CN209599348U - A kind of vibration jet cutting machine with dado head - Google Patents
A kind of vibration jet cutting machine with dado head Download PDFInfo
- Publication number
- CN209599348U CN209599348U CN201920146555.5U CN201920146555U CN209599348U CN 209599348 U CN209599348 U CN 209599348U CN 201920146555 U CN201920146555 U CN 201920146555U CN 209599348 U CN209599348 U CN 209599348U
- Authority
- CN
- China
- Prior art keywords
- assembly
- moving assembly
- cutting machine
- dado head
- subregion
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Control Of Cutting Processes (AREA)
Abstract
The utility model discloses a kind of vibration jet cutting machine with dado head, including board, X is to moving assembly, Y-direction moving assembly and Mobile base, X is located at the surface of board to moving assembly, X is fixedly connected with Y-direction moving assembly to the both ends of moving assembly and is driven by Y-direction moving assembly and moved along Y-direction, Mobile base is located at X on moving assembly and is driven along X from X to moving assembly to moving, the side of Mobile base is provided with dado head, dado head includes cutter device, hole punched device, brush component and impression component, the side of dado head is provided with Z-direction moving assembly, Z-direction moving assembly can drive cutter device, hole punched device, brush component and any one progress Z-direction of impression component are mobile.The utility model has the following beneficial effects: the cutting machine has the multiple functions such as cutting, punching, impression and scribing line, so that promoting processing efficiency that can meet the needs of kinds of processes on cutting machine.
Description
Technical field
The utility model relates to cutting equipment field, in particular to a kind of vibration jet cutting machine with dado head.
Background technique
With the continuous development of society, using the cutting equipment of automation to corium, leather, textile, carton paper with
And a variety of flexible materials such as printed matter are cut, and the precision and production efficiency of flexible material processing are greatly improved.It is existing
Cutting equipment is laser cutting and machine cuts mostly, and laser cutting can generate a large amount of smog and cause the air in workshop dirty
Dye, while laser cutting will cause flexible material cut edge and generate carbide to influence the quality of cutting.
Notification number is that the Chinese patent of CN104608162B discloses a kind of numerical control coiled strip vibrating blade cutting equipment, the equipment
Including board and cradle, the cradle is set to behind board, and the board includes lower board and is set to lower board
The upper board of upper end, the top end face of the upper board are provided with fiber panel and cutter device, and the cutter device includes that can indulge
Mobile crossbeam and transversely movable cutting head, the crossbeam are slidably connected with upper board, the cutting head and crossbeam
Transmission connection, the cutting head are provided with camera shooting station, cutting work station and drawing station.This vibrating blade cutting equipment passes through
The technical issues of camera is positioned, and solution can not be cut with image coiled strip avoids preventing to generate harmful using laser cutting
Gas and pollute environment.
But the cutting head to realize cutting operation is only set on this vibrating blade cutting equipment, and can not be to soft
The techniques such as property material punched, impression and scribing line.If desired flexible material is punched, the techniques such as impression and scribing line
When, relevant device need to be further provided with, the flexible material of well cutting is processed;In the process, but need to flexible material into
Row typesetting positioning, and then lead to that time-consuming, so that the low efficiency of processing.
Utility model content
The purpose of the utility model is to provide a kind of vibration jet cutting machine with dado head, which, which has, cuts
It cuts, punch, the multiple functions such as impression and scribing line, so that promoting processing that can meet the needs of kinds of processes on cutting machine
Efficiency.
The above-mentioned technical purpose of the utility model has the technical scheme that a kind of with dado head
Vibration jet cutting machine, including board, X, to moving assembly, Y-direction moving assembly and Mobile base, the X is located to moving assembly
The surface of board, the X are fixedly connected with Y-direction moving assembly to the both ends of moving assembly and are driven by Y-direction moving assembly along Y
To movement, the Mobile base is located at X on moving assembly and is driven along X from X to moving assembly to moving, the one of the Mobile base
Side is provided with dado head, and the dado head includes cutter device, hole punched device, brush component and impression component, described
The side of dado head is provided with Z-direction moving assembly, and the Z-direction moving assembly can drive cutter device, hole punched device, paintbrush group
Part and any one progress Z-direction of impression component are mobile.
The utility model is further arranged to: the cutter device includes oscillating knife cutting assembly and dise knife cutting group
Part.
The utility model is further arranged to: the hole punched device includes regular punching assembly and irregular punching group
Part.
The utility model is further arranged to: the Z-direction moving assembly is made of six cylinders, six cylinders from
By hold respectively with oscillating knife cutting assembly, dise knife cutting assembly, regular punching assembly, irregular punching assembly, brush component with
And impression component is connected.
The utility model is further arranged to: setting has the subregion vacuum suction ventilator of several vacuum chambers in the rack
Structure, the subregion vacuum air suction mechanism include that several are set to the air inlet of vacuum chamber bottom and are set to vacuum ceiling
The wind inlet in portion, each air inlet correspond to a vacuum chamber;Each air inlet is respectively connected with connection connector, each
One end of connection connector is respectively connected with the same air intake device, and the side of each connection connector is provided with to be connect to open and close connection
The control valve of head.
The utility model is further arranged to: the subregion vacuum air suction mechanism includes the top successively installed from top to bottom
Plate, partition network panel and bottom plate are provided with several staggered horizontal partition items and vertical partition in the partition network panel
Item, the partition network panel are separated into several first subregion lattice, the multiblock technique by horizontal partition item and vertical partition item
The two sides of plate make each first subregion trellis at vacuum chamber independent, several described air draughts respectively in connection with top plate and bottom plate
Hole is set on top plate, several described air inlets are set on bottom plate.
The utility model is further arranged to: the support to support subregion vacuum air suction mechanism is provided in the rack
Part, the supporting element in several cross-brace plates and longitudinal supporting plate that are staggered by forming, and the supporting element is by transverse direction
Support plate and longitudinal supporting plate are separated into several second subregion lattice, and each second subregion lattice correspond to first subregion
Lattice.
The utility model is further arranged to: the supporting element is that internal hollow out is arranged, in each second subregion lattice
At least one connection connector, described one end for connecting logical head are connected with supporting element, and the bottom of the supporting element is provided with
Several connectors to be connected to air intake device.
The utility model is further arranged to: the air intake device is the vacuum pump with frequency conversion function.
The utility model is further arranged to: the side of the frequency conversion vacuum pump is provided with controllable frequency conversion vacuum pump work
The control assembly of frequency, the side of the control assembly are electrically connected with the negative pressure sensing to Measuring Vacuum swabbing pressure size
Device.
In conclusion the utility model has the following beneficial effects: then leading to when needing that any component is selected to be worked
Crossing respective cylinder drives corresponding assembly towards the flexible material movement on board, and processes to the flexible material on board.
Impression component is suitable for the flexible material working process with aesthetic requirements, by carrying out impression to flexible material sideline, so that
The article that flexible material is produced is beautiful, convenient for packet field processed use;Brush component can by crossing on flexible material,
And then can mark, mark and be positioned on flexible material, convenient for clothing field carry out using;Hole punched device can be quickly right
Flexible material carries out position punch, and cutter device can cut flexible material.By the purposes of above-mentioned extension cutting machine, mention
Rise the processing efficiency to flexible material.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of embodiment;
Fig. 2 is the structural schematic diagram of dado head in Fig. 1;
Fig. 3 is the structural schematic diagram of board and subregion vacuum air suction mechanism;
Fig. 4 is the configuration schematic diagram of Fig. 3;
Fig. 5 is the structural schematic diagram of board;
Fig. 6 is the structural schematic diagram on Fig. 5 other direction.
Appended drawing reference: 1, board;2, X is to moving assembly;3, Y-direction moving assembly;4, Mobile base;5, dado head;6, it draws
Pen assembly;7, impression component;8, Z-direction moving assembly;9, oscillating knife cutting assembly;10, dise knife cutting assembly;11, regular punching
Component;12, irregular punching assembly;13, cylinder;14, subregion vacuum air suction mechanism;15, top plate;16, partition network panel;17,
Bottom plate;18, wind inlet;19, horizontal partition item;20, vertical partition item;21, the first subregion lattice;22, air inlet;23, supporting element;
24, cross-brace plate;25, longitudinal supporting plate;26, the second subregion lattice;27, it is connected to connector;28, connector;29, flexible material.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
As depicted in figs. 1 and 2, a kind of vibration jet cutting machine with dado head, including board 1, X to moving assembly 2,
Y-direction moving assembly 3 and Mobile base 4, X are located at the surface of board 1, both ends and Y-direction of the X to moving assembly 2 to moving assembly 2
Moving assembly 3 is fixedly connected and is driven by Y-direction moving assembly 3 and moved along Y-direction, and Mobile base 4 is located at X on moving assembly 2 and by X
It drives along X to moving assembly 2 to moving.
The side of Mobile base 4 is provided with dado head 5, and dado head 5 includes cutter device, hole punched device, brush component 6
And impression component 7, the side of dado head 5 are provided with Z-direction moving assembly 8, Z-direction moving assembly 8 drives according to the usage requirement
Any one progress Z-direction of dynamic cutter device, hole punched device, brush component 6 and impression component 7 is mobile.
Further, cutter device includes oscillating knife cutting assembly 9 and dise knife cutting assembly 10, and the Z-direction is mobile
Component 8 can drive oscillating knife cutting assembly 9 and any one the progress Z-direction of dise knife cutting assembly 10 mobile.Oscillating knife cutting group
Part 9 is suitable for the cutting route with radius of curvature such as circular arc, and cutter head need to follow tangent line to be converted;And dise knife cutting group
Part 10 is suitable for linear type and cuts route, and cutting speed can significantly than oscillating knife cutting assembly 9 in linear type cutting route
It improves.
Further, hole punched device includes that regular punching assembly 11 and irregular punching assembly 12, the Z-direction are mobile
Component 8 can drive regular punching assembly 11 and any one progress Z-direction of irregular punching assembly 12 mobile.Regular punching assembly
11 need to be under the action of Z-direction moving assembly 8, and move can be realized straight up and down is punched out the flexible material on board 1
Operation;And irregular punching assembly 12 also needs to be rotated according to actual requirement necessary not only for moving up and down.Such as plum blossom-shaped
Punched hole pattern.Therefore, irregular punching assembly 12 further includes having irregular punching cutter head and can driving irregular punching cutter head
The revolving part of rotation, revolving part are mounted on 8 free end of Z-direction moving assembly.(brush component 6, hole punched device and cutter device
It can refer to a kind of cutting machine head disclosed in the Chinese patent that notification number is CN207314001U, be not added be described in detail herein).
Further, Z-direction moving assembly 8 preferably be made of six cylinders 13, the free end of six cylinders 13 respectively with
Oscillating knife cutting assembly 9, dise knife cutting assembly 10, regular punching assembly 11, irregular punching assembly 12, brush component 6 and
Impression component 7 is connected.When needing that any component is selected to be worked, then by respective cylinder 13 drive corresponding assembly towards
Flexible material on board 1 is mobile, and processes to the flexible material on board 1.Impression component 7 is suitable for having beautiful need
The flexible material working process asked, by carrying out impression to flexible material sideline, so that the article that flexible material is produced is beautiful
It is good-looking, convenient for packet field processed use.Brush component 6 can by crossing on flexible material, and then can be marked on flexible material,
Mark and positioned, convenient for clothing field carry out using.
As shown in Figure 3 and Figure 4, subregion vacuum air suction mechanism 14 is additionally provided on board 1, subregion vacuum air suction mechanism 14 wraps
Include the top plate 15 successively installed from top to bottom, partition network panel 16 and bottom plate 17.The side of top plate 15 is provided with several and passes through
The wind inlet 18 of top plate 15 is worn, several staggered horizontal partition items 19 and vertical partition item are provided in partition network panel 16
20, partition network panel 16 is separated into several first subregion lattice 21 by horizontal partition item 19 and vertical partition item 20.Multiblock technique
The two sides of plate 16 make each first subregion lattice 21 form vacuum chamber independent respectively in connection with top plate 15 and bottom plate 17.Bottom plate
17 side offers several air inlets 22, and each air inlet 22 corresponds to a first subregion lattice 21.
As shown in Figure 4, Figure 5 and Figure 6, the supporting element 23 to support subregion vacuum air suction mechanism 14 is provided on board 1,
Supporting element 23 in several cross-brace plates 24 and longitudinal supporting plate 25 that are staggered by forming.Supporting element 23 is by cross-brace
Plate 24 and longitudinal supporting plate 25 are separated into several second subregion lattice 26, each second subregion lattice 26 with 21 phase of the first subregion lattice
It is equipped with.In the present embodiment, the first subregion lattice 21 and the second subregion lattice 26 are all made of 2 × 3 designs.
The connection connector 27 of at least one, the company in each second subregion lattice 26 are provided in each second subregion lattice 26
27 one end of pass joint is connected by tracheae with the air inlet 22 at corresponding first subregion lattice 21, in each second subregion lattice 26
Connection 27 other end of connector is connected with the support plate for forming the second subregion lattice 26.The support plate can for cross-brace plate 24 or
Any of longitudinal supporting plate 25.Cross-brace plate 24 or longitudinal supporting plate 25 with connection connector 27 use internal hollow out
It is arranged and bottom is provided with several to the connector 28 that is connected to vacuum pump or other air intake devices.
Further, the air intake device that the present embodiment uses is the vacuum pump with frequency conversion function.
Further, 27 side of connection connector in each second subregion lattice 26, which is provided with, to carry out connection connector 27
The control valve of opening and closing (attached drawing is not shown).
Further, the side of frequency conversion vacuum pump is provided with the control assembly of controllable frequency conversion vacuum pump working frequency, control
The side of component processed is electrically connected with the B/P EGR Back Pressure Transducer EGR to Measuring Vacuum swabbing pressure size.Due to different flexible materials
The density and gas permeability having are also different, therefore in use, can according to the characteristics of different flexible materials in control group
Vacuum values are first set in part, actual vacuum values are then measured by B/P EGR Back Pressure Transducer EGR, by will be actual true
For reciprocal of duty cycle numerical value compared with the numerical value set, comparison result is converted into electric signal transmission to frequency conversion vacuum pump by control assembly,
To control frequency conversion vacuum pump conversion frequency.
When carrying out cutting process to the flexible material on workbench, first according to the density of the flexible material and ventilative
Property, required vacuum degree is set in control assembly.Then vacuum pump is opened, so that vacuum pump reaches the vacuum degree of setting
To carry out vacuum suction to the flexible material being located on top plate 15.When cutting machine divides the flexible material being located on workbench
When area is cut, the flexible material on one of subregion lattice is cut.It, can be to corresponding second subregion lattice after cutting
Control valve in 26 is closed, so that the frequency of frequency conversion vacuum pump declines, reaches effect of energy conservation.
Claims (10)
1. a kind of vibration jet cutting machine with dado head, including board (1), X are to moving assembly (2), Y-direction moving assembly
(3) and Mobile base (4), the X is located at the surface of board (1) to moving assembly (2), the X to moving assembly (2) two
End is fixedly connected with Y-direction moving assembly (3) and is driven by Y-direction moving assembly (3) and moved along Y-direction, and the Mobile base (4) is located at X
It drives along X on moving assembly (2) and from X to moving assembly (2) to moving, it is characterized in that: the side of the Mobile base (4) is set
It is equipped with dado head (5), the dado head (5) includes cutter device, hole punched device, brush component (6) and impression component
(7), the side of the dado head (5) is provided with Z-direction moving assembly (8), and the Z-direction moving assembly (8) can drive cutting to fill
Set, hole punched device, brush component (6) and impression component (7) any one to carry out Z-direction mobile.
2. a kind of vibration jet cutting machine with dado head according to claim 1, it is characterized in that: the cutter device
It include oscillating knife cutting assembly (9) and dise knife cutting assembly (10), the Z-direction moving assembly (8) can drive oscillating knife to cut
It cuts component (9) and any one progress Z-direction of dise knife cutting assembly (10) is mobile.
3. a kind of vibration jet cutting machine with dado head according to claim 2, it is characterized in that: the hole punched device
Regular punching can be driven including regular punching assembly (11) and irregular punching assembly (12), the Z-direction moving assembly (8)
Component (11) and any one progress Z-direction of irregular punching assembly (12) are mobile.
4. a kind of vibration jet cutting machine with dado head according to claim 3, it is characterized in that: the Z-direction is mobile
Component (8) is made of six cylinders (13), the free end of six cylinders (13) respectively with oscillating knife cutting assembly (9), circle
Knife cutting assembly (10), regular punching assembly (11), irregular punching assembly (12), brush component (6) and impression component (7)
It is connected.
5. a kind of vibration jet cutting machine with dado head according to claim 1, it is characterized in that: the board (1)
Upper setting has the subregion vacuum air suction mechanism (14) of several vacuum chambers, and the subregion vacuum air suction mechanism (14) is if include
The dry wind inlet (18) for being set to the air inlet (22) of vacuum chamber bottom and being set at the top of vacuum chamber, each air draught
Mouth (22) corresponds to a vacuum chamber;
Each air inlet (22) is respectively connected with connection connector (27), and one end of each connection connector (27) is respectively connected with same
A air intake device, the side of each connection connector (27) are provided with the control valve to open and close connection connector (27).
6. a kind of vibration jet cutting machine with dado head according to claim 5, it is characterized in that: the subregion vacuum
Air suction mechanism (14) includes the top plate (15) successively installed from top to bottom, partition network panel (16) and bottom plate (17), and described point
Several staggered horizontal partition items (19) and vertical partition item (20), the partition network panel are provided on area's waffle slab (16)
(16) several first subregion lattice (21), the partition network panel are separated by horizontal partition item (19) and vertical partition item (20)
(16) two sides make each first subregion lattice (21) form vacuum chamber independent respectively in connection with top plate (15) and bottom plate (17),
Several described wind inlets (18) are set on top plate (15), several described air inlets (22) are set on bottom plate (17).
7. a kind of vibration jet cutting machine with dado head according to claim 6, it is characterized in that: the board (1)
On be additionally provided with supporting element (23) to support subregion vacuum air suction mechanism (14), the supporting element (23) is by being staggered
Several cross-brace plates (24) and longitudinal supporting plate (25) composition, the supporting element (23) by cross-brace plate (24) and
Longitudinal supporting plate (25) is separated into several second subregion lattice (26), and each second subregion lattice (26) correspond to one first point
Area's lattice (21).
8. a kind of vibration jet cutting machine with dado head according to claim 7, it is characterized in that: the supporting element
(23) it is arranged for internal hollow out, at least one connection connector (27), the connection in each second subregion lattice (26)
One end of logical head is connected with supporting element (23), and the bottom of the supporting element (23) is provided with several to be connected to air intake device
Connector (28).
9. a kind of vibration jet cutting machine with dado head according to claim 5, it is characterized in that: the air intake device
For the vacuum pump with frequency conversion function.
10. a kind of vibration jet cutting machine with dado head according to claim 9, it is characterized in that: frequency conversion vacuum pump
Side be provided with the control assembly of controllable frequency conversion vacuum pump working frequency, the side of the control assembly be electrically connected with to
The B/P EGR Back Pressure Transducer EGR of Measuring Vacuum swabbing pressure size.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920146555.5U CN209599348U (en) | 2019-01-28 | 2019-01-28 | A kind of vibration jet cutting machine with dado head |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920146555.5U CN209599348U (en) | 2019-01-28 | 2019-01-28 | A kind of vibration jet cutting machine with dado head |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209599348U true CN209599348U (en) | 2019-11-08 |
Family
ID=68402421
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920146555.5U Expired - Fee Related CN209599348U (en) | 2019-01-28 | 2019-01-28 | A kind of vibration jet cutting machine with dado head |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209599348U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114834925A (en) * | 2022-04-07 | 2022-08-02 | 杭州爱科科技股份有限公司 | Feeding cutting machine |
-
2019
- 2019-01-28 CN CN201920146555.5U patent/CN209599348U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114834925A (en) * | 2022-04-07 | 2022-08-02 | 杭州爱科科技股份有限公司 | Feeding cutting machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN209599348U (en) | A kind of vibration jet cutting machine with dado head | |
CN207295306U (en) | A kind of saw working bench | |
CN204686932U (en) | Integrated filter core guillotine | |
CN2539729Y (en) | Paper transporting device for web horizontal cutting machine | |
CN209440209U (en) | A kind of automobile sealed bar processing unit | |
CN208592967U (en) | Production line is cut in adobe cutting apparatus and adobe | |
CN209722183U (en) | A kind of vacuum-adsorption working table for cutting machine | |
CN207874368U (en) | A kind of cross cutting waste discharge marking press | |
CN202805276U (en) | PCB (Printed Circuit Board) cutting machine | |
CN213318370U (en) | Full-automatic arrangement high-precision die-cutting machine | |
CN205990549U (en) | Automatically cut a bar equipment | |
CN213033724U (en) | Carving machine with scrap collecting device | |
CN210908516U (en) | Environment-friendly sealed laser engraving machine | |
CN209141778U (en) | A kind of waste material absorbs structure and plate ceramic pattern portrays equipment | |
CN209887642U (en) | Film cutting device | |
CN209208260U (en) | A kind of coding transfer printing equipment | |
CN205237172U (en) | Automatic guillootine with iron sheet cuts function | |
CN207954059U (en) | Air conditioning for automobiles air hose punching tool | |
CN207930772U (en) | A kind of groover removes waste-removing device | |
CN208005750U (en) | A kind of paper cutter | |
CN109094275A (en) | A kind of waste material absorbs structure and plate ceramic pattern portrays equipment | |
CN220298175U (en) | Automatic engraving equipment for ceramic artware | |
CN109159262A (en) | A kind of engraving structure and plate ceramic pattern portray equipment | |
CN219007191U (en) | Paper box flanging and creasing machine | |
CN215758171U (en) | Cloth cutting device for mask machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191108 Termination date: 20210128 |
|
CF01 | Termination of patent right due to non-payment of annual fee |