CN204134627U - The polyphosphoric acids reactor that charging aperture direction is adjustable - Google Patents
The polyphosphoric acids reactor that charging aperture direction is adjustable Download PDFInfo
- Publication number
- CN204134627U CN204134627U CN201420402640.0U CN201420402640U CN204134627U CN 204134627 U CN204134627 U CN 204134627U CN 201420402640 U CN201420402640 U CN 201420402640U CN 204134627 U CN204134627 U CN 204134627U
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- China
- Prior art keywords
- charging aperture
- reversing tube
- adjustable
- polyphosphoric acids
- reactor
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Abstract
The utility model relates to reactor.The polyphosphoric acids reactor that a kind of charging aperture direction is adjustable, comprise container, retaining mechanism and the agitator being positioned at container, agitator comprises rotating shaft and is connected to the agitating roller of rotating shaft, container is provided with charging aperture, the entrance point of charging aperture is to being connected to reversing tube, reversing tube is hinged with the sealing of charging aperture mating spherical surfaces, reversing tube is fixed together with charging aperture by retaining mechanism, lock-screw on the face that the same charging aperture that retaining mechanism comprises briquetting and drives briquetting to be pressed into reversing tube coordinates, lock-screw is threaded togather with charging aperture, it is mating spherical surfaces between briquetting and reversing tube.The utility model provides the adjustable polyphosphoric acids reactor of a kind of margin of commutation is large, mating surface is not easy to be damaged Way out, and solving existing reactor needs to make the problem that elbow carries out commutating when the direction of charging aperture can not be adjusted to identical with the trend of feed pipe.
Description
Technical field
The utility model relates to reactor, particularly relates to the polyphosphoric acids reactor that a kind of charging aperture direction is adjustable.
Background technology
Reactor is the container for physics or chemical reaction, by the structural design of container and parameter configuration, realizes the mixture function of the heating of technological requirement, evaporation, cooling and low high speed.Reactor is made up of kettle, kettle cover, chuck, agitator, transmission device, gland seal device, supporting etc. and forms, in the container that kettle and kettle cover are formed, be provided with charging aperture and discharging opening.
Chinese Patent Application No. be 2009100199921, publication date be January 11 in 2012 day, be called in the patent document of " self-adjusting quick reaction kettle " and namely disclose a kind of reactor.
Not enough below existing reactor ubiquity: the direction of charging aperture is changeless, use procedure when charging aperture direction with feed pipe move towards inconsistent time, then need to make elbow to carry out commutating to realize feed pipe and charging aperture to be docking together, therefore bad adaptability; Large particulate matter in raw material can enter in reactor the quality affecting product.
Utility model content
First object of the present utility model aims to provide the adjustable polyphosphoric acids reactor in a kind of margin of commutation is large, mating surface is not easy to be damaged charging aperture direction, and solving existing reactor needs to make the problem that elbow carries out commutating when the direction of charging aperture can not be adjusted to identical with the trend of feed pipe.
Second object of the present utility model is intended to the polyphosphoric acids reactor that the basis of the first object provides a kind of charging aperture direction that can prevent large particulate matter from entering kettle adjustable further, solves existing reactor and large particulate matter can not be stoped to enter the problem of kettle.
Above technical problem is solved by following technical proposal: the polyphosphoric acids reactor that a kind of charging aperture direction is adjustable, comprise container, retaining mechanism and the agitator being positioned at container, described agitator comprises rotating shaft and is connected to the agitating roller of rotating shaft, described container is provided with charging aperture, the entrance point of described charging aperture is to being connected to reversing tube, described reversing tube is hinged with described charging aperture mating spherical surfaces sealing, described reversing tube is fixed together with described charging aperture by described retaining mechanism, lock-screw on the face that the same charging aperture that described retaining mechanism comprises briquetting and drives briquetting to be pressed into reversing tube coordinates, described lock-screw is threaded togather with charging aperture, it is mating spherical surfaces between described briquetting and reversing tube.During use, rotation lock screw and make briquetting unclamp pressing fixation to reversing tube, then according to the direction of charging aperture and with the feed pipe of charging aperture docking direction relations, rotate reversing tube and be docking together with feed pipe to the entrance point of reversing tube, and then rotating backward lock-screw, lock-screw drives briquetting and to be pressed on reversing tube thus to realize the fixing of reversing tube and charging aperture.
The utility model also comprises the sealing ring described reversing tube and charging aperture are sealed connected together, and is matched in clearance between described reversing tube and charging aperture.Can either ensure that junction is not leaked, easily laborsaving when can make again to rotate reversing tube.
As preferably, described sealing ring is fixed in described charging aperture.When reversing tube can be made no matter to turn to that angle, reversing tube and charging aperture can both reliably be sealed connected together by sealing ring.
As preferably, described reversing tube is provided with spherical connector, and described charging aperture inwall is provided with sphere pit, and described reversing tube is connected in described sphere pit hinged with charging aperture by described spherical connector.Compact conformation, connects reliable.
As preferably, the entrance point of described reversing tube is provided with filter.Can prevent large particulate matter from entering kettle through charging aperture, achieve second utility model object.
The utility model also comprises Detachable connection structure, and described filter is detachably connected with described reversing tube by some described Detachable connection structure.Can selective installation filter.Thus make the utility model can meet the use needs of different occasion.
As preferably, described Detachable connection structure comprises the blocked hole being arranged at described filter surface and the clamping block being movably connected on described reversing tube and drives clamping block to reach spring in described blocked hole.Convenience during installing/dismounting filter is good.
As preferably, described clamping block is spherical, and described clamping block is mating spherical surfaces with described reversing tube, and described clamping block is only against together with described spring.Convenience during installing/dismounting filter can be improved further.
As preferably, the center line of described lock-screw is through the center of reversing tube and charging aperture mating surface.Can reduce further briquetting be pressed on reversing tube on the surface time to commutation tube-surface damage.
The utility model has following advantage: by the hinged reversing tube of charging aperture, and the direction achieving charging aperture is adjustable, can improve the adaptability of reactor to installing space; Because charging aperture and reversing tube are that mating spherical surfaces carries out hinged, reversing tube and can carry out Three dimensional rotation, the margin of commutation of reversing tube is large, thus makes reactor to the better adaptability in space; Briquetting, with being mating spherical surfaces between reversing tube, is not easy the surface damaging reversing tube in pressing process, reversing tube can keep rotation unobstructed for a long time.
Accompanying drawing explanation
Fig. 1 is schematic diagram of the present utility model.
Fig. 2 is the close-up schematic view at the A place of Fig. 1.
Fig. 3 is the close-up schematic view at the B place of Fig. 2.
Fig. 4 is using state schematic diagram of the present utility model.
In figure: container 1, charging aperture 12, sphere pit 13/ reversing tube 2, spherical connector 21, the free end 22 of spherical connector, sealing ring 23, retaining mechanism 3, briquetting 31, lock-screw 32, filter 4, agitator 5, rotating shaft 51, agitating roller 52, Detachable connection structure 6, blocked hole 61, clamping block 62, spring 63, feed pipe 7, driving mechanism 8, motor 81, driving gear 82, driven gear 83.
Detailed description of the invention
Below in conjunction with accompanying drawing and embodiment, the utility model is further described.
See Fig. 1, the polyphosphoric acids reactor that a kind of charging aperture direction is adjustable, comprises container 1, reversing tube 2, retaining mechanism 3, filter 4, agitator 5 and driving mechanism 8.
Container 1 is provided with charging aperture 12.
Reversing tube 2 is docked at the entrance point of charging aperture 12.Reversing tube 2 is fixed together with charging aperture 12 by retaining mechanism 3.
Filter 4 is arranged on the entrance point of reversing tube 2.
Agitator 5 is positioned at container 1.Agitator 5 comprises rotating shaft 51 and is connected to some agitating rollers 52 of rotating shaft.Rotating shaft 51 is rotationally connected with container 1.Rotating shaft 51 extends along the vertical direction.Agitating roller 52 is blade construction.Agitating roller 52 is welded in rotating shaft 51.
The driven gear 83 that driving mechanism 8 comprises motor 81, is arranged at the driving gear 82 of motor power output shaft and meshes together with driving gear.Driven gear 83 is fixed on the upper end of rotating shaft 51, driven gear 83 and rotating shaft 51 coaxial.This topology layout of driving mechanism, can vacate the end face of rotating shaft, is convenient on end face, arrange other parts.
See Fig. 2, the port of export of reversing tube 2 is provided with spherical connector 21.Charging aperture 12 inwall is provided with sphere pit 13.Reversing tube 2 is connected in sphere pit 13 hinged with charging aperture 12 by spherical connector 21, also namely reversing tube 2 with charging aperture 12 for mating spherical surfaces carries out hinged.It is matched in clearance between spherical connector 21 and sphere pit 13.Be sealed connected together by sealing ring 23 between spherical connector 21 and sphere pit 13.Sealing ring 23 is fixed in charging aperture 12.The free end 22 of spherical connector is all contained in sphere pit 13 (also namely in the scope that reversing tube can rotate, the free end 22 of spherical connector is all positioned at sphere pit 13).
Retaining mechanism 3 comprises briquetting 31 and lock-screw 32.Briquetting 31 is contained in the wall of sphere pit 13.Briquetting 31 is by the face of same charging aperture cooperation being pressed in reversing tube and the surface of spherical connector 21.Briquetting 31 is with being mating spherical surfaces between spherical connector 21.Lock-screw 32 is threaded togather with charging aperture 12.The end of thread of lock-screw 32 is connected to together with briquetting 31.The centre of sphere of the center line of the lock-screw 32 also i.e. sphere at the surperficial place of spherical connector 21 through the center of reversing tube and charging aperture mating surface.Filter 4 is detachably connected with reversing tube 2 by several Detachable connection structure 6.Detachable connection structure 6 distributes along the circumference of reversing tube 2.
See Fig. 3, Detachable connection structure 6 comprises blocked hole 61, clamping block 62 and spring 63.Blocked hole 61 is arranged at filter 4 surface.Clamping block 62 is spherical.Clamping block 62 is movably connected on reversing tube 2 inner surface.It is mating spherical surfaces between clamping block 62 and reversing tube 2.Spring 63 is positioned at reversing tube 2.Spring 63 one end is connected to together with reversing tube 2, the other end is connected to together with clamping block 62.Clamping block 62 is with being only connected to together between spring 63, not namely being fixed together.Clamping block 62 stretches out reversing tube 2 inner surface and is inserted in blocked hole 61 and realizes filter 4 to link together with reversing tube 2 under the effect of spring 63.
The method of the lower filter of dismounting is: be pulled through filter plate 4 outward, the wall of blocked hole 61 extrudes clamping block 62 and makes clamping block shrink the also fixation lost filter 4, filter 4 can be removed, spring 63 energy storage in the process that clamping block 62 shrinks, filter 4 takes out rear spring 63 and drives clamping block reset and the inner surface that again stretches out reversing tube 2.During assembling filter 4, only need when blocked hole 61 and clamping block 62 align firmly towards reversing tube inside pressing filter 4.
See Fig. 4, during use, making to unclamp the position that retaining mechanism 3 can freely rotate to reversing tube 2, rotate reversing tube 2 and can dock with feed pipe 7 to reversing tube, then preventing from newly reversing tube 2 and charging aperture 12 being locked together by retaining mechanism 3 to be shifted.
Raw material enters container 1 through feed pipe 7, reversing tube 2 and charging aperture 12 successively, and motor 81 drives that driving gear 82 rotates, driving gear 82 drives that driven gear 83 rotates, driven gear drives agitator 5 to rotate, thus realizes the stirring to the raw material in container.Oarse-grained raw material is filtered plate 4 and blocks and can not enter container 1.
See Fig. 2, retaining mechanism 3 unclamp and locking process is: rotation lock screw 32 go drive briquetting 42 move.
Claims (9)
1. the polyphosphoric acids reactor that a charging aperture direction is adjustable, comprise container and the agitator being positioned at container, described agitator comprises rotating shaft and is connected to the agitating roller of rotating shaft, described container is provided with charging aperture, it is characterized in that, also comprise retaining mechanism, the entrance point of described charging aperture is to being connected to reversing tube, described reversing tube is hinged with described charging aperture mating spherical surfaces sealing, described reversing tube is fixed together with described charging aperture by described retaining mechanism, lock-screw on the face that the same charging aperture that described retaining mechanism comprises briquetting and drives briquetting to be pressed into reversing tube coordinates, described lock-screw is threaded togather with charging aperture, it is mating spherical surfaces between described briquetting and reversing tube.
2. the polyphosphoric acids reactor that charging aperture direction according to claim 1 is adjustable, is characterized in that, also comprises the sealing ring described reversing tube and charging aperture are sealed connected together, and is matched in clearance between described reversing tube and charging aperture.
3. the polyphosphoric acids reactor that charging aperture direction according to claim 2 is adjustable, is characterized in that, described sealing ring is fixed in described charging aperture.
4. the polyphosphoric acids reactor that the charging aperture direction according to claim 1 or 2 or 3 is adjustable, it is characterized in that, described reversing tube is provided with spherical connector, described charging aperture inwall is provided with sphere pit, and described reversing tube is connected in described sphere pit hinged with charging aperture by described spherical connector.
5. the polyphosphoric acids reactor that the charging aperture direction according to claim 1 or 2 or 3 is adjustable, it is characterized in that, the entrance point of described reversing tube is provided with filter.
6. the polyphosphoric acids reactor that charging aperture direction according to claim 5 is adjustable, is characterized in that, also comprise Detachable connection structure, and described filter is detachably connected with described reversing tube by some described Detachable connection structure.
7. the polyphosphoric acids reactor that charging aperture direction according to claim 6 is adjustable, it is characterized in that, described Detachable connection structure comprises the blocked hole being arranged at described filter surface and the clamping block being movably connected on described reversing tube and drives clamping block to reach spring in described blocked hole.
8. the polyphosphoric acids reactor that charging aperture direction according to claim 7 is adjustable, is characterized in that, described clamping block is spherical, and described clamping block is mating spherical surfaces with described reversing tube, and described clamping block is only against together with described spring.
9. the polyphosphoric acids reactor that the charging aperture direction according to claim 1 or 2 or 3 is adjustable, is characterized in that, the center line of described lock-screw is through the center of reversing tube and charging aperture mating surface.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420402640.0U CN204134627U (en) | 2014-07-22 | 2014-07-22 | The polyphosphoric acids reactor that charging aperture direction is adjustable |
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CN201420402640.0U CN204134627U (en) | 2014-07-22 | 2014-07-22 | The polyphosphoric acids reactor that charging aperture direction is adjustable |
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CN204134627U true CN204134627U (en) | 2015-02-04 |
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CN201420402640.0U Expired - Fee Related CN204134627U (en) | 2014-07-22 | 2014-07-22 | The polyphosphoric acids reactor that charging aperture direction is adjustable |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105645654A (en) * | 2016-01-12 | 2016-06-08 | 浙江新华新材料科技有限责任公司 | Methoxylated amino resin formaldehyde wastewater recovery method and device |
-
2014
- 2014-07-22 CN CN201420402640.0U patent/CN204134627U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105645654A (en) * | 2016-01-12 | 2016-06-08 | 浙江新华新材料科技有限责任公司 | Methoxylated amino resin formaldehyde wastewater recovery method and device |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150204 Termination date: 20150722 |
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EXPY | Termination of patent right or utility model |