CN205928281U - Do you be used for E numerical control super high pressure water cutting machine of TPU production - Google Patents
Do you be used for E numerical control super high pressure water cutting machine of TPU production Download PDFInfo
- Publication number
- CN205928281U CN205928281U CN201620857788.2U CN201620857788U CN205928281U CN 205928281 U CN205928281 U CN 205928281U CN 201620857788 U CN201620857788 U CN 201620857788U CN 205928281 U CN205928281 U CN 205928281U
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- Prior art keywords
- longitudinal
- vertical
- nut
- horizontal
- crossbeam
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Abstract
The utility model discloses a do you be used for E numerical control super high pressure water cutting machine of TPU production, wherein, the horizontal lead screw in a left side is installed on the frame, left side transverse guide and right transverse guide install on the frame, the horizontal lead screw in the right side is installed on the frame, the horizontal nut in the right side is installed on the horizontal lead screw in the right side, a left side from the driven pulleys install on the horizontal lead screw in a left side, the right side from the driven pulleys install on the horizontal lead screw in the right side, horizontal servo motor installs on the frame, vertical servo motor installs on the crossbeam, vertical nut is installed on longitudinal lead screw, vertical carriage apron passes through the longitudinal rail and installs on the crossbeam, the base is installed on vertical carriage apron, perpendicular servo motor installs on the motor mount pad, the motor mount pad is installed on the base, perpendicular guide rail is installed on the base, vertical screw bar and perpendicular servo motor output shaft, perpendicular nut is installed on vertical screw bar, perpendicular carriage apron is installed on perpendicular guide rail, abrasive material feeding device installs on perpendicular carriage apron.
Description
Technical field
This utility model is related to cutting machine technical field, specifically, particularly to a kind of numerical control for E-TPU production
High-pressure water cutting machine.
Background technology
Numerical control ultrahigh pressure water cutting machine utilizes the processing method that the percussion of ultra-high pressure water fluid jet kinetic energy splits workpiece.Super
High pressure jer cutting has the characteristics that high energy, cold conditions, easily cuts.Therefore, it arbitrarily can be cut to various soft and hardware materials
Cut.Due to being continuous supercharging, water under high pressure can occur pressure oscillation, ripple to existing numerical control ultrahigh pressure water cutting machine when plunger commutates
Dynamic scope is relevant with the diameter of nozzle and the characteristic of oil hydraulic system, motor.And abradant feeding apparatus structure is simple, but because dry
Formula abrasive flow difference makes its Uniform Flow it is impossible to rely on pressure reduction, and effect in flowing for the gravity is also fairly limited.
Utility model content
Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, discloses a kind of use
The numerical control ultrahigh pressure water cutting machine producing in E-TPU, it is stable and reliable for performance, and the range of work is wide, and machining accuracy is high, manufactures and transports
Row low cost.
This utility model solves its technical problem and be employed technical scheme comprise that:A kind of numerical control for E-TPU production surpasses
High-pressure water-cutting machine, including support, bearing group, left laterally nut, servo longitudinal motor, left transverse slider, left cross slide way, a left side
Horizontal leading screw, left driven pulley, the first Timing Belt, crossbeam, longitudinal rail, longitudinal slide carriage, vertical servo motor, motor are installed
Seat, vertical guide rail, down-feed screw, abradant feeding apparatus, vertical slide carriage, bearing block, right transverse slider, right cross slide way, right from
Movable belt pulley, right horizontal leading screw, longitudinal leadscrew, pedestal, the second Timing Belt, horizontal servomotor and longitudinal nut;Described left horizontal
Leading screw two ends are arranged on support by the described bearing group in left side, and described left laterally nut is arranged in left horizontal leading screw and left horizontal stroke
It is arranged on crossbeam to nut, described left cross slide way and right cross slide way are all arranged on support, described left transverse slider peace
It is contained on left cross slide way, described right transverse slider is arranged on right cross slide way, described crossbeam left end is arranged on a left side and laterally slides
On block, crossbeam right-hand member is arranged on right transverse slider, and described right horizontal leading screw two ends are arranged on machine by the described bearing group in right side
On seat, right laterally nut is arranged in right horizontal leading screw and right laterally nut is arranged on crossbeam, and described left driven pulley is installed
In left horizontal leading screw, described right driven pulley is arranged in right horizontal leading screw, and described horizontal servomotor is fixedly mounted on machine
On seat, horizontal servo motor output shaft is provided with driving pulley, described first Timing Belt is arranged on left driven pulley and active
On belt wheel, described second Timing Belt is arranged on right driven pulley and driving pulley, and described servo longitudinal motor is arranged on crossbeam,
Described longitudinal leadscrew left end is connected with servo longitudinal motor output shaft, and described longitudinal leadscrew right-hand member is arranged on bearing block, described
Longitudinal nut is arranged on longitudinal leadscrew and longitudinal nut is arranged on longitudinal slide carriage, and described longitudinal slide carriage is pacified by longitudinal rail
It is contained on crossbeam, described pedestal is fixedly mounted on longitudinal slide carriage, described vertical servo motor is arranged on motor mount, institute
State motor mount to be arranged on pedestal, described vertical guide rail is arranged on pedestal, described down-feed screw passes through shaft coupling and hangs down
Straight servo motor output shaft connects, and vertical nut is arranged on down-feed screw and vertical nut is arranged on vertical slide carriage, described
Vertical slide carriage is arranged on vertical guide rail, and described abradant feeding apparatus are arranged on vertical slide carriage.
As a kind of preferred implementation of the present utility model, described abradant feeding apparatus are by bung, plastic wheel, abrasive material
Valve, water-returning control valve, cutting head, supertension water pipe, abrasive material outlet pipe and charging basket composition, described bung is arranged on charging basket, described
Charging basket is arranged on abrasive material valve, and described abrasive material outlet pipe is arranged on the bottom of charging basket, and described plastic wheel is arranged on abrasive material valve, described
Water-returning control valve is connected with abrasive material valve by pipeline, and described cutting head is connected with water-returning control valve by pipeline, described supertension
Water pipe is arranged on the top of cutting head.
As a kind of preferred implementation of the present utility model, described support adopts iron casting molding.
As a kind of preferred implementation of the present utility model, described support bottom is provided with adjustable supporting bracer.
Operation principle of the present utility model is:This numerical control ultrahigh pressure water cutting machine is by Y-axis (horizontal) AC servo motor, X
Axle (longitudinal) AC servo motor and Z axis (vertical) reducing motor drive.Power is passed to ball wire by X-axis AC servo motor
Cutting head is driven to realize the movement of X-direction while thick stick, nut rotation movement.Y-axis AC servo motor passes through two synchronizations
Power is passed to the ball-screw of Cutting platform arranged on left and right sides by tooth-like belt respectively, thus driving crossbeam to move, realizes being loaded on crossbeam
On cutting head along to movement.Z axis are driven by a servomotor, and power is passed to leading screw by shaft coupling by it, thus carrying
Moving axis moves up and down, and reaches the adjustment nozzle of cutting head and the purpose of workpiece distance.
In work process, motor drive plastic wheel rotate, feeding abrasive material amount mainly by adjustment abrasive material outlet pipe and plastic wheel it
Between distance realizing.This valve feeding abrasive material amount adjusts extremely convenient, respond well.Water-returning control valve be exactly be anti-non-return
Water phenomenon is drenched abrasive material and is arranged.Its mechanism is to ensure that the hole row through its side for the water overwhelming majority entering valve body during backwater
Go out and hardly enter the feed pipe above it.
This utility model compared with prior art has advantages below:
Disclosed in this utility model, a kind of numerical control ultrahigh pressure water cutting machine for E-TPU production, stable and reliable for performance, plus
Work scope is wide, and machining accuracy is high, manufactures and operating cost is low;This abradant feeding apparatus adopts dry type abrasive material white suction supply system
System, stable and reliable for performance and effect is good;Using toothed belt transmission, no relatively slide in transmission process, thus can keep constant
Gear ratio, high transmission accuracy, need not especially tensioning, transmission efficiency, simultaneously toothed belt transmission there is V belt translation again, pass
Dynamic stable working, noiseless, there is good vibration-damping function, need not lubricate.
Brief description
Fig. 1 is a kind of structural representation of specific embodiment of the present utility model;
Fig. 2 is a kind of structural representation of specific embodiment abradant feeding apparatus of the present utility model.
Description of reference numerals:
1:Support, 2:Bearing group, 3:Left laterally nut, 4:Servo longitudinal motor, 5:Left transverse slider, 6:A left side is laterally led
Rail, 7:Left horizontal leading screw, 8:Left driven pulley, 9:First Timing Belt, 10:Crossbeam, 11:Longitudinal rail, 12:Longitudinal slide carriage, 13:
Vertical servo motor, 14:Motor mount, 15:Vertical guide rail, 16:Down-feed screw, 17:Abradant feeding apparatus, 18:Vertically slip
Plate, 19:Bearing block, 20:Right transverse slider, 21:Right cross slide way, 22:Right driven pulley, 23:Right horizontal leading screw, 24:Longitudinally
Leading screw, 25:Pedestal, 26:Second Timing Belt, 27:Laterally servomotor, 28:Longitudinal nut;
1701- bung, 1702- plastic wheel, 1703- abrasive material valve, 1704- water-returning control valve, 1705- cutting head, 1706- surpasses
High-pressure water pipe, 1707- abrasive material outlet pipe, 1708- charging basket.
Specific embodiment
Below in conjunction with the accompanying drawings and embodiment describes this utility model specific embodiment:
It should be noted that the structure of in figure signal, ratio, size etc. appended by this specification, all only in order to coordinate explanation
Content disclosed in book, so that those skilled in the art understands and reads, is not limited to this utility model enforceable
Qualificationss, the adjustment of the modification of any structure, the change of proportionate relationship or size, can be generated by not affecting this utility model
Effect and the purpose that can reach under, the technology contents that all should still fall disclosed in this utility model obtain the scope that can cover
Interior.
Meanwhile, in this specification cited as " on ", D score, "left", "right", " middle " and " one " etc. term, also
Only understanding for ease of narration, and it is not used to limit the enforceable scope of this utility model, being altered or modified of its relativeness,
Under no essence change technology contents, when being also considered as the enforceable category of this utility model.
As depicted in figs. 1 and 2, it illustrates specific embodiment of the present utility model;As illustrated, this utility model is public
A kind of numerical control ultrahigh pressure water cutting machine for E-TPU production opened, including support 1, bearing group 2, left laterally nut 3, longitudinal direction
Servomotor 4, left transverse slider 5, left cross slide way 6, left horizontal leading screw 7, left driven pulley 8, the first Timing Belt 9, crossbeam 10,
Longitudinal rail 11, longitudinal slide carriage 12, vertical servo motor 13, motor mount 14, vertical guide rail 15, down-feed screw 16, abrasive material
Feedway 17, vertical slide carriage 18, bearing block 19, right transverse slider 20, right cross slide way 21, right driven pulley 22, the right side are laterally
Leading screw 23, longitudinal leadscrew 24, pedestal 25, the second Timing Belt 26, horizontal servomotor 27 and longitudinal nut 28;Described left transverse wire
Thick stick 7 two ends are arranged on support 1 by the described bearing group in left side 2, described left laterally nut 3 be arranged in left horizontal leading screw 7 and
Left laterally nut 3 is arranged on crossbeam 10, and described left cross slide way 6 and right cross slide way 21 are all arranged on support 1, a described left side
Transverse slider 5 is arranged on left cross slide way 6, and described right transverse slider 20 is arranged on right cross slide way 21, described crossbeam 10
Left end is arranged on left transverse slider 5, and crossbeam 10 right-hand member is arranged on right transverse slider 20, described right horizontal leading screw 23 two ends
It is arranged on support 1 by the described bearing group in right side 2, right laterally nut is arranged in right horizontal leading screw 23 and right laterally nut peace
It is contained on crossbeam 10, described left driven pulley 8 is arranged in left horizontal leading screw 7, described right driven pulley 22 is arranged on right horizontal
On leading screw 23, described horizontal servomotor 27 is fixedly mounted on support 1, horizontal servomotor 27 output shaft is provided with actively
Belt wheel, described first Timing Belt 9 is arranged on left driven pulley 8 and driving pulley, described second Timing Belt 26 be arranged on right from
On driving wheel 22 and driving pulley, described servo longitudinal motor 4 is arranged on crossbeam 10, and described longitudinal leadscrew 24 left end is watched with longitudinally
Take motor 4 output shaft to connect, described longitudinal leadscrew 24 right-hand member is arranged on bearing block 19, and described longitudinal nut 28 is arranged on longitudinal direction
On leading screw 24 and longitudinal nut 28 is arranged on longitudinal slide carriage 12, described longitudinal slide carriage 12 is arranged on crossbeam by longitudinal rail 11
On 10, described pedestal 25 is fixedly mounted on longitudinal slide carriage 12, and described vertical servo motor 13 is arranged on motor mount 14,
Described motor mount 14 is arranged on pedestal 25, and described vertical guide rail 15 is arranged on pedestal 25, and described down-feed screw 16 leads to
Cross shaft coupling to be connected with vertical servo motor 13 output shaft, vertical nut is arranged on down-feed screw 16 and vertical nut is arranged on
On vertical slide carriage 18, described vertical slide carriage 18 is arranged on vertical guide rail 15, and described abradant feeding apparatus 17 are arranged on and vertically slip
On plate 18.
Preferably, described abradant feeding apparatus 17 are by bung 1701, plastic wheel 1702, abrasive material valve 1703, water-returning control valve
1704th, cutting head 1705, supertension water pipe 1706, abrasive material outlet pipe 1707 and charging basket 1708 form, and described bung 1701 is arranged on
On charging basket 1708, described charging basket 1708 is arranged on abrasive material valve 1703, and described abrasive material outlet pipe 1707 is arranged on the bottom of charging basket 1708
Portion, described plastic wheel 1702 is arranged on abrasive material valve 1703, and described water-returning control valve 1704 passes through pipeline with abrasive material valve 1703 even
Connect, described cutting head 1705 is connected with water-returning control valve 1704 by pipeline, described supertension water pipe 1706 is arranged on cutting head
1705 top.
Preferably, described support 1 adopts iron casting molding.
Above in conjunction with accompanying drawing, this utility model preferred implementation is explained in detail, but this utility model is not limited to
Above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can also be without departing from this utility model
Make a variety of changes on the premise of objective.
Many other can be made without departing from spirit and scope of the present utility model to change and remodeling.It should be appreciated that this reality
It is not limited to specific embodiment with new, scope of the present utility model is defined by the following claims.
Claims (4)
1. a kind of numerical control ultrahigh pressure water cutting machine for E-TPU production it is characterised in that:Including support, bearing group, a left side laterally
Nut, servo longitudinal motor, left transverse slider, left cross slide way, left horizontal leading screw, left driven pulley, the first Timing Belt, horizontal stroke
Beam, longitudinal rail, longitudinal slide carriage, vertical servo motor, motor mount, vertical guide rail, down-feed screw, abradant feeding apparatus,
Vertical slide carriage, bearing block, right transverse slider, right cross slide way, right driven pulley, right horizontal leading screw, longitudinal leadscrew, pedestal, the
Two Timing Belts, horizontal servomotor and longitudinal nut;Described left horizontal leading screw two ends are arranged on machine by the described bearing group in left side
On seat, described left laterally nut is arranged in left horizontal leading screw and left laterally nut is arranged on crossbeam, described left cross slide way
All it is arranged on support with right cross slide way, described left transverse slider is arranged on left cross slide way, described right transverse slider peace
It is contained on right cross slide way, described crossbeam left end is arranged on left transverse slider, crossbeam right-hand member is arranged on right transverse slider, institute
State right horizontal leading screw two ends to be arranged on support by the described bearing group in right side, right laterally nut be arranged in right horizontal leading screw and
Right laterally nut is arranged on crossbeam, and described left driven pulley is arranged in left horizontal leading screw, and described right driven pulley is arranged on
In right horizontal leading screw, described horizontal servomotor is fixedly mounted on support, horizontal servo motor output shaft is provided with actively
Belt wheel, described first Timing Belt is arranged on left driven pulley and driving pulley, and described second Timing Belt is arranged on right driven pulley
On driving pulley, described servo longitudinal motor is arranged on crossbeam, and described longitudinal leadscrew left end is exported with servo longitudinal motor
Axle connects, and described longitudinal leadscrew right-hand member is arranged on bearing block, and described longitudinal nut is arranged on longitudinal leadscrew and longitudinal nut
It is arranged on longitudinal slide carriage, described longitudinal slide carriage is arranged on crossbeam by longitudinal rail, and described pedestal is fixedly mounted on longitudinal direction
On slide carriage, described vertical servo motor is arranged on motor mount, and described motor mount is arranged on pedestal, described vertical
On pedestal, described down-feed screw is connected with vertical servo motor output shaft guide rails assembling by shaft coupling, and vertical nut is installed
On down-feed screw and vertical nut is arranged on vertical slide carriage, described vertical slide carriage is arranged on vertical guide rail, described abrasive material
Feedway is arranged on vertical slide carriage.
2. as claimed in claim 1 a kind of numerical control ultrahigh pressure water cutting machine for E-TPU production it is characterised in that:Described
Abradant feeding apparatus are by bung, plastic wheel, abrasive material valve, water-returning control valve, cutting head, supertension water pipe, abrasive material outlet pipe and charging basket
Composition, described bung is arranged on charging basket, and described charging basket is arranged on abrasive material valve, and described abrasive material outlet pipe is arranged on the bottom of charging basket
Portion, described plastic wheel is arranged on abrasive material valve, and described water-returning control valve is connected with abrasive material valve by pipeline, and described cutting head passes through
Pipeline is connected with water-returning control valve, and described supertension water pipe is arranged on the top of cutting head.
3. as claimed in claim 1 a kind of numerical control ultrahigh pressure water cutting machine for E-TPU production it is characterised in that:Described
Support adopts iron casting molding.
4. as claimed in claim 1 a kind of numerical control ultrahigh pressure water cutting machine for E-TPU production it is characterised in that:Described
Support bottom is provided with adjustable supporting bracer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620857788.2U CN205928281U (en) | 2016-08-08 | 2016-08-08 | Do you be used for E numerical control super high pressure water cutting machine of TPU production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620857788.2U CN205928281U (en) | 2016-08-08 | 2016-08-08 | Do you be used for E numerical control super high pressure water cutting machine of TPU production |
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Publication Number | Publication Date |
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CN205928281U true CN205928281U (en) | 2017-02-08 |
Family
ID=57923078
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CN201620857788.2U Expired - Fee Related CN205928281U (en) | 2016-08-08 | 2016-08-08 | Do you be used for E numerical control super high pressure water cutting machine of TPU production |
Country Status (1)
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CN (1) | CN205928281U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111958491A (en) * | 2020-07-29 | 2020-11-20 | 昆明理工大学 | Follow-on high pressure water jet cuts rock device |
-
2016
- 2016-08-08 CN CN201620857788.2U patent/CN205928281U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111958491A (en) * | 2020-07-29 | 2020-11-20 | 昆明理工大学 | Follow-on high pressure water jet cuts rock device |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170208 Termination date: 20170808 |
|
CF01 | Termination of patent right due to non-payment of annual fee |