CN106238768A - A kind of gantry machining center ray machine - Google Patents
A kind of gantry machining center ray machine Download PDFInfo
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- CN106238768A CN106238768A CN201610708524.5A CN201610708524A CN106238768A CN 106238768 A CN106238768 A CN 106238768A CN 201610708524 A CN201610708524 A CN 201610708524A CN 106238768 A CN106238768 A CN 106238768A
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- machining center
- ray machine
- drill bit
- parts
- hydraulic press
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B39/00—General-purpose boring or drilling machines or devices; Sets of boring and/or drilling machines
- B23B39/006—Portal drilling machines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P15/00—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass
- B23P15/28—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass cutting tools
- B23P15/32—Making specific metal objects by operations not covered by a single other subclass or a group in this subclass cutting tools twist-drills
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22C—ALLOYS
- C22C1/00—Making non-ferrous alloys
- C22C1/02—Making non-ferrous alloys by melting
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22C—ALLOYS
- C22C1/00—Making non-ferrous alloys
- C22C1/06—Making non-ferrous alloys with the use of special agents for refining or deoxidising
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22C—ALLOYS
- C22C33/00—Making ferrous alloys
- C22C33/006—Making ferrous alloys compositions used for making ferrous alloys
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22C—ALLOYS
- C22C33/00—Making ferrous alloys
- C22C33/04—Making ferrous alloys by melting
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B2222/00—Materials of tools or workpieces composed of metals, alloys or metal matrices
- B23B2222/28—Details of hard metal, i.e. cemented carbide
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Drilling And Boring (AREA)
Abstract
The open a kind of gantry machining center ray machine of the present invention, including portal frame, base and upper frame, described base is positioned at the middle part of portal frame, it is provided with workbench on described base, the lower end of described workbench is provided with servomotor, the lower end of described servomotor is provided with pulley, described pulley is provided with more than one, described upper frame is positioned at the top of portal frame, and fix with portal frame, described upper frame be internally provided with left hydraulic press and right hydraulic press, hydraulic stem all it is provided with on described left hydraulic press and right hydraulic press, the end of described hydraulic stem is provided with fixed block, the middle part of described upper frame is provided with movable stand, described movable stand fixes with fixed block, it is provided with processing unit (plant) in described movable stand, driving motor it is provided with in described processing unit (plant), drill bit and drill bit, the lower end of described drill bit is provided with ratio wheel;It is high, flexibly stable and process advantage accurately that this gantry machining center ray machine has efficiency, and drill bit hardness is big and is difficult to burst apart.
Description
Technical field
The present invention relates to a kind of gantry machining center ray machine.
Background technology
Machining center ray machine protects through configuration motor, control system, tool magazine, gas circuit control, fluid path control and peripheral sheet metal
Cover, so that it may become a complete machining center.Machining center is widely used in machinery manufacturing industry, mold manufacturing industry and other row
The complex parts such as industry machining box-type, dish like members, housing and mould.Workpiece after clamped one time, can be continuously finished milling, brill, boring,
The processing of the working procedures such as hinge.Can use by separate unit, also can multiple stage composition production line processing part.
But existing gantry machining center ray machine, its X-axis all uses linear slide rail, the ray machine of this structure to behave
Easily shake, unstable, thus have influence on machining accuracy, reduce production efficiency, furthermore owing to structure is the most complicated, degree of flexibility
The most poor, additionally, it is not existing drill bit is in use, owing to drill bit is fragile, once accurate to cutter, cause drill bit fragile
Split, often change and improve cost height.
Summary of the invention
It is high, the most stable and process in gantry processing accurately that the technical problem to be solved in the present invention is to provide a kind of efficiency
Heart ray machine and hardness greatly and are difficult to the drill bit burst apart.
For solving the problems referred to above, the present invention adopts the following technical scheme that
A kind of gantry machining center ray machine, including portal frame, base and upper frame, described base is positioned at the middle part of portal frame,
Being provided with workbench on described base, the lower end of described workbench is provided with servomotor, and the lower end of described servomotor is arranged
Having pulley, described pulley to be provided with more than one, described upper frame is positioned at the top of portal frame and fixes with portal frame, described
Upper frame be internally provided with left hydraulic press and right hydraulic press, described left hydraulic press and right hydraulic press are all provided with hydraulic stem, institute
The end stating hydraulic stem is provided with fixed block, and the middle part of described upper frame is provided with movable stand, described movable stand and fixed block
Fix, in described movable stand, be provided with processing unit (plant), in described processing unit (plant), be provided with driving motor, drill bit and drill bit, institute
The lower end stating drill bit is provided with ratio wheel.
As preferably, the upper end of described base is arranged for depression, beneficially work platform for placing.
As preferably, the upper end of described base is provided with chute, and beneficially workbench moves on base.
As preferably, described pulley is provided with three, it is possible to balanced support workbench also makes movable workbench more suitable
Freely.
As preferably, the upper end of described workbench is provided with protects cutter groove, is conducive to protecting cutter.
As preferably, the front end of described left hydraulic press and right hydraulic press is all provided with block, is conducive to fixing left hydraulic press
With right hydraulic press.
As preferably, described movable stand is that X-axis moves setting, is conducive to the conversion Working position to workpiece.
As preferably, described movable stand be internally provided with chain, it is possible to processing unit (plant) is moved up and down.
As preferably, described processing unit (plant) is detachable setting, is conducive to maintenance.
As preferably, described drill bit be internally provided with scroll chuck, beneficially fixed cutting tool.
The preparation method of a kind of drill bit, comprises the following steps:
1) high manganese 14-22 part, medium carbon steel 24-36 part, silico-manganese steel 16-28 part, terne metal ingot 12-18 part and zinc are taken
Alloy pig 23-35 part puts in the smelting furnace that temperature is 1600 DEG C~1850 DEG C so that alloy melting merges, and prepares alloy molten solution,
Standby;
2) by silica 1 0-16 part, quartz sand 15-23 part, boron powder 5-7 part, nano titanium powder 15-23 part, yittrium oxide 26-
40 parts, tungsten carbide 14-20 part and manganese oxide 23-35 part are put in vacuum arc smelting furnace, at 1600-1800 DEG C successively
At a temperature of smelt 15-28 minute so that it is be melt into metal liquid, standby;
3) depletion belongs to refining agent 6-8 part and adds step 2 to) carry out refine, refine in the molten metal for preparing and to metal
Time is 25-30 minute, and refine carries out 2 electromagnetic agitation after completing, and removes the impurity on smelting furnace top layer after standing 5 minutes, standby
4) take sulfur dioxide 6-8 part, phosphorous oxide 3-5 part and strong deoxidizer 6-8 part and copper oxide 35-55 part adds step to
Rapid 3) in the molten metal prepared, and pyroreaction is passed through so that catalytic reaction between metal, standby;
5) by step 1) prepare alloy molten solution and step 4) alloy molten solution mix, and temperature is brought up to 1600 DEG C~
1850 DEG C so that molten metal and alloy molten solution hybrid reaction, and merge under the catalytic reaction of part metals, standby;
6) by step 5) liquation for preparing pours in mould, and prepare alloy bit blank, and alloy bit blank is passed through
Salt 150-180 part carries out isothermal salt bath quenching, prepares alloy bit, standby;
7) by step 6) processing gained alloy bit carry out natural aging treatment, retention time 4-6 round the clock, to obtain final product.
The invention have the benefit that the present invention passes through that workbench is removable, movable stand removable and processing unit (plant) can move
Dynamic, by its operability performance smoothly flexibly, it is possible to make work pieces process more accurately, owing to being provided with base,
Can support works platform make movable workbench, owing to being provided with pulley, it is possible to workbench is steadily moved, owing to setting
Put workbench upper end to be provided with and protect cutter groove, be conducive to protecting cutter, prevent tool damage, owing to being provided with left hydraulic press and right liquid
Depressor, it is possible to movable stand is moved left and right, owing to being provided with processing unit (plant), it is possible to by driving motor to drive drill bit, and is subject to
Cutter on ratio wheel deceleration rear drive drill bit carries out cutting polish to workpiece, and meanwhile, drill bit uses the medium material of the present invention
Making, not only hardness is big, moreover it is possible to prevent fragmentation.
Accompanying drawing explanation
Fig. 1 is the structural representation of the present invention a kind of gantry machining center ray machine.
Detailed description of the invention
Embodiment 1
As it is shown in figure 1, a kind of gantry machining center ray machine, including portal frame 1, base 2 and upper frame 3, described base 2 is positioned at
The middle part of portal frame 1, described base 2 is provided with workbench 4, and the lower end of described workbench 4 is provided with servomotor 5, described
The lower end of servomotor 5 is provided with pulley 6, and described pulley 6 is provided with more than one, and described upper frame 3 is positioned at the upper of portal frame 1
Side the most also fixes with portal frame 1, described upper frame 3 be internally provided with left hydraulic press 7 and right hydraulic press 8, described left hydraulic press 7
Be all provided with hydraulic stem 9 on right hydraulic press 8, the end of described hydraulic stem 9 is provided with fixed block 10, the middle part of described upper frame 3
Setting is provided with movable stand 11, and described movable stand 11 fixes with fixed block 10, is provided with processing unit (plant) in described movable stand 11
12, it is provided with driving motor 13, drill bit 14 and drill bit 16 in described processing unit (plant) 12, the lower end of described drill bit 14 is provided with deceleration
Wheel 15.
Described drill bit is made up of the material of following parts by weight proportioning, including high manganese 22 parts, 24 parts of medium carbon steel, silicomanganese
Steel 16 parts, 12 parts of terne metal ingot, ZINC ALLOY 23 parts, silica 10 part, quartz sand 15 parts, 5 parts of boron powder, nano titanium powder 15
Part, yittrium oxide 26 parts, tungsten carbide 14 parts, manganese oxide 23 parts, sulfur dioxide 6 parts, phosphorous oxide 3 parts, salt 150 parts, refining of metal agent 6
Part and copper oxide 35 parts.
The upper end of described base 2 is provided with chute, and beneficially workbench 4 moves on base 2.
Described pulley 6 is provided with three, it is possible to balanced support workbench 4 also makes movable workbench more smooth and easy.
The upper end of described workbench 4 is provided with protects cutter groove, is conducive to protecting cutter.
The front end of described left hydraulic press 7 and right hydraulic press 8 is all provided with block, is conducive to fixing left hydraulic press 7 and right liquid
Depressor 8.
Described movable stand 11 moves setting for X-axis, is conducive to the conversion Working position to workpiece.
Described movable stand 11 be internally provided with chain (not shown), it is possible to processing unit (plant) 12 is moved up and down.
Described processing unit (plant) 12 is detachable setting, is conducive to maintenance.
Described drill bit 16 be internally provided with scroll chuck (not shown), beneficially fixed cutting tool.
The preparation method of a kind of drill bit, comprises the following steps:
1) high manganese 22 parts, 24 parts of medium carbon steel, silico-manganese steel 16 parts, 12 parts of terne metal ingot and ZINC ALLOY 23 parts throwing are taken
Enter in the smelting furnace that temperature is 1600 DEG C~1850 DEG C so that alloy melting merges, prepare alloy molten solution, standby;
2) by silica 10 part, quartz sand 15 parts, 5 parts of boron powder, nano titanium powder 15 parts, yittrium oxide 26 parts, tungsten carbide 14
Part and manganese oxide 23 parts are put in vacuum arc smelting furnace successively, smelt 15-28 and divide at a temperature of 1600-1800 DEG C
Clock so that it is be melt into metal liquid, standby;
3) depletion belongs to refining agent 6 parts and adds step 2 to) carry out refine, during refine in the molten metal for preparing and to metal
Between be 25-30 minute, refine carries out 2 electromagnetic agitation after completing, after standing 5 minutes remove smelting furnace top layer impurity, standby
4) take sulfur dioxide 6 parts, phosphorous oxide 3 parts and strong deoxidizer 6 parts and copper oxide 35-55 part add step 3 to) system
In the molten metal obtained, and pass through pyroreaction so that catalytic reaction between metal, standby;
5) by step 1) prepare alloy molten solution and step 4) alloy molten solution mix, and temperature is brought up to 1600 DEG C~
1850 DEG C so that molten metal and alloy molten solution hybrid reaction, and merge under the catalytic reaction of part metals, standby;
6) by step 5) liquation for preparing pours in mould, and prepare alloy bit blank, and alloy bit blank is passed through
Salt 150 parts carries out isothermal salt bath quenching, prepares alloy bit, standby;
7) by step 6) processing gained alloy bit carry out natural aging treatment, retention time 4-6 round the clock, to obtain final product.
Embodiment 2
As it is shown in figure 1, a kind of gantry machining center ray machine, including portal frame 1, base 2 and upper frame 3, described base 2 is positioned at
The middle part of portal frame 1, described base 2 is provided with workbench 4, and the lower end of described workbench 4 is provided with servomotor 5, described
The lower end of servomotor 5 is provided with pulley 6, and described pulley 6 is provided with more than one, and described upper frame 3 is positioned at the upper of portal frame 1
Side the most also fixes with portal frame 1, described upper frame 3 be internally provided with left hydraulic press 7 and right hydraulic press 8, described left hydraulic press 7
Be all provided with hydraulic stem 9 on right hydraulic press 8, the end of described hydraulic stem 9 is provided with fixed block 10, the middle part of described upper frame 3
Setting is provided with movable stand 11, and described movable stand 11 fixes with fixed block 10, is provided with processing unit (plant) in described movable stand 11
12, it is provided with driving motor 13, drill bit 14 and drill bit 16 in described processing unit (plant) 12, the lower end of described drill bit 14 is provided with deceleration
Wheel 15.
Described drill bit is made up of the material of following parts by weight proportioning, including high manganese 14 parts, 36 parts of medium carbon steel, silicomanganese
Steel 28 parts, 18 parts of terne metal ingot, ZINC ALLOY 35 parts, silica 16 parts, quartz sand 23 parts, 7 parts of boron powder, nano titanium powder 23
Part, yittrium oxide 40 parts, tungsten carbide 20 parts, manganese oxide 35 parts, sulfur dioxide 8 parts, phosphorous oxide 5 parts, salt 180 parts, refining of metal agent 8
Part and copper oxide 55 parts.
The upper end of described base 2 is provided with chute, and beneficially workbench 4 moves on base 2.
Described pulley 6 is provided with three, it is possible to balanced support workbench 4 also makes movable workbench more smooth and easy.
The upper end of described workbench 4 is provided with protects cutter groove, is conducive to protecting cutter.
The front end of described left hydraulic press 7 and right hydraulic press 8 is all provided with block, is conducive to fixing left hydraulic press 7 and right liquid
Depressor 8.
Described movable stand 11 moves setting for X-axis, is conducive to the conversion Working position to workpiece.
Described movable stand 11 be internally provided with chain (not shown), it is possible to processing unit (plant) 12 is moved up and down.
Described processing unit (plant) 12 is detachable setting, is conducive to maintenance.
Described drill bit 16 be internally provided with scroll chuck (not shown), beneficially fixed cutting tool.
The preparation method of a kind of drill bit, comprises the following steps:
1) high manganese 14 parts, 36 parts of medium carbon steel, silico-manganese steel 28 parts, 18 parts of terne metal ingot and ZINC ALLOY 35 parts throwing are taken
Enter in the smelting furnace that temperature is 1600 DEG C~1850 DEG C so that alloy melting merges, prepare alloy molten solution, standby;
2) by silica 16 parts, quartz sand 23 parts, 7 parts of boron powder, nano titanium powder 23 parts, yittrium oxide 40 parts, tungsten carbide 20
Part and manganese oxide 35 parts are put in vacuum arc smelting furnace successively, smelt 15-28 and divide at a temperature of 1600-1800 DEG C
Clock so that it is be melt into metal liquid, standby;
3) depletion belongs to refining agent 8 parts and adds step 2 to) carry out refine, during refine in the molten metal for preparing and to metal
Between be 25-30 minute, refine carries out 2 electromagnetic agitation after completing, after standing 5 minutes remove smelting furnace top layer impurity, standby
4) take sulfur dioxide 8 parts, phosphorous oxide 5 parts and strong deoxidizer 8 parts and copper oxide 55 parts add step 3 to) prepare
In molten metal, and pass through pyroreaction so that catalytic reaction between metal, standby;
5) by step 1) prepare alloy molten solution and step 4) alloy molten solution mix, and temperature is brought up to 1600 DEG C~
1850 DEG C so that molten metal and alloy molten solution hybrid reaction, and merge under the catalytic reaction of part metals, standby;
6) by step 5) liquation for preparing pours in mould, and prepare alloy bit blank, and alloy bit blank is passed through
Salt 180 parts carries out isothermal salt bath quenching, prepares alloy bit, standby;
7) by step 6) processing gained alloy bit carry out natural aging treatment, retention time 4-6 round the clock, to obtain final product.
Embodiment 3
As it is shown in figure 1, a kind of gantry machining center ray machine, including portal frame 1, base 2 and upper frame 3, described base 2 is positioned at
The middle part of portal frame 1, described base 2 is provided with workbench 4, and the lower end of described workbench 4 is provided with servomotor 5, described
The lower end of servomotor 5 is provided with pulley 6, and described pulley 6 is provided with more than one, and described upper frame 3 is positioned at the upper of portal frame 1
Side the most also fixes with portal frame 1, described upper frame 3 be internally provided with left hydraulic press 7 and right hydraulic press 8, described left hydraulic press 7
Be all provided with hydraulic stem 9 on right hydraulic press 8, the end of described hydraulic stem 9 is provided with fixed block 10, the middle part of described upper frame 3
Setting is provided with movable stand 11, and described movable stand 11 fixes with fixed block 10, is provided with processing unit (plant) in described movable stand 11
12, it is provided with driving motor 13, drill bit 14 and drill bit 16 in described processing unit (plant) 12, the lower end of described drill bit 14 is provided with deceleration
Wheel 15.
Described drill bit is made up of the material of following parts by weight proportioning, including high manganese 18 parts, 30 parts of medium carbon steel, silicomanganese
Steel 22 parts, 15 parts of terne metal ingot, ZINC ALLOY 29 parts, silica 13 parts, quartz sand 19 parts, 6 parts of boron powder, nano titanium powder 19
Part, yittrium oxide 33 parts, tungsten carbide 17 parts, manganese oxide 29 parts, sulfur dioxide 7 parts, phosphorous oxide 4 parts, salt 165 parts, refining of metal agent 7
Part and copper oxide 45 parts.
The upper end of described base 2 is provided with chute, and beneficially workbench 4 moves on base 2.
Described pulley 6 is provided with three, it is possible to balanced support workbench 4 also makes movable workbench more smooth and easy.
The upper end of described workbench 4 is provided with protects cutter groove, is conducive to protecting cutter.
The front end of described left hydraulic press 7 and right hydraulic press 8 is all provided with block, is conducive to fixing left hydraulic press 7 and right liquid
Depressor 8.
Described movable stand 11 moves setting for X-axis, is conducive to the conversion Working position to workpiece.
Described movable stand 11 be internally provided with chain (not shown), it is possible to processing unit (plant) 12 is moved up and down.
Described processing unit (plant) 12 is detachable setting, is conducive to maintenance.
Described drill bit 16 be internally provided with scroll chuck (not shown), beneficially fixed cutting tool.
The preparation method of a kind of drill bit, comprises the following steps:
1) high manganese 18 parts, 30 parts of medium carbon steel, silico-manganese steel 22 parts, 15 parts of terne metal ingot and ZINC ALLOY 29 parts throwing are taken
Enter in the smelting furnace that temperature is 1600 DEG C~1850 DEG C so that alloy melting merges, prepare alloy molten solution, standby;
2) by silica 13 parts, quartz sand 19 parts, 6 parts of boron powder, nano titanium powder 19 parts, yittrium oxide 33 parts, tungsten carbide 17
Part and manganese oxide 29 parts are put in vacuum arc smelting furnace successively, smelt 15-28 and divide at a temperature of 1600-1800 DEG C
Clock so that it is be melt into metal liquid, standby;
3) depletion belongs to refining agent 7 parts and adds step 2 to) carry out refine, during refine in the molten metal for preparing and to metal
Between be 25-30 minute, refine carries out 2 electromagnetic agitation after completing, after standing 5 minutes remove smelting furnace top layer impurity, standby
4) take sulfur dioxide 7 parts, phosphorous oxide 4 parts and strong deoxidizer 7 parts and copper oxide 35-55 part add step 3 to) system
In the molten metal obtained, and pass through pyroreaction so that catalytic reaction between metal, standby;
5) by step 1) prepare alloy molten solution and step 4) alloy molten solution mix, and temperature is brought up to 1600 DEG C~
1850 DEG C so that molten metal and alloy molten solution hybrid reaction, and merge under the catalytic reaction of part metals, standby;
6) by step 5) liquation for preparing pours in mould, and prepare alloy bit blank, and alloy bit blank is passed through
Salt 165 parts carries out isothermal salt bath quenching, prepares alloy bit, standby;
7) by step 6) processing gained alloy bit carry out natural aging treatment, retention time 4-6 round the clock, to obtain final product.
Experimental example:
Choose common drill bit with special drill bit compared with the drill bit of the present invention, and according to hardness, rigidity and drill bit
Sharpness can foundation as a comparison, analyze the situation of three groups of drill bits, and draw best drill bit.
With common drill bit be matched group one, special drill bit be matched group two and the present invention drill bit for matched group three,
Concrete data are as shown in the table:
Contrasting three groups of materials, the drill bit effect obtaining the present invention is best, has that hardness is big, rigidity compared with two groups of matched groups
The sharp advantage being difficult to passivation of good and drill bit.
The invention have the benefit that the present invention passes through that workbench is removable, movable stand removable and processing unit (plant) can move
Dynamic, by its operability performance smoothly flexibly, it is possible to make work pieces process more accurately, owing to being provided with base,
Can support works platform make movable workbench, owing to being provided with pulley, it is possible to workbench is steadily moved, owing to setting
Put workbench upper end to be provided with and protect cutter groove, be conducive to protecting cutter, prevent tool damage, owing to being provided with left hydraulic press and right liquid
Depressor, it is possible to movable stand is moved left and right, owing to being provided with processing unit (plant), it is possible to by driving motor to drive drill bit, and is subject to
Cutter on ratio wheel deceleration rear drive drill bit carries out cutting polish to workpiece, and meanwhile, drill bit uses the medium material of the present invention
Making, not only hardness is big, moreover it is possible to prevent fragmentation.
The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, and any
The change expected without creative work or replacement, all should contain within protection scope of the present invention.
Claims (10)
1. a gantry machining center ray machine, it is characterised in that: include that portal frame, base and upper frame, described base are positioned at gantry
The middle part of frame, described base is provided with workbench, and the lower end of described workbench is provided with servomotor, described servomotor
Lower end is provided with pulley, and described pulley is provided with more than one, and described upper frame is positioned at the top of portal frame and consolidates mutually with portal frame
Fixed, described upper frame be internally provided with left hydraulic press and right hydraulic press, described left hydraulic press and right hydraulic press are all provided with liquid
Depression bar, the end of described hydraulic stem is provided with fixed block, and the middle part of described upper frame is provided with movable stand, described movable stand with
Fixed block fixes, and is provided with processing unit (plant) in described movable stand, is provided with driving motor, drill bit and brill in described processing unit (plant)
Head, the lower end of described drill bit is provided with ratio wheel.
2. gantry machining center ray machine as claimed in claim 2, it is characterised in that: described drill bit is by following parts by weight proportioning
Material make, including high manganese 14-22 part, medium carbon steel 24-36 part, silico-manganese steel 16-28 part, terne metal ingot 12-18 part,
ZINC ALLOY 23-35 part, silica 1 0-16 part, quartz sand 15-23 part, boron powder 5-7 part, nano titanium powder 15-23 part, oxidation
Yttrium 26-40 part, tungsten carbide 14-20 part, manganese oxide 23-35 part, sulfur dioxide 6-8 part, phosphorous oxide 3-5 part, salt 150-180 part,
Refining of metal agent 6-8 part and copper oxide 35-55 part.
3. gantry machining center ray machine as claimed in claim 3, it is characterised in that: the upper end of described base is provided with chute.
4. gantry machining center ray machine as claimed in claim 4, it is characterised in that: described pulley is provided with three.
5. gantry machining center ray machine as claimed in claim 5, it is characterised in that: the upper end of described workbench is provided with protects cutter
Groove.
6. gantry machining center ray machine as claimed in claim 6, it is characterised in that: before described left hydraulic press and right hydraulic press
End is all provided with block.
7. gantry machining center ray machine as claimed in claim 7, it is characterised in that: described movable stand is that X-axis moves setting.
8. gantry machining center ray machine as claimed in claim 8, it is characterised in that: described movable stand be internally provided with chain
Bar.
9. gantry machining center ray machine as claimed in claim 9, it is characterised in that: described processing unit (plant) is detachable setting.
10. gantry machining center ray machine as claimed in claim 10, it is characterised in that: described drill bit be internally provided with three-jaw
Chuck.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108749117A (en) * | 2018-07-30 | 2018-11-06 | 安徽开来包装有限公司 | Cup body cardboard excision forming device |
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GB1227029A (en) * | 1966-12-09 | 1971-03-31 | ||
CN201350515Y (en) * | 2009-02-09 | 2009-11-25 | 深圳市康铖机械设备有限公司 | Small-sized gantry single-spindle drilling numerical control machine |
CN201529784U (en) * | 2009-11-04 | 2010-07-21 | 山东鲁重数控机床股份有限公司 | Floor-type vertical-horizontal combined boring-milling numerical control machine tool |
CN203956510U (en) * | 2014-06-19 | 2014-11-26 | 莆田市巨久数控设备有限公司 | A kind of gantry Machining Center ray machine |
CN104439369A (en) * | 2014-11-28 | 2015-03-25 | 常州市畅远无纺布制品有限公司 | Multi-station drilling device |
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