hang down Straight blade can with OQ t fulcrum bearing along vertical saw blade central axial direction slide anteroposterior；Vertically the central axis of saw blade is With plane-parallel, along the first vertical stock walking guide rail slide anteroposterior, the sawing scope of vertical saw blade can be made to increase, improve The use motility of machine.

Lifting fulcrum bearing top surface is fixed with horizontal saw blade guide rail, and on horizontal saw blade guide rail, slip seat is provided with sleeve fulcrum bearing, Mandrel receiver is fixed with sleeve fulcrum bearing, mandrel receiver is provided with the horizontal saw blade motor extending vertical stock front end face Axle sleeve, the central axis of horizontal saw blade motor shaft sleeve and horizontal plane, horizontal saw blade motor shaft sleeve pass through tenon plagiocephaly vertical Mandrel is provided with horizontal saw blade, and the mandrel receiver other end of relative level saw blade motor axle sleeve is provided with horizontal saw blade motor, water Flat saw blade motor is driven with the other end of the vertical mandrel of tenon plagiocephaly by horizontal saw blade transmission belt and couples, and realizes turning of horizontal saw blade Dynamic；Realize with vertical saw blade that slide anteroposterior track is identical, but horizontal saw blade central axis and vertical saw blade central axis Orthogonal, the function of realization also differs.

Two pieces of horizontal saw blades are provided with the vertical mandrel of tenon plagiocephaly, on the vertical mandrel of tenon plagiocephaly between two pieces of horizontal saw blades It is arranged with spacer in the middle of horizontal saw blade；In order to more easily sawing goes out tenon or tongue-and-groove, two pieces of saw blades, two pieces of saw blades are installed simultaneously Between separated by spacer in the middle of horizontal saw blade, specifically, can be determined in horizontal saw blade according to the thickness of tenon after processing The height of spacer sleeve, makes two pieces of saw blades can carry out sawing to timber simultaneously, disposably by tenon sawing out, substantially increases Working (machining) efficiency.

Pivot angle turns base bottom and is provided with pivot angle and turns base electrical machinery installation base, and pivot angle turns and connects on base electrical machinery installation base There is horizontally disposed vertical stock walking screw mandrel, pivot angle turns base electrical machinery installation base to be fixed by vertical stock movable motor connecting plate There is vertical stock movable motor, the vertical stock walking screw mandrel other end is connected with vertical stock, and vertical stock movable motor is walked with vertical stock Screw mandrel one end drive connection；Vertical stock movable motor drives vertical stock walking screw mandrel it is achieved that vertical stock is led along vertical stock walking Rail sliding function.

The invention has the beneficial effects as follows:

A kind of many saw blades Numerical Control Tenonning Machine, is located at, by sliding to sit vertical stock, the vertical stock walking guide rail that pivot angle turns base On, make the vertical stock being provided with vertical saw blade and horizontal saw blade both can realize horizontal sliding feed, can be turned by pivot angle again Base around numerical control many saw blades tenon frame circular-rotation, realizes the axial rotation with horizontal plane, make saw blade in sawing more Plus flexibly, oscilaltion can be realized along riser guide in conjunction with the lifting fulcrum bearing being provided with first and second saw blade, and vertical saw Piece and horizontal saw blade all can be along the central axial direction slide anteroposterior of vertical saw blade so that vertical saw blade and horizontal saw blade be permissible Realize multi-shaft interlocked it is achieved that the motion track of similar mechanical handss, when sawing goes out tenon, saw blade can be realized more round and smooth Run trace, enters knife in saw blade and will not miss sawing and injure the other parts of timber when going out knife, can effectively improve processing effect Rate, improves machining accuracy, realizes multiple difference tenons, the digital control processing of tongue-and-groove it is achieved that a machine completes two or more works Sequence.

Brief description

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of another angle of the present invention.

Fig. 3 is the structural representation of another angle of the present invention.

Fig. 4 is the structural representation of another angle of the present invention.

Fig. 5 is the structural representation of another angle of the present invention.

Fig. 6 be in the present invention workpiece by during sawing with the structural representation of first and second saw blade.

Fig. 7 be in the present invention workpiece by the structural representation after sawing.

Specific embodiment

The present invention is further described with reference to the accompanying drawings and examples.

As shown in Figures 1 to 7, a kind of many saw blades Numerical Control Tenonning Machine, including numerical control many saw blades tenon frame 1, is characterized in that；

Described numerical control many saw blades tenon frame 1 side is fixed with tenon plagiocephaly feeding and appears on the stage base 2, and tenon plagiocephaly feeding is appeared on the stage bottom The tenon plagiocephaly feedings that seat 2 is provided with fixing workpiece 3 appear on the stage 4, and numerical control many saw blades tenon frame 1 opposite side is provided with circumferentially direction and turns Dynamic pivot angle turns base 5；

Pivot angle turns base 5 and is provided with horizontal-extending vertical stock walking guide rail 6, and in vertical stock walking guide rail 6, slip seat is provided with The vertical stock 7 extending along short transverse, vertical stock 7 is provided with riser guide 8 along short transverse；

Lifting fulcrum bearing 9 is passed through on riser guide 8 and is provided with vertical saw blade 10 and horizontal saw blade 11, the center of vertical saw blade 10 Axis 10-1 and plane-parallel, the central axis 11-1 of horizontal saw blade 11 and horizontal plane, vertical saw blade 10 is by vertically sawing Piece motor 12 drive switch through dynamic, horizontal saw blade 11 by horizontal saw blade motor 13 drive switch through dynamic；

Vertical saw blade 10 can with OQ t fulcrum bearing 9 along vertical saw blade 10 central axis 10-1 direction slide anteroposterior, Horizontal saw blade 11 can with OQ t fulcrum bearing 9 along vertical saw blade 10 central axis 10-1 direction slide anteroposterior.

Using many saw blades Numerical Control Tenonning Machine of this structure, it is located at, by sliding to sit vertical stock 7, the vertical bolt that pivot angle turns base 5 In frame walking guide rail 6, make vertical saw blade 10 is installed and the vertical stock 7 of horizontal saw blade 11 both can realize horizontal sliding feed, Base 5 can be turned around numerical control many saw blades tenon frame 1 circular-rotation by pivot angle again, realize turning with the axial direction of horizontal plane Dynamic, make saw blade more flexible in sawing, can be real along riser guide 8 in conjunction with the lifting fulcrum bearing 9 being provided with first and second saw blade Existing oscilaltion, and vertical saw blade 10 and horizontal saw blade 11 all can be along before and after the central axis 10-1 directions of vertical saw blade 10 Slide so that vertical saw blade 10 and horizontal saw blade 11 can realize multi-shaft interlocked it is achieved that the motion track of similar mechanical handss, When sawing goes out tenon, saw blade can realize more round and smooth run trace, will not miss sawing when saw blade enters knife and goes out knife and hinder The other parts of evil timber, can effectively improve working (machining) efficiency, improve machining accuracy, realize multiple difference tenons, the number of tongue-and-groove Control processing.

Specific sawing process, as shown in Figure 6 to 7, if desired for tenon 301 shape of workpiece 3 in sawing such as x, tenon For 45 degree of joggles, it is by vertical saw blade 10, end face 301 sawing of workpiece 3 is neat first, then vertical stock is rotated 45 Degree, by vertical saw blade top surface and the bottom surface of workpiece 3 respectively sawing go out together with sawing groove 302, then by horizontal saw blade along workpiece 3 End face 301 level incision workpiece, after leveling saw piece is sawn to sawing groove 302 just now, you can chipping allowance 303 is sawed Disconnected, complete whole sawing process, because saw blade can move up and down, in sawing sawing groove, all knife can be entered with vertical type and go out Arrive, other positions of workpiece 3 will not be touched, can slide along vertical stock walking guide rail 6 level in conjunction with vertical stock 7, Liang Zhelian Move and saw blade can be made preferably to enter knife according to setting and go out knife.

The present invention can also be solved using following technical measures:

Numerical control many saw blades tenon frame 1 opposite side is provided with frame pivoting support 101, and pivot angle turns base 5 and circumferentially slides seat It is located on frame pivoting support 101, numerical control many saw blades tenon frame 1 bottom is fixed with swing angle electric 14, and pivot angle turns base 5 bottom Central axis along frame pivoting support 101 is connected with pivot angle circumference rotating shaft 15, and pivot angle circumference rotating shaft 15 and swing angle electric 14 drive It is dynamically connected；Frame pivoting support 101, as ring-shaped guide rail, makes pivot angle turn base 5 and can realize circumferential slippage, adjust vertical saw blade The saw cutting angle of 10 or horizontal saw blades 11, for example need the tenon of 45 degree of sawing or tongue-and-groove it is possible to by pivot angle turn 5 turns of base by Home position rotates 45 degree, you can realize；Other pivot angle turns base 5 bottom and is additionally provided with the ring with frame pivoting support 101 cooperation Connected in star 501.

Riser guide 8 is arranged on the front end face 701 and rear end face 702 of vertical stock 7, and lifting fulcrum bearing 9 is by founding stock Lifting slider 16 slides to sit and is located on front end face 701 and the riser guide 8 of rear end face 702, and the side 703 of lifting fulcrum bearing 9 is solid Surely there are vertical stock lifting motor 17 and vertical stock elevating screw 18, vertical stock elevating screw 18 is slidably connected with lifting fulcrum bearing 9, Vertical stock lifting motor 17 and vertical stock elevating screw 18 one end drive connection；The front/rear end of vertical stock 7 is respectively mounted lifting and leads Rail 8, can be lifting fulcrum bearing 9 when oscilaltion is slided more stably it is ensured that machining accuracy.

Lifting fulcrum bearing 9 bottom surface 901 is fixed with vertical saw blade motor plate 19, and vertical saw blade motor plate 19 is provided with first and stands Stock walking guide rail 20, vertical saw blade motor 12 is slidably mounted in the first vertical stock walking guide rail 20, vertical saw blade motor 12 Vertical saw blade motor axle 12-1 extend lifting fulcrum bearing 9 vertical saw blade 10 be installed, vertical saw blade motor 12 is vertical along first Stock walking guide rail 20 slide anteroposterior, make vertical saw blade can 10 with OQ t fulcrum bearing 9 along vertical saw blade 10 central axis 10-1 direction slide anteroposterior；The central axis 10-1 of vertical saw blade 10 is and plane-parallel to lead along the first vertical stock walking Rail 20 slide anteroposterior, can make the sawing scope of vertical saw blade 10 increase, and improve the use motility of machine.

Lifting fulcrum bearing 9 top surface 902 is fixed with horizontal saw blade guide rail 21, and on horizontal saw blade guide rail 21, slip seat is provided with sleeve Fulcrum bearing 22, sleeve fulcrum bearing 22 is fixed with mandrel receiver 23, and mandrel receiver 23 is provided with and extends vertical stock 7 front end The horizontal saw blade motor shaft sleeve 24 in face 701, the central axis 24-1 of horizontal saw blade motor shaft sleeve 24 and horizontal plane, leveling saw On piece motor shaft sleeve 24, horizontal saw blade 11, the saw of relative level saw blade motor axle sleeve 24 are provided with by the vertical mandrel of tenon plagiocephaly 25 Axle sleeve cylinder base 23 other end is provided with horizontal saw blade motor 13, and horizontal saw blade motor 13 is by horizontal saw blade transmission belt 26 and tenon plagiocephaly The other end of vertical mandrel 25 drives connection, realizes the rotation of horizontal saw blade 11；Realize slide anteroposterior track with vertical saw blade 10 Identical, but horizontal saw blade 11 central axis 11-1 orthogonal with the central axis 10-1 of vertical saw blade 10, the work(of realization Can also differ.

Two pieces of horizontal saw blades 11 are provided with the vertical mandrel of tenon plagiocephaly 25, the tenon plagiocephaly between two pieces of horizontal saw blades 11 is vertical Spacer 27 in the middle of horizontal saw blade is arranged with mandrel 25；In order to more easily sawing goes out tenon or tongue-and-groove, two blocks of water are installed simultaneously Flat sawing piece 11, passes through spacer 27 in the middle of horizontal saw blade and separates between two pieces of horizontal saw blades 11, specifically, can be according to tenon after processing The thickness of head, to determine the height of spacer 27 in the middle of horizontal saw blade, makes two pieces of saw blades can carry out sawing to timber, once simultaneously Property by tenon sawing out, substantially increases working (machining) efficiency, specifically: by two pieces of horizontal saw blades 11 along workpiece 3 end face 301 water Truncation enters workpiece, after two pieces of horizontal saw blades 11 are sawn to upper and lower two strap saw grooving 302, you can cut two-part up and down simultaneously Cut that surplus 303 is sawed-off, efficiency greatly improves.

Pivot angle turns base 5 bottom and is provided with pivot angle and turns base electrical machinery installation base 501, and pivot angle turns base electrical machinery installation base It is connected with horizontally disposed vertical stock walking screw mandrel 28, pivot angle turns base electrical machinery installation base 501 by vertical stock walking on 501 Connecting plate for electric motor 29 is fixed with vertical stock movable motor 30, and vertical stock walking screw mandrel 28 other end is connected with vertical stock 7, vertical stock Movable motor 30 and vertical stock walking screw mandrel 28 one end drive connection；Vertical stock movable motor 30 drives vertical stock walking screw mandrel 28 it is achieved that vertical stock 7 is along vertical stock walking guide rail 6 sliding function.

Particular embodiments described above, only preferred embodiments of the present invention, such as according to the present patent application patent The equivalent arrangements that scope is done, the technology that all should be the present invention is covered.

Claims (7)

1. a kind of many saw blades Numerical Control Tenonning Machine, including numerical control many saw blades tenon frame (1), is characterized in that；

Described numerical control many saw blades tenon frame (1) side is fixed with tenon plagiocephaly feeding and appears on the stage base (2), and tenon plagiocephaly feeding is appeared on the stage bottom The tenon plagiocephaly feeding that seat (2) is provided with fixing workpiece (3) is appeared on the stage (4), and numerical control many saw blades tenon frame (1) opposite side is provided with by circle The pivot angle that circumferential direction rotates turns base (5)；

Pivot angle turns base (5) and is provided with horizontal-extending vertical stock walking guide rail (6), and the upper slip seat of vertical stock walking guide rail (6) sets There is the vertical stock (7) extending along short transverse, vertical stock (7) is provided with riser guide (8) along short transverse；

Riser guide (8) is upper to be provided with vertical saw blade (10) and horizontal saw blade (11), vertical saw blade (10) by lifting fulcrum bearing (9) Central axis (10-1) and plane-parallel, the central axis (11-1) of horizontal saw blade (11) and horizontal plane, vertical saw Piece (10) by vertical saw blade motor (12) drive switch through dynamic, horizontal saw blade (11) by horizontal saw blade motor (13) drive switch through dynamic；

Vertical saw blade (10) can be sliding along before and after central axis (10-1) direction of vertical saw blade (10) with OQ t fulcrum bearing (9) Dynamic, horizontal saw blade (11) can be sliding along before and after central axis (10-1) direction of vertical saw blade (10) with OQ t fulcrum bearing (9) Dynamic.

2. many saw blades Numerical Control Tenonning Machine according to claim 1, is characterized in that, numerical control many saw blades tenon frame (1) opposite side It is provided with frame pivoting support (101), pivot angle turns base (5), and circumferentially slip seat is located on frame pivoting support (101), and numerical control is many Saw blade tenon frame (1) bottom is fixed with swing angle electric (14), and pivot angle turns base (5) bottom along frame pivoting support (101) Central axis is connected with pivot angle circumference rotating shaft (15), pivot angle circumference rotating shaft (15) and swing angle electric (14) drive connection.

3. many saw blades Numerical Control Tenonning Machine according to claim 1, is characterized in that, riser guide (8) is arranged on vertical stock (7) On front end face (701) and rear end face (702), lifting fulcrum bearing (9) is located at front end by vertical stock lifting slider (16) slip seat On the riser guide (8) of face (701) and rear end face (702), the side of vertical stock (7) be fixed with vertical stock lifting motor (17) and Vertical stock elevating screw (18), vertical stock elevating screw (18) is slidably connected with lifting fulcrum bearing (9), vertical stock lifting motor (17) with vertical stock elevating screw (18) one end drive connection.

4. many saw blades Numerical Control Tenonning Machine according to claim 1, is characterized in that, lifting fulcrum bearing (9) bottom surface (901) is fixed with Vertical saw blade motor plate (19), vertical saw blade motor plate (19) is provided with the first vertical stock walking guide rail (20), vertical saw blade electricity Machine (12) is slidably mounted in the first vertical stock walking guide rail (20), the vertical saw blade motor axle (12- of vertical saw blade motor (12) 1) extend lifting fulcrum bearing (9) and vertical saw blade (10) is installed, vertical saw blade motor (12) is along the first vertical stock walking guide rail (20) slide anteroposterior, make vertical saw blade (10) can with OQ t fulcrum bearing (9) along vertical saw blade (10) central axis (10- 1) direction slide anteroposterior.

5. many saw blades Numerical Control Tenonning Machine according to claim 3, is characterized in that, lifting fulcrum bearing (9) top surface (902) is fixed with Horizontal saw blade guide rail (21), the upper slip seat of horizontal saw blade guide rail (21) is provided with sleeve fulcrum bearing (22), in sleeve fulcrum bearing (22) It is fixed with mandrel receiver (23), mandrel receiver (23) is provided with the horizontal saw blade extending vertical stock (7) front end face (701) Motor shaft sleeve (24), the central axis (24-1) of horizontal saw blade motor shaft sleeve (24) and horizontal plane, horizontal saw blade motor shaft Set (24) is upper to be provided with horizontal saw blade (11), the saw of relative level saw blade motor axle sleeve (24) by the vertical mandrel of tenon plagiocephaly (25) Axle sleeve cylinder base (23) other end is provided with horizontal saw blade motor (13), and horizontal saw blade motor (13) passes through horizontal saw blade transmission belt (26) Mandrel (25) vertical with tenon plagiocephaly drives and couples, and realizes the rotation of horizontal saw blade (11).

6. many saw blades Numerical Control Tenonning Machine according to claim 5, is characterized in that, the vertical mandrel of tenon plagiocephaly (25) is provided with two The horizontal saw blade of block (11), the vertical mandrel of the tenon plagiocephaly (25) between two pieces of horizontal saw blades (11) is arranged with the middle of horizontal saw blade every Set (27).

7. many saw blades Numerical Control Tenonning Machine according to claim 1, is characterized in that, pivot angle turns base (5) bottom and is provided with pivot angle and turns Base electrical machinery installation base (501), pivot angle turns and is connected with horizontally disposed vertical stock walking on base electrical machinery installation base (501) Screw mandrel (28), pivot angle turns base electrical machinery installation base (501) and is fixed with vertical stock by vertical stock movable motor connecting plate (29) Movable motor (30), vertical stock walking screw mandrel (28) one end is connected with vertical stock (7), vertical stock movable motor (30) and vertical stock Walking screw mandrel (28) other end drive connection.