CN102614822B - Rotary type runner rotation connection port and reaction kettle - Google Patents

Rotary type runner rotation connection port and reaction kettle Download PDF

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Publication number
CN102614822B
CN102614822B CN201210088521.8A CN201210088521A CN102614822B CN 102614822 B CN102614822 B CN 102614822B CN 201210088521 A CN201210088521 A CN 201210088521A CN 102614822 B CN102614822 B CN 102614822B
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Prior art keywords
rotating disk
reservoir chamber
pipeline
runner
converting interface
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Expired - Fee Related
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CN201210088521.8A
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Chinese (zh)
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CN102614822A (en
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王志训
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Individual
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Individual
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Abstract

The invention discloses a rotary type runner rotation connection port and a reaction kettle. The rotary type runner rotation connection pot comprises a rotary disk and a driving device for driving the rotary disk to rotate in the horizontal plane, wherein at least one pipeline is fixedly connected below the rotary disk, at least one liquid storage cavity is positioned between the rotary disk and the driving device, the at least one liquid storage cavity is communicated with a liquid pipe, and at least one runner for communicating the at least one pipelines with the liquid storage cavity is positioned on the rotary disk. The rotary type runner rotation connection port uses fluidity and continuity of fluid, simultaneously substitutes an inlet and an outlet which are arranged on the pipeline and extend out of the liquid storage cavity with the runner on the rotary disk, and ingeniously leads liquid in/out of the pipeline. A relative fixed liquid pipe is in rotation connection with the one or a plurality of rotary pipelines. When the pipeline needs rotating, the inlet and the outlet of the pipe can be in rotation connection with a liquid source. A structure of the reaction kettle avoids collision of the inlet and/or the outlet caused by rotation of the pipeline or the problem that peripheral parts and lines of the reaction kettle may be knocked on.

Description

Rotary runner converting interface and reactor
Technical field
The present invention relates to a kind of consersion unit, particularly relate to a kind of rotary runner converting interface and reactor.
Background technology
Generally, the import of the rotatable heat exchanger tube that reactor is built-in and outlet are positioned at the outside of reactor simultaneously, so that the liquid in exchange heat pipe is changed.But can be simultaneously around reactor center rotating in order to coordinate this to extend to the import outside reactor and export, at the top of reactor, need to offer annular chute to coordinate above-mentioned import and opening to rotate, certainly will make the structure at reactor top more complicated, need the part of sealing also more.And along with the increase of heat exchanger tube quantity, this structure will be more complicated, thereby limited to a certain extent the quantity of rotatable heat exchanger tube in reactor, affects the reaction efficiency of reactor.
Summary of the invention
The technical problem to be solved in the present invention is must rotate in order to overcome import and the outlet of the rotary runner of prior art simultaneously, cause the hermetically-sealed construction at whole reactor top comparatively complicated, and the defect that easily causes multitube collision, provides a kind of rotary runner converting interface and reactor.
The present invention solves above-mentioned technical problem by following technical proposals:
A runner converting interface, its feature is, and it comprises that a rotating disk and is positioned at the drive unit of this rotating disk top, and this drive unit is connected to drive this rotating disk to rotate in horizontal plane with this rotating disk; The affixed at least one pipeline in below of this rotating disk; Between this rotating disk and drive unit, be provided with at least one independently reservoir chamber, this at least one reservoir chamber is all communicated with a liquid pipe; This rotating disk is provided with at least one runner for this at least one pipeline is communicated with described reservoir chamber.
Wherein, between this rotating disk and drive unit, be provided with two separate reservoir chamber; This rotating disk is provided with two described runners, and two described runners are communicated with the import of this pipeline and outlet respectively with in described reservoir chamber one.
Wherein, this rotary runner converting interface comprises the sidewall of an annular, and this sidewall is between this rotating disk and this drive unit; In this sidewall, be provided with one with the dividing plate of this rotating disk interlock, in the above and below of this dividing plate, form respectively a described reservoir chamber; This dividing plate connects a pipe, and this pipe is communicated with the described reservoir chamber that is positioned at this dividing plate top with a described runner on this rotating disk.
Wherein, described runner vertically extends, and runs through the upper surface of this rotating disk and the lower surface of this rotating disk.
Wherein, this drive unit is a motor, and the output shaft of this motor is through affixed with this rotating disk after this reservoir chamber.
Wherein, between the upper surface of this sidewall and the fuselage of this motor, be provided with a sealing ring; Between the lower surface of this sidewall and the upper surface of this rotating disk, be provided with another sealing ring.
Wherein, this rotary runner converting interface comprises two liquid pipes, and two described liquid pipes are communicated with two described reservoir chamber respectively.
Wherein, this rotary runner converting interface comprises two upper and lower stacked, reservoirs that ring is located at this rotating disk periphery, and this reservoir is described reservoir chamber; Two described runners all run through the sidewall of this rotating disk and the lower surface of this rotating disk, and two described runners are communicated with the import of this pipeline respectively with one that exports with this reservoir.
Wherein, on this at least one runner, be positioned at the opening of this rotating disk side and the size of this reservoir adaptation.
Wherein, between this rotating disk and this reservoir, be provided with a sealing ring.
Wherein, two described reservoirs are formed in one.
The present invention also provides a kind of reactor, and its feature is, the rotary runner converting interface described in this reactor comprises; The top of this rotating disk and this reactor is rotationally connected, and and the top of this reactor between be provided with sealing mechanism; Described pipeline is heat exchanger tube.
In the present invention, above-mentioned optimum condition can be combined on the basis that meets this area general knowledge, obtains each preferred embodiment of the present invention.
Positive progressive effect of the present invention is: rotary runner converting interface of the present invention is communicated with two openings of pipeline with the runner of rotating disk, utilize mobility and the continuity of fluid, by the runner on rotating disk, substitute infusion port (import) and the liquid pumping hole (outlet) that need to extend to liquid chamber outside on pipeline originally simultaneously, insert the liquid into dexterously/introduction pipe.Relatively static rotatable one or more pipelines of liquid pipe switching, when pipeline is rotated as required, the infusion port of pipeline and liquid pumping hole can be rotationally connected with liquid source.
Further, this structure can not cause the phenomenon that makes the outside a plurality of import or exports of reactor along with the increase of number of tubes and deposit, simplify the structure at whole reactor top, avoided pipeline to rotate the import causing and/or the problem that exports collision or knock-on reaction still circumferential component and circuit.
Accompanying drawing explanation
Fig. 1 is the structural representation of the rotary runner converting interface in a preferred embodiment of the present invention.
Fig. 2 is the structural representation of the rotary runner converting interface in another preferred embodiment of the present invention.
Fig. 3 is the structural representation of the another preferred embodiment of the rotary runner converting interface in the present invention.
The specific embodiment
Below in conjunction with accompanying drawing, provide preferred embodiment of the present invention, to describe technical scheme of the present invention in detail.
Embodiment 1
As shown in Figure 1, the rotary runner converting interface of the present embodiment is applied in reactor 1, this rotary runner converting interface has comprised a motor 2 as rotating driving device, below motor 2, be provided with a rotating disk 4, this rotating disk 4 is affixed to the output shaft 21 of downward-extension with motor 2, and rotating disk 4 keeps a spacing with the fuselage of motor 2.
Between motor 2 and rotating disk 4, be provided with a sidewall 3, between this sidewall 3 and rotating disk 4 and the fuselage of motor 2, be equipped with one deck rubber seal (not shown).Certainly, sidewall 3 also can comprise end face and bottom surface, now between sidewall 3 and motor 2 and rotating disk 4, just can omit rubber seal.Motor 2 drives the axis of rotating disk 4 opposing sidewalls 3 to rotate.In the present embodiment, this sidewall 3 is affixed with the top of reactor 1, thereby relative response still remains static.Above-mentioned rubber seal also can adopt mechanical seal to be substituted.
In sidewall 3 inside, be also provided with a dividing plate 6, thereby the output shaft 21 of this dividing plate 6 and motor 2 is affixed, synchronize rotation with rotating disk 4.This dividing plate 6 is divided into separate 31He Xia reservoir chamber of upper reservoir chamber 32 by the space of sidewall 3 inside.On sidewall 3, be respectively equipped with 33, two liquid pipes of two liquid pipes 33 31He Xia reservoir chamber of Yu Shang reservoir chamber 32 connections respectively.
As can be seen here, the output shaft 21 of this motor 2 is vertically to pass Liang Ge reservoir chamber and dividing plate 6, thereby affixed with rotating disk 4.
This liquid pipe 33 can be affixed with sidewall 3, can be also individuality independent and sidewall 3.When injecting reservoir chamber or extract liquid out, assemble with sidewall 3 again by needs.
This rotating disk 4 is provided with two runners 41 and 42 that vertically extend.At the lower surface of rotating disk 4, fix a heat exchanger tube 5, wherein the import 51 of heat exchanger tube 5 is communicated with by runner 41 and pipe 61Yu Shang reservoir chamber 31; The outlet 52 of heat exchanger tube 5 is communicated with by runner 42Yu Xia reservoir chamber 32.The liquid pipe 33 that liquid is communicated with by Yu Shang reservoir chamber 31 enters upper reservoir chamber 31, flows into subsequently heat exchanger tube 5, then enters via the outlet 52 of heat exchanger tube 5 liquid pipe 33 outflows that 32 Hou Ziyuxia reservoir chamber 32 of lower reservoir chamber are communicated with.Thereby guarantee that heat exchanger tube 5 comprises all the time flowing liquid in inside when following rotating disk 4 rotations.
In the present embodiment, the top of reactor 1 is provided with an installing hole (not shown) adaptive with rotating disk 4 sizes.The integral body of this rotating disk 4 is positioned at reactor 1, rotating disk 4 sheathed with this installing hole in and with installing hole for being rotationally connected.Boundary at this installing hole and rotating disk 4 is provided with rubber seal or mechanical seal, to guarantee inside and the external environment condition isolation of reactor 1.
Wherein, the quantity of the heat exchanger tube that this rotating disk 4 also can connect is as required offered more runner, so that the import of these pipe heat pipe conductings and outlet and the conducting of corresponding reservoir chamber.
Certainly, the mode that this rotating disk 4 also can adopt part to be arranged at reactor 1 inside is flexibly connected with reactor.That is, the upper surface of rotating disk 4 is positioned at the outside of reactor 1, and the lower surface of rotating disk 4 is positioned at the inside of reactor 1.Same, the sidewall of the top of reactor 1 and rotating disk 4 is for being rotationally connected, and is provided with rubber seal or mechanical seal in boundary, to guarantee that inside and the external environment condition of reactor isolate.
The rotary runner converting interface of this structure can guarantee that the import 51 of heat exchanger tube 5 and outlet 52 are rotated all the time in reactor.Can not be positioned at reactor because of import 51 and outlet 52 and cause the complicated of reactor top structure outward.Its advantage is more embodied in, while needing the heat exchanger tube of many needs coaxial (around the output shaft of motor) rotation is set in reactor, only need on rotating disk 4, set up corresponding runner, the phenomenon that can not cause the outside a plurality of imports of reactor and outlet and deposit, simplify the structure at whole reactor top, avoided heat exchanger tube the rotation import causing and the problem that exports crash response still circumferential component and circuit.
Embodiment 2
As shown in Figure 2, the difference of the present embodiment and embodiment 1 is, rotating disk 4 ' is provided with the runner 41 ' and 42 ' of two separate perpendicular types, and this runner 41 ' and 42 ' all connects side and the lower surface of rotating disk 4 '.And the top of this reactor 1 is provided with an installing hole (not shown) with the lower surface adaptation of rotating disk 4 ', is provided with rubber seal between rotating disk 4 ' and installing hole.
Another difference is, this rotary runner converting interface also comprises that a ring is located at the peripheral and relatively static reservoir 3 ' of relative response still 1 of this rotating disk 4 ', for the sidewall 3 of alternate embodiment 1.In reservoir 3 ' in the present embodiment, comprise two separate annular channels, thereby formed two distribute and separate 31’He Xia reservoir chamber of upper reservoir chamber 32 ' up and down.Above-mentioned runner 41’Yu Shang reservoir chamber 31 ' is communicated with, and runner 42’Yu Xia reservoir chamber 32 ' is communicated with.
The opening of upper two conduits of this reservoir 3 ' all points to the axle center of motor 2.Runner 41 ' and the 42 ' size of opening and the size of the conduit adaptation corresponding with conduit.Thereby guarantee that 31’He Xia reservoir chamber of rotating disk 4 ' rotation Shi,Shang reservoir chamber 32 ' is all the time by runner 41 ' and 42 ' and heat exchanger tube 5 conductings.
On reservoir 3 ', be provided with equally two liquid pipes 33 ' that 31’He Xia reservoir chamber of Yu Shang reservoir chamber 32 ' is communicated with respectively.
In order to prevent cooling fluid or heating fluid leakage, between reservoir 3 ' and rotating disk 4 ', be provided with sealing ring.
Embodiment 3
In the present embodiment, rotary runner converting interface of the present invention is applied in view fountain.
As shown in Figure 3, this rotary runner converting interface comprises the sidewall 11 of an annular, and the top of this sidewall 11 is provided with a cover 9, and the bottom of this sidewall 11 is provided with a bottom 8, and this cover 9 and bottom 8 are all affixed with the output shaft of motor 7.This bottom 8, cover 9 and sidewall 11 form Yi Ge reservoir chamber, are provided with an inlet 12 on sidewall 11.On cover 9, be provided with 91, eight sparge pipes 10 of eight runners and be fixed in respectively on runner, all sparge pipes are all communicated with by corresponding runner and reservoir chamber.
Thereby sparge pipe 10 can be followed cover 9 opposing sidewalls and be rotated in horizontal plane, thus the water column of formation screw type.
Certainly, bottom 8 also can be affixed with sidewall 11, and the output shaft of motor 7, through affixed with cover 9 after bottom 8 and reservoir chamber, can reach above-mentioned technique effect equally.
Although more than described the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is limited by appended claims.Those skilled in the art is not deviating under the prerequisite of principle of the present invention and essence, can make various changes or modifications to these embodiments, but these changes and modification all fall into protection scope of the present invention.

Claims (9)

1. a rotary runner converting interface, is characterized in that, it comprises that a rotating disk and is positioned at the drive unit of this rotating disk top, the sidewall of an annular, and this drive unit is connected to drive this rotating disk to rotate in horizontal plane with this rotating disk; The affixed at least one pipeline in below of this rotating disk; Between this rotating disk and drive unit, be provided with two separate reservoir chamber; Gai Liangge reservoir chamber is all communicated with a liquid pipe; This rotating disk is provided with two runners for this at least one pipeline is communicated with described reservoir chamber; Article two, described runner is communicated with the import of this pipeline and outlet respectively with in described reservoir chamber one;
This sidewall is between this rotating disk and this drive unit; In this sidewall, be provided with one with the dividing plate of this rotating disk interlock, in the above and below of this dividing plate, form respectively a described reservoir chamber; This dividing plate connects a pipe, and this pipe is communicated with the described reservoir chamber that is positioned at this dividing plate top with a described runner on this rotating disk.
2. rotary runner converting interface as claimed in claim 1, is characterized in that, described runner vertically extends, and runs through the upper surface of this rotating disk and the lower surface of this rotating disk.
3. rotary runner converting interface as claimed in claim 2, is characterized in that, this drive unit is a motor, and the output shaft of this motor is through affixed with this rotating disk after this reservoir chamber.
4. rotary runner converting interface as claimed in claim 3, is characterized in that, between the upper surface of this sidewall and the fuselage of this motor, is provided with a sealing ring; Between the lower surface of this sidewall and the upper surface of this rotating disk, be provided with another sealing ring.
5. a rotary runner converting interface, is characterized in that, this rotary runner converting interface comprises a rotating disk, and one is positioned at the drive unit of this rotating disk top, and two upper and lower stacked, reservoirs that ring is located at this rotating disk periphery, and this reservoir is reservoir chamber; This drive unit is connected to drive this rotating disk to rotate in horizontal plane with this rotating disk; The affixed at least one pipeline in below of this rotating disk; Two described reservoir chamber are communicated with a liquid pipe respectively; This rotating disk is provided with two runners for this at least one pipeline is communicated with described reservoir chamber; Two described runners all run through the sidewall of this rotating disk and the lower surface of this rotating disk, and two described runners are communicated with the import of this pipeline respectively with one that exports with this reservoir.
6. rotary runner converting interface as claimed in claim 5, is characterized in that, is positioned at the opening of this rotating disk side and the size of this reservoir adaptive at least one runner.
7. rotary runner converting interface as claimed in claim 6, is characterized in that, between this rotating disk and this reservoir, is provided with a sealing ring.
8. rotary runner converting interface as claimed in claim 7, is characterized in that, two described reservoirs are formed in one.
9. a reactor, is characterized in that, this reactor comprises the rotary runner converting interface described in any one in claim 1 ~ 8; The top of this rotating disk and this reactor is rotationally connected, and and the top of this reactor between be provided with sealing mechanism; Described pipeline is heat exchanger tube.
CN201210088521.8A 2012-03-29 2012-03-29 Rotary type runner rotation connection port and reaction kettle Expired - Fee Related CN102614822B (en)

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Application Number Priority Date Filing Date Title
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CN102614822B true CN102614822B (en) 2014-02-12

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2222336Y (en) * 1994-12-06 1996-03-13 夏有年 Glass lined stirring type heat exchanger
CN200974014Y (en) * 2006-11-21 2007-11-14 沈阳化工股份有限公司 Polymerizing-kettle mixing device for micro-suspended paste resin
CN101905130A (en) * 2010-08-18 2010-12-08 孔亦周 Mixing and stirring device with heating function
CN202538758U (en) * 2012-03-29 2012-11-21 王志训 Rotary flow channel switching interface and reaction kettle

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10137573A (en) * 1996-11-15 1998-05-26 Tlv Co Ltd Stirrer

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2222336Y (en) * 1994-12-06 1996-03-13 夏有年 Glass lined stirring type heat exchanger
CN200974014Y (en) * 2006-11-21 2007-11-14 沈阳化工股份有限公司 Polymerizing-kettle mixing device for micro-suspended paste resin
CN101905130A (en) * 2010-08-18 2010-12-08 孔亦周 Mixing and stirring device with heating function
CN202538758U (en) * 2012-03-29 2012-11-21 王志训 Rotary flow channel switching interface and reaction kettle

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
JP特开平10-137573A 1998.05.26

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