CN108465497A - A kind of composite type Physical Chemistry Experiment platform - Google Patents
A kind of composite type Physical Chemistry Experiment platform Download PDFInfo
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- CN108465497A CN108465497A CN201810249176.9A CN201810249176A CN108465497A CN 108465497 A CN108465497 A CN 108465497A CN 201810249176 A CN201810249176 A CN 201810249176A CN 108465497 A CN108465497 A CN 108465497A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01L—CHEMICAL OR PHYSICAL LABORATORY APPARATUS FOR GENERAL USE
- B01L9/00—Supporting devices; Holding devices
- B01L9/02—Laboratory benches or tables; Fittings therefor
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B23/00—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes
- G09B23/06—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes for physics
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B23/00—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes
- G09B23/24—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes for chemistry
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Abstract
The present invention relates to a kind of composite type Physical Chemistry Experiment platforms, including board, and chemical glue system, physics dry glue system, physics crushing system, the high temperature sintering system being successively set on board, and control panel is provided on the board and sets tank slot;The experimental bench of the present invention integrates each preparation section, is integrated synthesis formula Physical Chemistry Experiment platform prepared by ceramic powder, while being suitable for research work and demonstration lesson.The experimental bench of the present invention can carry out unified standard and be turned into industry, show and carry out quantization operation by what the technology of nano ceramic powder was completed, meet scientific research now and teaching demand.The experimental bench of the present invention can a point multiple tracks preparation section be carried out at the same time, a large amount of ceramic powder can be prepared, be conducive to the efficient development and progress of experiment, easy to operate, production efficiency is high, product quality height.
Description
Technical field
The present invention relates to a kind of experimental benches, and in particular to a kind of composite type Physical Chemistry Experiment platform.
Background technology
Currently, the existing experimental bench for preparing nano ceramic powder does not have the integration system of complete set for nano-ceramic powder
The composite type testing stand at end, cannot be suitable for research work and demonstration lesson simultaneously, and the scientific research and teaching that cannot be satisfied now need
It asks.Existing testing stand can not carry out unified standard and be turned into industry, be showed what the technology of nano ceramic powder was completed
And carry out quantization operation.That there is also experimental procedures is more for the setting of existing testing stand, and operating process is complicated, final powder obtained
The problems such as amount is few.Therefore in view of the above problems, a kind of composite type Physical Chemistry Experiment platform preparing ceramic powders is invented.
Invention content
For problems of the prior art, the object of the present invention is to provide a kind of composite type Physical Chemistry Experiment platforms.
To achieve the goals above, the present invention adopts the following technical scheme that:
A kind of composite type Physical Chemistry Experiment platform, including board, and be successively set on board chemical glue system,
Physics dry glue system, physics crushing system, high temperature sintering system are provided with control panel on the board and set tank slot;
The chemistry glue system includes displacement rails, displacement vehicle, controller one, temperature control arm, heating rod, swivel becket
Shape set, colloid tank, gum outlet, controller two, shearing rack, blending bucket, rotation control cage, raw material bucket, supporting table, speed limit filter
Plate, slide switching door, batch mixing array bar, discharge port;The displacement rails are arranged on board, are provided in the displacement rails
Displacement vehicle, the displacement roof are fixedly installed controller one, controller two, rotation control cage, the rotation control successively
Multiple raw material buckets are provided in the shaft of frame, the raw material bucket internal upper part is provided with speed limit filter plate, the raw material by supporting table
Lower part is provided with batch mixing array bar in bucket, and the raw material bucket between the speed limit filter plate and batch mixing array bar is equipped with slide switching
Door, former feed hopper bottom be connected to discharge port, and the blending bucket is located at discharge port underface, the blending bucket by shearing rack and
Controller two connects, and described shearing rack one end is provided with shearing fan and shearing fan is arranged in blending bucket, the colloid
Tank is located at immediately below blending bucket, and the rotation annular sleeve is set in outside colloid tank, and the rotation annular sleeve connects with controller one
It connects, one both sides of the controller are connected with temperature control arm, and the temperature control arm and the heating rod being arranged in colloid tank connect
It connects, colloid pot bottom is provided with multiple gum outlets;
The physics dry glue system includes X-axis slide rail, Y-axis sliding rail, deflection joint, evaporation plate, heat conducting interface, heating electricity
Machine, heat conducting bar connect Jiao Kou, storage glue tank, coating nozzle, control valve, tracheae, hose, pump machine, power supply box, holder, Z axis driving, X-axis
Driving, Y-axis driving, sliding wind turbine;It is described to connect Jiao Kou settings in gum outlet side, it meets Jiao Kou and is connect with storage glue tank, the storage glue
Tank lower end is provided with coating nozzle, and storage glue tank upper end is connect by tracheae with control valve, and the control valve is connect with pump machine, the pump
Machine connect and is positioned above with power supply box, and the power supply box is arranged in board side, and described control valve one end is provided with hose,
Hose one end is connect with sliding wind turbine, and in Y-axis driving, Y-axis drives a vehicle both ends setting in two X-axis rows for the sliding wind turbine setting
Che Shang, X-axis drive a vehicle both ends respectively with Z axis driving connection, and on holder, the holder is arranged in board for the Z axis driving setting
The other side, the evaporation plate are located at below coating nozzle, and the evaporation plate setting is at the top of deflection joint, the deflection joint setting
On Y-axis sliding rail, Y-axis sliding rail both ends are arranged in two X-axis slide rails, and the X-axis slide rail is arranged on board, the steaming
Hair plate both sides are provided with heat conducting interface, and the board both sides are respectively arranged with heating motor, heat and are connected with heat conducting bar on motor,
Heat conducting bar is corresponding with heat conducting interface side;
The physics crushing system includes machine frame, adjusts sliding rail, height regulating rod, vibrations panel, broken cone, collects leakage
Bucket, broken pipeline, hinge shaft knife, preceding tool apron, rear tool apron, ball milling chamber, revolution platform, torque regulating arm, rotation pedestal, ball grinder, ball
Grind control panel;The machine frame is arranged on the board of X-axis slide rail one end, and the adjusting sliding rail is arranged in machine frame top beam
On, the height regulating rod setting is on adjusting sliding rail, and the vibrations panel is connect with height regulating rod lower end, the vibrations face
Multiple broken cones are evenly arranged on plate, the collection funnel is arranged on the board below X-axis slide rail one end, the receipts
Collection funnel bottom end is connect with broken pipeline, and hinge shaft knife is provided in the broken pipeline, and broken pipe is stretched out in hinge shaft knife one end
Road is connect with preceding tool apron, and the hinge shaft knife other end stretches out broken pipeline and connect with rear tool apron, the discharge port of the broken pipeline
Corresponding with tank groove location is set, for the tank slot of setting for placing ball grinder, the ball milling chamber is arranged in broken pipeline one end
On board, the revolution platform setting is connected separately on ball milling intracavitary center, the revolution platform by multiple torque regulating arms
Multiple rotation pedestals, for placing ball grinder on the rotation pedestal, the ball milling control panel is arranged below ball milling chamber
On board;
The high temperature sintering system includes sintering furnace, insulated door, heating element;The sintering furnace is arranged in ball milling chamber
On the board of one end, the sintering furnace side is provided with insulated door, and multiple heating elements are provided in sintering furnace.
The control panel is 4 or more, is connect respectively with controller one, controller two, heating motor, power supply box.
The technical program advanced optimizes, and filter opening is evenly arranged on the speed limit filter plate.
The technical program advanced optimizes, and the raw material bucket is 4, and shearing rack is 3.
The technical program advanced optimizes, and the evaporation plate surrounding is provided with frame.
The technical program advanced optimizes, and the heat conducting bar is telescopic rod.
The technical program advanced optimizes, and the revolution platform, rotation base bottom are respectively connected with motor.
The technical program advanced optimizes, and concentrator is provided on the sliding wind turbine.
The technical program advanced optimizes, and cover is provided on the ball grinder, grinding bead is provided in ball grinder.
The technical program advanced optimizes, and temperature probe is provided on the sintering furnace.
The beneficial effects of the present invention are:
(1) experimental bench of the invention integrates each preparation section, is integrated synthesis formula object prepared by ceramic powder
Physicochemical experimental bench, while being suitable for research work and demonstration lesson.
(2) experimental bench of the invention, which can carry out seeking unity of standard, is turned into industry, and the technology of nano ceramic powder is completed
Quantization operation is showed and carried out, scientific research now and teaching demand are met.
(3) experimental bench of the invention can a point multiple tracks preparation section be carried out at the same time, a large amount of ceramic powder can be prepared, favorably
In the efficient development and progress of experiment, easy to operate, production efficiency is high, and product quality is high.
Description of the drawings
Fig. 1 is the structural schematic diagram of the present invention;
Fig. 2 is chemical glue system structure diagram of the invention;
Fig. 3 is raw material bucket and associated components structural schematic diagram of the present invention;
Fig. 4 is the internal structure schematic diagram of raw material bucket of the present invention;
Fig. 5 is the internal structure schematic diagram of blending bucket of the present invention;
Fig. 6 is the structural schematic diagram of colloid tank and associated components of the present invention;
Fig. 7 is the structural schematic diagram of physics dry glue system of the present invention;
Fig. 8 is the structural schematic diagram of evaporation plate of the present invention and associated components;
Fig. 9 is the structural schematic diagram of present invention heating motor and associated components;
Figure 10 is the part-structure schematic diagram one of physics dry glue system of the present invention;
Figure 11 is the part-structure schematic diagram two of physics dry glue system of the present invention;
Figure 12 is the part-structure schematic diagram three of physics dry glue system of the present invention;
Figure 13 is the part-structure schematic diagram one of physics crushing system of the present invention;
Figure 14 is the part-structure schematic diagram two of physics crushing system of the present invention;
Figure 15 is the part-structure schematic diagram three of physics crushing system of the present invention;
Figure 16 is high temperature sintering system structure diagram of the present invention;
Wherein, board 1, control panel 101, set tank slot 102, displacement rails 2, displacement vehicle 201, controller 1, temperature control
Arm 301 processed, heating rod 302, rotation annular sleeve 303, colloid tank 4, gum outlet 401, controller 25, shearing rack 501, batch mixing
Bucket 502, rotation control cage 6, raw material bucket 601, supporting table 602, speed limit filter plate 603, slide switching door 604, batch mixing array bar
605, discharge port 606, X-axis slide rail 7, Y-axis sliding rail 701, deflection joint 702, evaporation plate 703, heat conducting interface 704, heating motor
8, heat conducting bar 801, connect glue mouth 9, storage glue tank 901, coating nozzle 902, control valve 10, tracheae 1001, hose 1002, pump machine 1003,
Power supply box 1004, Z axis driving 1101, X-axis driving 1102, Y-axis driving 1103, sliding wind turbine 1104, machine frame 12, is adjusted holder 11
It saves sliding rail 1201, height regulating rod 1202, vibrations panel 1203, broken cone 1204, collection funnel 13, broken pipeline 1301, twist
Axis knife 1302, preceding tool apron 1303, rear tool apron 1304, ball milling chamber 14, revolution platform 1401, torque regulating arm 1402, rotation pedestal
1403, ball grinder 1404, ball milling control panel 1405, sintering furnace 15, insulated door 1501, heating element 1502, temperature probe
1503。
Specific implementation mode
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 describes, 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. 1~16:A kind of composite type Physical Chemistry Experiment platform, including board 1, and it is successively set on board 1
On chemical glue system, physics dry glue system, physics crushing system, high temperature sintering system, be provided with control on the board 1
Panel 101 and set tank slot 102;
The chemistry glue system includes displacement rails 2, displacement vehicle 201, controller 1, temperature control arm 301, heating
Stick 302, rotation annular sleeve 303, colloid tank 4, gum outlet 401, controller 25, shearing rack 501, blending bucket 502, rotation control
Frame 6 processed, raw material bucket 601, supporting table 602, speed limit filter plate 603, slide switching door 604, batch mixing array bar 605, discharge port 606;
The displacement rails 2 are arranged on board 1, are provided with displacement vehicle 201 in the displacement rails 2,201 top of the displacement vehicle according to
It is secondary to be fixedly installed controller 1, controller 25, rotation control cage 6, it is provided in the shaft of the rotation control cage 6 multiple
Raw material bucket 601,601 internal upper part of raw material bucket is provided with speed limit filter plate 603 by supporting table 602, under the raw material bucket 601 is interior
Portion is provided with batch mixing array bar 605, and the raw material bucket 601 between the speed limit filter plate 603 and batch mixing array bar 605 is equipped with sliding
Switching door 604,601 bottom of raw material bucket are connected to discharge port 606, and the blending bucket 502 is located at immediately below discharge port 606, described
Blending bucket 502 is connect by shearing rack 501 with controller 25, and described 501 one end of shearing rack is provided with shearing fan and cuts
Wind cutting fan is arranged in blending bucket 502, and the colloid tank 4 is located at immediately below blending bucket 502, and the rotation annular sleeve 303 is arranged
Outside colloid tank 4, the rotation annular sleeve 303 is connect with controller 1, and one 3 both sides of the controller are connected with temperature control
Arm 301 processed, the temperature control arm 301 are connect with the heating rod 302 being arranged in colloid tank 4, and 4 bottom of colloid tank is provided with more
A gum outlet 401;
The physics dry glue system includes that X-axis slide rail 7, Y-axis sliding rail 701, deflection joint 702, evaporation plate 703, heat conduction connect
Mouth 704, heating motor 8, heat conducting bar 801 connect glue mouth 9, storage glue tank 901, coating nozzle 902, control valve 10, tracheae 1001, hose
1002, pump machine 1003, power supply box 1004, holder 11, Z axis driving 1101, X-axis driving 1102, Y-axis driving 1103, sliding wind turbine
1104;It is described to connect the setting of glue mouth 9 in 401 side of gum outlet, it connects glue mouth 9 and is connect with storage glue tank 901,901 lower end of storage glue tank
It is provided with coating nozzle 902,901 upper end of storage glue tank is connect by tracheae 1001 with control valve 10, the control valve 10 and pump machine
1003 connections, the pump machine 1003 connect and are positioned above with power supply box 1004, and the power supply box 1004 is arranged in board 1 one
Side, 10 one end of the control valve are provided with hose 1002, and 1002 one end of hose is connect with sliding wind turbine 1104, the sliding wind turbine
1104 settings are in Y-axis driving 1103, and Y-axis drives a vehicle the setting of 1103 both ends in two X-axis drivings 1102, and X-axis is driven a vehicle 1102 liang
End is connect with Z axis driving 1101 respectively, and the Z axis driving 1101 is arranged on holder 11, and the setting of the holder 11 is another in board 1
Side, the evaporation plate 703 are located at 902 lower section of coating nozzle, and the setting of the evaporation plate 703 is described inclined at the top of deflection joint 702
Turn joint 702 to be arranged on Y-axis sliding rail 701,701 both ends of Y-axis sliding rail are arranged in two X-axis slide rails 7, and the X-axis is slided
Rail 7 is arranged on board 1, and 703 both sides of the evaporation plate are provided with heat conducting interface 704, and 1 both sides of the board, which are respectively arranged with, to be added
Thermoelectric perpetual motion machine 8 heats and is connected with heat conducting bar 801 on motor 8, and heat conducting bar 801 is corresponding with 704 side of heat conducting interface;
The physics crushing system include machine frame 12, adjust sliding rail 1201, height regulating rod 1202, vibrations panel 1203,
Broken cone 1204, collection funnel 13, broken pipeline 1301, hinge shaft knife 1302, preceding tool apron 1303, rear tool apron 1304, ball milling chamber 14,
Revolution platform 1401, torque regulating arm 1402, rotation pedestal 1403, ball grinder 1404, ball milling control panel 1405;The machine frame 12
It is arranged on the board 1 of 7 one end of X-axis slide rail, the adjusting sliding rail 1201 is arranged on 12 top beam of machine frame, the height tune
The setting of pole 1202 is on adjusting sliding rail 1201, and the vibrations panel 1203 is connect with 1202 lower end of height regulating rod, the shake
Multiple broken cones 1204 are evenly arranged on dynamic panel 1203, the collection funnel 13 is arranged in below 7 one end of X-axis slide rail
Board 1 on, 13 bottom end of the collection funnel is connect with broken pipeline 1301, and hinge shaft knife is provided in the broken pipeline 1301
1302, described 1302 one end of hinge shaft knife is stretched out broken pipeline 1301 and is connect with preceding tool apron 1303,1302 other end of hinge shaft knife
Broken pipeline 1301 is stretched out to connect with rear tool apron 1304, the discharge port of the broken pipeline 1301 is corresponding with 102 position of tank slot is set,
For the tank slot 102 of setting for placing ball grinder 1404, the ball milling chamber 14 is arranged in the board 1 of 1301 one end of broken pipeline
On, center is arranged in ball milling chamber 14 in the revolution platform 1401, passes through multiple torque regulating arms 1402 on the revolution platform 1401
Multiple rotation pedestals 1403 are connected separately with, are used to place ball grinder 1404, the ball milling control on the rotation pedestal 1403
Panel 1405 is arranged on the board 1 below ball milling chamber 14;
The high temperature sintering system includes sintering furnace 15, insulated door 1501, heating element 1502;The sintering furnace 15 is arranged
On the board 1 positioned at 14 one end of ball milling chamber, 15 side of the sintering furnace is provided with insulated door 1501, is provided in sintering furnace 15
Multiple heating elements 1502.
The control panel 101 be 4 or more, respectively with controller 1, controller 25, heating motor 8, power supply box
1004 connections.
It is evenly arranged with filter opening on the speed limit filter plate 603.
The raw material bucket 601 is 4, and shearing rack 501 is 3.
703 surrounding of the evaporation plate is provided with frame.
The heat conducting bar 801 is telescopic rod.
The revolution platform 1401,1403 bottom end of rotation pedestal are respectively connected with motor.
It is provided with concentrator on the sliding wind turbine 1104.
It is provided with cover on the ball grinder 1404, grinding bead is provided in ball grinder 1404.
Temperature probe 1503 is provided on the sintering furnace 15.
When the present invention works:Chemical raw material is poured into raw material bucket 601, raw material blanking is controlled by speed limit filter plate 603
Speed, while the grain size for ensureing raw material is within the required range, whether by the 604 job control blanking of slide switching door, passes through original
Material is hit under the effect of gravity with batch mixing array bar 605, completes primary broken and mixing, raw material passes through discharge port later
606 fall in blending bucket 502;In addition it is moved by rotating control cage 6 so that each raw material bucket 601 is in revolution in blanking process
Movement so that blanking mixing is more uniform.It will by the shearing fan sheared in rack 501 after raw material enters blending bucket 502
The shearing-crushing and mixing that raw material is more carried out, raw material is fallen in colloid tank 4 after completing the process, is fallen to colloid tank 4
The solution in tank body is heated by heating rod 302 after water, while 4 rotation of colloid tank is allowed by rotating annular sleeve 303, is made
Obtain the process homogenization of solution chemistry mixing plastic.After completing plastic process, by displacement vehicle 201 in displacement rails 2
Movement so that gum outlet 401 is docked with glue mouth 9 is connect, and carries out taking out pressure operation by pump machine 1003 and control valve 10 so that storage glue tank
901 be vacuum state, and then colloid enters wherein along interface, then carries out supercharging operation by pump machine 1003 and control valve 10, makes
It is high voltage state that glue tank 901, which must be stored up, and colloid is squeezed out along coating nozzle 902, is dropped in evaporation plate 703.It is slided by X-axis slide rail 7 and Y-axis
The movement of rail 701 enables to colloid drops to expire evaporation plate 703, thereafter through the work of pump machine 1003 and control valve 10 so that strong
Air-flow is blown out along hose 1002 to sliding wind turbine 1104, and blown air blast enables to the colloid being spread out in evaporation plate 703 to the greatest extent may be used
Can consistency of thickness and smooth, cooperate with each other and can control by Z axis driving 1101, X-axis driving 1102, Y-axis driving 1103
The working strength of air blast processed and working region.Evaporation plate 703 is transported to and is added by X-axis slide rail 7, the work of Y-axis sliding rail 701 afterwards
Thermoelectric perpetual motion machine 8, heat conducting bar 801 correspond to workspace, heat conducting bar 801 and heat conducting interface 704 are docked so that evaporation plate 703 generates height
Colloid is uniformly dried into dry glue by temperature.By adjusting sliding rail 1201, the work of height regulating rod 1202 moves vibrations panel 1203
It to 703 surface bonding position of evaporation plate, is crushed cone 1204 and is inserted into dry glue, by high-frequency vibration so that full wafer dry glue is broken
Change.By deflecting joint 702 703 tilt rotation of evaporation plate, the dry glue being crushed are introduced into collection funnel 13 afterwards, along
Broken pipeline 1301 slides, while carrying out more fine be crushed to dry glue by hinge shaft knife 1302.Then dry glue powder is along broken
Broken pipeline 1301 is fallen into being positioned in the ball grinder 1404 set on tank slot 102.Above-mentioned control can by control panel 101 into
Row control.Ball grinder 1404 is placed on rotation pedestal 1403,
The adjustable revolution spacing of torque regulating arm 1402 and then adjusting revolution centrifugal force size, pass through ball milling control panel
The rotating speed of 1405 control revolution platforms 1401 and rotation pedestal 1403, and then control grinding efficiency and quality.After completing ball milling, do
Glue powder particle size has reached standard, places it in crucible and is sent into sintering furnace 15, is visited by heating element 1502, thermometric
First 1503 co-operation makes its completion sinter phase into, obtains ceramic powders.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, although with reference 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 recorded in example is modified or equivalent replacement of some of the technical features, all essences in the present invention
With within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention god.
Claims (10)
1. a kind of composite type Physical Chemistry Experiment platform, which is characterized in that including board (1), and be successively set on board (1)
Chemical glue system, physics dry glue system, physics crushing system, high temperature sintering system, be provided with control on the board (1)
Panel (101) and set tank slot (102);
It is described chemistry glue system include displacement rails (2), displacement vehicle (201), controller one (3), temperature control arm (301),
Heating rod (302), rotation annular sleeve (303), colloid tank (4), gum outlet (401), controller two (5), shearing rack (501),
Blending bucket (502), rotation control cage (6), raw material bucket (601), supporting table (602), speed limit filter plate (603), slide switching door
(604), batch mixing array bar (605), discharge port (606);The displacement rails (2) are arranged on board (1), the displacement rails
(2) it is provided with displacement vehicle (201) on, controller one (3), controller two are fixedly installed successively at the top of the displacement vehicle (201)
(5), control cage (6) is rotated, multiple raw material buckets (601), the raw material bucket are provided in the shaft of the rotation control cage (6)
(601) internal upper part is provided with speed limit filter plate (603) by supporting table (602), and the interior lower part of the raw material bucket (601) is provided with batch mixing
Array bar (605), the raw material bucket (601) between the speed limit filter plate (603) and batch mixing array bar (605) are equipped with slide switching
Door (604), raw material bucket (601) bottom is connected to discharge port (606), under the blending bucket (502) is located at discharge port (606) just
Side, the blending bucket (502) are connect by shearing rack (501) with controller two (5), and described shearing rack (501) one end is set
It being equipped with shearing fan and shearing fan setting is in blending bucket (502), the colloid tank (4) is located at immediately below blending bucket (502),
The rotation annular sleeve (303) is set in colloid tank (4) outside, and the rotation annular sleeve (303) connect with controller one (3),
The controller one (3) both sides are connected with temperature control arm (301), and the temperature control arm (301) is with setting in colloid tank (4)
Interior heating rod (302) connection, colloid tank (4) bottom is provided with multiple gum outlets (401);
The physics dry glue system includes X-axis slide rail (7), Y-axis sliding rail (701), deflection joint (702), evaporation plate (703), leads
Hot interface (704), heat conducting bar (801), connects Jiao Kou (9), storage glue tank (901), coating nozzle (902), control valve at heating motor (8)
(10), tracheae (1001), hose (1002), pump machine (1003), power supply box (1004), holder (11), Z axis driving (1101), X-axis
It drives a vehicle (1102), Y-axis driving (1103), slide wind turbine (1104);The Jiao Kou (9) that connects is arranged in gum outlet (401) side, connects
Jiao Kou (9) is connect with storage glue tank (901), and storage glue tank (901) lower end is provided with coating nozzle (902), stores up glue tank (901) upper end
It is connect with control valve (10) by tracheae (1001), the control valve (10) connect with pump machine (1003), the pump machine (1003)
It connect and is positioned above with power supply box (1004), the power supply box (1004) is arranged in board (1) side, the control valve
(10) one end is provided with hose (1002), and hose (1002) one end is connect with sliding wind turbine (1104), the sliding wind turbine
(1104) setting is in Y-axis driving (1103), and Y-axis drives a vehicle the setting of (1103) both ends on two X-axis drivings (1102), X-axis row
Vehicle (1102) both ends are connect with Z axis driving (1101) respectively, and the Z axis driving (1101) is arranged on holder (11), the branch
Frame (11) is arranged in board (1) other side, and the evaporation plate (703) is located at below coating nozzle (902), the evaporation plate (703)
Setting is at the top of deflection joint (702), and the deflection joint (702) is arranged on Y-axis sliding rail (701), the Y-axis sliding rail
(701) both ends are arranged on two X-axis slide rails (7), and the X-axis slide rail (7) is arranged on board (1), the evaporation plate (703)
Both sides are provided with heat conducting interface (704), and board (1) both sides are respectively arranged with heating motor (8), connect on heating motor (8)
It is connected to heat conducting bar (801), heat conducting bar (801) is corresponding with heat conducting interface (704) side;
The physics crushing system includes machine frame (12), adjusts sliding rail (1201), height regulating rod (1202), vibrations panel
(1203), be crushed cone (1204), collection funnel (13), broken pipeline (1301), hinge shaft knife (1302), preceding tool apron (1303), after
Tool apron (1304), ball milling chamber (14), revolution platform (1401), torque regulating arm (1402), rotation pedestal (1403), ball grinder
(1404), ball milling control panel (1405);The machine frame (12) is arranged on the board (1) of X-axis slide rail (7) one end, institute
It states and adjusts sliding rail (1201) setting on machine frame (12) top beam, height regulating rod (1202) setting is adjusting sliding rail (1201)
On, the vibrations panel (1203) connect with height regulating rod (1202) lower end, is uniformly arranged on the vibrations panel (1203)
There are multiple broken cones (1204), the collection funnel (13) to be arranged on the board (1) below X-axis slide rail (7) one end, institute
It states collection funnel (13) bottom end to connect with broken pipeline (1301), hinge shaft knife is provided in the broken pipeline (1301)
(1302), described hinge shaft knife (1302) one end is stretched out broken pipeline (1301) and is connect with preceding tool apron (1303), the hinge shaft knife
(1302) other end stretch out be crushed pipeline (1301) connect with rear tool apron (1304), the discharge port of the broken pipeline (1301) and
Tank slot (102) position correspondence is set, for placing ball grinder (1404), the ball milling chamber (14) is arranged to be existed the tank slot (102) of setting
On the board (1) of broken pipeline (1301) one end, the revolution platform (1401) setting is described at ball milling chamber (14) interior center
On revolution platform (1401) multiple rotation pedestals (1403), the rotation base are connected separately with by multiple torque regulating arms (1402)
For placing ball grinder (1404), the machine that the ball milling control panel (1405) is arranged below ball milling chamber (14) on seat (1403)
On platform (1);
The high temperature sintering system includes sintering furnace (15), insulated door (1501), heating element (1502);The sintering furnace (15)
It is arranged on the board (1) of ball milling chamber (14) one end, sintering furnace (15) side is provided with insulated door (1501), sintering
It is provided with multiple heating elements (1502) in stove (15).
2. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the control panel
(101) it is 4 or more, is connect respectively with controller one (3), controller two (5), heating motor (8), power supply box (1004).
3. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the speed limit filter plate
(603) filter opening is evenly arranged on.
4. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the raw material bucket (601)
It it is 4, shearing rack (501) is 3.
5. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the evaporation plate (703)
Surrounding is provided with frame.
6. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the heat conducting bar (801)
For telescopic rod.
7. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the revolution platform
(1401), rotation pedestal (1403) bottom end is respectively connected with motor.
8. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the sliding wind turbine
(1104) concentrator is provided on.
9. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the ball grinder (1404)
On be provided with cover, is provided with grinding bead in ball grinder (1404).
10. a kind of composite type Physical Chemistry Experiment platform according to claim 1, which is characterized in that the sintering furnace (15)
On be provided with temperature probe (1503).
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CN201810249176.9A CN108465497A (en) | 2018-03-26 | 2018-03-26 | A kind of composite type Physical Chemistry Experiment platform |
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CN201810249176.9A CN108465497A (en) | 2018-03-26 | 2018-03-26 | A kind of composite type Physical Chemistry Experiment platform |
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Family
ID=63265735
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CN201810249176.9A Pending CN108465497A (en) | 2018-03-26 | 2018-03-26 | A kind of composite type Physical Chemistry Experiment platform |
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CN110038663A (en) * | 2019-03-05 | 2019-07-23 | 卢明鑫 | Ceramic material teaching experiment tables |
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Application publication date: 20180831 |