CN109231997A - A kind of manufacturing equipment of composite ceramics target - Google Patents
A kind of manufacturing equipment of composite ceramics target Download PDFInfo
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- CN109231997A CN109231997A CN201811023240.8A CN201811023240A CN109231997A CN 109231997 A CN109231997 A CN 109231997A CN 201811023240 A CN201811023240 A CN 201811023240A CN 109231997 A CN109231997 A CN 109231997A
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- horn
- sliding
- pressure head
- caulking groove
- crucible
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B35/00—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/622—Forming processes; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B35/00—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/622—Forming processes; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/624—Sol-gel processing
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B35/00—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/622—Forming processes; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/626—Preparing or treating the powders individually or as batches ; preparing or treating macroscopic reinforcing agents for ceramic products, e.g. fibres; mechanical aspects section B
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B35/00—Shaped ceramic products characterised by their composition; Ceramics compositions; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/622—Forming processes; Processing powders of inorganic compounds preparatory to the manufacturing of ceramic products
- C04B35/64—Burning or sintering processes
- C04B35/645—Pressure sintering
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Ceramic Engineering (AREA)
- Inorganic Chemistry (AREA)
- Materials Engineering (AREA)
- Structural Engineering (AREA)
- Organic Chemistry (AREA)
- Dispersion Chemistry (AREA)
- Accessories For Mixers (AREA)
- Ceramic Products (AREA)
Abstract
The invention belongs to ceramic target preparation technical fields, more particularly to a kind of manufacturing equipment of composite ceramics target, including bottom plate, rest area one, Weighing system and the liquid phase being arranged on bottom plate at colloid system, liquid phase dry glue system, solid phase mixing system, solid phase at phase system, hot pressed sintering system;In bottom plate one end, the Weighing system is two for the setting of rest area one, is separately positioned on liquid phase on colloid system and solid phase mixing system;The manufacturing equipment of composite ceramics target of the invention can prepare composite ceramic target, can control product quality, product level are high in real time, production cost is reduced, multiple tracks preparation section carries out simultaneously, high degree of automation, with short production cycle, yield is high, is conducive to the batch production of composite ceramics target.Equipment of the invention can prepare the different composite ceramics target of same type two sides quality or variety classes and the different composite ceramics target of two sides quality to meet the needs of different clients difference purposes.
Description
Technical field
The invention belongs to ceramic target preparation technical fields, and in particular to a kind of manufacturing equipment of composite ceramics target.
Background technique
Currently, the method for preparation ceramic target mainly has sol-gel method and solid phase method.Studies have shown that sol-gel legal system
Standby ceramic target is preferable than ceramic target mass prepared by solid phase method, but the preparation section of sol-gel method it is complex and
Higher cost can not be produced in batches, and the preparation section of solid phase method preparation is relatively simple and cost is relatively low, can give birth in batches
It produces.Therefore, researcher is prepared by combining the advantage and disadvantage of sol-gel method and solid phase method to be utilized respectively two methods
After ceramic powders and ceramic target, ceramic powders and ceramic target mixing compacting sintering are obtained into composite ceramic target.But
There is presently no a kind of equipment can be completed at the same time aforesaid operations, needs through plurality of devices, multiple working procedure completes composite target material
Production, not only preparation efficiency is low, and yield is not high, and can not control product in real time quality.
Summary of the invention
Aiming at the problems existing in the prior art, the object of the present invention is to provide a kind of manufacturing equipments of composite ceramics target.
To achieve the goals above, the present invention adopts the following technical scheme:
A kind of manufacturing equipment of composite ceramics target, including bottom plate, rest area one, Weighing system and setting are on bottom plate
Liquid phase at colloid system, liquid phase dry glue system, solid phase mixing system, solid phase at phase system, hot pressed sintering system;The rest area
In bottom plate one end, the Weighing system is two for one setting, is separately positioned on liquid phase on colloid system and solid phase mixing system, institute
State the side that hot pressed sintering system is located at rest area one;
The liquid phase includes plastic cans, inlet tube, flow container, strainer, exhaust column, fan, rotary frame, pneumatics at colloid system
Machine, gas-guide tube, shaft pipe, aeration branch pipe, heater, workbench, swivel mount, switch gate;The plastic cans is fastened on workbench
On, the flow container setting is connected to plastic cans side on the table and by inlet tube, and the plastic cans two sidewalls are equipped with filter
Net, exhaust column are arranged on the outside of strainer, and fan is equipped in exhaust column, and the plastic cans internal upper part is provided with rotary frame, rotate
Rack one end is connect with the air compressor machine of setting on the table, and the shaft pipe, which is located at plastic cans inside center and is arranged, to be rotated
In rack, multiple aeration branch pipes are connected on shaft pipe, shaft pipe one end is connected to by gas-guide tube with air compressor machine, the heater
It is arranged on plastic tank wall, plastic pot bottom is provided with switch gate, and switch gate lower end is connect with swivel mount, and swivel mount setting exists
Workbench bottom, workbench are arranged on bottom plate;
The liquid phase dry glue system includes drying mechanism, transport mechanism one, powder sintered mechanism, powder feeding mechanism;The baking
Dry mechanism is located at plastic cans bottom part down, and the powder sintered mechanism, powder feeding mechanism are successively set on drying mechanism one end, transmission
Mechanism one is located at drying mechanism side;The drying mechanism includes caulking groove one, oscillator one, heat-conducting block, flexible horn one, heating
Motor;The caulking groove one is located at immediately below glue pot bottom, and one bottom of caulking groove is provided with oscillator one, and one two sides of caulking groove are equipped with thermally conductive
Block, heat-conducting block are connect by flexible horn one with heating motor, and heating motor is located in one side of caulking groove;The powder sintered machine
Structure include pedestal, caulking groove two, positive electricity cartridge, conduit, bracket two, circular rails, ring slider, conducting wire, column spinner, rotating disk,
Lifting base one, elevating lever one, pressure head one, elevating lever two, pressure head two, negative electricity cartridge, elevating lever three, rotating ring one, pressure head three,
Crush conehead;The pedestal is arranged on bottom plate, and caulking groove two is set on the base, and two outer wall of caulking groove is equipped with positive electricity cartridge, just
Electrode tip is connect by conduit with bracket two, and two upper end of bracket is equipped with circular rails, and ring slider is arranged in circular rails, annular
Sliding block is connect by conducting wire with negative electricity cartridge, and in circular rails lower end, the rotating disk is arranged in column spinner for the column spinner setting
On, there are three lifting bases one for setting in rotating disk, and the elevating lever one, elevating lever two, elevating lever three are separately positioned on lifting
On pedestal one, one one end of elevating lever is provided with pressure head one, and two one end of elevating lever is provided with pressure head two, and two bottom of pressure head is provided with negative
Electrode tip, three one end of elevating lever are provided with rotating ring one, and one lower end of rotating ring is provided with pressure head three, and three bottom of pressure head is provided with powder
Broken conehead;
The solid phase mixing system includes feed inlet, mixing tube, turning end one, turning end two, rotation axis, auger knife, filter
Hole, collection bucket;The feed inlet is arranged at the top of mixing tube, and rotation axis, rotation axis both ends difference are provided in the mixing tube
It is connect with turning end one and turning end two, is provided with auger knife in rotation axis, mixing bottom of the tube is evenly arranged with filter opening, under filter opening
Side is provided with collection bucket;
The solid phase at phase system includes transport mechanism two, rabbling mechanism, is sintered mechanism, send target drone structure;The conveyer
Structure two is located at solid phase mixing system side, and the rabbling mechanism is sintered mechanism, target drone structure is sent to be sequentially located at solid phase mixing system one
End;The rabbling mechanism includes caulking groove three, oscillator two, bracket three, rotating ring two, flexible horn two, pressure head four, stirring-head;
The oscillator two is arranged on bottom plate, and caulking groove three is arranged on earthquake machine two, and the bracket three is located at three side of caulking groove, bracket
Three one end are provided with rotating ring two, and two lower end of rotating ring is connected with flexible horn two, and flexible two lower end of horn is connected with pressure head four,
Four bottom of pressure head is equipped with stirring-head;The sintering mechanism includes that bracket four, downlink hydraulic press, pressure head five, caulking groove four, uplink are hydraulic
Machine, sintering furnace, sliding door, movable pulley, sliding rail;Four upper end of bracket is provided with downlink hydraulic press, and downlink hydraulic press lower end connects
It is connected to pressure head five, caulking groove four is provided with below pressure head five, four bottom of caulking groove is provided with uplink hydraulic press, and the setting of uplink hydraulic press exists
On bottom plate, sintering furnace is located at four side of bracket, and sintering furnace side is equipped with sliding door, and sintering furnace bottom is provided with movable pulley, slides
Slipping is arranged on the slide rail;
The hot pressed sintering system includes sinter box, heating rod, sintering boiler tube, mold, motor housing, swingle two, lifting
Block two, flexible horn four, hydraulic press, pressure head six, flexible horn five, joint frame two, flexible horn six, gripper;The heating
Stick is arranged in sinter box, and sinter box inside center is equipped with sintering boiler tube, and mold is provided in sinter box, and motor housing is located at sintering
Case side is provided with swingle two on motor housing, and elevator two is arranged on swingle two, is connected with telescopic machine on elevator two
Arm four and flexible horn five, flexible four one end of horn are connected with hydraulic press, and hydraulic press lower end is connected with pressure head six, and stretch horn five
One end is connected with joint frame two, and frame two one end in joint is connected with flexible horn six, and flexible six lower end of horn is connected with gripper.
Technical solution of the present invention advanced optimizes, the Weighing system include feed hopper, upper pipeline, upper switching door, in
Pipeline, cutting line, wire cutting machine, lower pipeline, lower switching door, bracket one;The lower end of hopper successively with upper pipeline, middle pipe
Road, the connection of lower pipeline, the upper switching door are arranged on upper pipeline, are provided with cutting line, cutting line and position in the middle pipeline
Wire cutting machine connection on the outside of middle pipeline, the lower lower end of duct are provided with lower switching door, the bracket one and upper tube side
Connection, is used to support fixation.
Technical solution of the present invention advanced optimizes, and the transport mechanism one includes crucible, crucible handle, mechanical folder one, turns over
Favourable turn arm one, sliding shoe one, sliding bar one, slide trucks one, driving frame one;The crucible two sides are equipped with crucible handle, machinery folder one
Crucible is clamped by crucible handle, machinery one one end of folder is connect with overturning horn one, and overturning horn one is arranged on sliding shoe one, sliding
Motion block one is slidably arranged on sliding bar one, and one one end of sliding bar is arranged in slide trucks one, and slide trucks one are slidably arranged in row
On vehicle frame one, driving frame one is arranged on bottom plate.
Technical solution of the present invention advanced optimizes, and the powder feeding mechanism includes powder feeding machine, Slide Box, swingle one, closes
Save frame one, spray head;The Slide Box is slidably arranged in powder feeding machine, and swingle one is arranged on powder feeding machine, one one end of swingle
It is provided with joint frame one, frame one one end in joint is connected with spray head.
Technical solution of the present invention advanced optimizes, and the transport mechanism two includes crucible, crucible handle, mechanical folder two, turns over
Favourable turn arm two, sliding shoe two, sliding bar two, slide trucks two, driving frame two;The crucible two sides are equipped with crucible handle, the machinery
Folder two clamps crucible by crucible handle, and machinery two one end of folder are connect with overturning horn two, and overturning horn two is arranged in sliding shoe two
On, sliding shoe two is slidably arranged on sliding bar two, and two one end of sliding bar is arranged in slide trucks two, the sliding setting of slide trucks two
On driving frame two.
Technical solution of the present invention advanced optimizes, it is described send target drone structure include rest area two, rail rods, elevator one,
Flexible horn three, lifting base two, elevating lever, disk, sliding slot, sliding clamp;The rest area two is located at sliding rail side, described
Rail rods are arranged on two side of rest area, rail rods sliding and are provided with elevator one, and one one end of elevator is connected with telescopic machine
Arm three, flexible three one end of horn are provided with lifting base two, and elevating lever is arranged on lifting base two, and elevating lever one end is connected with
Disk, disk bottom are provided with sliding slot, are provided with sliding clamp on sliding slot.
Technical solution of the present invention advanced optimizes, and the plastic cans is located at immediately below lower pipeline, and the feed inlet is located at
Immediately below lower pipeline.
Technical solution of the present invention advanced optimizes, and the sliding slot is four, and the angle of the two neighboring sliding slot is
90°。
Technical solution of the present invention advanced optimizes, and the stirring-head is arc panel.
Technical solution of the present invention advanced optimizes, and the mold upper end is provided with handle.
The beneficial effects of the present invention are:
(1) manufacturing equipment of composite ceramics target of the invention can prepare ceramic target and ceramic powders simultaneously, and will preparation
The ceramic target and ceramic powders mixing compacting sintering of completion obtain composite ceramic target, can control product quality in real time, product
Rank is high.
(2) manufacturing equipment of composite ceramics target of the invention is combined by solid phase method and liquid phase method, reduces production cost,
Multiple tracks preparation section carries out simultaneously, and high degree of automation is with short production cycle, and yield is high, is conducive to the batch production of composite ceramics target.
(3) manufacturing equipment of composite ceramics target of the invention can prepare the different composite ceramics target of same type two sides quality
Or variety classes and the different composite ceramics target of two sides quality are to meet the needs of different clients difference purposes.
Detailed description of the invention
Fig. 1 is whole structural schematic diagram of the invention;
Fig. 2 be Weighing system of the present invention, liquid phase at colloid system structural schematic diagram;
Fig. 3 is the structural schematic diagram of Weighing system of the present invention;
Fig. 4 is the cross-sectional view of Weighing system of the present invention;
Fig. 5 is liquid phase plastic system structure diagram one of the present invention;
Fig. 6 is liquid phase plastic system structure diagram two of the present invention;
Fig. 7 is cross-sectional view of the liquid phase of the present invention at colloid system;
Fig. 8 is the structural schematic diagram of drying mechanism of the present invention;
Fig. 9 is the structural schematic diagram of transport mechanism one of the present invention;
Figure 10 is the structural schematic diagram one of the powder sintered mechanism of the present invention;
Figure 11 is the partial schematic diagram of the powder sintered mechanism of the present invention;
Figure 12 is the structural schematic diagram of powder feeding mechanism of the present invention;
Figure 13 is Weighing system of the present invention, solid phase mixing system structure diagram;
Figure 14 is the partial sectional view of solid phase mixing system of the present invention;
Figure 15 is the structural schematic diagram of transport mechanism two of the present invention;
Figure 16 is the partial schematic diagram of transport mechanism two of the present invention;
Figure 17 is the structural schematic diagram of rabbling mechanism of the present invention;
Figure 18 is the partial schematic diagram of rabbling mechanism of the present invention;
Figure 19 is the structural schematic diagram one of present invention sintering mechanism;
Figure 20 is the structural schematic diagram two of present invention sintering mechanism;
Figure 21 is the structural schematic diagram that the present invention send target drone structure;
Figure 22 is the partial schematic diagram that the present invention send target drone structure;
Figure 23 is the structural schematic diagram of hot pressed sintering system of the present invention;
Figure 24 is the schematic diagram of internal structure of hot pressed sintering system sinter box of the present invention;
Figure 25 is the partial structure diagram of hot pressed sintering system of the present invention;
Figure 26 is the structural schematic diagram of bottom plate of the present invention, rest area one;
Wherein, bottom plate 1, rest area 1, feed hopper 2, upper pipeline 201, upper switching door 202, middle pipeline 203, cutting line
204, wire cutting machine 205, lower pipeline 206, lower switching door 207, bracket 1, plastic cans 3, inlet tube 301, flow container 302, filter
Net 303, exhaust column 304, fan 305, rotary frame 306, air compressor machine 307, gas-guide tube 308, shaft pipe 309, aeration branch pipe
3010, heater 3011, workbench 3012, swivel mount 3013, switch gate 3014, caulking groove 1, oscillator 1, heat-conducting block 5,
Flexible horn 1, heating motor 502, crucible 6, crucible handle 601, mechanical folder 1, overturning horn 1, sliding shoe one
702, sliding bar 1, slide trucks 1, driving frame 1, pedestal 8, caulking groove 2 801, positive electricity cartridge 802, conduit
803, bracket 2 804, circular rails 805, ring slider 806, conducting wire 807, column spinner 808, rotating disk 809, lifting base one
8010, elevating lever 1, pressure head 1, elevating lever 2 8013, pressure head 2 8014, negative electricity cartridge 8015, elevating lever three
8016, rotating ring 1, pressure head 3 8018, crushing conehead 8019, powder feeding machine 9, Slide Box 901, swingle 1, joint
Frame 1, spray head 904, feed inlet 10, mixing tube 1001, turning end 1, turning end 2 1003, rotation axis 1004, auger
Knife 1005, filter opening 1006, collection bucket 11, mechanical folder 2 12, overturning horn 2 1201, sliding shoe 2 1202, sliding bar 2 1203,
Slide trucks 2 1204, driving frame 2 1205, caulking groove 3 13, oscillator 2 1301, bracket 3 14, rotating ring 2 1401, telescopic machine
Arm 2 1402, pressure head 4 1403, stirring-head 1404, bracket 4 15, downlink hydraulic press 1501, pressure head 5 1502, caulking groove 4 1503,
Uplink hydraulic press 1504, sintering furnace 1505, sliding door 1506, movable pulley 1507, sliding rail 1508, rest area 2 16, rail rods
1601, elevator 1, flexible horn 3 1603, lifting base 2 1604, elevating lever 1605, disk 1606, sliding slot 1607,
Sliding clamp 1608, sinter box 17, heating rod 1701, sintering boiler tube 1702, mold 1703, motor housing 18, swingle 2 1801,
Elevator 2 1802, flexible horn 4 1803, hydraulic press 1804, pressure head 6 1805, flexible horn 5 1806, joint frame two
1807, stretch horn 6 1808, gripper 1809.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
As shown in Fig. 1~26, a kind of manufacturing equipment of composite ceramics target, including bottom plate 1, rest area 1, weighing system
System and the liquid phase that is arranged on bottom plate 1 are at colloid system, liquid phase dry glue system, solid phase mixing system, solid phase at phase system, heat
Press sintering system;In 1 one end of bottom plate, the Weighing system is two for the rest area 1 setting, be separately positioned on liquid phase at
On colloid system and solid phase mixing system, the hot pressed sintering system is located at one 101 side of rest area;
The liquid phase includes plastic cans 3, inlet tube 301, flow container 302, strainer 303, exhaust column 304, fan at colloid system
305, rotary frame 306, air compressor machine 307, gas-guide tube 308, shaft pipe 309, aeration branch pipe 3010, heater 3011, workbench
3012, swivel mount 3013, switch gate 3014;The plastic cans 3 is fastened on workbench 3012, and the flow container 302 is arranged in work
Make to be connected on platform 3012 and by inlet tube 301 with 3 side of plastic cans, 3 two sidewalls of plastic cans are equipped with strainer 303, exhausting
The setting of pipe 304 is equipped with fan 305 in 303 outside of strainer, exhaust column 304, and 3 internal upper part of plastic cans is provided with rotary frame
306,306 one end of rotary frame is connect with the air compressor machine 307 being arranged on workbench 3012, and the shaft pipe 309 is located at plastic
3 inside center of tank is simultaneously arranged on rotary frame 306, and multiple aeration branch pipes 3010, shaft pipe 309 are connected on shaft pipe 309
One end is connected to by gas-guide tube 308 with air compressor machine 307, and the heater 3011 is arranged on 3 outer wall of plastic cans, 3 bottom of plastic cans
Portion is provided with switch gate 3014, and 3014 lower end of switch gate is connect with swivel mount 3013, and swivel mount 3013 is arranged in workbench 3012
Bottom, workbench 3012 are arranged on bottom plate 1;
The liquid phase dry glue system includes drying mechanism, transport mechanism one, powder sintered mechanism, powder feeding mechanism;The baking
Dry mechanism is located at 3 bottom part down of plastic cans, and the powder sintered mechanism, powder feeding mechanism are successively set on drying mechanism one end, passes
Mechanism one is sent to be located at drying mechanism side;The drying mechanism includes caulking groove 1, oscillator 1, heat-conducting block 5, flexible horn
One 501, motor 502 is heated;The caulking groove 1 is located at immediately below 3 bottom of glue tank, and one 4 bottom of caulking groove is provided with oscillator one
401, one 4 two sides of caulking groove are equipped with heat-conducting block 5, and heat-conducting block 5 is connect by flexible horn 1 with heating motor 502, heat motor
502 are located in one 4 side of caulking groove;The powder sintered mechanism includes pedestal 8, caulking groove 2 801, positive electricity cartridge 802, conduit
803, bracket 2 804, circular rails 805, ring slider 806, conducting wire 807, column spinner 808, rotating disk 809, lifting base one
8010, elevating lever 1, pressure head 1, elevating lever 2 8013, pressure head 2 8014, negative electricity cartridge 8015, elevating lever three
8016, rotating ring 1, pressure head 3 8018, crushing conehead 8019;The pedestal 8 is arranged on bottom plate 1, and caulking groove 2 801 is set
It sets on pedestal 8,2 801 outer wall of caulking groove is equipped with positive electricity cartridge 802, and positive electricity cartridge 802 passes through conduit 803 and bracket two
804 connections, 2 804 upper end of bracket are equipped with circular rails 805, and ring slider 806 is arranged in circular rails 805, and ring slider 806 is logical
It crosses conducting wire 807 to connect with negative electricity cartridge 8015, the column spinner 808 is arranged in 805 lower end of circular rails, and the rotating disk 809 is set
It sets on column spinner 808, there are three lifting base 1, the elevating levers 1, elevating lever two for setting in rotating disk 809
8013, elevating lever 3 8016 is separately positioned on lifting base 1, and one 8011 one end of elevating lever is provided with pressure head 1,
2 8013 one end of elevating lever is provided with pressure head 2 8014, and 2 8014 bottom of pressure head is provided with negative electricity cartridge 8015, elevating lever three
8016 one end are provided with rotating ring 1, and one 8017 lower end of rotating ring is provided with pressure head 3 8018, and 3 8018 bottom of pressure head is set
It is equipped with and crushes conehead 8019;Bracket 2 804 is built-in with power supply, and conduit 803 and conducting wire 807 are built-in with this by inner conductors
Power supply connection, rotating disk 809 follow the rotation of column spinner 808 and rotate so that elevating lever 1, elevating lever 2 8013,
3 8016 usable rotational direction of elevating lever, and can turn to as needed right above caulking groove 2 801, to be sequentially completed compacting, burn
Knot, crushing operation.
The solid phase mixing system includes feed inlet 10, mixing tube 1001, turning end 1, turning end 2 1003, turns
Moving axis 1004, auger knife 1005, filter opening 1006, collection bucket 11;The setting of feed inlet 10 is described mixed at the top of mixing tube 1001
Rotation axis 1004 is provided in expects pipe 1001,1004 both ends of rotation axis connect with turning end 1 and turning end 2 1003 respectively
It connects, auger knife 1005 is provided in rotation axis 1004,1001 bottom of mixing tube is evenly arranged with filter opening 1006,1006 lower section of filter opening
It is provided with collection bucket 11;One 1002 one end of turning end is connect with the motor being arranged on bracket 1.
The solid phase at phase system includes transport mechanism two, rabbling mechanism, is sintered mechanism, send target drone structure;The conveyer
Structure two is located at solid phase mixing system side, and the rabbling mechanism is sintered mechanism, target drone structure is sent to be sequentially located at solid phase mixing system one
End;The rabbling mechanism includes caulking groove 3 13, oscillator 2 1301, bracket 3 14, rotating ring 2 1401, flexible horn two
1402, pressure head 4 1403, stirring-head 1404;The oscillator 2 1301 is arranged on bottom plate 1, and earthquake machine is arranged in caulking groove 3 13
On 2 1301, the bracket 3 14 is located at 3 13 side of caulking groove, and 3 14 one end of bracket is provided with rotating ring 2 1401, rotating ring two
1401 lower ends are connected with flexible horn 2 1402, and flexible 2 1402 lower end of horn is connected with pressure head 4 1403,4 1403 bottom of pressure head
Portion is equipped with stirring-head 1404;The sintering mechanism includes bracket 4 15, downlink hydraulic press 1501, pressure head 5 1502, caulking groove four
1503, uplink hydraulic press 1504, sintering furnace 1505, sliding door 1506, movable pulley 1507, sliding rail 1508;On the bracket 4 15
End is provided with downlink hydraulic press 1501, and 1501 lower end of downlink hydraulic press is connected with pressure head 5 1502,5 1502 lower section setting of pressure head
There is caulking groove 4 1503,4 1503 bottom of caulking groove is provided with uplink hydraulic press 1504, and uplink hydraulic press 1504 is arranged on bottom plate 1,
Sintering furnace 1505 is located at 4 15 side of bracket, and 1505 side of sintering furnace is equipped with sliding door 1506, and 1505 bottom of sintering furnace is provided with
Movable pulley 1507, movable pulley 1507 are slidably arranged on sliding rail 1508;
The hot pressed sintering system includes sinter box 17, heating rod 1701, sintering boiler tube 1702, mold 1703, motor housing
18, swingle 2 1801, elevator 2 1802, flexible horn 4 1803, hydraulic press 1804, pressure head 6 1805, flexible horn five
1806, joint frame 2 1807, flexible horn 6 1808, gripper 1809;The heating rod 1701 is arranged in sinter box 17, burns
It ties 17 inside center of case and is equipped with sintering boiler tube 1702, be provided with mold 1703 in sinter box 17, motor housing 18 is located at sinter box 17
Side is provided with swingle 2 1801 on motor housing 18, and elevator 2 1802 is arranged on swingle 2 1801, elevator two
Flexible horn 4 1803 and flexible horn 5 1806 are connected on 1802, flexible 4 1803 one end of horn is connected with hydraulic press
1804,1804 lower end of hydraulic press is connected with pressure head 6 1805, and flexible 5 1806 one end of horn is connected with joint frame 2 1807, joint
2 1807 one end of frame is connected with flexible horn 6 1808, and flexible 6 1808 lower end of horn is connected with gripper 1809.
The Weighing system includes feed hopper 2, upper pipeline 201, upper switching door 202, middle pipeline 203, cutting line 204, line
Cutting machine 205, lower pipeline 206, lower switching door 207, bracket 1;2 lower end of feed hopper successively with upper pipeline 201, middle pipe
Road 203, lower pipeline 206 connect, and the upper switching door 202 is arranged on upper pipeline 201, are provided with and cut in the middle pipeline 203
Secant 204, cutting line 204 are connect with the wire cutting machine 205 for being located at middle 203 outside of pipeline, and lower 206 lower end of pipeline is provided with
Lower switching door 207, the bracket 1 connect with upper 201 side of pipeline and are used to support fixation.Raw material is entered by feed hopper 2
Upper pipeline 201, and the folding size by controlling upper switching door 202 controls the throughput of raw material.In raw material inflow when pipeline 203
By 204 cutting and crushing of cutting line subsequently into lower pipeline 206, and the folding size by controlling lower switching door 207 is to reach control
The purpose of raw material flow rate processed.
The transport mechanism one includes crucible 6, crucible handle 601, mechanical folder 1, overturning horn 1, sliding shoe one
702, sliding bar 1, slide trucks 1, driving frame 1;6 two sides of crucible are equipped with crucible handle 601, machinery folder 1
Crucible 6 is clamped by crucible handle 601, machinery one 7 one end of folder are connect with overturning horn 1, and overturning horn 1 is arranged in cunning
On motion block 1, sliding shoe 1 is slidably arranged on sliding bar 1, and one 703 one end of sliding bar is arranged in slide trucks one
On 704, slide trucks 1 are slidably arranged on driving frame 1, and driving frame 1 is arranged on bottom plate 1.Slide trucks 1
It can slidably reciprocate in driving frame 1, to drive mechanical folder 1, overturning horn 1, sliding shoe 1, sliding bar
One 703 opposite driving frames 1 move left and right, and sliding shoe 1 can slide up and down to drive machinery on sliding bar 1
It presss from both sides one 7, overturning horn 1 to move up and down with respect to sliding bar 1, drives crucible eventually by one 7 clamping crucible 6 of machinery folder
6 move freely up and down.
The powder feeding mechanism includes powder feeding machine 9, Slide Box 901, swingle 1, joint frame 1, spray head 904;Institute
It states Slide Box 901 to be slidably arranged in powder feeding machine 9, swingle 1 is arranged on powder feeding machine 9, the setting of one 902 one end of swingle
There is joint frame 1, frame one 903 one end in joint is connected with spray head 904.Powder feeding machine 9 is built-in with pump machine, by built-in pipe by powder
End is delivered to spray head 904.
The transport mechanism two includes crucible 6, crucible handle 601, mechanical folder 2 12, overturning horn 2 1201, sliding shoe two
1202, sliding bar 2 1203, slide trucks 2 1204, driving frame 2 1205;6 two sides of crucible are equipped with crucible handle 601, the machine
Tool folder 2 12 clamps crucible 6 by crucible handle 601, and machinery 2 12 one end of folder are connect with overturning horn 2 1201, overturns horn two
1201 are arranged on sliding shoe 2 1202, and sliding shoe 2 1202 is slidably arranged on sliding bar 2 1203, sliding bar 2 1,203 1
End is arranged in slide trucks 2 1204, and slide trucks 2 1204 are slidably arranged on driving frame 2 1205.Slide trucks 2 1204 can be with
It slidably reciprocates in driving frame 2 1205, to drive mechanical folder 2 12, overturning horn 2 1201, sliding shoe 2 1202, sliding bar
2 1203 opposing rows driving frames 2 1205 move left and right, and sliding shoe 2 1202 can be slided up and down on sliding bar 2 1203 to band
Motivation tool folder 2 12, overturning horn 2 1201 are moved up and down with respect to sliding bar 2 1203, eventually by 2 12 clamping earthenware of machinery folder
Crucible 6 drives crucible 6 to move freely up and down.
It is described that target drone structure is sent to include rest area 2 16, rail rods 1601, elevator 1, flexible horn 3 1603, rise
Pedestal 2 1604, elevating lever 1605, disk 1606, sliding slot 1607, sliding clamp 1608 drop;The rest area 2 16 is located at sliding rail
1508 sides, the rail rods 1601 are arranged on 2 16 side of rest area, rail rods 1601 sliding and are provided with elevator one
1602, one 1602 one end of elevator is connected with flexible horn 3 1603, and flexible 3 1603 one end of horn is provided with lifting base two
1604, elevating lever 1605 is arranged on lifting base 2 1604, and 1605 one end of elevating lever is connected with disk 1606,1606 bottom of disk
Portion is provided with sliding slot 1607, and sliding clamp 1608 is provided on sliding slot 1607.
The plastic cans 3 is located at immediately below lower pipeline 206, and the feed inlet 10 is located at immediately below lower pipeline 206.
The sliding slot 1607 is four, and the angle of the two neighboring sliding slot 1607 is 90 °.
The stirring-head 1404 is arc panel, and arc panel wind direction is different, plays good mixing effect.
1703 upper end of mold is provided with handle.
When the invention works: the ceramics prepared by sol-gal process are prepared at colloid system, liquid phase dry glue system by liquid phase
Powder prepares the ceramic target prepared by solid phase method, the ceramics that then will be obtained at phase system by solid phase mixing system, solid phase
Powder mixes to suppress and be sintered with ceramic target by hot pressed sintering system finally obtains required composite ceramics target.
To prepare raw material needed for ceramic powders weighed by Weighing system crush after influent coordinate the plastic cans 3 of colloid system
In, the water stored in flow container 302 is flowed into plastic cans 3 by inlet tube 301, and air compressor machine 307 passes through gas-guide tube 308 to shaft pipe
Compressed air is passed through in 309, shaft pipe 309 rotates that aeration branch pipe 3010 is driven to rotate on rotary frame 306, and compression is empty
Gas passes through the aeration of aeration branch pipe 3010 and is full of entire plastic cans 3, and heater 3011 simultaneously heats plastic cans 3, and raw material is in water, exposure
Plastic under the action of gas and heating;Fan 305 in exhaust column 304 can into plastic cans 3, exhausting realizes air by strainer 303
Circulation;Pass through swivel mount 3013 after the completion of the raw material plastic and turn on the switch door 3014 colloid is flowed out from plastic cans 3 and falls into
Onto drying mechanism.Crucible 6 is placed on the caulking groove 1 of drying mechanism by transport mechanism one first, and colloid drops into crucible 6
On, it can be thermally conductive to caulking groove 1 by heat-conducting block 5, flexible horn 1, the cooperation for heating motor 502, so that in crucible 6
Colloid be oven-dried, while colloid can be made to be heated evenly by the vibration of oscillator 1 and sufficiently be dried.After drying
Crucible 6 is moved on the caulking groove 2 801 of powder sintered mechanism by colloid by transport mechanism one, and first choice passes through one 8011 He of elevating lever
Then colloid compression moulding is passed through elevating lever 2 8013,8015 pairs of pressure head 2 8014, negative electricity cartridge molding glue by pressure head 1
Body carries out discharge sintering, passes through elevating lever 3 8016, rotating ring 1, pressure head 3 8018, crushing conehead after the completion of sintering
8019 pairs of its ceramic powders for being crushed to obtain sol-gal process preparation.It is moved by the powder that transport mechanism one completes sintering
It moves in the Slide Box 901 of powder feeding machine 9, is conveyed powder by the cooperation of swingle 1, joint frame 1, spray head 904
Into mold 1703 to carry out next step operation.
The feed inlet that solid phase mixing system is flowed into after raw material needed for ceramic target is crushed by Weighing system weighing will be prepared
It in 10, and is flowed into mixing tube 1001 by feed inlet 10, raw material is in mixing tube 1001 by the broken arrival one of auger knife 1005
It is flowed out from filter opening 1006 when determining granularity, the raw material of outflow is flowed into the crucible 6 of transport mechanism two by collection bucket 11 to be collected;
Transport mechanism two successively by the raw material in crucible 6 be moved to rabbling mechanism, be sintered mechanism, send in target drone structure complete stirring, sintering
And send target.First choice send mechanism two that crucible 6 is placed on caulking groove 3 13, passes through rotating ring 2 1401, flexible horn 2 1402, pressure
First 4 1403, raw material is uniformly mixed by stirring-head 1404, while the vibration of oscillator 2 1301 can reinforce stirring action.
Then send mechanism two that crucible 6 is moved on caulking groove 4 1503, it is hydraulic by downlink hydraulic press 1501, pressure head 5 1502, uplink
Powder in crucible 6 can be pressed into target by the mating reaction of machine 1504, send mechanism two that crucible 6 is moved to burning after the completion of pressure target
Sintering, the cooperation of movable pulley 1507, sliding rail 1508 can move the position of sintering furnace 1505 in freezing of a furnace 1505, to pick and place sintering
The target of completion.The target that sintering is completed passes through sliding slot by sending mechanism two that crucible 6 is moved in rest area 2 16
1607, the cooperation of sliding clamp 1608 can clamp target, and pass through rail rods 1601, elevator 1, telescopic machine
Arm 3 1603, lifting base 2 1604, elevating lever 1605 cooperation can by the target of clamping be sent into mold 1703 in so as into
Row operates in next step.
It can be incited somebody to action by the compounding practice of elevator 2 1802, flexible horn 4 1803, hydraulic press 1804, pressure head 6 1805
Then target and powder mixing compacting in mold 1703 are uniformly sintered it by the heating rod 1701 in sinter box 17
To a composite ceramics target, by the handle of 1809 clamping mold 1703 of gripper after the completion of sintering, by flexible horn 5 1806,
Mold 1703 is taken out and is moved on rest area 1 by the mating reaction of joint frame 2 1807, flexible horn 6 1808, is passed through
It removes mold 1703 and obtains required composite ceramics target finished product.
Ceramic powders and ceramic target can be made of same materials, obtain the different composite ceramic of same type two sides quality
Porcelain target;Ceramic powders can also be made from ceramic target of different raw materials, obtain variety classes and two sides quality is different
Composite ceramics target.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, although referring to aforementioned reality
Applying example, invention is explained in detail, for those skilled in the art, still can be to aforementioned each implementation
Technical solution documented by example is modified or equivalent replacement of some of the technical features, all in essence of the invention
Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of manufacturing equipment of composite ceramics target, which is characterized in that including bottom plate (1), rest area one (101), Weighing system,
And liquid phase on bottom plate (1) is set into colloid system, liquid phase dry glue system, solid phase mixing system, solid phase into phase system, hot pressing
Sintering system;In bottom plate (1) one end, the Weighing system is two for rest area one (101) setting, is separately positioned on liquid phase
At on colloid system and solid phase mixing system, the hot pressed sintering system is located at rest area one (101) side;
The liquid phase includes plastic cans (3), inlet tube (301), flow container (302), strainer (303), exhaust column at colloid system
(304), fan (305), rotary frame (306), air compressor machine (307), gas-guide tube (308), shaft pipe (309), aeration branch pipe
(3010), heater (3011), workbench (3012), swivel mount (3013), switch gate (3014);Plastic cans (3) engaging
On workbench (3012), the flow container (302) is arranged on workbench (3012) and passes through inlet tube (301) and plastic cans
(3) side is connected to, and plastic cans (3) two sidewalls are equipped with strainer (303), and exhaust column (304) is arranged on the outside of strainer (303),
Fan (305) are equipped in exhaust column (304), plastic cans (3) internal upper part is provided with rotary frame (306), rotary frame
(306) one end is connect with the air compressor machine (307) being arranged on workbench (3012), and the shaft pipe (309) is located at plastic cans (3)
Inside center is simultaneously arranged on rotary frame (306), and multiple aeration branch pipes (3010), shaft pipe are connected on shaft pipe (309)
(309) one end is connected to by gas-guide tube (308) with air compressor machine (307), and the heater (3011) is arranged in plastic cans (3) outer wall
On, plastic cans (3) bottom is provided with switch gate (3014), and switch gate (3014) lower end is connect with swivel mount (3013), swivel mount
(3013) setting is arranged on bottom plate (1) in workbench (3012) bottom, workbench (3012);
The liquid phase dry glue system includes drying mechanism, transport mechanism one, powder sintered mechanism, powder feeding mechanism;The dryer
Structure is located at plastic cans (3) bottom part down, and the powder sintered mechanism, powder feeding mechanism are successively set on drying mechanism one end, transmission
Mechanism one is located at drying mechanism side;The drying mechanism includes caulking groove one (4), oscillator one (401), heat-conducting block (5), stretches
Horn one (501), heating motor (502);The caulking groove one (4) is located at immediately below glue tank (3) bottom, and caulking groove one (4) bottom is set
It is equipped with oscillator one (401), caulking groove one (4) two sides are equipped with heat-conducting block (5), and heat-conducting block (5) is by flexible horn one (501) and adds
Thermoelectric perpetual motion machine (502) connection, heating motor (502) are located in caulking groove one (4) side;The powder sintered mechanism include pedestal (8),
Caulking groove two (801), positive electricity cartridge (802), conduit (803), bracket two (804), circular rails (805), ring slider (806),
Conducting wire (807), column spinner (808), rotating disk (809), lifting base one (8010), elevating lever one (8011), pressure head one
(8012), elevating lever two (8013), pressure head two (8014), negative electricity cartridge (8015), elevating lever three (8016), rotating ring one
(8017), pressure head three (8018), crushing conehead (8019);The pedestal (8) is arranged on bottom plate (1), caulking groove two (801) setting
On pedestal (8), caulking groove two (801) outer wall be equipped with positive electricity cartridge (802), positive electricity cartridge (802) by conduit (803) with
Bracket two (804) connection, bracket two (804) upper end are equipped with circular rails (805), and ring slider (806) is arranged in circular rails (805)
On, ring slider (806) is connect by conducting wire (807) with negative electricity cartridge (8015), and the column spinner (808) is arranged in circular rails
(805) lower end, the rotating disk (809) are arranged on column spinner (808), and there are three lifting bases for setting in rotating disk (809)
One (8010), the elevating lever one (8011), elevating lever two (8013), elevating lever three (8016) are separately positioned on lifting base one
(8010) on, elevating lever one (8011) one end is provided with pressure head one (8012), and elevating lever two (8013) one end is provided with pressure head two
(8014), pressure head two (8014) bottom is provided with negative electricity cartridge (8015), and elevating lever three (8016) one end is provided with rotating ring one
(8017), rotating ring one (8017) lower end is provided with pressure head three (8018), and pressure head three (8018) bottom is provided with crushing conehead
(8019);
The solid phase mixing system includes feed inlet (10), mixing tube (1001), turning end one (1002), turning end two
(1003), rotation axis (1004), auger knife (1005), filter opening (1006), collection bucket (11);Feed inlet (10) setting is mixed
At the top of expects pipe (1001), is provided with rotation axis (1004) in the mixing tube (1001), rotation axis (1004) both ends respectively with turn
Moved end one (1002) and turning end two (1003) connect, and are provided with auger knife (1005), mixing tube in rotation axis (1004)
(1001) bottom is evenly arranged with filter opening (1006), is provided with collection bucket (11) below filter opening (1006);
The solid phase at phase system includes transport mechanism two, rabbling mechanism, is sintered mechanism, send target drone structure;The transport mechanism two
Positioned at solid phase mixing system side, the rabbling mechanism is sintered mechanism, target drone structure is sent to be sequentially located at solid phase mixing system one end;
The rabbling mechanism includes caulking groove three (13), oscillator two (1301), bracket three (14), rotating ring two (1401), flexible horn
Two (1402), pressure head four (1403), stirring-head (1404);The oscillator two (1301) is arranged on bottom plate (1), caulking groove three
(13) it is arranged on earthquake machine two (1301), the bracket three (14) is located at caulking groove three (13) side, and bracket three (14) one end is set
It is equipped with rotating ring two (1401), rotating ring two (1401) lower end is connected with flexible horn two (1402), and stretch horn two (1402)
Lower end is connected with pressure head four (1403), and pressure head four (1403) bottom is equipped with stirring-head (1404);The sintering mechanism includes bracket
Four (15), downlink hydraulic press (1501), pressure head five (1502), caulking groove four (1503), uplink hydraulic press (1504), sintering furnace
(1505), sliding door (1506), movable pulley (1507), sliding rail (1508);It is hydraulic that bracket four (15) upper end is provided with downlink
Machine (1501), downlink hydraulic press (1501) lower end are connected with pressure head five (1502), are provided with caulking groove four below pressure head five (1502)
(1503), caulking groove four (1503) bottom is provided with uplink hydraulic press (1504), and uplink hydraulic press (1504) is arranged in bottom plate (1)
On, sintering furnace (1505) is located at bracket four (15) side, and sintering furnace (1505) side is equipped with sliding door (1506), sintering furnace
(1505) bottom is provided with movable pulley (1507), and movable pulley (1507) is slidably arranged on sliding rail (1508);
The hot pressed sintering system includes sinter box (17), heating rod (1701), sintering boiler tube (1702), mold (1703), electricity
Cabinet (18), swingle two (1801), elevator two (1802), flexible horn four (1803), hydraulic press (1804), pressure head six
(1805), stretch horn five (1806), joint frame two (1807), flexible horn six (1808), gripper (1809);The heating
In sinter box (17), sinter box (17) inside center is equipped with sintering boiler tube (1702) for stick (1701) setting, and sinter box (17) is interior
It is provided with mold (1703), motor housing (18) is located at sinter box (17) side, and motor housing is provided with swingle two on (18)
(1801), elevator two (1802) is arranged on swingle two (1801), and flexible horn four is connected on elevator two (1802)
(1803) it is connected with hydraulic press (1804) with flexible horn five (1806), flexible horn four (1803) one end, hydraulic press (1804)
Lower end is connected with pressure head six (1805), and flexible horn five (1806) one end is connected with joint frame two (1807), joint frame two
(1807) one end is connected with flexible horn six (1808), and flexible horn six (1808) lower end is connected with gripper (1809).
2. a kind of manufacturing equipment of composite ceramics target according to claim 1, which is characterized in that the Weighing system includes
Feed hopper (2), upper pipeline (201), upper switching door (202), middle pipeline (203), cutting line (204), wire cutting machine (205), under
Pipeline (206), lower switching door (207), bracket one (208);Feed hopper (2) lower end successively with upper pipeline (201), middle pipeline
(203), lower pipeline (206) connection, the upper switching door (202) is arranged on upper pipeline (201), in the middle pipeline (203)
It is provided with cutting line (204), cutting line (204) is connect with the wire cutting machine (205) being located on the outside of middle pipeline (203), under described
Pipeline (206) lower end is provided with lower switching door (207), and the bracket one (208) connect with upper pipeline (201) side.
3. a kind of manufacturing equipment of composite ceramics target according to claim 2, which is characterized in that the transport mechanism one is wrapped
Include crucible (6), crucible handle (601), one (7) of mechanical folder, overturning horn one (701), sliding shoe one (702), sliding bar one
(703), slide trucks one (704), driving frame one (705);Crucible (6) two sides are equipped with crucible handle (601), one (7) of machinery folder
Crucible (6) are clamped by crucible handle (601), machinery one (7) one end of folder is connect with overturning horn one (701), overturns horn one
(701) it is arranged on sliding shoe one (702), sliding shoe one (702) is slidably arranged on sliding bar one (703), sliding bar one
(703) one end is arranged in slide trucks one (704), and slide trucks one (704) are slidably arranged on driving frame one (705), driving frame
One (705) are arranged on bottom plate (1).
4. a kind of manufacturing equipment of composite ceramics target according to claim 3, which is characterized in that the powder feeding mechanism includes
Powder feeding machine (9), Slide Box (901), swingle one (902), joint frame one (903), spray head (904);The Slide Box (901) is sliding
In powder feeding machine (9), swingle one (902) is arranged on powder feeding machine (9) for dynamic setting, and the setting of swingle one (902) one end is related
It saves frame one (903), joint frame one (903) one end is connected with spray head (904).
5. a kind of manufacturing equipment of composite ceramics target according to claim 2, which is characterized in that the transport mechanism two is wrapped
Include crucible (6), crucible handle (601), two (12) of mechanical folder, overturning horn two (1201), sliding shoe two (1202), sliding bar two
(1203), slide trucks two (1204), driving frame two (1205);Crucible (6) two sides are equipped with crucible handle (601), the machinery
Two (12) are pressed from both sides by crucible handle (601) clamping crucible (6), machinery two (12) one end of folder connect with overturning horn two (1201), turn over
Arm two (1201) setting make a connection on sliding shoe two (1202), sliding shoe two (1202) is slidably arranged in sliding bar two (1203)
On, sliding bar two (1203) one end is arranged in slide trucks two (1204), and slide trucks two (1204) are slidably arranged in driving frame two
(1205) on.
6. a kind of manufacturing equipment of composite ceramics target according to claim 5, which is characterized in that described to send the target drone structure to include
Rest area two (16), elevator one (1602), flexible horn three (1603), lifting base two (1604), rises rail rods (1601)
Bar (1605), disk (1606), sliding slot (1607), sliding clamp (1608) drop;The rest area two (16) is located at sliding rail
(1508) side, the rail rods (1601) are arranged on rest area two (16) side, rail rods (1601) sliding and are provided with liter
It drops block one (1602), elevator one (1602) one end is connected with flexible horn three (1603), and flexible horn three (1603) one end is set
It is equipped with lifting base two (1604), elevating lever (1605) is arranged on lifting base two (1604), and elevating lever (1605) one end connects
It is connected to disk (1606), disk (1606) bottom is provided with sliding slot (1607), and sliding slot is provided with sliding clamp on (1607)
(1608)。
7. a kind of manufacturing equipment of composite ceramics target according to claim 2, which is characterized in that plastic cans (3) position
Immediately below lower pipeline (206), the feed inlet (10) is located at immediately below lower pipeline (206).
8. a kind of manufacturing equipment of composite ceramics target according to claim 6, which is characterized in that the sliding slot (1607) is
Four, the angle of the two neighboring sliding slot (1607) is 90 °.
9. the manufacturing equipment of described in any item a kind of composite ceramics targets according to claim 1~6, which is characterized in that described to stir
Mixing head (1404) is arc panel.
10. the manufacturing equipment of described in any item a kind of composite ceramics targets according to claim 1~6, which is characterized in that the mould
Tool (1703) upper end is provided with handle.
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CN201811023240.8A CN109231997B (en) | 2018-09-04 | 2018-09-04 | Manufacturing equipment of composite ceramic target |
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CN109231997B CN109231997B (en) | 2021-10-12 |
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CN110038663A (en) * | 2019-03-05 | 2019-07-23 | 卢明鑫 | Ceramic material teaching experiment tables |
CN110586531A (en) * | 2019-08-19 | 2019-12-20 | 浙江硕和机器人科技股份有限公司 | Potsherd processing lines |
CN112573894A (en) * | 2020-12-08 | 2021-03-30 | 中铭瓷(苏州)纳米粉体技术有限公司 | Low-temperature ceramic sintering powder process for chip packaging bonding |
CN113463047A (en) * | 2021-08-18 | 2021-10-01 | 广东先导稀材股份有限公司 | Electronic auxiliary device of target preparation |
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CN108191430A (en) * | 2018-01-18 | 2018-06-22 | 昆明理工大学 | A kind of equipment for producing lanthanum calcium manganese oxygen powder in batches |
CN108465497A (en) * | 2018-03-26 | 2018-08-31 | 井昌平 | A kind of composite type Physical Chemistry Experiment platform |
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CN112573894A (en) * | 2020-12-08 | 2021-03-30 | 中铭瓷(苏州)纳米粉体技术有限公司 | Low-temperature ceramic sintering powder process for chip packaging bonding |
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