CN212595352U - Production inositol is with mixing filter equipment - Google Patents

Abstract

The utility model discloses a mixing and filtering device for producing inositol, which comprises a supporting base and a rotating part rotationally connected with the supporting base; the rotating part comprises a mixing mechanism, a filtering mechanism and an inclined channel; the mixing mechanism comprises an early-stage mixing tank and a secondary filtering tank; the early-stage mixing tank and the secondary filtering tank are separated by a microporous filtering membrane component; the filtering mechanism comprises an annular filtering tank and a filtering device, the annular filtering tank is communicated with the secondary filtering tank through an inclined channel, and the filtering device is arranged at the circle center of the annular filtering tank; the utility model has the advantages that: the integrated filtration is realized through the rotating part; the integrated filtration is realized through the filtering device, and the flow blocking block has the functions of uniform mixing and acceleration; the sliding device and the stirring device are matched with the rotating part to realize uniform mixing.

Description

Production inositol is with mixing filter equipment

Technical Field

The utility model relates to an inositol production preparation equipment field specifically is a production inositol is with mixing filter equipment.

Background

Inositol is a substance widely existing in food, has a structure similar to glucose, is a stable white crystal, can be dissolved in water and has sweet taste, and is acid-resistant, alkali-resistant and heat-resistant; in animal cells, it occurs predominantly in the form of phospholipids, sometimes referred to as inositol phospholipids; in grains, phosphoric acid is often combined to form hexaphosphate, namely phytic acid, and phytic acid can be combined with calcium, iron and zinc to form insoluble compounds, so that the absorption of the compounds by a human body is interfered.

In the preparation of inositol, when an enzymatic method is adopted for producing inositol, the crude inositol needs to be filtered and screened in multiple directions to remove impurities, particularly, multi-level filtering operation needs to be adopted for filtering in the operation stages before and after decolorization, and then the inositol is purified, but the existing filtering operation is that a filtering tank or a filtering membrane component is used for filtering alone, so the needed devices are more, and the solute loss of inositol liquid is easy to occur in the conversion stage among the devices, so the integral yield is influenced; meanwhile, the solvent is mostly added in the filtration stage, so special attention is needed to stir and mix in the filtration stage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide an integration filtration and intensive mixing's production inositol is with mixing filter equipment.

The purpose of the utility model is realized through the following technical scheme:

a mixing and filtering device for producing inositol comprises a supporting base and a rotating part which is rotatably connected with the supporting base;

the rotating part comprises a mixing mechanism, a filtering mechanism and an inclined channel; the mixing mechanism comprises an early-stage mixing tank and a secondary filtering tank; the early-stage mixing tank and the secondary filtering tank are separated by a microporous filtering membrane component;

the filtering mechanism comprises an annular filtering groove and a filtering device, the annular filtering groove is communicated with the secondary filtering tank through an inclined channel, and the filtering device is arranged at the circle center of the annular filtering groove.

Preferably, in order to further achieve the purposes of integrated filtration and sufficient mixing, the filtration device comprises a rotating rod and a multi-layer filter screen, wherein the rotating rod fixes the annular filtration tank through a plurality of cross rods; the multilayer filter screen meshes penetrate through the rotating rod, and the upper surface of the filter screen mesh on the uppermost layer is connected with the annular filter tank through a plurality of short water outlet pipes; a flow blocking block is embedded in the water outlet short pipe and is a semicircular block; a diversion trench is arranged on the circular curved surface of the flow choking block; through the filter equipment who includes dwang and multilayer filter screen, and then utilize the dwang to drive the whole rotation of rotation portion, the convenient liquid in the annular filter inslot drives the outlet pipe through centrifugal force, and then during leading-in filter screen sieves, realize the integration and filter, the choked flow piece of taking the guiding gutter in the outlet pipe simultaneously makes liquid form extruded torrent under centrifugal state, and then possesses certain misce bene and function with higher speed.

Preferably, in order to further realize uniform mixing, the bottom end of the early-stage mixing tank is provided with a stirring device, and the stirring device is connected to the bottom end of the early-stage mixing tank in a sliding manner through a sliding device; the stirring device comprises a fixed base and a rotating blade, wherein the fixed base is fixedly connected with the rotating blade through a transmission rod; the sliding device comprises a sliding chute and a sliding rod matched with the sliding chute; the sliding chutes are embedded into two sides of the early-stage mixing tank, and the sliding rods are fixedly arranged on two sides of the fixed base; utilize the slider including slip spout and slide bar, make the agitating unit who mixes the pond bottom in earlier stage slide on the horizontal direction, the rotating vane that includes the agitating unit of unable adjustment base and rotating vane simultaneously carries out the ascending stirring of vertical side, and the centrifugation of portion of rotating of deuterogamying rotates, realizes the stirring of the holistic sinuous flow of liquid, and then realizes the purpose of misce bene.

The utility model has the advantages that:

1. the rotating part which comprises the mixing mechanism, the filtering mechanism and the inclined channel rotates to generate centrifugal force, the impurity-containing liquid in the mixing pool in the previous period is filtered by the microporous filtering membrane component, reaches the secondary filtering pool under the action of the centrifugal force, enters the filtering mechanism which comprises the annular filtering groove and the filtering device through the inclined channel, and enters the filtering device again through the stacking of the annular filtering groove, so that the purpose of integrated filtering is realized.

2. Through the filter equipment who includes dwang and multilayer filter screen, and then utilize the dwang to drive the whole rotation of rotation portion, the convenient liquid in the annular filter inslot drives the outlet pipe through centrifugal force, and then during leading-in filter screen sieves, realize the integration and filter, the choked flow piece of taking the guiding gutter in the outlet pipe simultaneously makes liquid form extruded torrent under centrifugal state, and then possesses certain misce bene and function with higher speed.

3. Utilize the slider including slip spout and slide bar, make the agitating unit who mixes the pond bottom in earlier stage slide on the horizontal direction, the rotating vane that includes the agitating unit of unable adjustment base and rotating vane simultaneously carries out the ascending stirring of vertical side, and the centrifugation of portion of rotating of deuterogamying rotates, realizes the stirring of the holistic sinuous flow of liquid, and then realizes the purpose of misce bene.

Drawings

FIG. 1 is a schematic view of the apparatus of the present invention;

fig. 2 is a fragmentary schematic view of the filter apparatus of the present invention;

FIG. 3 is a schematic view of the water outlet pipe of the present invention;

FIG. 4 is a schematic view of a stirring device of the present invention;

in the figure, 1-supporting base, 2-rotating part, 21-mixing mechanism, 211-early mixing tank, 212-secondary filtering tank, 213-microporous filtering membrane component, 214-stirring device, 2141-fixed base, 2142-rotating blade, 2143-driving rod, 215-sliding device, 2151-sliding chute, 2152-sliding rod, 22-filtering mechanism, 221-annular filtering tank, 2211-water outlet pipe, 2212-flow block, 2213-diversion tank, 222-filtering device, 2221-rotating rod, 2222-filtering mesh screen, 2223-cross rod and 23-inclined channel.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in figure 1, a mixing and filtering device for producing inositol comprises a supporting base 1 and a rotating part 2 which is rotatably connected with the supporting base 1;

the rotating part 2 comprises a mixing mechanism 21, a filtering mechanism 22 and an inclined channel 23; the mixing mechanism 21 comprises an early-stage mixing tank 211 and a secondary filtering tank 212; the early-stage mixing tank 211 and the second-stage filtering tank 212 are separated by a microporous filtering membrane component 213;

the filtering mechanism 22 comprises an annular filtering tank 221 and a filtering device 222, wherein the annular filtering tank 221 is communicated with the secondary filtering tank 212 through an inclined channel 23, and the filtering device 222 is arranged at the center of the annular filtering tank 221.

As shown in fig. 2 and 3, for further achieving the purpose of integrated filtration and thorough mixing, the filtration device 222 includes a rotating rod 2221 and a multi-layer filter screen 2222, wherein the rotating rod 2221 fixes the annular filtration tank 221 through a plurality of cross bars 2223; the multiple layers of filter screens 2222 are arranged on the rotating rod 2221 in a penetrating way, and the upper surface of the filter screen 2222 at the uppermost layer is connected with the annular filter tank 221 through a plurality of short water outlet pipes 2211; a choke block 2212 is embedded in the water outlet short pipe 2211, and the choke block 2212 is a semicircular block; a flow guide groove 2213 is arranged on the circular curved surface of the flow blocking block 2212; through filter equipment 222 including dwang 2221 and multilayer filter screen 2222, and then utilize dwang 2221 to drive the whole rotation of rotation portion 2, liquid convenient in annular filter groove 221 drives in outlet pipe 2211 through centrifugal force, and then leading-in to filter screen 2222, realize the integration and filter, take the choking block 2212 of guiding gutter 2213 in outlet pipe 2211 simultaneously, make liquid form extruded torrent under centrifugal state, and then possess certain misce bene and function with higher speed.

As shown in fig. 4, in order to further achieve uniform mixing, a stirring device 214 is disposed at the bottom end of the early mixing tank 211, and the stirring device 214 is slidably connected to the bottom end of the early mixing tank 211 through a sliding device 215; the stirring device 214 includes a fixed base 2141 and a rotating blade 2142, and the fixed base 2141 is fixedly connected to the rotating blade 2142 through a transmission rod 2143; the sliding device 215 comprises a sliding chute 2151 and a sliding rod 2152 matched with the sliding chute 2151; the sliding chutes 2151 are embedded into two sides of the early mixing tank 211, and the sliding rods 2152 are fixedly arranged on two sides of the fixed base 2141; utilize slider 215 including sliding chute 2151 and slide bar 2152, make agitating unit 214 of mixing tank 211 bottom in earlier stage slide on the horizontal direction, including simultaneously that unable adjustment base 2141 and rotatory leaf 2142's agitating unit 214's rotatory leaf 2142 carry out ascending stirring of vertical side, cooperate the centrifugal rotation of rotation portion 2 again, realize the holistic turbulent flow stirring of liquid, and then realize the purpose of misce bene.

Working process or principle: when liquid to be filtered enters the rotating part 2 of the supporting base 1 through a pipeline, the earlier-stage mixing tank 211 of the mixing mechanism 21 receives the liquid to be filtered, the motor is started, the rotating rod 2221 starts to rotate, the cross rod 2223 drives the rotating part 2 to rotate, the fixed base 2141 of the stirring device 214 slides in the sliding chute 2151 of the earlier-stage mixing tank 211 through the sliding rod 2152 of the sliding device 215, meanwhile, the transmission rod 2143 rotates to drive the rotating blade 2142 to rotate, and the liquid to be filtered is stirred and mixed; then, after the liquid enters the second-stage filtering tank through the microporous filtering membrane module 213 for filtering, the crude filtrate enters the filtering mechanism 22 through the inclined channel 23, at this time, the annular filtering slot 221 of the filtering mechanism 22 receives the crude filtrate, when the crude filtrate is received to a certain extent, the water outlet pipe 2211 discharges the crude filtrate, at this time, the flow choking block 2212 in the water outlet pipe 2211 obstructs the discharge, and the flow guide slot 2213 on the flow choking block 2212 guides the liquid to discharge, so that the crude filtrate is discharged in a turbulent flow manner, the water outlet pipe 2211 is prevented from being blocked, and the discharged crude filtrate is filtered and discharged into the collecting tank through the filter screen 2222 under the action of the multiple layers of filter screen 2222 in the filtering device 222, thereby achieving the purpose of integrated filtering.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (7)

1. A production inositol is with mixing filter equipment which characterized in that: comprises a supporting base (1) and a rotating part (2) which is rotationally connected with the supporting base (1);

the rotating part (2) comprises a mixing mechanism (21), a plurality of filtering mechanisms (22) and a plurality of inclined channels (23); the filtering mechanism (22) is arranged at the center of the rotating part (2) and is communicated with the filtering mechanism (22) through an inclined channel (23); the plurality of filtering mechanisms (22) are uniformly distributed in the rotating part (2) by taking the center of the rotating part (2) as the circle center;

the mixing mechanism (21) comprises an early-stage mixing tank (211) and a secondary filtering tank (212); the early-stage mixing tank (211) and the second-stage filtering tank (212) are separated by a microporous filtering membrane component (213);

the filtering mechanism (22) comprises an annular filtering groove (221) and a filtering device (222), the annular filtering groove (221) is communicated with the secondary filtering tank (212) through an inclined channel (23), and the filtering device (222) is arranged at the circle center of the annular filtering groove (221).

2. The mixing and filtering device for the production of inositol according to claim 1, wherein: the filtering device (222) comprises a rotating rod (2221) and a multi-layer filtering screen (2222), wherein the rotating rod (2221) is used for fixing the annular filtering groove (221) through a plurality of cross rods (2223); the multilayer filter screen mesh (2222) wear to establish dwang (2221) on to the upper surface of the filter screen mesh (2222) of the superiors with annular filter tank (221) between connect through a plurality of water outlet nozzle stub pipes (2211).

3. The mixing and filtering device for the production of inositol according to claim 2, wherein: the water outlet short pipe (2211) is embedded with a choke block (2212), and the choke block (2212) is a semicircular block.

4. The mixing and filtering device for the production of inositol according to claim 3, wherein: the circular curved surface of the flow blocking block (2212) is provided with a flow guide groove (2213).

5. A mixing and filtering device for the production of inositol according to any of claims 1, 2 or 3, wherein: earlier stage mix pond (211) bottom be equipped with agitating unit (214), agitating unit (214) pass through slider (215) sliding connection and be in earlier stage mix pond (211) bottom.

6. The mixing and filtering device for the production of inositol according to claim 5, wherein: the stirring device (214) comprises a fixed base (2141) and a rotating blade (2142), wherein the fixed base (2141) is fixedly connected with the rotating blade (2142) through a transmission rod (2143).

7. The mixing and filtering device for the production of inositol according to claim 6, wherein: the sliding device (215) comprises a sliding chute (2151) and a sliding rod (2152) matched with the sliding chute (2151); the sliding chutes (2151) are embedded into two sides of the early-stage mixing tank (211), and the sliding rods (2152) are fixedly arranged on two sides of the fixed base (2141).

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