CN208098077U - A kind of formula reaction kettle that feeds intake that instils - Google Patents
A kind of formula reaction kettle that feeds intake that instils Download PDFInfo
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- CN208098077U CN208098077U CN201820291896.7U CN201820291896U CN208098077U CN 208098077 U CN208098077 U CN 208098077U CN 201820291896 U CN201820291896 U CN 201820291896U CN 208098077 U CN208098077 U CN 208098077U
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- instillation
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Abstract
The utility model discloses a kind of formula reaction kettles that feeds intake that instils, including cylinder and the upper cover being fixedly connected at the top of cylinder, the upper cover is equipped with medicament instillation system, and medicament instillation system includes the tear drop pipe being fixedly connected on upper cover, the sealing sealing-plug being plugged in tear drop pipe and the dropper being plugged on sealing-plug;Tear drop pipe one end is located at outside cylinder, and the other end is located at inner barrel;Dropper one end passes through sealing-plug and is inserted in inner barrel, and the other end is located at outside cylinder;In whipping process, by dropper gradually to inner barrel instillation medicament or raw material, the raw material of inner barrel is supplemented or is added cocatalyst, improve stirring and mixing effect, stirring efficiency is improved, the ingredient upper surface that medicament or raw material drop to inner barrel is not allowed to be also easy to produce biggish splash droplet, and raw material is not easy to be splashed on cylinder inboard wall, in order to avoid can not participate in stirring because raw material remains on cylinder inboard wall, mixing evenness can be improved.
Description
Technical field
The utility model relates to a kind of chemical reaction container, in particular to a kind of reaction kettle.
Background technique
Reaction kettle is mainly used for chemical field, makes to be uniformly mixed between different chemical product for being stirred chemicals,
Improve reaction efficiency.
As shown in Figure 1, reaction kettle generally includes cylinder 4, sleeve 1, motor 3 and agitating paddle 8, sleeve 1 is fixedly attached to cylinder
4 outside of body, agitating paddle 8 are rotatably connected on inside cylinder 4, and motor 3 is fixedly connected on 4 outside of cylinder, 3 output shaft of motor and stirring
8 volume shaft of paddle is connected, and drives when motor rotation the rotation of agitating paddle 8 to be stirred the chemicals inside cylinder 4, raisingization
The reaction efficiency of product.
There is interval, for being passed through steam or hot water to carry out to cylinder 4 between the inner wall of sleeve 1 and the outer wall of cylinder 4
Heating improves the reaction temperature of chemicals, promotes chemicals reaction, when reaction raw materials need low temperature environment, can also be passed through liquid
Nitrogen or dry ice cool down.
The top of cylinder 4 is fixedly connected with upper cover 2, and the feed inlet 21 for feeding intake is offered on upper cover 2, due into
21 size of material mouth is bigger, and when feeding intake, raw material is easy to splash on 4 inner wall of cylinder, when on the inner wall that raw material splashes 4 top of cylinder
Afterwards, raw material needs slowly to flow down along 4 inner wall of cylinder participation stirring, discharge after the completion of stirring, but still has and have neither part nor lot in stirring
Raw material flows downward along 4 inner wall of cylinder and is discharged together, causes stirring not uniform enough.
Utility model content
The purpose of the utility model is to provide a kind of formula reaction kettles that feeds intake that instils, its advantage is that can be to avoid raw material when feeding intake
It splashes on the inner wall at the top of cylinder.
The above-mentioned technical purpose of the utility model technical scheme is that:A kind of formula that feeds intake that instils is anti-
Kettle is answered, including cylinder and the upper cover being fixedly connected at the top of cylinder, the upper cover is equipped with medicament instillation system, medicament drop
Injection system includes the tear drop pipe being fixedly connected on upper cover, seals the sealing-plug being plugged in tear drop pipe and be plugged on sealing
Dropper beyond the Great Wall;Tear drop pipe one end is located at outside cylinder, and the other end is located at inner barrel;Dropper one end is inserted in across sealing-plug
Inner barrel, the other end are located at outside cylinder.
Through the above technical solutions, first putting into a certain amount of raw material to inner barrel, then it is stirred, cylinder body bottom will
The raw material being stirred gradually is discharged, in whipping process, by dropper gradually to inner barrel instillation medicament or raw material, in cylinder
The raw material in portion is supplemented or is added cocatalyst, improves stirring and mixing effect, when improving stirring efficiency, and instiling, medicament
Or raw material drops to the ingredient upper surface of inner barrel and does not allow to be also easy to produce biggish splash droplet, raw material is not easy to be splashed in cylinder
On wall, in order to avoid can not participate in stirring because raw material remains on cylinder inboard wall, mixing evenness can be improved.
The utility model is further arranged to:The length that cylinder is protruded into one end that the tear drop pipe is located at inner barrel is greater than
2cm。
Through the above technical solutions, raw material from tear drop pipe instill cylinder during, tear drop pipe can stop raw material to splash to
On inner wall at the top of cylinder.
The utility model is further arranged to:The medicament instillation system further includes the rubber that sealing is socketed on the dropper
Glue hose, rubber hose are located at the outside of cylinder.
Through the above technical solutions, rubber hose has certain flexibility, other pipelines are connected with rubber hose pair
After connecing, it opposite can bend between rubber hose and other pipelines, without generating gap at docking, can be improved at docking
Sealing performance.
The utility model is further arranged to:The medicament instillation system further includes that sealing is plugged in the rubber hose
The catheter in portion.
Through the above technical solutions, catheter is plugged on the inside of rubber sealing tube, it is soft that medicament from catheter enters rubber
The resistance of rubber hose end face is not will receive during pipe.
The utility model is further arranged to:The medicament instillation system includes multiple tear drop pipes, the adjacent catheter
One end far from tear drop pipe, which mutually merges, is communicated with main line pipe.
Through the above technical solutions, same medicament can be branched in different catheters by main line pipe, then along drain
Pipe enters in cylinder from different tear drop pipes, can be dispersed and enters cylinder, convenient for being uniformly mixed.Different medicaments can be by not
Same catheter enters inner barrel from different tear drop pipes, concentrates investment inner barrel can be more evenly relative to from feed inlet
Ground is sprinkling upon inner barrel, convenient for stirring evenly.
The utility model is further arranged to:The sealing-plug is inserted in the end margin inside the tear drop pipe and is equipped with
Angle.
Through the above technical solutions, chamfering can be oriented to sealing-plug during sealing-plug is inserted into tear drop pipe, just
It is inserted into bottom material pipe in by sealing-plug.
In conclusion the utility model has the advantages that:
1, do not allow to be also easy to produce from the ingredient upper surface that the medicament or raw material of dropper instillation cylinder drop to inner barrel biggish
Splash droplet, raw material are not easy to be splashed on cylinder inboard wall, in order to avoid can not participate in stirring because raw material remains on cylinder inboard wall,
Mixing evenness can be improved;
2, medicament instillation system includes multiple tear drop pipes, and the adjacent one end of the catheter far from tear drop pipe mutually merges company
It is connected with main line pipe, same medicament can be branched in different catheters by main line pipe, then along catheter from different tear drops
Pipe enters in cylinder, can be dispersed and enters cylinder, convenient for being uniformly mixed.Different medicaments can be by different catheters never
Same tear drop pipe enters inner barrel, concentrates investment inner barrel that can more uniformly be sprinkling upon in cylinder relative to from feed inlet
Portion.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the prior art;
Fig. 2 is the structural schematic diagram of embodiment 1;
Fig. 3 is the schematic diagram that cylinder and sleeve inner structure are embodied in embodiment 1;
Fig. 4 is the schematic diagram that the assembling structure between deflector and cylinder is embodied in embodiment 1;
Fig. 5 is the schematic diagram that deflector structure is embodied in embodiment 1;
Fig. 6 is the schematic diagram that eddy flow cavity configuration is embodied in embodiment 1;
Fig. 7 is the schematic diagram that assembling structure between flow deflector and cylinder is embodied in embodiment 2;
Fig. 8 is the schematic diagram that propeller arrangement is embodied in embodiment 3;
Fig. 9 is the schematic diagram that transmission component structure is embodied in embodiment 3;
Figure 10 is the schematic diagram that assembling structure between connecting plate and main shaft is embodied in embodiment 3;
Figure 11 is the schematic diagram that medicament instillation system structure is embodied in embodiment 5;
Figure 12 is the structural schematic diagram of embodiment 5;
Figure 13 is the schematic diagram that plug construction is embodied in embodiment 5.
In figure, 1, sleeve;2, upper cover;21, feed inlet;3, motor;4, cylinder;41, discharge gate;42, seal pipe;5, it revolves
Flow chamber;6, water inlet pipe;7, outlet pipe;8, agitating paddle;81, main paddle;811, main shaft;812, main stirring blade;82, metaplasm;
821, auxiliary spindle;822, secondary stirring blade;823, sliding sleeve;83, transmission component;831, driving gear;832, driven gear;84,
Connecting plate;85, link block;86, reinforcing rib;9, deflector;10, thermally conductive sheet;11, medicament instillation system;111, tear drop pipe;112,
Sealing-plug;1121, chamfering;113, dropper;114, rubber hose;115, catheter;116, main line is managed.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Embodiment 1
A kind of eddy flow heat-conducting reaction kettle, as shown in Fig. 2, jacket cylinder 1, upper cover 2 and motor 3, motor 3 are fixedly connected on
Above upper cover 2;As shown in figure 3, eddy flow heat-conducting reaction kettle further includes the cylinder 4 being sealedly and fixedly connected below upper cover 2,
Cylinder 4 and sleeve 1 are all closed far from one end of upper cover 2, and chemicals is contained in inside cylinder 4;Cylinder 4 is located at the interior of sleeve 1
The central axis in portion, 3 output shaft of the central axis of cylinder 4, the central axis of sleeve 1 and motor is located along the same line, set
Vortex chamber 5 is equipped between the inner wall of cylinder 1 and the outer wall of cylinder 4;Water inlet pipe 6, sleeve are fixedly connected on 1 bottom faces outer wall of sleeve
Outlet pipe 7 is fixedly connected in 1 external wall of upper portion, water inlet pipe 6 and outlet pipe 7 are connected with vortex chamber 5, and hot water can be from water inlet
Pipe 6 injects vortex chamber 5, then flows out from outlet pipe 7, conducts heat to cylinder during flowing from water inlet pipe 6 to outlet pipe 7
Body 4, heats chemicals, improves the reaction temperature of chemicals, promotes reaction, improves reaction efficiency.
Agitating paddle 8 is sequentially connected on the output shaft of motor 3, agitating paddle 8 is located inside cylinder 4, and motor 3 drives agitating paddle
The chemicals inside cylinder 4 can be stirred when 8 rotation, chemicals is mixed, improve reaction efficiency.
Feed inlet 21 is offered on upper cover 2, for feeding intake inside cylinder 4;Cylinder offers discharge gate on 4 bottom surface
41, seal pipe 42 is fixedly connected on the outer ledge of discharge gate 41,4 outer wall of cylinder, and seal pipe 42 is worn far from one end of cylinder 4
The bottom surface of sleeve 1 is crossed, outer wall and 1 phase of sleeve of seal pipe 42 are sealedly and fixedly connected, and the chemicals in cylinder 4 can be from discharge gate 41
It is discharged with seal pipe 42.
As shown in figure 4, being equipped with deflector 9 in vortex chamber 5, the specific structure of deflector 9 is shown in that Fig. 5, deflector 9 are helical form
And be fixedly attached on the outer wall of cylinder 4, one side of the deflector 9 far from cylinder 4 is mutually fixedly connected with the inner wall of sleeve 1, water conservancy diversion
Plate 9 obstructs vortex chamber 5 for spiral channel.Hot water can be constituted logical after the inflow vortex chamber 5 of water inlet pipe 6 along deflector 9
Road flowing, flow direction are less likely to occur to change, and cylinder 4 can be conducted heat to during hot water flowing, after temperature reduces
The hot water that hot water can be entered below, which is pushed or driven, to be flowed along the channel that deflector 9 is constituted towards outlet pipe 7, in vortex chamber 5 not
Water temperature with position is relatively uniform, and temperature remains more stable, is easier to control to the reaction temperature of 4 internal chemical product of cylinder.
The screw pitch of deflector 9(The distance as represented by p in Fig. 4 or Fig. 3)It is smaller, the one-way of water flow(One-way refers to water
The lesser property of angle for remaining unchanged or changing along the direction that deflector 9 flows)It is better, but will lead to close to outlet pipe 7
Water temperature and close to water inlet pipe 6 water temperature difference it is excessive;3cm-10cm is set by screw pitch in this programme, water flow both can be improved
One-way, and be unlikely to cause the water temperature difference of the water temperature of water outlet and water inlet excessive, the chemicals in cylinder 4 reacted
Facilitation with higher.
In conjunction with Fig. 6, the distance between the inner wall of 4 outer wall of cylinder and sleeve 1(Such as the size that d is indicated in Fig. 6)It is smaller, water flow
One-way it is better, but will lead to water temperature close to 4 surface of cylinder and the water temperature difference on separate 4 surface of cylinder is excessive, cause
The heat utilization ratio of water is too low;1cm-5cm is set by the distance between the inner wall of 4 outer wall of cylinder and sleeve 1 in this programme, both
The utilization rate of the heat of water can be improved, and the one-way of water flow can be improved, keep the water temperature of different location in vortex chamber 5 opposite
It is more uniform, it is more equal to the heating of 4 surface different location of cylinder, promotion with higher is reacted to the chemicals in cylinder 4 and is made
With.
The course of work
Raw material is put into inside cylinder 4 from feed inlet 21 first, then starts motor 3, agitating paddle 8 is driven to carry out raw material
Stirring is uniformly mixed raw material, improves reaction efficiency, while hot water is injected into vortex chamber 5 by water inlet pipe 6, hot water edge is led
Flowing plate 9 flows to outlet pipe 7, and during entering waterpipe outlet pipe 7, heat is conducted to cylinder 4 by hot water, then to cylinder
Raw material inside 4 is heated, and the reaction temperature of raw material is improved, and promotes chemical reaction.Deflector 9 can make vortex chamber 5 form spiral shell
The channel for revolving shape, is oriented to water flow, reduces turbulent flow or whirlpool that water is formed in vortex chamber 5, makes different positions in vortex chamber 5
The water temperature set is more equal, can more uniformly heat to cylinder 4.
Embodiment 2
Difference from Example 1 is, is connected to as shown in fig. 7, being connected on the outer wall of cylinder 4 around 4 central axis of cylinder
The thermally conductive sheet 10 of spiral setting, thermally conductive sheet 10 is parallel with deflector 9, and thermally conductive sheet 10 has multiple, is leading in vortex chamber 5 respectively
Cloth, thermally conductive sheet 10 is made of aluminum alloy material or the higher metal material of other thermal conductivity ratios is made, i.e., thermally conductive sheet 10 is heat
Good conductor, can quickly absorb the heat in vortex chamber 5 in hot water, heat is then conducted to cylinder 4, cylinder 4 is added
Heat.
Thermally conductive sheet 10 with a thickness of 0.1mm-0.5mm, since thickness is smaller, can reduce occupy vortex chamber 5 volume,
The cross-sectional area of vortex chamber 5 is bigger, can accommodate more hot water, provides more heats for cylinder 4.
Embodiment 3
With embodiment 2 the difference is that, when reaction raw materials need low temperature environment, by water inlet pipe 66 to vortex chamber
The refrigerants such as liquid nitrogen or dry ice are passed through in 55, liquid nitrogen and dry ice all have the characteristic of fluid when flowing, thermally conductive sheet 10 can absorb cylinder
Heat is simultaneously quickly conducted to refrigerant by the heat of body 44, is flowed finally along vortex chamber 5 from outlet pipe after refrigerant suction heat
77 discharges, realization more evenly cool down to 44 different location of cylinder more quickly.
Embodiment 4
A kind of two-way stirring formula reaction kettle, difference from Example 1 are, as shown in figure 8, agitating paddle 8 includes main paddle
81 and metaplasm 82, main paddle 81 includes main shaft 811 and the main stirring blade 812 that is fixedly connected on main shaft 811, main shaft
811 with motor 3(See Fig. 3)Output shaft mutually vertical transmission connection, motor 3 by main shaft 811 drives main paddle after starting
The rotation of piece 812 is stirred the raw material inside cylinder 4.
Metaplasm 82 includes auxiliary spindle 821 and the secondary stirring blade 822 being fixedly connected on auxiliary spindle 821, and auxiliary spindle 821 is perpendicular
Straight setting;Sliding sleeve 823 is fixedly connected on the inner wall of 4 bottom of cylinder vertically, 821 lower end of auxiliary spindle is rotatably connected on sliding sleeve 823
It is internal;Transmission component 83 is equipped between 821 lower end of 811 upper end of main shaft and auxiliary spindle, for main shaft 811 and auxiliary spindle
It is driven between 821, after main shaft 811 rotates, auxiliary spindle 821 can be driven to rotate backward by transmission component 83, then band
Dynamic pair stirring blade 822 rotates, and secondary stirring blade 822 is with main 812 rotation direction of stirring blade on the contrary, 812 band of main stirring blade
The direction of dynamic raw material movement and secondary stirring blade 822 drive the contrary of raw material movement, and the stirring efficiency to raw material can be improved.
In conjunction with Fig. 9, transmission component 83 include be fixedly connected on the driving gear 831 of 811 lower end of main shaft be fixedly connected
Driven gear 832 in 821 upper end of auxiliary spindle, the central axis of driving gear 831 and driven gear 832 with main shaft 811
Central axis it is parallel, driving gear 831 and driven gear 832 intermeshing transmission cooperation.The number of teeth of driving gear 831 is kept away
The number of teeth of driven gear 832 is few, and the revolving speed of main shaft 811 is greater than the revolving speed of auxiliary spindle 821, and the revolving speed of main stirring blade 812 is big
, can be excessive to avoid the speed of related movement between secondary stirring blade 822 and raw material in the revolving speed of secondary stirring blade 822, reduce
Secondary stirring blade 822 reduces material and is hit on the inner wall for being splashed to 4 top of cylinder to the winged effect of hitting of raw material.
As shown in Figure 9 and Figure 10, main stirring blade 812 is had a pair of and is symmetrical arranged with the central axis of main shaft 811;
Connecting plate 84 is equipped between main stirring blade 812 and main shaft 811, connecting plate 84 is fixedly connected close to one end of main shaft 811
There is link block 85, be fastenedly connected between the link block 85 on two connecting plates 84 by fasteners such as bolts, link block 85 fastens
After connection, main shaft 811 is located between two link blocks 85, compressible to be fixed on main shaft 811, easy for removal and installation,
And it is compressible when being moved to link block 85 at different height along 811 central axis of main shaft be fixed on main shaft 811, just
In the main stirring blade 812 of adjusting in cylinder 4(See Fig. 8)Internal height and position.The one end of connecting plate 84 far from main main shaft 811
It is fastenedly connected between main stirring blade 812 by fasteners such as screws, is convenient for the behaviour such as disassembly, installation, replacement or maintenance
Make.
As shown in Figure 10, reinforcing rib 86 is fixedly connected between connecting plate 84 and link block 85, for increasing connecting plate 84
Bending strength, in whipping process, connecting plate 84 by raw material squeezing action and generate the Moment around main shaft 811
Power, it is excessive and overbending occurs or is broken off that reinforcing rib 86 can avoid 84 bending moment active force of connecting plate.
Embodiment 5
A kind of instillation feeds intake formula reaction kettle, with embodiment 4 the difference is that, as shown in figure 11,2 upper surface of upper cover
Equipped with medicament instillation system 11, it includes the tear drop pipe 111 for being fixedly connected on 2 upper surface of upper cover, tear drop pipe that medicament, which instills system,
111 be connected inside cylinder 4, tear drop pipe 111 be used in whipping process to cylinder 4(See Figure 12)Inside instills or injectionization
Reagent or auxiliary material are learned, for reacting the raw material for carrying out supplement raw material inside cylinder 4 or being catalyzed inside cylinder 4, is mentioned
High reaction efficiency, tear drop pipe 111 can be closed when not in use with seal cap sealing.
As shown in figure 12,111 one end of tear drop pipe is protruded into inside cylinder 4, and the length protruded into is greater than 2cm, and medicament is from tear drop pipe
111 injections or during instilling, medicament is not easy on the inner wall for being adhered to 4 top of cylinder, it is possible to reduce medicament is from 4 top of cylinder
Inner wall on flowed under the inner wall phase of cylinder 4, cannot participate in reaction and stirring, meeting when being attached on the inner wall on 4 top of cylinder
Reduce working efficiency.
As shown in figure 11, fixed in the upper port of tear drop pipe 111 to be plugged with sealing-plug 112,112 center of sealing-plug is solid
Surely it is plugged with dropper 113, dropper 113 is connected to rubber hose 114 far from one end fixing sleeve of tear drop pipe 111, and rubber hose 114 is remote
One end fixation from dropper 113 is plugged with catheter 115, and medicament can be by catheter 115 successively from rubber hose 114 and dropper
113 flow into inside cylinder 4.Rubber hose 114 has preferable flexible, the position generation after by external force of catheter 115
When variation, it is not easy to be mutually disengaged or right between rubber hose 114 and catheter 115 and rubber hose 114 and dropper 113
The gap between sealing surfaces connect is not easy to be opened, and the sealing between catheter 115 and rubber hose 114 can be improved
Property, it can also be improved the sealing performance between dropper 113 and rubber hose 114.
The adjacent one end of catheter 115 far from tear drop pipe 111 can mutually merge connection, and the position fixation of connection is communicated with dry
Road pipe 116, same medicament can be branched in different catheters 115 by main line pipe 116, then along catheter 115 from difference
Tear drop pipe 111 enter cylinder 4 in, can be dispersed enter cylinder 4, convenient for being uniformly mixed.Different medicaments can pass through difference
Catheter 115 enter inside cylinder 4 from different tear drop pipe 111, can inside investment cylinder 4 relative to being concentrated from feed inlet 21
To be more uniformly sprinkling upon inside cylinder 4, convenient for stirring evenly.
As shown in figure 13, sealing-plug 112, which is inserted in one end edge inside tear drop pipe 111, chamfering 1121, chamfering
1121 can reduce the size of 112 insertion end of sealing-plug, convenient for sealing-plug 112 is inserted into tear drop pipe 111.113 lower end surface of dropper
Positioned at the lower section of 111 lower end surface of tear drop pipe, medicament instills cylinder 4 from dropper 113(See Figure 12)In internal procedure, medicament is not easy
It is adhered on the inner wall on 4 top of cylinder.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (8)
- Formula reaction kettle, including cylinder 1. a kind of instillation feeds intake(4)Be fixedly connected on cylinder(4)The upper cover at top(2), special Sign is:The upper cover(2)It is equipped with medicament instillation system(11), medicament instillation system(11)Including being fixedly connected on upper cover (2)On tear drop pipe(111), sealing be plugged on tear drop pipe(111)Interior sealing-plug(112)And it is plugged on sealing-plug(112) On dropper(113);Tear drop pipe(111)One end is located at cylinder(4)Outside, the other end are located at cylinder(4)It is internal;Dropper(113) One end passes through sealing-plug(112)It is inserted in cylinder(4)Inside, the other end are located at cylinder(4)It is external.
- The formula reaction kettle 2. a kind of instillation according to claim 1 feeds intake, it is characterized in that:The tear drop pipe(111)Positioned at cylinder Body(4)Cylinder is protruded into internal one end(4)Length be greater than 2cm.
- The formula reaction kettle 3. a kind of instillation according to claim 1 feeds intake, it is characterized in that:The dropper(113)Bottom end position In tear drop pipe(111)The lower section of bottom end.
- The formula reaction kettle 4. a kind of instillation according to claim 1 feeds intake, it is characterized in that:The medicament instillation system(11)Also The dropper is socketed in including sealing(113)On rubber hose(114), rubber hose(114)Positioned at cylinder(4)Outside.
- The formula reaction kettle 5. a kind of instillation according to claim 4 feeds intake, it is characterized in that:The medicament instillation system(11)Also The rubber hose is plugged on including sealing(114)Internal catheter(115).
- The formula reaction kettle 6. a kind of instillation according to claim 5 feeds intake, it is characterized in that:The medicament instillation system(11)Packet Include multiple tear drop pipes(111), the adjacent catheter(115)Far from tear drop pipe(111)One end mutually merge and be communicated with main line Pipe(116).
- The formula reaction kettle 7. a kind of instillation according to any one of claims 1 to 5 feeds intake, it is characterized in that:The medicament instils System(11)Including multiple tear drop pipes(111).
- The formula reaction kettle 8. a kind of instillation according to any one of claims 1 to 5 feeds intake, it is characterized in that:The sealing-plug (112)It is inserted in the tear drop pipe(111)An internal end margin is equipped with chamfering(1121).
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CN201820291896.7U CN208098077U (en) | 2018-03-01 | 2018-03-01 | A kind of formula reaction kettle that feeds intake that instils |
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CN201820291896.7U CN208098077U (en) | 2018-03-01 | 2018-03-01 | A kind of formula reaction kettle that feeds intake that instils |
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