CN205948868U - Novel it is synthetic device - Google Patents

Abstract

The utility model provides a novel it is synthetic device, includes that barrel, hybrid module, material presort loose subassembly and supplementary fixed subassembly. The both ends of barrel are provided with upper cover and low head respectively. Hybrid module includes support, mixing motor, mixes the (mixing) shaft and mixes the stirring rake. The material is presorted the subassembly that looses and is included reinforced body, buffering barrel body, material holding box, installation box, is presorted the mixing motor that looses, is presorted the hybrid -driven axle that looses, is presorted scattered hybrid -driven oar and support frame. Supplementary fixed subassembly includes connecting -rod body and two support bodies of rod. Above -mentioned novel it is synthetic device presorts scattered subassembly through setting up barrel, hybrid module and material, when scattered mixing operation is presorted with the material to needs, only needs let in the reinforced body of presorting the subassembly that looses to the material with the material to throw away the material centrifugation and can realize presorting the mixing operation that looses by presorting the hybrid -driven oar that looses again, and the stirring to mix the effect better.

Description

New synthesizer

Technical field

This utility model is related to chemical plant installations technical field, more particularly to a kind of new synthesizer.

Background technology

At present, in material production field, after especially various materials mixing reacts, obtain the situation of final products In, it usually needs using chemical industry synthesis device, for being stirred to material mixing, and so that it is successfully reacted, be used for Obtain the final products of higher quality.

Common, existing chemical industry synthesis device is stirred to the material sequentially adding or be simultaneously introduced using rabbling mechanism Mix mixing, to obtain the purpose of mix and blend.

However, existing chemical industry synthesis device is all directly to be stirred operating in its cylinder, material is not carried out Scatter operation in advance, leads to its stirring and mixing effect relatively low, more time-consuming.

Utility model content

Based on this it is necessary to provide one kind to be capable of pre-dispersion operation and the preferably new synthesis of stirring and mixing effect Device.

A kind of new synthesizer, including：

Cylinder, the two ends of described cylinder are respectively arranged with upper cover and low head；

Electric hybrid module, described electric hybrid module includes support, hybrid electric motor, mix and blend axle and mix and blend oar, described Frame is fixedly mounted on described upper cover, and described hybrid electric motor is arranged on described support, the first end of described mix and blend axle It is connected with the rotary shaft of described hybrid electric motor, the second end of described mix and blend axle is connected with described mix and blend oar, and described Mix and blend oar is located inside described low head；

The pre-dispersed assembly of material, the pre-dispersed assembly of described material include feeding body, buffering cylinder, material house casing, Casing, pre-dispersed hybrid electric motor, pre-dispersed combined drive moving axis, pre-dispersed combination drive oar and bracing frame, described charge pipe are installed The first end of body is connected with described upper cover, and the first end of described buffering cylinder is connected with the first end of described charging body, institute State the accommodating casing of material and there is hollow structure, and it is located inside described upper cover, described installation casing is arranged on described material On the medial wall of accommodating casing, and formed between the medial wall of the described lateral wall installing casing and the accommodating casing of described material Material houses cavity, and the second end of described buffering cylinder houses casing with described material and is connected, and described buffers the of cylinder Two ends house cavity with described material and connect, support frame as described above medial wall and the described material storage box with described upper cover respectively The lateral wall of body connects, and described pre-dispersed hybrid electric motor is arranged on described installation box house, described pre-dispersed combined drive moving axis First end be connected with the rotary shaft of described pre-dispersed hybrid electric motor, the second end of described pre-dispersed combined drive moving axis wears successively Described installation casing and described material house casing, and the second end of described pre-dispersed combined drive moving axis is placed in described upper envelope Head is internal, and described pre-dispersed combination drive oar is connected with the second end of described pre-dispersed combined drive moving axis, described material storage box The bottom of body offers and houses, with described material, the material spilling hole that cavity connects, and described material spilling hole is towards described pre-dispersed combined drive The direction setting of dynamic oar and described low head；

Auxiliary fixing assembly, described auxiliary fixing assembly includes connecting-rod body and two support rod body, described connecting-rod body First end be connected with the medial wall of described upper cover, the second end of described connecting-rod body and described material house casing and are connected, The first end of two described support rod body is all connected with described connecting-rod body, the second end of two described support rod body all with described Material houses casing and connects, and forms angle between two described support rod body.

Wherein in an embodiment, described support rod body is provided with reinforcement, and described reinforcement is by described support rod body First end to described support rod body second end be extended.

Wherein in an embodiment, described support rod body has circular bar structure.

Wherein in an embodiment, described support rod body is provided with some reinforcements, some described reinforcements successively between Every setting.

Wherein in an embodiment, the number of degrees of described angle are 90 degree～130 degree.

Wherein in an embodiment, two described support rod body are centrosymmetric with the center of described connecting-rod body and set Put.

Wherein in an embodiment, the first end of described support rod body is embedded inside described connecting-rod body.

Above-mentioned new synthesizer passes through to arrange cylinder, electric hybrid module and the pre-dispersed assembly of material, when needing to enter material During the pre-dispersed married operation of row, only material need to be passed through to the charging body of the pre-dispersed assembly of material, and again by pre-dispersed mixing Drive oar to throw away material centrifugation and can realize pre-dispersed married operation, and stirring and mixing effect is preferable.

Brief description

Fig. 1 is the structural representation of the new synthesizer of this utility model one embodiment；

Fig. 2 is enlarged drawing at A for the Fig. 1；

Fig. 3 is the partial structural diagram of the new synthesizer of another embodiment of this utility model；

Fig. 4 is the partial structural diagram of the new synthesizer of another embodiment of this utility model；

Fig. 5 is the partial structural diagram of the new synthesizer of another embodiment of this utility model；

Fig. 6 is the partial structural diagram of the new synthesizer of another embodiment of this utility model；

Fig. 7 is the partial structural diagram of the new synthesizer of another embodiment of this utility model；

Fig. 8 is the partial structural diagram of the new synthesizer of another embodiment of this utility model.

Specific embodiment

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is more fully retouched State.Better embodiment of the present utility model is given in accompanying drawing.But, this utility model can come in many different forms Realize however it is not limited to embodiments described herein.On the contrary, providing the purpose of these embodiments to be to make to this practicality newly It is more thoroughly comprehensive that the disclosure of type understands.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or can also there is element placed in the middle.When an element is considered as " connection " another element, it is permissible It is directly to another element or may be simultaneously present centering elements.Term as used herein " vertical ", " level ", "left", "right" and similar statement for illustrative purposes only, being not offered as is unique embodiment.

Unless otherwise defined, all of technology used herein and scientific terminology are led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.In term used in the description of the present utility model it is simply herein The purpose of description specific embodiment is it is not intended that in limiting this utility model.Term as used herein " and/or " bag Include the arbitrary and all of combination of the Listed Items of one or more correlations.

For example, a kind of new synthesizer, including：Cylinder, the two ends of described cylinder are respectively arranged with upper cover and lower envelope Head；Electric hybrid module, described electric hybrid module includes support, hybrid electric motor, mix and blend axle and mix and blend oar, and described support is fixed Be arranged on described upper cover, described hybrid electric motor is arranged on described support, the first end of described mix and blend axle with described The rotary shaft of hybrid electric motor connects, and the second end of described mix and blend axle is connected with described mix and blend oar, and described mixing is stirred Mix oar to be located inside described low head；The pre-dispersed assembly of material, the pre-dispersed assembly of described material includes feed body, dsah-pot Body, material house casing, install casing, pre-dispersed hybrid electric motor, pre-dispersed combined drive moving axis, pre-dispersed combination drive oar and prop up Support, the first end of described charging body is connected with described upper cover, first end and the described charging body of described buffering cylinder First end connection, described material house casing there is hollow structure, and its be located at described upper cover inside, described installation casing It is arranged on described material to house on the medial wall of casing, and the described lateral wall installing casing houses casing with described material Form material containing cavity body, the second end of described buffering cylinder houses casing with described material and is connected, and institute between medial wall The accommodating cavity of the second end and described material stating buffering cylinder connects, support frame as described above respectively with the medial wall of described upper cover and The lateral wall that described material houses casing connects, and described pre-dispersed hybrid electric motor is arranged on described installation box house, described pre- The first end of dispersion mixing drive shaft is connected with the rotary shaft of described pre-dispersed hybrid electric motor, described pre-dispersed combined drive moving axis Second end wears described installation casing successively and described material houses casing, and the second end of described pre-dispersed combined drive moving axis It is placed in inside described upper cover, described pre-dispersed combination drive oar is connected with the second end of described pre-dispersed combined drive moving axis, The bottom that described material houses casing offers the material spilling hole that cavity accommodating with described material connects, and described material spilling hole is towards institute State the direction setting of pre-dispersed combination drive oar and described low head；Auxiliary fixing assembly, described auxiliary fixing assembly is included even Extension bar body and two support rod body, the first end of described connecting-rod body is connected with the medial wall of described upper cover, described connecting rod Second end of body houses casing with described material and is connected, and the first end of two described support rod body is all with described connecting-rod body even Connect, the second end of two described support rod body all houses casing with described material and is connected, and shape between two described support rod body Become angle.

In order to explain to above-mentioned new synthesizer further, for example, the new synthesis of another embodiment Device is as follows：

Refer to Fig. 1, new synthesizer 10 includes cylinder 100, electric hybrid module 200 and the pre-dispersed assembly of material 300, mix Seaming element 200 and the pre-dispersed assembly of material 300 may be contained within cylinder 100.

Refer to Fig. 1, the two ends of cylinder 100 are respectively arranged with upper cover 110 and low head 120, and cylinder 100 is used for housing The material adding, and to material mix and blend and the offer occasion that reacts.For example, after upper cover 110 is connected with low head 120 Form cylinder 100.And for example, described cylinder is formed in one structure.And for example, in the process being installed on outside support of described cylinder In, the top of the externally-located support of described upper cover, the bottom of the externally-located support of described low head.

Refer to Fig. 1, electric hybrid module 200 includes support 210, hybrid electric motor 220, mix and blend axle 230 and mix and blend Oar 240, support 210 is fixedly mounted on the upper cover 110 of cylinder 100, and hybrid electric motor 220 is arranged on support 210, and mixing is stirred The first end mixing axle 230 is connected with the rotary shaft of hybrid electric motor 220, and the second end of mix and blend axle 230 stretches in cylinder 100 Portion, e.g., the second end of mix and blend axle 230 stretches to inside the low head 120 of cylinder 100, the second end of mix and blend axle 230 It is connected with mix and blend oar 240, e.g., mix and blend oar 240 is located inside the low head 120 of cylinder 100.For example, described mixing Stirring paddle is anchor formula stirring paddle or propeller, certainly, can also carry out from other kinds of stirring according to actual needs Oar.

Refer to Fig. 1, hybrid electric motor 220 is used for driving mix and blend axle 230 to rotate, and then drive and mix and blend axle 230 fixing mix and blend oars 240 rotate.When needing to be stirred married operation to the material in cylinder 100, control mixing Motor 220 drives mix and blend axle 230 to rotate, and then drives mix and blend oar 240 to rotate, using disturbing of mix and blend oar 240 Stream acts on, and can play preferable stirring immixture, and then can be stirred married operation to the material in cylinder 100.

See also Fig. 1 and Fig. 2, the pre-dispersed assembly of material 300 includes feed body 310, buffering cylinder 320, material Accommodating casing 330, installation casing 340, pre-dispersed hybrid electric motor 350, pre-dispersed combined drive moving axis 360, pre-dispersed combination drive Oar 370 and bracing frame 380, charging body 310 and buffering cylinder 320, material house casing 330 and are sequentially connected, and install casing 340 It is placed in material and houses inside casing 330, pre-dispersed hybrid electric motor 350 is arranged on inside installation casing 340, pre-dispersed combined drive Moving axis 360 is connected with pre-dispersed hybrid electric motor 350 and pre-dispersed combination drive oar 370 respectively, bracing frame 380 and material storage box Body 330 connects, and houses casing 330 for stationary support material.

Refer to Fig. 2, the first end of charging body 310 is connected with the upper cover 110 of cylinder 100, that is, feed body 310 First end is connected with the upper cover 110 of cylinder 100.For example, the second end of described charging body holds bucket with material and connects, Described material holds bucket for adding or input material into charging body 310.

Refer to Fig. 2, the first end of buffering cylinder 320 is connected with the first end of charging body 310, so, from charge pipe The material entering in body 310 can flow directly into buffering cylinder 320.

Refer to Fig. 2, material houses casing 330 and has hollow structure, and material houses casing 330 and is located at cylinder 100 Inside upper cover 110, bracing frame 380 is connected with the medial wall of upper cover 110 and the lateral wall of the accommodating casing 330 of material respectively, So, can preferably fix and support material storage box body 330 using bracing frame 380 and buffering cylinder 320, whole for improving The intensity of body mechanism.

Refer to Fig. 2, casing 340 is installed and is arranged on the medial wall of the accommodating casing 330 of material, for example, described installation case Body is arranged on the bottom that described material houses casing.The lateral wall of case 340 is installed and material houses between the medial wall of casing 330 Material houses cavity 331, and the second end of buffering cylinder 320 casing 330 accommodating with material is connected, and buffers the of cylinder 320 Two ends house cavity 331 with material and connect, and so, material just can be along charging body 310- buffering cylinder 320- material containing cavity The path of body 331 is conveyed.For example, described material containing cavity intracorporeal site is respectively formed with the described both sides installing casing Material conveying passage.

Refer to Fig. 2, pre-dispersed hybrid electric motor 350 is arranged on inside installation casing 340, pre-dispersed combined drive moving axis 360 First end be connected with the rotary shaft of pre-dispersed hybrid electric motor 350, the second end of pre-dispersed combined drive moving axis 360 wears peace successively Vanning body 340 and material house casing 330, and for example, the second end of pre-dispersed combined drive moving axis 360 wears installation casing successively 340 side wall and the side wall of the accommodating casing 330 of material.Second end of pre-dispersed combined drive moving axis 360 is placed in upper cover 110 Portion, pre-dispersed combination drive oar 370 is connected with the second end of pre-dispersed combined drive moving axis 360, for example, described pre-dispersed combined drive Dynamic oar houses the bottom setting of casing towards described material.

Refer to Fig. 2, the bottom that material houses casing 330 offers the material spilling hole that cavity 331 accommodating with material connects 332, and material spilling hole 332 is towards the direction setting of pre-dispersed combination drive oar 370 and described low head.For example, described material holds Put casing and offer some material spilling holes, some described material spilling hole interval settings successively, some described material spilling holes are all towards described pre- Dispersion mixing drives the direction setting of oar and described low head.

When needing to carry out pre-dispersed married operation to the material adding, add material to charging body 310 first, it Afterwards, material enters to inside buffering cylinder 320 by the body 310 that feeds, and then, material flows into material by buffering cylinder 320 again The material of accommodating casing 330 houses inside cavity 331, and finally, material houses, by with material, the material spilling hole 332 that cavity 331 connects Flow out or spill, now, open pre-dispersed hybrid electric motor 350, open pre-dispersed hybrid electric motor 350 and drive pre-dispersed combination drive Axle 360 rotates, and then drives pre-dispersed combination drive oar 370 to rotate, when flowing out from material spilling hole 332 or the material that spills is through overwinding Turn during pre-dispersed combination drive oar 370 when, based on the operating on centrifugal force to material for the pre-dispersed combination drive oar 370, energy Material dispersion is enough made to become the material of the dispersing morphology such as material drop or material particles or material group, these are through pre-dispersed mixing The material of operation is thrown away by pre-dispersed combination drive oar 370, and then is stirred mixing behaviour with the unclassified stores in cylinder 100 Make, for improving stirring and mixing effect.

Above-mentioned new synthesizer 10 passes through to arrange cylinder 100, electric hybrid module 200 and the pre-dispersed assembly of material 300, when need When material is carried out pre-dispersed married operation, only material need to be passed through to the charging body 310 of the pre-dispersed assembly of material 300, And by pre-dispersed combination drive oar 370, material centrifugation is thrown away and can realize pre-dispersed married operation again, and stirring and mixing effect Preferably.

In order to prevent material when carrying out pre-dispersed married operation, the problem excessively sputtering occurs, for example, refers to Fig. 3, Described new synthesizer also includes Anti-splash assembly 400, described Anti-splash assembly 400 include the first Anti-splash plate body 410 and Second Anti-splash plate body 420, the first end of described first Anti-splash plate body 410 and the first of described second Anti-splash plate body 420 The bottom that end all houses casing 330 with described material is connected, and described first Anti-splash plate body 410 and described second Anti-splash plate Body 420 is all placed on described material and houses outside casing 330, described first Anti-splash plate body 410 and described second Anti-splash plate body Be arranged at interval between 420, and described material spilling hole 332 be located at described first Anti-splash plate body and described second Anti-splash plate body it Between；And for example, the second end of described second Anti-splash plate body is connected with the medial wall of described upper cover；And for example, described first splashproof Penetrate plate body and there is the first arcuate structure；And for example, described second Anti-splash plate body has the second arcuate structure；And for example, described first Anti-splash plate body and described material house plane formation the first angle, described second Anti-splash plate body and the institute that box bottom is located State material and house plane formation the second angle that box bottom is located, the number of degrees of described first angle are more than described second angle The number of degrees；And for example, the number of degrees of described first angle are 135 degree～165 degree；And for example, the number of degrees of described second angle are 95 degree～120 Degree, so, carries out certain journey using the first Anti-splash plate body 410 and the second Anti-splash plate body 420 to sputtered material out The stop operation of degree, is prevented from material when carrying out pre-dispersed married operation, the problem excessively sputtering.

In order to improve charging efficiency and pre-dispersed mixed effect further, for example, refer to Fig. 4, described new synthesis Device also includes pressure-applying unit 500, and described pressure-applying unit 500 includes the pressurization pump housing 510, conveying body 520 and material and holds bucket (not shown), the discharge end of the described pressurization pump housing 510 is connected with the second end of described charging body 310, the described pressurization pump housing Feed end is connected with the first end of described conveying body, and the second end of described conveying body holds bucket with described material and connects, institute State material and hold bucket and be used for holding material；And for example, the second end of described conveying body and described material hold the communicating position of bucket Place is provided with leakproof glue-line；And for example, described material holds bucket and offers connecting hole, and the hole wall of described connecting hole is provided with interior spiral shell Stricture of vagina, the lateral wall at the second end of described conveying body is provided with external screw thread, described female thread and described external thread bolt connection；And for example, Described conveying body has round tubular structure；And for example, the caliber of described conveying body from described conveying body first end to The direction at the second end is gradually increased；And for example, described material holds to be provided with the position of bucket and holds platform, described hold platform with It is provided with difference in height between described kettle；And for example, described hold platform and be provided with hold holding of bucket for holding described material Face, so, is pressurizeed using the material that the pressurization pump housing 510 holds bucket outflow to described material, can improve charging further Efficiency and pre-dispersed mixed effect.

House casing to more securely install described material, for example, refer to Fig. 5, described new synthesizer also wraps Include auxiliary fixing assembly 600, described auxiliary fixing assembly 600 includes connecting-rod body 610 and two support rod body 620, described company The first end of extension bar body 610 is connected with the medial wall of described upper cover 110, the second end of described connecting-rod body 610 and described thing The accommodating casing 330 of material connects, and the first end of two described support rod body is all connected with described connecting-rod body, two described support bars Second end of body all houses casing with described material and is connected, and forms angle between two described support rod body.Described support bar Body is provided with reinforcement, and described reinforcement is set from the first end of described support rod body to the second end extension of described support rod body Put；And for example, described support rod body has circular bar structure；And for example, described support rod body is provided with some reinforcements, Ruo Gansuo State reinforcement interval setting successively；And for example, the number of degrees of described angle are 90 degree～130 degree；And for example, two described support rod body with The center of described connecting-rod body is centrosymmetric setting；And for example, the first end of described support rod body is embedded at described connecting-rod body Inside, so, can more securely install described material using auxiliary fixing assembly and house casing.

In order to strengthen the stirring and mixing effect to material, for example, refer to Fig. 6, described new synthesizer also includes auxiliary Help electric hybrid module 700, described auxiliary electric hybrid module 700 includes auxiliary mixing body 710 and some auxiliary mixing paddles 720, institute State auxiliary mixing body 710 to be placed on described mix and blend axle 230, and at the medium position of described cylinder, Ruo Gansuo State auxiliary mixing paddle and may be contained within described auxiliary mixing body, and some described auxiliary mixing paddles are with described mix and blend axle Central axis radially distribute.Described auxiliary mixing paddle has distorted-structure；And for example, described auxiliary mixing paddle setting Meet charge level；And for example, described meet the curved-surface structure that charge level has distortion；And for example, described auxiliary mixing paddle be welded in described auxiliary Help on mixing body；And for example, assist mixing paddle described in described auxiliary electric hybrid module setting at least four；And for example, described auxiliary Mixing body is spirally connected with described mix and blend axle, so, can strengthen flow-disturbing effect further by setting auxiliary electric hybrid module 700 Really, to strengthen the stirring and mixing effect to material further.

In order to strengthen the stirring and mixing effect to material further, for example, refer to Fig. 7, described new synthesizer is also Including strengthening electric hybrid module 800, described strengthening electric hybrid module 800 includes some strengthening mixing muscle groups 810, described mix and blend oar 240a has some mix and blend blade 241a, and for example, described mix and blend oar includes anchor formula stirring paddle or propeller, In this embodiment, described mix and blend oar is propeller；Each described strengthening mixing muscle group 810 corresponds and is arranged at Mix and blend blade 241a described in one, described strengthening mixing muscle group 810 includes some strengthening mixing muscle 811, some described strengthenings Mixing muscle is arranged at intervals at the one side of described mix and blend blade successively, and described strengthening mixing muscle has arcuate structure；And for example, Strengthening mixing muscle described in described strengthening mixing muscle group setting at least three；And for example, described in described strengthening mixing muscle group arranges three Strengthening mixing muscle；And for example, described strengthening mixing muscle has the cross section of regular polygon structure；And for example, described strengthening mixing muscle tool There is the cross section of equilateral triangle structure；And for example, described strengthening mixing muscle has the cross section of regular hexagon structure；And for example, described Strengthening mixing muscle has the arcuate structure of distortion, so, can strengthen flow-disturbing effect further using described strengthening electric hybrid module, To strengthen the stirring and mixing effect to material further.

It is pointed out that when each material being stirred married operation in described inner barrel carries out combination reaction, and Most combination reaction is all exothermic reaction, and the yield that the speed of reaction and product generate is also required to release during dependent reaction Heat, for improving reaction rate and yield.Additionally, in whipping process, described electric hybrid module can do work to material, i.e. material During being mutually mixed agitation, show as outwardly releasing heat, the especially stronger material of toughness, its exothermic phenomenon Become apparent from, therefore, based on above-mentioned situation, the combination reaction relying on higher temperature for some, such as depend on reaction self-heat generation With the combination reaction of stirring heat production, and do not need extra heater it is especially desirable to guarantee for the reaction that it is heated The heat-insulating property of described cylinder.Further, in order to for some acid materials therefore, to assure that the medial wall of described cylinder, that is, The medial wall of the described cylinder directly contacting with acid material possesses higher resistance to acid attack performance, for prolonging making of raw described cylinder With life-span and being normally carried out of reacting.Further, the lateral wall of described cylinder is due to often contacting with corrosive materials, e.g., The corrosive materials of the form such as gaseous state or liquid contact it is therefore desirable to possess preferable decay resistance, for preferably protecting Described cylinder.

In order to improve resistance to acid attack performance, heat-insulating property and the decay resistance of described cylinder, for example, refer to Fig. 8, described Cylinder, e.g., resistance to acid attack layer 130 that the side wall of described cylinder includes being cascading, heat-insulation layer 140, supporting layer 150, counterweight Layer 160 and protective layer 170, described resistance to acid attack layer is located at the medial wall of described cylinder, and described resistance to acid attack layer is directly and material, As, acid material contact, described protective layer is located at the lateral wall of described cylinder, and that is, described protective layer is directly naked is exposed on the external.

For example, the described resistance to acid attack layer of an embodiment includes each component of following mass parts：75 parts～88 parts of ferrum, titanium 30 Part～34 parts, 20 parts～25 parts of chromium, 2.5～3.4 parts of antimony, 2.3～3.4 parts of copper part, 1.5 parts～2.7 parts of zinc, aluminum 0.9～1.4 Part, 0.15 part～0.27 part of carbon, 0.25 part～0.46 part of silicon, 0.12 part～0.18 part of boron, 0.04 part～0.09 part of cobalt, phosphorus 0.001 part～0.03 part, 0.001 part～0.03 part of sulfur, 0.02 part～0.03 part of strontium, 0.03 part～0.04 part of bismuth, 0.01 part of scandium ～0.02 part and 0.001 part～0.002 part of gadolinium.Wherein, scandium is scandium or contains scadium compound, wherein, is contained within scandium containing scadium compound Element；Gadolinium is gadolinium or contains gadolinium compound, wherein, is contained within gadolinium element containing gadolinium compound；Bismuth is bismuth or bismuth-containing compound, wherein, Bismuth gadolinium compound is contained within bismuth element；Strontium is strontium or contains strontium compound, wherein, strontium gadolinium compound is contained within strontium element.

Using 75 parts～88 parts of ferrum, 30 parts～34 parts of titanium and 20 parts～25 parts basis basis units as resistance to acid attack layer of chromium Element such that it is able to make described resistance to acid attack layer possess certain resistance to acid attack performance, additionally, by adding 2.5～3.4 parts of antimony, copper 2.3 parts～3.4 parts, 1.5 parts～2.7 parts of zinc, 0.9～1.4 part of aluminum, 0.04 part～0.09 part of cobalt, 0.02 part～0.03 part of strontium, bismuth 0.03 part～0.04 part, 0.01 part～0.02 part of scandium and 0.001 part～0.002 part of gadolinium carry out compounding additionally it is possible to optimize further The properties of described resistance to acid attack layer, especially can optimize the resistance to acid attack performance of described resistance to acid attack layer further such that it is able to Better against the acid etching of material, for improving the service life of described cylinder further and guaranteeing that reacts is normally carried out.

And for example, the described resistance to acid attack layer of another embodiment includes each component of following mass parts：75 parts～80 parts of ferrum, titanium 33 parts～34 parts, 24 parts～25 parts of chromium, 2.7～3.4 parts of antimony, 2.7 parts～3.4 parts of copper, 1.8 parts～2.5 parts of zinc, aluminum 1.1～1.4 Part, 0.18 part～0.27 part of carbon, 0.27 part～0.46 part of silicon, 0.13 part～0.18 part of boron, 0.04 part～0.09 part of cobalt, phosphorus 0.001 part～0.03 part, 0.001 part～0.03 part of sulfur, 0.02 part～0.03 part of strontium, 0.03 part～0.04 part of bismuth, 0.01 part of scandium ～0.02 part and 0.001 part～0.002 part of gadolinium.

And for example, the described resistance to acid attack layer of another embodiment includes each component of following mass parts：77 parts of ferrum, 33 parts of titanium, 25 parts of chromium, 3.4 parts of antimony, 2.7 parts of copper, 1.9 parts of zinc, 1.3 parts of aluminum, 0.27 part of carbon, 0.46 part of silicon, 0.18 part of boron, 0.04 part of cobalt, phosphorus 0.03 part, 0.001 part of sulfur, 0.03 part of strontium, 0.04 part of bismuth, 0.01 part of scandium and 0.002 part of gadolinium.

For example, the described heat-insulation layer of an embodiment includes each component of following mass parts：15 parts～22 parts of Gypsum Fibrosum powder, white 8～20 parts of cotton, 8 parts～15 parts of rock wool, 7 parts～9 parts of glass fibre, 10 parts～20 parts of Lauxite, 3.5 parts of polyacrylamide～ 4.5 parts, 1 part～3 parts of basalt fibre, 3～5 parts of rubber foam, 1 part～2 parts of magnesium hydroxide, aminopropyl triethoxysilane 1 Part～2 parts, 1 part～2 parts of aluminium oxide, 1 part～2 parts of 3,5- di-tert-butyl-4-hydroxybenzoic acid methyl ester, 3～4 parts of polypropylene fiber, 1 part～2 parts of thiorubber. and 0.2～0.8 part of sodium lauryl sulphate.

Described heat-insulation layer can be made to have good heat-insulating property using each component of as above mass parts, when in described cylinder When the material in portion occurs exothermic reaction, and after transferring heat to described resistance to acid attack layer, had good based on described heat-insulation layer Heat-insulated and heat-insulating property, can limit heat and be further transmitted through described cylinder, and then avoid heat to be transferred directly to external environment In it is ensured that the material of described inner barrel is reacted at a suitable temperature, for improving the product of reaction rate and product Rate.

And for example, the described heat-insulation layer of another embodiment includes each component of following mass parts：17 parts～21 parts of Gypsum Fibrosum powder, White 17～20 parts of cotton, 10 parts～15 parts of rock wool, 7 parts～9 parts of glass fibre, 10 parts～20 parts of Lauxite, polyacrylamide 3.5 Part～4.5 parts, 1 part～2.5 parts of basalt fibre, 3.5～5 parts of rubber foam, 1.5 parts～2 parts of magnesium hydroxide, aminopropyl three second 1.5 parts～2 parts of TMOS, 1 part～2 parts of aluminium oxide, 1 part～1.4 parts of 3,5- di-tert-butyl-4-hydroxybenzoic acid methyl ester, third 3.3～4 parts of synthetic fibre fiber, 1 part～2 parts of thiorubber. and 0.2～0.5 part of sodium lauryl sulphate.

And for example, the described heat-insulation layer of another embodiment includes each component of following mass parts：19 parts of Gypsum Fibrosum powder, white cotton 17 ～20 parts, 15 parts of rock wool, 9 parts of glass fibre, 20 parts of Lauxite, 3.8 parts of polyacrylamide, 2.1 parts of basalt fibre, rubber 4.6 parts of foam, 1.7 parts of magnesium hydroxide, 2 parts of aminopropyl triethoxysilane, 1.8 parts of aluminium oxide, 3,5- di-t-butyl -4- hydroxyl 1.4 parts of essence of Niobe, 4 parts of polypropylene fiber, 1.9 parts of thiorubber. and 0.4 part of sodium lauryl sulphate.

For example, the described supporting layer of an embodiment includes each component of following mass parts：95 parts～98 parts of ferrum, manganese 0.4 Part～0.95 part, 0.1 part～0.5 part of molybdenum, 0.01 part～0.05 part of titanium, 0.02 part～0.1 part of aluminum, 0.06 part～0.25 part of carbon, 0.1 part～0.3 part of silicon, 0.05 part～0.1 part of phosphorus, 0.001 part～0.01 part of boron, 0.05 part～0.5 part of hafnium, 0.05 part of scandium～ 0.3 part, 0.05 part～0.3 part of chromium, 0.01 part～0.05 part of nickel, 0.01 part～0.05 part of cerium, 0.01 part～0.05 part of thorium and zirconium 0.01 part～0.05 part.Wherein, hafnium is hafnium or contains hafnium compound, wherein, is contained within hafnium element containing hafnium compound；Scandium is scandium or contains Scadium compound, wherein, is contained within scandium element containing scadium compound；Thorium is thorium or contains thorium compound, wherein, cerium-containing compound is contained within Ce elements；Cerium is cerium or cerium-containing compound, and wherein, cerium-containing compound is contained within Ce elements.

It is appreciated that in order that described cylinder possesses preferable heat-insulating property, needing to introduce described heat-insulation layer, and described guarantor The mechanical strength of warm layer is poor, in order to strengthen the integrally-built mechanical strength of described cylinder, need to introduce described supporting layer so as to With described heat-insulation layer directly contact, for improving the integrally-built mechanical strength of described cylinder, to reach the purpose of safety in production. Based on above-mentioned situation, this is necessary for requiring described supporting layer to possess higher mechanical strength and anti-deformation nature, by using such as Improve quality each component of part, especially described supporting layer contains 0.05 part～0.5 part of hafnium, 0.05 part～0.3 part of scandium, 0.05 part of chromium ～0.3 part, 0.01 part～0.05 part of nickel, 0.01 part～0.05 part of cerium, 0.01 part～0.05 part of thorium and 0.01 part～0.05 part of zirconium, The mechanical strength of traditional ferroalloy can be improved so as to mechanical strength and anti-deformation nature are more excellent, disclosure satisfy that requirement.

And for example, the described supporting layer of another embodiment includes each component of following mass parts：97 parts～98 parts of ferrum, manganese 0.55 part～0.95 part, 0.35 part～0.5 part of molybdenum, 0.01 part～0.05 part of titanium, 0.02 part～0.1 part of aluminum, 0.17 part of carbon～ 0.25 part, 0.1 part～0.25 part of silicon, 0.05 part～0.1 part of phosphorus, 0.008 part～0.01 part of boron, 0.1 part～0.5 part of hafnium, scandium 0.1 Part～0.3 part, 0.1 part～0.3 part of chromium, 0.02 part～0.05 part of nickel, 0.02 part～0.05 part of cerium, 0.02 part～0.05 part of thorium and 0.02 part～0.05 part of zirconium.

And for example, the described supporting layer of another embodiment includes each component of following mass parts：97 parts of ferrum, 0.75 part of manganese, 0.5 part of molybdenum, 0.05 part of titanium, 0.02 part of aluminum, 0.17 part of carbon, 0.25 part of silicon, 0.1 part of phosphorus, 0.008 part of boron, 0.5 part of hafnium, scandium 0.2 Part, 0.2 part of chromium, 0.05 part of nickel, 0.05 part of cerium, 0.05 part of thorium and 0.05 part of zirconium.

For example, the described weight coating of an embodiment includes each component of following mass parts：85 parts～95 parts of tungsten, 30 parts of nickel ～60 parts, 15 parts～40 parts of ferrum, 1.5 parts～10 parts of chromium, 1.5 parts～10 parts of lead, 1 part～6 parts of copper and 0.5 part～5 parts of molybdenum.

It is appreciated that in producing course of reaction, needing the material in described cylinder is carried out with the higher stirring behaviour of intensity Make, and because thickness is larger and the presence of the described heat-insulation layer of lighter weight, in order to avoid the integrally-built matter of described cylinder Amount kicks the beam, and then reduces the impact to described cylinder for the external impacts, you can to reduce described cylinder, concussion or displacement problem occur. Described weight coating can be made to possess excellent counterweight performance using each component of as above mass parts, can effectively increase described cylinder The integrally-built weight of body so as to identical with the weight of traditional cylinder or adaptation, such that it is able to improve the peace in production process Full performance.

And for example, the described weight coating of another embodiment includes each component of following mass parts：90 parts～95 parts of tungsten, nickel 30 Part～45 parts, 27 parts～40 parts of ferrum, 1.5 parts～2.3 parts of chromium, 1.5 parts～3.3 parts of lead, 1 part～5.5 parts of copper and 0.5 part of molybdenum～ 4.9 part.

And for example, the described weight coating of another embodiment includes each component of following mass parts：92 parts of tungsten, 38 parts of nickel, ferrum 29 parts, 2.1 parts of chromium, 2.1 parts of lead, 3.5 parts of copper and 3.8 parts of molybdenum.

For example, the described protective layer of an embodiment includes each component of following mass parts：65 parts～80 parts of ferrum, lithium 16～ 18 parts, 18 parts～25 parts of nickel, 3.5 parts～4 parts of molybdenum, 2 parts～5 parts of chromium, 1 part～5 parts of cobalt, 1 part～5 parts of vanadium, 1 part～2 parts of manganese, iridium 0.8 part～2.5 parts, 0.5 part～2.5 parts of niobium, 0.3 part～2.5 parts of scandium, 0.2 part～2.5 parts of strontium, 0.2 part～2.5 parts of caesium, tungsten 0.2 part～2.5 parts and 0.2 part～2.5 parts of titanium.Wherein, caesium is caesium or contains cesium compound, wherein, is contained within caesium containing cesium compound Element；Wherein, strontium is strontium or contains strontium compound, wherein, is contained within strontium element containing strontium compound；Wherein, scandium is scandium or contains scandium Compound, wherein, is contained within scandium element containing scadium compound；Wherein, niobium is niobium or contains niobium compound, wherein, includes containing niobium compound There is niobium element；Wherein, iridium is iridium or contains iridic compound, wherein, is contained within iridium containing iridic compound.

It is appreciated that the lateral wall of described cylinder is due to often contacting with corrosive materials, e.g., the form such as gaseous state or liquid Corrosive materials contact it is therefore desirable to possess preferable decay resistance, for preferably protecting described cylinder.By as above Each component of mass parts, can make described protective layer possess good Corrosion Protection, and then preferably protects described cylinder, use In the service life extending described cylinder.

And for example, the described protective layer of another embodiment includes each component of following mass parts：65 parts～70 parts of ferrum, lithium 16 Part～16.5 parts, 18～21 parts of nickel, 3.5 parts～3.9 parts of molybdenum, 2 parts～4.4 parts of chromium, 1 part～3.9 parts of cobalt, 1 part～4.5 parts of vanadium, 1 part～1.7 parts of manganese, 0.8 part～2.3 parts of iridium, 0.5 part～2.2 parts of niobium, 0.3 part～2.3 parts of scandium, 0.2 part～2.3 parts of strontium, caesium 0.2 part～2.4 parts, 0.2 part～2.1 parts of tungsten and 0.2 part～1.9 parts of titanium.

And for example, the described protective layer of another embodiment includes each component of following mass parts：65 parts of ferrum, 16.5 parts of lithium, 21 parts of nickel, 3.5 parts of molybdenum, 3.5 parts of chromium, 2.8 parts of cobalt, 3.7 parts of vanadium, 1.5 parts of manganese, 2.3 parts of iridium, 2.2 parts of niobium, 2.3 parts of scandium, strontium 2.3 Part, 2.4 parts of caesium, 0.2 part of tungsten and 0.2 part of titanium.

In order to optimize described cylinder further, e.g., the structure of the side wall of described cylinder, for example, described resistance to acid attack layer, described Heat-insulation layer, the thickness ratio of described supporting layer, described weight coating and described protective layer are (1～1.5)：(15～20)：(5～5.5)： (8～9.8)：(0.5～1.2)；And for example, the thickness of described weight coating and described protective layer is than for 1：15：5：9.5：1.1.

It should be noted that the technical characteristic that other embodiment of the present utility model is also included in the various embodiments described above is mutual In conjunction with can be formed, and the new synthesizer that can implement.

Each technical characteristic of embodiment described above can arbitrarily be combined, for making description succinct, not to above-mentioned reality The all possible combination of each technical characteristic applied in example is all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all it is considered to be the scope of this specification record.

The above embodiment only have expressed several embodiments of the present utility model, and its description is more concrete and detailed Carefully, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that it is general for this area For logical technical staff, without departing from the concept of the premise utility, some deformation can also be made and improve, these are all Belong to protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be defined by claims.

Claims (7)

1. a kind of new synthesizer is it is characterised in that include：

Cylinder, the two ends of described cylinder are respectively arranged with upper cover and low head；

Electric hybrid module, described electric hybrid module includes support, hybrid electric motor, mix and blend axle and mix and blend oar, and described support is solid Dingan County is contained on described upper cover, and described hybrid electric motor is arranged on described support, the first end of described mix and blend axle and institute The rotary shaft stating hybrid electric motor connects, and the second end of described mix and blend axle is connected with described mix and blend oar, and described mixing Stirring paddle is located inside described low head；

The pre-dispersed assembly of material, the pre-dispersed assembly of described material include feeding body, buffering cylinder, material houses casing, installation Casing, pre-dispersed hybrid electric motor, pre-dispersed combined drive moving axis, pre-dispersed combination drive oar and bracing frame, described charging body First end is connected with described upper cover, and the first end of described buffering cylinder is connected with the first end of described charging body, described thing The accommodating casing of material has hollow structure, and it is located inside described upper cover, and described installation casing is arranged on described material and houses On the medial wall of casing, and form material between the medial wall of the described lateral wall installing casing and the accommodating casing of described material Accommodating cavity, the second end of described buffering cylinder houses casing with described material and is connected, and the second end of described buffering cylinder House cavity with described material to connect, support frame as described above houses casing with the medial wall of described upper cover and described material respectively Lateral wall connects, and described pre-dispersed hybrid electric motor is arranged on described installation box house, and the of described pre-dispersed combined drive moving axis One end is connected with the rotary shaft of described pre-dispersed hybrid electric motor, and the second end of described pre-dispersed combined drive moving axis wears described successively Casing is installed and described material houses casing, and the second end of described pre-dispersed combined drive moving axis is placed in described upper cover Portion, described pre-dispersed combination drive oar is connected with the second end of described pre-dispersed combined drive moving axis, and described material houses casing Bottom offers and houses, with described material, the material spilling hole that cavity connects, and described material spilling hole is towards described pre-dispersed combination drive oar And the direction setting of described low head；

Auxiliary fixing assembly, described auxiliary fixing assembly includes connecting-rod body and two support rod body, and the of described connecting-rod body One end is connected with the medial wall of described upper cover, and the second end of described connecting-rod body houses casing with described material and is connected, two The first end of described support rod body is all connected with described connecting-rod body, the second end of two described support rod body all with described material Accommodating casing connects, and forms angle between two described support rod body.

2. new synthesizer according to claim 1 is it is characterised in that described support rod body is provided with reinforcement, institute State reinforcement to be extended from the first end of described support rod body to the second end of described support rod body.

3. new synthesizer according to claim 2 is it is characterised in that described support rod body has circular body of rod knot Structure.

4. new synthesizer according to claim 3 is it is characterised in that described support rod body is provided with some reinforcements Muscle, some described reinforcement interval settings successively.

5. new synthesizer according to claim 1 is it is characterised in that the number of degrees of described angle are 90 degree～130 degree.

6. new synthesizer according to claim 1 is it is characterised in that two described support rod body are with described connecting rod The center of body is centrosymmetric setting.

7. new synthesizer according to claim 1 is it is characterised in that the first end of described support rod body is embedded at institute State inside connecting-rod body.