CN208083473U - A kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus - Google Patents
A kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus Download PDFInfo
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- CN208083473U CN208083473U CN201820374679.4U CN201820374679U CN208083473U CN 208083473 U CN208083473 U CN 208083473U CN 201820374679 U CN201820374679 U CN 201820374679U CN 208083473 U CN208083473 U CN 208083473U
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- ring
- gradient
- lathe tool
- electrothermal tube
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Abstract
The utility model is related to electrothermal tube processing equipment fields, more particularly to a kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus, including a ring vehicle chuck assembly, ring vehicle chuck assembly includes gradient chuck seat, sliding block pulling block, T-type sliding block, tool holder, ring car pull bar and lathe tool, gradient chuck seat is mounted on by screw on ring saddle assembly, gradient chuck seat front end both sides are symmetrical arranged gradient T-slot, T-type sliding block is set to gradient T-slot, it is concentric circles among gradient chuck seat, sliding block pulling block is set in concentric circles, sliding block pulling block rear end mounting ring car pull bar, ring car pull bar is connect with ring car pull bar component, T-slot is arranged in sliding block pulling block front end, T-type sliding block one end is arranged coordinates movable T-block with T-slot, tool holder is mounted on T-type sliding block, lathe tool is mounted on knife rest.Compared with prior art, the electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model uses gradient feed mode, and Lathe quantity is small, and dust is few, does not hinder and draws stick, does not generate burr.
Description
【Technical field】
The utility model is related to electrothermal tube processing equipment field, more particularly to a kind of electrothermal tube pipe end gradient feed lathe tool is cut
Turning device.
【Background technology】
Electrothermal tube also known as heat-generating pipe, heating tube, scientific name tubular electric heating element are the electric appliance for converting electrical energy into thermal energy
Element.It is with simple in structure, the features such as high mechanical strength, the thermal efficiency is high, safe and reliable, simple installation, long service life, extensively
It is general suitable for the devices such as various household electrical appliance, industry heating.Electrothermal tube is generally by metal tube, heating wire and magnesium oxide powder structure
At.Wherein heating wire is set to inside metal tube.Heating wire both ends are connected with eduction rod.Eduction rod with conducting wire for connecting.Oxygen
Change magnesium dust and is filled in the gap section around heating wire and between heating wire and metal tube.Generally use glue in metal tube both ends
Capable closing is filled in, to prevent the magnesium oxide powder inside metal tube from flowing out.
In manufacturing electrothermal tube mass production processes, electrothermal tube can not ensure that each tube length is consistent after the draw, internal
Magnesium oxide powder reaches certain density after the draw, it is no longer necessary to and the both ends of electrothermal tube are usually carried out machining by rubber plug,
Rubber plug and both ends nozzle redundance are removed, while requiring both ends orifice plane impulse- free robustness.This machining is commonly referred to as headstock,
Also referred to as decortication or tack.
Axial feed mode is used in traditional processing process, its advantage is that efficient, the basic impulse- free robustness of pipe end plane;But its
Disadvantage is too many, and due to axial feed, Lathe quantity is big, and lathe tool is not durable, and generates too many dust and the unfavorable environmental protection of iron filings, is sent out when drawing stick
When raw bending, draw that stick is interrupted by lathe tool, magnesium powder and rubber plug remain in draw and need artificial cleaning etc. again on stick, entire tradition work
The unfavorable automatic flow technique of skill.
Using radial feed mode in existing processing technology, tube wall vehicle is worn, while coordinating tube drawing head device
It is removed to reach headstock purpose;Its advantage is that Lathe quantity is small, dust is few, does not hinder and draws stick, but since point of a knife is radial fortune
Dynamic, lathe tool advance and retreat all rub to pipe end plane, to which pipe end plane easy tos produce burr.
In view of the above problems, it is badly in need of a kind of new electrically heating pipe processing device of design to meet higher production requirement.
【Utility model content】
In order to overcome the above problem, the utility model proposes a kind of electrothermal tube pipe end gradients that can effectively solve the above problems
Feed lathe tool cutting apparatus.
The utility model solves a kind of technical solution that above-mentioned technical problem provides:A kind of electrothermal tube pipe end gradient is provided
Feed lathe tool cutting apparatus, including ring vehicle drive component, ring saddle assembly, ring vehicle rotary components, ring car pull bar component and ring vehicle
Chuck assembly, the ring saddle assembly are set on the ring vehicle drive component, and the ring vehicle rotary components are set to the ring
Saddle assembly, the ring car pull bar component are set between the ring saddle assembly and ring vehicle rotary components, the ring vehicle chuck
Component is set to ring saddle assembly front end, the ring vehicle chuck assembly include gradient chuck seat, sliding block pulling block, T-type sliding block,
Tool holder, ring car pull bar and lathe tool, the gradient chuck seat are fixedly mounted on by screw on ring saddle assembly, the gradient card
Disk seat front end both sides are symmetrical arranged gradient T-slot, and the T-type sliding block is set to the gradient T-slot, among gradient chuck seat
For concentric circles, sliding block pulling block is set in concentric circles, sliding block pulling block rear end mounting ring car pull bar, ring car pull bar and ring car pull bar group
Part connects, and T-slot is arranged in sliding block pulling block front end, and the setting of T-type sliding block one end coordinates movable T-block, tool holder installation with T-slot
On T-type sliding block, lathe tool is mounted on knife rest.
Preferably, the ring car pull bar component includes pull rod side plate, tie rod cylinders seat, cylinder, floating rotating connector and steady
Fast device, the pull rod side plate are mounted on ring saddle assembly, and tie rod cylinders seat is mounted on pull rod side plate end face, and cylinder is mounted on
On tie rod cylinders seat, cylinder head installs floating rotating connector, and pull rod side plate both sides are equipped with speed regulator.
Preferably, the ring car pull bar is connect with floating rotating joint screw.
Preferably, the ring vehicle rotary components include the second fixed plate, the second timing belt pulley, motor gasket and motor,
Motor is installed, the second timing belt pulley is installed on motor shaft head, and motor gasket is set under motor in second fixed plate
Portion.
Preferably, the ring saddle assembly includes front-end bearing pedestal, rear bearing block, main shaft, the first timing belt pulley, locking screw
Female and positioning sleeve, the front-end bearing pedestal, rear bearing block and positioning sleeve lock to form entirety by bolt, and main shaft passes through two precisions
Bearing is installed in front-end bearing pedestal and rear bearing block, and the first timing belt pulley is installed on main shaft, and is locked by locking nut.
Preferably, the ring vehicle drive component include increased stroke-adjustable gas cylinder, it is cylinder block, flake connector, sliding panel, first solid
Fixed board, positioning pin, the linear guide and track base, the ring saddle assembly are set to ring vehicle drive component cunning by positioning finger setting
On movable plate, cylinder block is mounted in the first fixed plate, and increased stroke-adjustable gas cylinder is mounted on cylinder block, and sliding panel passes through the linear guide
It is mounted in the first fixed plate with track base, increased stroke-adjustable gas cylinder makees floating connection by flake connector and sliding panel.
Preferably, ranging from 0-90 ° of the gradient chuck seat gradient.
Preferably, the cylinder is servo motor or stepper motor.
Preferably, the motor is stepper motor or servo motor.
Preferably, the increased stroke-adjustable gas cylinder is stepper motor or servo motor.
Compared with prior art, the electrothermal tube pipe end gradient feed lathe tool cutting apparatus Lathe quantity of the utility model is small, powder
Dirt is few, does not hinder and draws stick, simultaneously because using gradient feed mode, lathe tool is that lathe tool flat knife knife car cuts pipe in advance turning
Mouth end face, for lathe tool in withdrawing, blade leaves nozzle end face plane immediately, to generate burr;Increased stroke-adjustable gas cylinder is logical
It crosses flake connector and makees floating connection with sliding panel, ensure that mechanical structure will not generate operation torsion because of machining accuracy error;
It selects servo motor or stepper motor as driving element, is controlled convenient for digital automation.
【Description of the drawings】
Fig. 1 is that the electrothermal tube where a kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model processes multiplexing
Combinational machine structural schematic diagram;
Fig. 2 is a kind of structural schematic diagram of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model;
Fig. 3 is that a kind of ring vehicle drive component structure of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model is shown
It is intended to;
Fig. 4 is a kind of ring saddle assembly structural representation of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model
Figure;
Fig. 5 is that a kind of ring vehicle rotary components structure of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model is shown
It is intended to;
Fig. 6 is that a kind of ring car pull bar modular construction of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model shows
It is intended to;
Fig. 7 is that a kind of ring vehicle chuck assembly structure of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model is shown
It is intended to;
In diagram:1- ring vehicles drive component, 2- rings saddle assembly, 3- ring vehicles rotary components, 4- ring car pull bars component, 5- rings
Vehicle chuck assembly, 11- increased stroke-adjustable gas cylinders, 12- cylinder blocks, 13- flakes connector, 14- sliding panels, the first fixed plates of 15-, 16-
Positioning pin, 17- the linear guides, 18- track bases, 21- front-end bearing pedestals, 22- rear bearing blocks, 23- main shafts, the first synchronous belts of 24-
Wheel, 25- locking nuts, 26- positioning sleeves, the second fixed plates of 31-, the second timing belt pulleys of 32-, 33- motor gaskets, 34- motors,
41- pull rods side plate, 42- tie rod cylinders seat, 43- cylinders, 44- floating rotatings connector, 45- speed regulators, 51- gradients chuck seat, 52-
Sliding block pulling block, 53-T types sliding block, 54- tool holders, 55- rings car pull bar, 56- lathe tools, 100- electrothermal tube pipe end gradient feed lathe tools
Cutting apparatus, 200- tubing, 300- clamping devices.
【Specific implementation mode】
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used for explaining
The utility model is not used to limit the utility model.
It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment
It is only limitted to the relative position in given view rather than absolute position.
In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and cannot manage
Solution is instruction or implies its relative importance or implicitly indicates the quantity of indicated technical characteristic.Define as a result, " the
One ", the feature of " second " can explicitly or implicitly include at least one of the features.It is " more in the description of the present invention,
It is a " it is meant that at least two, such as two, three etc., unless otherwise specifically defined.
Referring to Fig. 1, a kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus 100 of the utility model, is set to electricity
Heat pipe is processed on Multistation machine, is used for 200 nozzle headstock of electrothermal tube tubing, is passed through the electrothermal tube pipe end gradient feed vehicle
The processing of knife cutting apparatus 100 reaches impulse- free robustness, without dust the effects that, to make the more reliable stabilization of equipment.The electrothermal tube adds
Two electrothermal tube pipe end gradient feed lathe tool cutting apparatus 100 are symmetrical arranged on work Multistation machine, the electrothermal tube pipe end is oblique
It spends 100 inside of feed lathe tool cutting apparatus and clamping device 300 is set, tubing 200 is transmitted to electrothermal tube pipe end by feed device
Tubing 200, is fixedly clamped by 100 station of gradient feed lathe tool cutting apparatus by clamping device 300, electrothermal tube pipe end gradient feed
Lathe tool cutting apparatus 100 is processed tubing 200.
Referring to Fig. 2, the electrothermal tube pipe end gradient feed lathe tool cutting apparatus 100 includes ring vehicle drive component 1, ring vehicle
Holder assembly 2, ring vehicle rotary components 3, ring car pull bar component 4 and ring vehicle chuck assembly 5, the ring saddle assembly 2 are set to described
On ring vehicle drive component 1, the ring vehicle rotary components 3 are set to the ring saddle assembly 2, and the ring car pull bar component 4 is arranged
Between the ring saddle assembly 2 and ring vehicle rotary components 3, before the ring vehicle chuck assembly 5 is set to the ring saddle assembly 2
End.
Referring to Fig. 3, the ring vehicle drive component 1 includes increased stroke-adjustable gas cylinder 11, cylinder block 12, flake connector 13, slides
Movable plate 14, the first fixed plate 15, positioning pin 16, the linear guide 17 and track base 18, the ring saddle assembly 2 pass through positioning pin 16
Positioning is set on 1 sliding panel 14 of ring vehicle drive component, and cylinder block 12 is mounted in the first fixed plate 15, increased stroke-adjustable gas cylinder 11
On cylinder block 12, sliding panel 14, which is mounted on by the linear guide 17 and track base 18 in the first fixed plate 15, ensures straight line
Running precision, increased stroke-adjustable gas cylinder 11 make floating connection by flake connector 13 and sliding panel 14, ensure that mechanical structure will not be because
Machining accuracy error generates operation torsion.Electrothermal tube B vehicles are controlled by controlling the actuating length of increased stroke-adjustable gas cylinder 11
Head length, two positioning pins 16 are provided on sliding panel 14, are used for location and installation ring saddle assembly 2, ensure that ring saddle assembly 2 is pacified
Fill precision.Increased stroke-adjustable gas cylinder 11 is used in this design, and stepper motor or servo motor can be used to improve control accuracy
And digital automation control.
Referring to Fig. 4, the ring saddle assembly 2 includes front-end bearing pedestal 21, rear bearing block 22, the synchronization skin of main shaft 23, first
Belt wheel 24, locking nut 25 and positioning sleeve 26, the front-end bearing pedestal 21, rear bearing block 22 and positioning sleeve 26 lock shape by bolt
Integral, main shaft 23 is mounted on two precision bearings in front-end bearing pedestal 21 and rear bearing block 22, the first timing belt pulley 24 peace
It is locked on main shaft 23, and by locking nut 25.23 center of main shaft is through-hole, for passing through ring car pull bar component 4, main shaft 23
Being driven by ring vehicle rotary components 3 drives the first timing belt pulley 24 to rotate.A disk is arranged in 23 one end of main shaft.
Referring to Fig. 5, the ring vehicle rotary components 3 include the second fixed plate 31, the second timing belt pulley 32, motor gasket
33 and motor 34, motor 34 is installed in second fixed plate 31, the second timing belt pulley 32 is mounted on 34 spindle nose of motor, electricity
The pad of machine backing plate 33 is in 34 lower part of motor, the tightness of synchronous belt degree for adjusting the second timing belt pulley 32.Change can be arranged in motor 34
Frequency device speed governing, or select stepper motor or servo motor as rotary drive element, according to the tubing turning control of unlike material
Different rotating speeds is made, Digital Control is convenient for.Ring vehicle rotary components 3 are fixedly installed in ring vehicle seat by 31 screw of the second fixed plate
For the front-end bearing pedestal 21 of component 2 on rear bearing block 22, motor 34 passes through the first timing belt pulley 24 and the second synchronous belt wheel belt
The main shaft 23 of 32 rotating ring saddle assemblies 2 rotates, and 4 both side plate of ring car pull bar component is fixedly mounted on ring saddle assembly 2 by screw
Rear bearing block 22 on.
Referring to Fig. 6, the ring car pull bar component 4 includes pull rod side plate 41, tie rod cylinders seat 42, cylinder 43, rotation of floating
Adapter 44 and speed regulator 45, the pull rod side plate 41 are mounted on the rear bearing block 22 of ring saddle assembly 2, tie rod cylinders seat 42
On 41 end face of pull rod side plate, cylinder 43 is mounted on tie rod cylinders seat 42, and floating rotating connector is installed on 43 head of cylinder
44,41 both sides of pull rod side plate are equipped with speed regulator 45.
Referring to Fig. 7, the ring vehicle chuck assembly 5 includes gradient chuck seat 51, sliding block pulling block 52, T-type sliding block 53, lathe tool
Frame 54, ring car pull bar 55 and lathe tool 56, the gradient chuck seat 51 are fixedly mounted on the main shaft 23 of ring saddle assembly 2 by screw
Disk on, 51 front end both sides of the gradient chuck seat are symmetrical arranged gradient T-slot, and the T-type sliding block 53 is set to described
Gradient T-slot, 51 centre of gradient chuck seat is concentric circles, for installing sliding block pulling block 52,52 rear end mounting ring vehicle of sliding block pulling block
Pull rod 55, ring car pull bar 55 are connect with 44 screw of floating rotating connector of ring car pull bar component 4, and 52 front end of sliding block pulling block is provided with
T-slot, 53 one end of T-type sliding block are provided with the T-slot cooperation activity of T-block and sliding block pulling block 52, and tool holder 54 is slided mounted on T-type
On block 53, lathe tool 56 is mounted on knife rest 54, and when sliding block pulling block 52 axially moves, T-type sliding block 53 makees gradient movement.It is described
Ranging from 0-90 ° of 51 gradient of gradient chuck seat, using 45 ° in the present embodiment, for the material that cuts stainless steel, according to difference
Material can process the chuck of different gradients.When work, cylinder 43 drives floating rotating connector 44 to be moved with rotating ring car pull bar 55,
Ring car pull bar 55 can be rotated with ring vehicle chuck assembly 5, and due to being equipped with floating rotating connector 44, the cylinder shaft of cylinder 43 will not turn
Dynamic, the stroke by controlling cylinder 43 can control the feed stroke (turning depth) of lathe tool 56,41 both sides of pull rod side plate dress
There is speed regulator 45, floating rotating connector 44, which is pushed up to speed regulator 45, when cylinder 43 is run plays speed stabilizing.Cylinder 43 can use servo electricity
Machine or stepper motor are controlled as driving element convenient for digital automation.
A kind of 100 main operational principle of electrothermal tube pipe end gradient feed lathe tool cutting apparatus of the utility model is:Automatically
Tubing 200 is sent to turning station by feed device, and clamping device 300 clamps tubing 200, and motor 34 rotates, same by first
It walks belt pulley 24 and the second synchronous belt wheel belt 32 drives main shaft 23 to rotate, to drive lathe tool 56 to rotate, ring vehicle drive component 1
In 11 extending action of increased stroke-adjustable gas cylinder, control sliding panel 14 advance, sliding panel 14 with rotating ring saddle assembly 2, ring vehicle rotate
Component 3, ring car pull bar component 4, ring vehicle chuck assembly 5 act simultaneously, to drive lathe tool 56 to arrive required position, ring car pull bar group
Cylinder 43 in part 4 stretches out, and drives lathe tool 56 to make gradient by floating rotating connector 44, ring car pull bar 55 and sliding block pulling block 52
Feed carries out turning, and the arrival of lathe tool 56 when needing depth, retract by cylinder 43, by floating rotating connector 44, ring car pull bar 55 and
Sliding block pulling block 52 drives lathe tool 56 to be exited by gradient rapidly, and increased stroke-adjustable gas cylinder 11 is retracted, and sliding panel 14 is with rotating ring saddle assembly
2, ring vehicle rotary components 3, ring car pull bar component 4, ring vehicle chuck assembly 5 retreat simultaneously.
Compared with prior art, electrothermal tube pipe end gradient feed lathe tool 100 Lathe quantities of cutting apparatus of the utility model are small,
Dust is few, does not hinder and draws stick, simultaneously because using gradient feed mode, lathe tool is that lathe tool flat knife knife car is cut in advance turning
Nozzle end face, for lathe tool in withdrawing, blade leaves nozzle end face plane immediately, to generate burr;Increased stroke-adjustable gas cylinder
11 make floating connection by flake connector 13 and sliding panel 14, ensure that mechanical structure will not generate fortune because of machining accuracy error
Row torsion;It selects servo motor or stepper motor as driving element, is controlled convenient for digital automation.
The above is only the preferred embodiment of the present invention, and it does not limit the scope of the patent of the present invention,
It is every within the design of the utility model made by any modification, equivalent replacement and improve etc. should be included in the utility model
Scope of patent protection in.
Claims (10)
1. a kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus, which is characterized in that including ring vehicle drive component, ring vehicle seat group
Part, ring vehicle rotary components, ring car pull bar component and ring vehicle chuck assembly, the ring saddle assembly are set to the ring vehicle driving group
On part, the ring vehicle rotary components are set to the ring saddle assembly, and the ring car pull bar component is set to the ring vehicle seat group
Between part and ring vehicle rotary components, the ring vehicle chuck assembly is set to ring saddle assembly front end;
The ring vehicle chuck assembly includes gradient chuck seat, sliding block pulling block, T-type sliding block, tool holder, ring car pull bar and lathe tool, institute
It states gradient chuck seat to be fixedly mounted on ring saddle assembly by screw, gradient chuck seat front end both sides are symmetrically arranged with tiltedly
T-slot is spent, the T-type sliding block is set to the gradient T-slot, is concentric circles among gradient chuck seat, sliding block pulling block is set to
In concentric circles, sliding block pulling block rear end mounting ring car pull bar, ring car pull bar is connect with ring car pull bar component, the setting of sliding block pulling block front end
T-slot, the setting of T-type sliding block one end coordinate movable T-block, tool holder to be mounted on T-type sliding block with T-slot, and lathe tool is mounted on
On knife rest.
2. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as described in claim 1, which is characterized in that the ring car pull bar
Component includes pull rod side plate, tie rod cylinders seat, cylinder, floating rotating connector and speed regulator, and the pull rod side plate is mounted on ring vehicle
On holder assembly, tie rod cylinders seat is mounted on pull rod side plate end face, and cylinder is mounted on tie rod cylinders seat, and cylinder head installation is floating
Dynamic rotary joint, pull rod side plate both sides are equipped with speed regulator.
3. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as claimed in claim 2, which is characterized in that the ring car pull bar
It is connect with floating rotating joint screw.
4. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as described in claim 1, which is characterized in that the ring vehicle rotation
Component includes the second fixed plate, the second timing belt pulley, motor gasket and motor, and motor is installed in second fixed plate, the
Two timing belt pulleys are installed on motor shaft head, and motor gasket is set to motor lower portion.
5. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as described in claim 1, which is characterized in that the ring vehicle seat group
Part includes front-end bearing pedestal, rear bearing block, main shaft, the first timing belt pulley, locking nut and positioning sleeve, the front-end bearing pedestal, after
Bearing block and positioning sleeve lock to form entirety by bolt, and main shaft is installed on front-end bearing pedestal and rear bearing by two precision bearings
In seat, the first timing belt pulley is installed on main shaft, and is locked by locking nut.
6. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as described in claim 1, which is characterized in that the ring vehicle driving
Component includes increased stroke-adjustable gas cylinder, cylinder block, flake connector, sliding panel, the first fixed plate, positioning pin, the linear guide and guide rail
Seat, the ring saddle assembly are set to by positioning finger setting on ring vehicle drive component sliding panel, and it is solid that cylinder block is mounted on first
On fixed board, increased stroke-adjustable gas cylinder is mounted on cylinder block, and sliding panel is mounted on the first fixed plate by the linear guide and track base
On, increased stroke-adjustable gas cylinder makees floating connection by flake connector and sliding panel.
7. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as described in claim 1, which is characterized in that the gradient chuck
Ranging from 0-90 ° of gradient of seat.
8. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as claimed in claim 2, which is characterized in that the cylinder is to watch
Take motor or stepper motor.
9. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as claimed in claim 4, which is characterized in that the motor is step
Stepper motor or servo motor.
10. electrothermal tube pipe end gradient feed lathe tool cutting apparatus as claimed in claim 6, which is characterized in that the adjustable row
Stroke cylinder is stepper motor or servo motor.
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CN201820374679.4U CN208083473U (en) | 2018-03-19 | 2018-03-19 | A kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus |
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CN201820374679.4U CN208083473U (en) | 2018-03-19 | 2018-03-19 | A kind of electrothermal tube pipe end gradient feed lathe tool cutting apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116618694A (en) * | 2023-07-20 | 2023-08-22 | 烟台东星集团有限公司 | Precise cutting device for pin shaft production and processing |
-
2018
- 2018-03-19 CN CN201820374679.4U patent/CN208083473U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116618694A (en) * | 2023-07-20 | 2023-08-22 | 烟台东星集团有限公司 | Precise cutting device for pin shaft production and processing |
CN116618694B (en) * | 2023-07-20 | 2023-09-22 | 烟台东星集团有限公司 | Precise cutting device for pin shaft production and processing |
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Effective date of registration: 20191101 Address after: 523000 1st floor, workshop 5, Dani Industrial Zone, Dafeng Road, Dani village, Shatin Town, Dongguan City, Guangdong Province Patentee after: Dongguan xinjiuding Automation Technology Co., Ltd Address before: 518000 Guangdong, Shenzhen, Baoan District Songgang Street Hongqiao community, twelve Building 1 Patentee before: Shenzhen City Xin Jiuding Automation Technology Co. Ltd. |
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TR01 | Transfer of patent right |