CN201537467U

CN201537467U - Staggering combination type horizontal solid and liquid pre-mixing tank

Info

Publication number: CN201537467U
Application number: CN2009200691324U
Authority: CN
Inventors: 刘�英
Original assignee: Shanghai Yichen Information Technology Development Co Ltd
Current assignee: Shanghai Yichen Information Technology Development Co Ltd
Priority date: 2009-03-20
Filing date: 2009-03-20
Publication date: 2010-08-04
Anticipated expiration: 2019-03-20

Abstract

The utility model relates to a staggering combination type horizontal solid-liquid pre-mixing tank, which can achieve uniform mixing of solid powder and liquid at a certain proportion and is particularly suitable for the uniform mixing of solid powder and liquid with high viscosity after mixing. A horizontal solid-liquid pre-mixing device comprises a mixing system, a stirring division system, a high pressure gas injection system, a propulsion system and a material storing system which are positioned inside the mixing system, a feed system positioned at the top of the mixing system, and a discharge system at the bottom of the mixing system; and the mixing system is a cylindrical horizontal mixing reaction kettle, and is provided with a horizontal rotation shaft which is positioned at the center of a circle of a casing, and the rotation shaft can drive the stirring division system connected therewith to rotate; and the propulsion system consists of a group of thrusters positioned on the bottom surface inside the casing and a propeller rod positioned at the bottom of the thrusters and connected therewith.

Description

Interlocking horizontal solid-liquid premixing tank

Technical field

The utility model relates to a kind of horizontal solid-liquid premixing tank, and particularly a kind of interlocking horizontal solid-liquid premixing tank belongs to mechanical mixture device field.

Background technology

In the reconstituted rice process, liquid such as the pressed powder of cereal and water evenly need be mixed, obtain the high solidliquid mixture of viscosity, and in the above-mentioned solidliquid mixture, need further evenly to add various solids and/or liquid additive again.And above-mentioned various material need be evenly distributed in the gained solidliquid mixture, so that each content of material of the reconstituted rice that makes meets standard.

Yet because the solid powder particle of cereal is thin, can not be water-soluble, and in case mix, will become the high mixture of viscosity with water.Aborning, liquid added in the pressed powder mix, pressed powder added in the liquid mix, liquid and pressed powder are added when mixing simultaneously, not only can produce part pressed powder and liquid and stick into bulk, and the situation that remaining corn solid powder and liquid can't mix, but also can in liquid, produce the secondary aggregation particle of pressed powder, that is, and powder ball, this powder ball outside is the mixture of powder and water, and is inner then be not have the pressed powder that mixes.Even and if in mixed process, stir, in considerable time, still can mix inhomogeneously, the secondary aggregation through producing is distributed in the liquid very difficult once more.If pressed powder and liquid mix the viscosity of the solidliquid mixture that obtains when high, above-mentioned phenomenon is more remarkable, and it is bigger evenly to mix difficulty.

If adopt a spot of pressed powder and liquid to mix, though can obtain solidliquid mixture comparatively uniformly, the speed of mixing is slower, and the gained mixture is less, can't satisfy large batch of need of industrial production.

In the Chinese patent application 03164908.4 based on Japanese patent application 278598/202,21188/2003,185502/2003, a kind of mixing stirring device and stirring mixing method are disclosed, this device comprises the mixer of an approximate circle tubular, its inside has stirring vane, powder enters mixer with liquid by different inlets, under the stirring of stirring vane, mix then.Formed compartment between the stirring vane, mix thereby powder and liquid are separated into some groups, yet in actual mixed process, mix can't be good divide into groups, and can stockpile on the inwall of mixer and a large amount of mixture, can't evenly be stirred.

Among PCT International Application PCT/US2003/011426, a kind of mixing arrangement is disclosed, this device comprises that a bottom is full of the bucket of liquid, one is inserted in the liquid and inner vertical conduit with rotating vane, pressed powder has the part of liquid from the conduit of this vertical conduit interpolation from top to bottom, and under the effect of stirring vane and liquid mix, and then a bucket neutralising fluid that is distributed to the conduit outside further mixes.Yet this device is applicable to a spot of pressed powder is distributed in a large amount of liquid, and the gained solidliquid mixture can not have viscosity higher, otherwise will stop up conduit.

In the Chinese patent application 03122966.2 based on Japan Patent, the mixing arrangement and the method thereof of a kind of powder and liquid are disclosed, powder is dispersed from the top of mixer and is fallen in this device, and the liquid that sprays all around with container in dropping process mixes mutually then.Though this mixed method can allow powder and liquid disperse to mix to a certain extent, avoid powder ball to produce, the powder of not all whereabouts can mix with the liquid that sprays then, and unmixing powder and liquid are fallen the bottom of mixer, still can not evenly mix.Simultaneously, in this mixed process, the inventory of powder and liquid, mixing match all are difficult to control.

In the Chinese patent application 200410084721.1, a kind of vertical solid-liquid mixing arrangement and mixed method are disclosed, this device comprises one group of baffle plate that is provided with along the mixer inwall, mixer is divided into the teeter chamber of some hollows, and the powder and the liquid that utilize one group of stirring vane of mixer central authorities to stir in each teeter chamber then mix.Yet because the existence of the teeter chamber of horizontal hollow, each material that feeds intake from the mixer top will be saved bit by bit in a large number in several teeter chambers on top, and the inequality that causes material in each teeter chamber to distribute, if powder and mixtures of liquids have viscosity higher simultaneously, this mixture also will block mixer because of the existence of each baffle plate and teeter chamber.Simultaneously single powder adds inlet, can cause material can not evenly distribute along all directions on the cross section of mixer.

Chinese patent 200610011506.8 and European patent EP 06113920.0 disclose two kinds of static mixing devices respectively simultaneously, utilize the shunting of each material, mix, yet said apparatus are not suitable for the higher powder of mixing back viscosity and the mixing of liquid.

Simultaneously in the Chinese patent 200410090534.4, disclose the horizontal type mixing device that a kind of inside has stirring vane, powder and liquid from the top and bottom injection device of a side of horizontal type mixing device, utilize blade to mix respectively then.Though this horizontal type mixing device can solve under the gravity effect, powder and liquid fall too fast and cause the situation of material skewness in the mixing arrangement, yet still are difficult to solve powder and the mixed uniformly problem of liquid.

Except above-mentioned points, Chinese patent 200510009386.3,200510042674.9,200510129550.4,200510103613.9 etc. also all discloses multiple mixing arrangement, yet high pressed powder and the liquid of viscosity carried out mixed uniformly technical problem according to a certain ratio after said apparatus still failed to solve mixing.

Summary of the invention

A purpose of the present utility model is to provide a kind of horizontal solid-liquid premixing tank, pressed powder and liquid evenly can be mixed according to a certain ratio by this device, is specially adapted to mix the high pressed powder of back viscosity and the even mixing of liquid.

A kind of horizontal solid-liquid premixing tank disclosed in the utility model comprises hybrid system, is positioned at the stirring separating system of hybrid system inside, spraying high-pressure gas system, propulsion system and material stock system, is positioned at the feed system of hybrid system its top feed end and the discharge system of bottom discharge end.

Described hybrid system is the cylindric horizontal hybrid reactor that is formed by housing, and this horizontal hybrid reactor has a rotating shaft that is positioned at the level in the housing center of circle, and described rotating shaft drives the stirring separating system that connects on it and rotates, and carries out the mixing of solid-liquid material.

Described stirring separating system is one group of column plate that is connected rotating shaft and rotates thereupon, and described each column plate comprises 2～6 and includes and stir the column plate sheet that shim and T type are scraped tablet, and the angular interval between the column plate sheet equates.

One end of described stirring shim is connected in the rotating shaft, and the other end is connected with the T type and scrapes tablet.

The inwall that described T type is scraped tablet and housing is tangent, and leaves the safety clearance of 2mm～20mm.

Described stirring shim is 20 °～60 ° a sector structure for center of circle angle, and its internal diameter equates that with the rotating shaft external diameter its external diameter is that horizontal hybrid reactor housing internal diameter and T type are scraped the poor of tablet thickness.

It is sector structure that described T type is scraped tablet, and its internal diameter equates that with the external diameter that stirs shim its external diameter equates with the internal diameter of horizontal hybrid reactor housing.The center of circle angle that described T type is scraped the stirring shim that tablet is connected with it equates.

Described T type is scraped tablet except sector structure, also further comprises a scraper structure.The projection of described scraper structure on vertical plane be one and equate with described sector structure width, but center of circle angle fan-shaped less than described sector structure.The inwall horizontal-extending of described scraper structure from the basal surface of sector structure along horizontal hybrid reactor housing, and tangent with the inwall of housing, and leave the safety clearance of 2mm～20mm.

Described stirring shim becomes 0 °～30 ° angles with vertical plane, be preferably 20 ° of angles.The sector structure that described T type is scraped tablet is in same plane with the stirring shim.

The thickness everywhere that described stirring shim and T type are scraped tablet equates.

Form a separation mixing chamber between per two adjacent column plates, thereby horizontal hybrid reactor is divided into one group of separation mixing chamber that is interconnected by this group column plate.

The stirring shim of described each column plate is adjacent staggered 0 °～45 ° angles between the stirring shim of column plate.

Described propulsion system comprises one group of propeller that is positioned at the enclosure interior bottom surface and one and is positioned at each propeller bottom and coupled pushing ram.Described propeller further comprises impelling sheet and support bar.

Described impelling sheet is the conical structure of an edge-on bottom surface for ellipse, has a front and a reverse side.Described front is the bottom surface ellipse of cone, is used under the drive of support bar and pushing ram material being pushed ahead.Described reverse side is the conical surface of cone, and material is had less resistance.

Described post upper is connected the bottom of impelling sheet, and the lower end is connected on the pushing ram.The obverse and reverse of described impelling sheet is faced the discharge end and the feed end of housing respectively.

Described impelling sheet and positive and negative 0 °～35 ° angles of radially becoming of housing cross circular section.

The bottom of described housing is provided with thickening layer, further is provided with a semi-circular recesses that extends along shell length on its inner surface.

Described pushing ram is a half-round rod that is positioned at described groove, and its two ends pass from the feed end and the discharge end of housing respectively.Described pushing ram and groove shapes are adaptive, thereby make the top surface of pushing ram and the inner surface slip of housing be connected complete cylindrical cavity of formation.

Described each propeller connects and equally spaced being distributed on the pushing ram by its support bar separately is vertical.Described horizontal solid-liquid premixing device comprises 1～2 propulsion system.Described each propeller lays respectively between per two adjacent column plates, thereby makes described each propeller and each column plate be interspersed.

Described spraying high-pressure gas system has a rotating shaft.Described rotating shaft is a hollow axle with cylindrical axocoel, and it comprises axle housing and by axocoel that it surrounded.Has the outside opening that discharges of gas unidirectional that allows to have certain pressure on the described axocoel.

Axocoel zone between per two adjacent tray has one group of described opening, and this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described aperture distribution is connected with on the zone of stirring shim at axocoel.

Described feed system connects hybrid system and spraying high-pressure gas system, and to wherein conveying solid substance material and liquid material.Described feed system comprises the feeding-in solid body mouth that is positioned in the rotating shaft, is positioned at gas-liquid charging aperture and additive charging aperture on the housing.

Described gas-liquid charging aperture is positioned on the housing, and is interconnected with horizontal hybrid reactor inside, with to wherein transmitting the gas-liquid material.The quantity of described gas-liquid charging aperture equates with stirring shim quantity on the column plate, and each gas-liquid charging aperture and close on staggered 0 °～45 ° angles between the corresponding stirring shim on the column plate of charging aperture.

Described feeding-in solid body mouth is positioned in the rotating shaft, and is interconnected with axocoel.

Described additive charging aperture is positioned in the rotating shaft, and is interconnected with axocoel.

Described discharge system connects the material stock system that is positioned at the hybrid system bottom, and from output mixture material wherein.Described material stock system has and stirs the material holding chamber that shim quantity equates on the column plate that is adjacent, and each material holding chamber has a discharging opening accordingly, and described each discharging opening is formed described discharge system.

The premix process that adopts described horizontal solid-liquid premixing tank to mix comprises the steps:

Step 1: enter horizontal hybrid reactor inside from each charging aperture input gas, liquid or the gas-liquid mixture of described gas-liquid charging aperture.

Because the charging aperture quantity of described gas-liquid charging aperture equates with stirring shim quantity on the column plate, and each gas-liquid charging aperture and close on 0 °～45 ° angles that interlock between the corresponding stirring shim on the column plate of charging aperture.So scraping the tablet upper reaches from gas, liquid or the gas-liquid mixture of the input of each charging aperture in adjacent with this charging aperture and corresponding stirring shim and T type moves, and stir shim and T type along each successively and scrape tablet and flow through downwards accordingly that each stirs shim and the T type is scraped tablet, separate mixing chamber thereby be evenly distributed in each.

Step 2: the gases at high pressure that are mixed with pressed powder from each charging aperture input of described feeding-in solid body mouth enter axocoel, then by the outside single way jet of the opening on the axle housing.

Because the axocoel zone between per two adjacent tray has one group of described opening, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described aperture distribution is connected with on the zone of stirring shim at axocoel.Can be injected on each corresponding stirring shim on flowing liquid or the solidliquid mixture by each opening so be mixed with the gases at high pressure of pressed powder, separate mixing chamber thereby be evenly distributed in each.

Step 3: the gases at high pressure that are mixed with additives such as pressed powder, liquid drop, gas from each charging aperture input of described additive charging aperture enter axocoel, then by the outside single way jet of the opening on the axle housing.

Because the axocoel zone between per two adjacent tray has one group of described opening, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described aperture distribution is connected with on the zone of stirring shim at axocoel.Can be injected on each corresponding stirring shim on flowing liquid or the solidliquid mixture by each opening so be mixed with the gases at high pressure of additives such as pressed powder, liquid drop, gas, separate mixing chamber thereby be evenly distributed in each.

Step 4: it is that the center of circle is rotated with the rotating shaft that rotating shaft drives the one group of column plate that connects on it, utilize the stirring shim on each column plate that the pressed powder and the mixtures of liquids of mixing stirred, with abundant mixing, utilize each T type to scrape the material that tablet will stick on the inner walls simultaneously and strike off, so that above-mentioned material mixes once more.

Step 5: the mixture of pressed powder, liquid and additive that process is mixed stirs shim along each and runs underneath to down one deck separation mixing chamber step by step, proceeds to mix.

The pushing ram of described propulsion system moves forward and backward in the groove of housing bottom inner surface, moves forward and backward thereby drive each propeller that connects on it.

When pushing ram moved forward, mixture was pushed ahead in each angle of rake front.

When pushing ram moved backward, each angle of rake reverse side was shunted mixture, mixture was oppositely taken back avoiding.

Step 6: the mixture that the afterbody adjacent with material holding chamber separated in the mixing chamber flows into corresponding material holding chamber along each stirring shim, outwards exports by corresponding discharging opening then.

Because the quantity of material holding chamber and stir shim quantity and equate, and each material holding chamber has a discharging opening accordingly, thus from described hybrid reactor, can export many batch mixings compound simultaneously, to carry out identical or different further processing respectively.

Utilize said apparatus and method, import many batches of gas-liquid materials simultaneously, and corresponding shim and the T type scraper sheet of stirring of each on the column plate group flows down and be evenly distributed on each and separate in mixing chamber respectively from each gas-liquid charging aperture.Each opening ejection from the rotating shaft simultaneously contains the gases at high pressure of pressed powder and/or additive, stirs on shim so that pressed powder and/or additive evenly are injected in each.By aforesaid operations, liquid material is dispersed into many batches, and dispersed the ejecting with each batch liquid material of pressed powder and/or additive mixed mutually, thereby makes liquid, pressed powder, additive mix mutually in the mode of disperseing.The mode that this dispersion mixes has avoided effectively that local pressed powder is concentrated, the secondary aggregation particle phenomenon in the unequal mixed process of bringing of liquid distribution, i.e. powder ball phenomenon.Simultaneously because liquid is imported gradually and edge stirring shim stays, and the pressed powder sustained firing, so for a part of liquid, from the input hybrid reactor, mix with some batches of pressed powders gradually, just be equivalent to certain amount of fluid elder generation and a spot of pressed powder are mixed, the mixing that causes to avoid pressed powder too to concentrate is inhomogeneous, in the gained homogeneous mixture, add the small amount of solid powder then again, equally also avoided mixing inhomogeneous, like this, many batches of small amount of solid powder of interpolation gradually, when the certain amount of fluid of the initial input of band runs underneath to afterbody stirring shim from first order stirring shim, be mixed with a large amount of pressed powders uniformly, obtained uniform solidliquid mixture.Said method comes down to utilize the utility model its specific structure to carry out multiple dispersion in hybrid reactor big quantity of fluid, a large amount of pressed powder, a large amount of additive, so that liquid, pressed powder, additive with disperse, a spot of form carries out fully, gradually even mixing, also avoided mixing on a small quantity, gradually the shortcoming that the time spent is long and can't produce quantitatively simultaneously.In addition, the utility model can directly be imported simultaneously solidliquid mixture in batches, further processes to supply many production lines simultaneously, and does not need extra device that mixture is shunted.Simultaneously, staggered certain angle can be so that liquid and mixture can slowly flow to next compartment along stirring shim between the stirring shim of each adjacent tray, so that solid-liquid increases time of contact, become certain included angle to help flowing of the high solidliquid mixture of viscosity and transmission with the plane and stir shim.Propulsion system has also promoted the mixture with certain viscosity to move forward simultaneously.

By said apparatus and method, the utility model utilizes multiple dispersion effectively to avoid the variety of issue that exists in pressed powder and the liquid mixed process, can be fast, continue, stable liquid, pressed powder, additive being mixed uniformly with certain proportioning.

Description of drawings

Fig. 1 is the overall structure view of horizontal solid-liquid premixing tank of the present utility model.

Fig. 2 is the local detail view of horizontal solid-liquid premixing tank of the present utility model.

Fig. 3 a is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the A1-A1 ' of Fig. 2.

Fig. 3 b is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the A2-A2 ' of Fig. 2.

Fig. 3 c is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the A3-A3 ' of Fig. 2.

Fig. 3 d is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the A4-A4 ' of Fig. 2.

Fig. 3 e is the bottom view and the side view thereof of the column plate shown in Fig. 3 a of the present utility model.

Fig. 4 is the overall structure view of spraying high-pressure gas of the present utility model system.

Fig. 5 is the local detail view of spraying high-pressure gas of the present utility model system.

Fig. 6 is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the B-B ' of Fig. 2.

Fig. 7 is the viewgraph of cross-section of horizontal solid-liquid premixing tank of the present utility model along the C-C ' of Fig. 2.

Fig. 8 a is the overall schematic of propulsion system of the present utility model.

Fig. 8 b is the structural representation of propulsion system of the present utility model.

Fig. 8 c is the longitudinal cross-section view with horizontal solid-liquid premixing device of 1 propulsion system of the present utility model.

Fig. 8 d is the longitudinal cross-section view with horizontal solid-liquid premixing device of 2 propulsion systems of the present utility model.

Fig. 8 e is an angle of rake structural representation of the present utility model (facing).

Fig. 8 f is an angle of rake structural representation of the present utility model (side-looking).

Fig. 9 a is the overall schematic of first embodiment of propulsion system of the present utility model.

Fig. 9 b is the overall schematic of second embodiment of propulsion system of the present utility model.

Fig. 9 c is the overall schematic of the 3rd embodiment of propulsion system of the present utility model.

The specific embodiment

According to claim of the present utility model and the disclosed content of summary of the invention, the technical solution of the utility model is specific as follows described.

Embodiment one:

A kind of horizontal solid-liquid premixing tank comprises as the lower part:

According to Fig. 1:

A kind of horizontal solid-liquid premixing tank comprises hybrid system 1010, is positioned at the stirring separating system 1020 of hybrid system 1010 inside, spraying high-pressure gas system 1030, propulsion system 100 and material stock system 1060, is positioned at the feed system 1040 at hybrid system 1010 tops and the discharge system 1050 of bottom.

Described hybrid system 1010 is the cylindric horizontal hybrid reactors that formed by housing 101, this horizontal hybrid reactor has a rotating shaft 103 that is positioned at the level in housing 101 centers of circle, described rotating shaft 103 drives the stirring separating system 1020 that connects on it and rotates, and carries out the mixing of solid-liquid material.

According to Fig. 2:

Described feed system 1040 connects hybrid system 1010 and spraying high-pressure gas systems 1030, and to wherein conveying solid substance material and liquid material.Described feed system 1040 comprises the feeding-in solid body mouth 1041 that is positioned in the rotating shaft 103, is positioned at gas-liquid charging aperture 1041 and additive charging aperture 1043 on the housing 101.

Described stirring separating system 1020 is one group of column plate that are connected rotating shaft 103 and rotate thereupon, and described each column plate 102 comprises 2～6 and includes and stir the column plate sheet that shim 1021 and T type are scraped tablet 1022.

One end of described stirring shim 1021 is connected in the rotating shaft 103, and the other end is connected with the T type and scrapes tablet 1022.

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 2mm～20mm.

The internal diameter of described stirring shim 1021 equates that with rotating shaft 103 external diameters external diameter is that horizontal hybrid reactor housing 101 internal diameters and T type are scraped the poor of tablet 1022 thickness.

The internal diameter that described T type is scraped tablet 1022 equates that with the external diameter that stirs shim 1021 external diameter equates with the internal diameter of horizontal hybrid reactor housing 101.

Form a separation mixing chamber between per two adjacent column plates, thereby horizontal hybrid reactor is divided into one group of separation mixing chamber 109 that is interconnected by this group column plate.

Among Fig. 2, respectively along A1-A1 ', A2-A2 ', A3-A3 ', A4-A4 ' thus doing viewgraph of cross-section obtains Fig. 3 a, 3b, 3c, 3d.

According to Fig. 3 a:

Angular interval b between each column plate sheet of described column plate 102 equates

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 20 °～60 °.

Described T type is scraped tablet 1022 and is sector structure, and the center of circle angle of the stirring shim 1021 that is connected with it equates.

According to Fig. 3 a, 3b, 3c, 3d:

According to Fig. 3 e:

Described T type is scraped tablet 1022 except sector structure, also further comprises a scraper structure 1023.The projection of described scraper structure 1023 on vertical plane be one and equate with described sector structure width, but center of circle angle fan-shaped less than described sector structure.The inwall horizontal-extending of described scraper structure 1023 from the basal surface of sector structure 1022 along horizontal hybrid reactor housing 101, and tangent with the inwall of housing 101, and leave the safety clearance of 2mm～20mm.

Described stirring shim 1021 is 0 °～30 ° with the angle c of vertical plane.The sector structure that described T type is scraped tablet is in same plane with the stirring shim.

The thickness everywhere that described stirring shim 1021 and T type are scraped tablet 1022 equates.

According to Fig. 4, Fig. 5, Fig. 6:

Described spraying high-pressure gas system 1030 has a rotating shaft 103.Described rotating shaft 103 is the hollow axles with cylindrical axocoel, and it comprises axle housing 1032 and by axocoel 1031 that it surrounded.Has the outside opening 1033 that discharges of gas unidirectional that allows to have certain pressure on the described axocoel 1031.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described opening 1033 is distributed in axocoel 1031 and is connected with on the zone of stirring shim 1021.

Described feeding-in solid body mouth 1041 is positioned in the rotating shaft 103, and is interconnected with axocoel 1031.

The gases at high pressure that are mixed with pressed powder from each charging aperture input of described feeding-in solid body mouth 1041 enter axocoel 1031, then by the opening 1033 outside single way jets on the axle housing 1032.

Because axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described opening 1033 is distributed in axocoel 1031 and is connected with on the zone of stirring shim 1021.So the gases at high pressure that are mixed with pressed powder are after entering axocoel 1031, to around scatter, a part is by opening 1033 ejections, a part is impacted at axocoel inwall 10322 and is being sprayed by opening 1033 then.The above-mentioned gases at high pressure that are mixed with pressed powder pass opening 1033 back to around spray and scatter, drop on each corresponding stirring shim on flowing liquid or the solidliquid mixture, separate mixing chamber thereby be evenly distributed in each.

Described additive charging aperture 1043 is positioned in the rotating shaft 103, and is interconnected with axocoel 1031.

The gases at high pressure that are mixed with additive from each charging aperture input of described additive charging aperture 1041 enter axocoel 1031, then by the opening 1033 outside single way jets on the axle housing 1032.

The gases at high pressure that are mixed with additive after entering axocoel 1031, to around scatter, a part is by opening 1033 ejection, a part is impacted at axocoel inwall 10322 then by opening 1033 ejections.The above-mentioned gases at high pressure that are mixed with additive pass opening 1033 back to around spray and scatter, drop on each corresponding stirring shim on flowing liquid or the solidliquid mixture, separate mixing chamber thereby be evenly distributed in each.

According to Fig. 1, Fig. 8 a～8f:

Described propulsion system 100 comprises one group of propeller 1000 that is positioned at the enclosure interior bottom surface and one and is positioned at each propeller 100 bottom and coupled pushing ram 1005.

Described propeller 100 further comprises impelling sheet 1001 and support bar 1002.Described impelling sheet 1001 is edge-on bottom surface conical structures for ellipse, has a front 1003 and a reverse side 1004.Described positive 1003 is bottom surface ellipses of cone, is used under the drive of support bar 1002 and pushing ram 1005 material being pushed ahead.Described reverse side 1004 is conical surfaces of cone, and material is had less resistance.Described support bar 1002 upper ends are connected the bottom of impelling sheet 1001, and the lower end is connected on the pushing ram 1005.

According to Fig. 1:

Described each propeller 100 lays respectively between per two adjacent column plates, thereby makes described each propeller 100 be interspersed with each column plate.

According to Fig. 9 a～9c:

The front 1003 of described impelling sheet 1001 and reverse side 1004 are faced the discharge end and the feed end of housing respectively.Described impelling sheet 1001 can be according to following 2 kinds of modes and positive and negative 0 °～35 ° angles of radially becoming of housing cross circular section:

First kind: all impelling sheets 1001 equate with the radially angle of housing cross circular section, between positive and negative 0 °～35 °, shown in Fig. 9 b.

Second kind: described impelling sheet 1001 is divided into two groups, in first group each impelling sheet 1001 and housing cross circular section radially between form and equate angle, scope is between negative 0 °～35 °, in second group each impelling sheet 1001 and housing cross circular section radially between form and equate angle, scope is between positive 0 °～35 °, first group of impelling sheet 1001 and second group of impelling sheet 1001 distribute alternately, shown in Fig. 9 c.

According to Fig. 1, Fig. 8 a～8f:

The bottom of described housing 101 is provided with thickening layer 1012, further is provided with a semi-circular recesses 1005 that extends along housing 101 length on its inner surface.

Described pushing ram 1005 is half-round rod that are positioned at described groove 1005, and its two ends pass from the feed end and the discharge end of housing 101 respectively.The junction that passes housing 101 at pushing ram 1005 adopts the general Sealing Technologies such as seal washer in this area to be sealed.

Described pushing ram 1005 and groove 1005 shapes are adaptive, thereby make the top surface of pushing ram 1005 and the inner surface slip of housing 101 be connected complete cylindrical cavity of formation.

Described each propeller 100 is by its 1002 vertical connections and equally spaced being distributed on the pushing ram 1005 of support bar separately.

Described horizontal solid-liquid premixing device comprises 1～2 propulsion system 100.

According to Fig. 5, Fig. 7:

Described gas-liquid charging aperture 1042 is positioned on the housing 101, and is interconnected with horizontal hybrid reactor inside, with to wherein transmitting the gas-liquid material.The quantity of described gas-liquid charging aperture 1042 equates with stirring shim quantity on the column plate, and each gas-liquid charging aperture 1042 and close on staggered 0 °～45 ° angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

So flow into horizontal hybrid reactor inside from gas, liquid or the gas-liquid mixture of each gas-liquid charging aperture 1042 inputs, and drop on and scrape on the tablet at adjacent with this charging aperture and corresponding stirring shim and T type, flow along this stirring shim and T type scraper sheet then, and stir shim and T type along each successively and scrape tablet and flow through downwards accordingly that each stirs shim and the T type is scraped tablet, separate mixing chamber thereby be evenly distributed in each.

According to Fig. 1:

Described discharge system 1050 connects the material stock system 1060 that is positioned at hybrid system 1010 bottoms, and from output mixture material wherein.Described material stock system 1060 has and stirs the material holding chamber 106 that shim quantity equates on the column plate 10202 that is adjacent, and each material holding chamber 106 has a discharging opening 105 accordingly, and described each discharging opening 105 is formed described discharge system 1050.

According to Fig. 1, Fig. 2, Fig. 7:

Step 1: enter horizontal hybrid reactor inside from each charging aperture input gas, liquid or the gas-liquid mixture of described gas-liquid charging aperture 1042.

Because the charging aperture quantity of described gas-liquid charging aperture 1042 equates with stirring shim quantity on the column plate, and each gas-liquid charging aperture 1042 and close on 0 °～45 ° angles that interlock between the corresponding stirring shim on the column plate 10201 of charging aperture.So scraping the tablet upper reaches from gas, liquid or the gas-liquid mixture of the input of each charging aperture in adjacent with this charging aperture and corresponding stirring shim and T type moves, and stir shim and T type along each successively and scrape tablet and flow through downwards accordingly that each stirs shim and the T type is scraped tablet, separate mixing chamber thereby be evenly distributed in each.

According to Fig. 2, Fig. 4, Fig. 3, Fig. 5, Fig. 7:

Step 2: the gases at high pressure that are mixed with pressed powder from each charging aperture input of described feeding-in solid body mouth 1041 enter axocoel 1031, then by the opening 1033 outside single way jets on the axle housing 1032.

Because axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described opening 1033 is distributed in axocoel 1031 and is connected with on the zone of stirring shim 1021.Can be injected on each corresponding stirring shim on flowing liquid or the solidliquid mixture by each opening 1033 so be mixed with the gases at high pressure of pressed powder, separate mixing chamber thereby be evenly distributed in each.

According to Fig. 2, Fig. 4, Fig. 3, Fig. 5, Fig. 7:

Step 3: the gases at high pressure that are mixed with additives such as pressed powder, liquid drop, gas from each charging aperture input of described additive charging aperture 1043 enter axocoel 1031, then by the opening 1033 outside single way jets on the axle housing 1032.

Because axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, this group number of openings is the integral multiple of the stirring shim quantity on the column plate, and described opening 1033 is distributed in axocoel 1031 and is connected with on the zone of stirring shim 1021.Can be injected on each corresponding stirring shim on flowing liquid or the solidliquid mixture by each opening 1033 so be mixed with the gases at high pressure of additives such as pressed powder, liquid drop, gas, separate mixing chamber thereby be evenly distributed in each.

According to Fig. 1, Fig. 2, Fig. 3 a, 3e:

Step 4: it is that the center of circle is rotated with rotating shaft 103 that rotating shaft 103 drives the one group of column plate that connects on it, utilize 1021 pairs of pressed powders that mixing of stirring shim and mixtures of liquids on each column plate 102 to stir, with abundant mixing, utilize each T type to scrape the material that tablet 1022 will stick on housing 101 inwalls simultaneously and strike off, so that above-mentioned material mixes once more.

According to Fig. 1, Fig. 2, Fig. 3 a, 3b, 3c, 3d, 3e:

Step 5: the mixture of pressed powder, liquid and additive that process is mixed stirs shim 1021 along each and runs underneath to down one deck separation mixing chamber step by step, proceeds to mix.

Because the stirring shim of described each column plate is adjacent staggered 0 °～45 ° angles between the stirring shim of column plate, drop down onto on the stirring shim 1021 of Fig. 3 b successively step by step along the stirring shim 1021 of Fig. 3 a through the mixture of the pressed powder, liquid and the additive that mix, on the stirring shim 1021 of Fig. 3 c, on the stirring shim 1021 of Fig. 3 d.

Become 0 °～30 ° angles with vertical plane owing to stir shim 1021, the mixture of being convenient to pressed powder, liquid and the additive of above-mentioned mixing flows to next stage and stirs shim 1021.

According to Fig. 1, Fig. 8 a～8f, Fig. 9 a～9c:

The pushing ram 1005 of described propulsion system 1000 is moving forward and backward in the groove 1012 of housing 101 bottom interior surfaces under the extraneous driven by motor, moves forward and backward thereby drive each propeller 100 that connects on it.

When pushing ram 1005 moved forward, mixture was pushed ahead in the front of each propeller 100 1003.

When pushing ram 1005 moved backward, the reverse side 1004 of each propeller 100 was the mixture shunting, mixture oppositely taken back avoiding.

According to Fig. 1:

Step 6: the afterbody adjacent with material holding chamber 106 separated mixture in the mixing chamber and stirred shim along each and flow into corresponding material holding chamber 106, outwards exports by corresponding discharging opening 105 then.

Because the quantity of material holding chamber 106 and stir shim quantity and equate, and each material holding chamber 106 has a discharging opening 105 accordingly, thus from described hybrid reactor, can export many batch mixings compound simultaneously, to carry out identical or different further processing respectively.

Embodiment two:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 3mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 22 °.

The stirring shim of described each column plate is adjacent staggered 11 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 2 ° with the angle c of vertical plane.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 1 times of the stirring shim quantity on the column plate.

Described impelling sheet 1001 and housing cross circular section radially between formed angle be:

First kind: positive 5 ° or negative 5 °.

Second kind: first group angle is negative 5 °, and second group angle is 5 °.

Described each gas-liquid charging aperture 1042 and close on staggered 11 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment three:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 5mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 26 °.

The stirring shim of described each column plate is adjacent staggered 13 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 5 ° with the angle c of vertical plane.

First kind: positive 10 ° or negative 10 °.

Second kind: first group angle is negative 10 °, and second group angle is positive 10 °.

Described each gas-liquid charging aperture 1042 and close on staggered 13 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment four:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 7mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 30 °.

The stirring shim of described each column plate is adjacent staggered 15 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 8 ° with the angle c of vertical plane.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 2 times of the stirring shim quantity on the column plate.

First kind: positive 15 ° or negative 15 °.

Second kind: first group angle is negative 15 °, and second group angle is positive 15 °.

Described each gas-liquid charging aperture 1042 and close on staggered 15 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment five:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 9mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 34 °.

The stirring shim of described each column plate is adjacent staggered 17 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 11 ° with the angle c of vertical plane.

First kind: positive 17.5 ° or negative 17.5 °.

Second kind: first group angle is negative 17.5 °, and second group angle is positive 17.5 °.

Described each gas-liquid charging aperture 1042 and close on staggered 17 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment six:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 11mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 38 °.

The stirring shim of described each column plate is adjacent staggered 19 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 14 ° with the angle c of vertical plane.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 4 times of the stirring shim quantity on the column plate.

First kind: positive 20 ° or negative 20 °.

Second kind: first group angle is negative 20 °, and second group angle is positive 20 °.

Described each gas-liquid charging aperture 1042 and close on staggered 19 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment seven:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 12mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 42 °.

The stirring shim of described each column plate is adjacent staggered 21 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 17 ° with the angle c of vertical plane.

First kind: positive 22.5 ° or negative 22.5 °.

Second kind: first group angle is negative 22.5 °, and second group angle is positive 22.5 °.

Described each gas-liquid charging aperture 1042 and close on staggered 21 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment eight:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 13mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 46 °.

The stirring shim of described each column plate is adjacent staggered 18 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 20 ° with the angle c of vertical plane.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 7 times of the stirring shim quantity on the column plate.

First kind: positive 25 ° or negative 25 °.

Second kind: first group angle is negative 25 °, and second group angle is positive 25 °.

Described each gas-liquid charging aperture 1042 and close on staggered 18 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment nine:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 15mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 50 °.

The stirring shim of described each column plate is adjacent staggered 14 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 23 ° with the angle c of vertical plane.

First kind: positive 27.5 ° or negative 27.5 °.

Second kind: first group angle is negative 27.5 °, and second group angle is positive 27.5 °.

Described each gas-liquid charging aperture 1042 and close on staggered 14 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment ten:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 17mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 54 °.

The stirring shim of described each column plate is adjacent staggered 10 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 26 ° with the angle c of vertical plane.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 11 times of the stirring shim quantity on the column plate.

First kind: positive 30 ° or negative 30 °.

Second kind: first group angle is negative 30 °, and second group angle is positive 30 °.

Described each gas-liquid charging aperture 1042 and close on staggered 10 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Embodiment 11:

Adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 19mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 58 °.

The stirring shim of described each column plate is adjacent staggered 6 ° of angles between the stirring shim of column plate.

Described stirring shim 1021 is 29 ° with the angle c of vertical plane.

First kind: positive 35 ° or negative 35 °.

Second kind: first group angle is negative 35 °, and second group angle is positive 35 °.

Described each gas-liquid charging aperture 1042 and close on staggered 6 ° of angles between the corresponding stirring shim on the column plate 10201 of charging aperture.

Preferred embodiment:

On the experiment basis of above each embodiment, adopt following technical parameter to improve embodiment one:

It is tangent with the inwall of housing 101 that described T type is scraped tablet 1022, and leave the safety clearance of 6mm.

Described stirring shim 1021 is a sector structure, and its center of circle angle a is 35 °.

Bottom surface a ' the b ' of described stirring shim 1021 becomes 18 ° of angles with horizontal plane b ' c '.

Axocoel 1031 zones between per two adjacent tray have one group of described opening 1033, and this group number of openings is 6 times of the stirring shim quantity on the column plate.

Foregoing is exemplifying of specific embodiment of the utility model, for the wherein not device of detailed description and structure, should be understood to take existing fexible unit in this area and universal method to be implemented.

Claims

1. interlocking horizontal solid-liquid premixing tank, it is characterized in that, comprise hybrid system (1010), be positioned at hybrid system (1010) inner staggered column plate system (1020), spraying high-pressure gas system (1030), propulsion system (100) and material stock system (1060), be positioned at the feed system (1040) at hybrid system (1010) top and the discharge system (1050) of bottom;

Described hybrid system (1010) is the cylindric horizontal hybrid reactor that is formed by housing (101), is used to carry out the mixing of solid-liquid material;

The bottom of described housing (101) is provided with thickening layer (1012), further is provided with a semi-circular recesses (1005) that extends along housing (101) length on its inner surface;

Described staggered column plate system (1020) is one group of column plate that is connected rotating shaft (103) and rotates thereupon, described each column plate (102) comprises 2～6 and includes and stir the column plate sheet that shim (1021) and T type are scraped tablet (1022), and the angular interval between the column plate sheet is equal;

Described T type is scraped tablet (1022) and is comprised sector structure and scraper structure (1023);

The projection of described scraper structure (1023) on horizontal plane be one and equate with described sector structure width, but center of circle angle fan-shaped less than described sector structure;

Described spraying high-pressure gas system (1030) has a horizontal rotating shaft (103) that is positioned at housing (101) center of circle, and described rotating shaft (103) drives the staggered column plate system (1020) that connects on it and rotates;

Described propulsion system (100) comprises one group of propeller (1000) that is positioned at the enclosure interior bottom surface and one and is positioned at each propeller (100) bottom and coupled pushing ram (1005);

Described feed system (1040) connects hybrid system (1010) and spraying high-pressure gas system (1030), and to wherein conveying solid substance material and liquid material;

Described discharge system (1050) connects the material stock system (1060) be positioned at hybrid system (1010) bottom, and from output mixture material wherein.

2. horizontal solid-liquid premixing tank as claimed in claim 1 is characterized in that, described propeller (100) further comprises impelling sheet (1001) and support bar (1002);

Described impelling sheet (1001) is the conical structure of an edge-on bottom surface for ellipse, has a front (1003) and a reverse side (1004);

Described front (1003) is the bottom surface ellipse of cone, is used under the drive of support bar (1002) and pushing ram (1005) material being pushed ahead;

Described reverse side (1004) is the conical surface of cone, and material is had less resistance;

Described support bar (1002) upper end is connected the bottom of impelling sheet (1001), and the lower end is connected on the pushing ram (1005);

The front (1003) of described impelling sheet (1001) and reverse side (1004) are faced the discharge end and the feed end of housing respectively;

Described impelling sheet (1001) and the positive and negative 35 ° of angles of radially becoming of housing cross circular section.

3. horizontal solid-liquid premixing tank as claimed in claim 2 is characterized in that, described pushing ram (1005) is a half-round rod that is positioned at described groove (1005), and its two ends pass from the feed end and the discharge end of housing (101) respectively;

Described pushing ram (1005) and groove (1005) shape are adaptive, thereby make the top surface of pushing ram (1005) and the inner surface slip of housing (101) be connected complete cylindrical cavity of formation;

Described each propeller (100) connects and equally spaced being distributed on the pushing ram (1005) by its support bar (1002) separately is vertical;

Described horizontal solid-liquid premixing device comprises 1～2 propulsion system (100).

4. horizontal solid-liquid premixing tank as claimed in claim 3 is characterized in that, an end of described stirring shim (1021) is connected in the rotating shaft (103), and the other end is connected with the T type and scrapes tablet (1022);

Described stirring shim (1021) is a sector structure, and its internal diameter equates that with rotating shaft (103) external diameter its external diameter is that tower hybrid reactor housing (101) internal diameter and T type are scraped the poor of tablet (1022) thickness;

Described T type is scraped the sector structure of tablet (1022), and its internal diameter equates that with the external diameter that stirs shim (1021) its external diameter equates with the internal diameter of tower hybrid reactor housing (101);

The center of circle angle that described T type is scraped the stirring shim (1021) that tablet (1022) is connected with it equates;

The sector structure that described T type is scraped tablet is in same plane with the stirring shim;

Form a separation mixing chamber between per two adjacent column plates, thereby tower hybrid reactor is divided into one group of separation mixing chamber (109) that is interconnected by this group column plate;

The stirring shim of described each column plate is adjacent staggered 0 °～45 ° angles between the stirring shim of column plate;

Described each propeller (100) lays respectively between per two adjacent column plates, thereby makes described each propeller (100) and each column plate be interspersed.

5. horizontal solid-liquid premixing tank as claimed in claim 4 is characterized in that, the center of circle angle of described fan-shaped stirring shim (1021) is 20 °～60 °;

Described stirring shim (1021) becomes 0 °～30 ° angles with horizontal plane, be preferably 20 ° of angles;

The thickness everywhere that described stirring shim (1021) and T type are scraped tablet (1022) equates.

6. horizontal solid-liquid premixing tank as claimed in claim 5, it is characterized in that, the inwall of described scraper structure (1023) from the basal surface of sector structure (1022) along tower hybrid reactor housing (101) extends straight down, and tangent, and leave the safety clearance of 2mm～20mm with the inwall of housing (101);

It is tangent with the inwall of housing (101) that described T type is scraped tablet (1022), and leave the safety clearance of 2mm～20mm.

7. horizontal solid-liquid premixing tank as claimed in claim 6, it is characterized in that, the rotating shaft (103) of described spraying high-pressure gas system (1030) is a hollow axle with cylindrical axocoel, and it comprises axle housing (1032) and by axocoel (1031) that it surrounded;

Has the outside opening (1033) that discharges of gas unidirectional that allows to have certain pressure on the described axocoel (1031);

Axocoel (1031) zone between per two adjacent tray has one group of described opening (1033), this group number of openings is the integral multiple of the demarcation strip quantity on the column plate, and described opening (1033) is distributed in axocoel (1031) and is connected with on the zone of stirring shim (1021).

8. horizontal solid-liquid premixing tank as claimed in claim 7, it is characterized in that described feed system (1040) comprises the feeding-in solid body mouth (1041) that is positioned in the rotating shaft (103), is positioned at gas-liquid charging aperture (1041) and additive charging aperture (1043) on the housing (101);

Described gas-liquid charging aperture (1042) is positioned on the housing (101), and is interconnected with horizontal hybrid reactor inside, with to wherein transmitting the gas-liquid material;

The quantity of described gas-liquid charging aperture (1042) equates with demarcation strip quantity on the column plate, and each gas-liquid charging aperture (1042) and close on staggered 0 °～45 ° angles between the corresponding demarcation strip on the column plate (10201) of charging aperture;

Described gas-liquid charging aperture (1042) input gas, liquid or gas-liquid mixture enter horizontal hybrid reactor inside, and on adjacent with this charging aperture and corresponding demarcation strip and material scraping plate, flow, and successively along each demarcation strip and material scraping plate flow through each demarcation strip and material scraping plate accordingly.

9. horizontal solid-liquid premixing tank as claimed in claim 8, it is characterized in that, described feeding-in solid body mouth (1041) is positioned in the rotating shaft (103), and be interconnected with axocoel (1031), import and enter axocoel (1031) so that be mixed with the gases at high pressure of pressed powder from feeding-in solid body mouth (1041), then by the outside single way jet of the opening (1033) on the axle housing (1032), be injected on the demarcation strip on flowing liquid or the solidliquid mixture, fully to mix;

Described additive charging aperture (1043) is positioned in the rotating shaft (103), and be interconnected with axocoel (1031), import and enter axocoel (1031) so that be mixed with the gases at high pressure of additives such as pressed powder, liquid drop, gas from additive charging aperture (1043), then by the outside single way jet of the opening (1033) on the axle housing (1032), be injected on the demarcation strip on flowing liquid or the solidliquid mixture, fully to mix.

10. horizontal solid-liquid premixing tank as claimed in claim 9, it is characterized in that, described material stock system (1060) has the column plate (10202) that is adjacent and goes up the material holding chamber (106) that demarcation strip quantity equates, each material holding chamber (106) has a discharging opening (105) accordingly, and described each discharging opening (105) is formed described discharge system (1050);

Mixed material on each demarcation strip of described column plate (10202) flows into corresponding material holding chamber (106), then by outwards output of corresponding discharging opening (105).