CN218833634U - Decoloration jar is used in gluconolactone preparation - Google Patents

Abstract

The utility model discloses a gluconolactone preparation is with decoloration jar, the on-line screen storage device comprises a base, install jar body and sealed waste pipe of arranging on the base respectively, sealed waste pipe of arranging is fixed on the lateral wall of jar body, sealed waste pipe is interior to rotate jointly between two parties and is installed the axle of wasting discharge, waste shaft installs porous spiral leaf on the axle of wasting discharge, it is equipped with the material axle to rotate to insert between two parties on the interior roof of jar body, the upper end of material axle extends to the top of jar body and has seted up the silo, the material axle is located one section internal lateral wall of jar on the equidistance install a plurality of reinforced stirring leaves. The utility model discloses a mode of material is spilt while stirring for stoste and active carbon fully contact and homogeneous mixing increase and adsorb decoloration speed, promote and adsorb the decoloration effect, and separate the solution after the decoloration and the active carbon sediment through the mode of liquid sediment separation and discharge, realize continuous production, need not manual operation, simple, safety, environmental protection, high-efficient more.

Description

Decoloration jar is used in glucono-delta-lactone preparation

Technical Field

The utility model relates to a gluconolactone production and processing field especially relates to a gluconolactone preparation is with decoloration jar.

Background

The mode of manual feeding and single stirring decoloration is usually adopted to current decoloration jar, the gluconic acid solution after the producer will purify the desalination promptly is sent into in the decoloration jar, then add the active carbon powder granule of corresponding quality and stir the adsorption pigment, this mode is when the decoloration, because once only drop into large amount active carbon, make active carbon comparatively concentrate, contact with the stoste inhomogeneous and not abundant, it is slower to lead to the decoloration speed, and the decoloration is accomplished, after the colorless solution discharges, need to clear up the active carbon powder sediment in the decoloration jar, the operation is comparatively troublesome, and make production can not go on in succession, production efficiency reduces.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects in the prior art and providing a decoloring tank for preparing glucolactone.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a gluconolactone preparation is with decoloration jar, includes the base, install jar body and sealed waste pipe of arranging on the base respectively, sealed waste pipe of arranging is fixed on the lateral wall of jar body, sealed waste pipe of arranging rotates jointly between two parties and installs the axle of wasting discharge, waste shaft installs porous spiral leaf on the axle of wasting discharge, it inserts and is equipped with the material axle to rotate between two parties on the interior roof of jar body, the upper end of material axle extends to the top of jar body and has seted up the silo, the material axle is located one section internal lateral wall of jar and equidistantly installs a plurality of reinforced stirring leaves, it is equipped with row's material pipe to insert between two parties on the diapire of jar body, arrange the lower extreme of material pipe and insert on the lower extreme lateral wall of sealed waste pipe of arranging, it is equipped with the filtration calandria to insert on the sealed lower extreme lateral wall of arranging the waste pipe, the waste pipe has been inserted to one side on the sealed upper end lateral wall of waste pipe of arranging, the upper surface of jar body is inserted and is equipped with the former liquid pipe.

Preferably, a fixing frame is installed on the inner wall of the upper end of the discharging pipe, a fixing shaft is fixedly installed at the lower end of the material shaft, and the lower end of the fixing shaft is rotatably inserted into the fixing frame.

Preferably, the loading hopper is installed between two parties on the upper surface of the tank body, the lower extreme of loading hopper is inserted and is equipped with the filling tube, the lower extreme of filling tube is inserted and is established in the silo, and the filling tube rotates with the inner wall of silo to be connected.

Preferably, a driving motor is installed on the bottom wall of the base, and the lower end of the waste discharge shaft extends to the lower part of the base and is fixedly connected with a crankshaft of the driving motor.

Preferably, the upper end of the axle of wasting discharge extends to the top of sealed waste discharge pipe and installs the action wheel, one section cover that the material axle is located jar body top is established and is installed from the driving wheel, action wheel and follow install driving belt jointly between the driving wheel, the diameter of action wheel is greater than the diameter from the driving wheel.

Preferably, each outer arc lateral wall of the feeding stirring blade is provided with a material scattering channel penetrating through the communicating trough, and the upper inner wall and the lower inner wall of the material scattering channel are provided with a plurality of material scattering ports.

The utility model discloses beneficial effect: through the mode of spilling the material while stirring for stoste and active carbon fully contact and homogeneous mixing increase absorption decoloration speed, promote absorption decoloration effect, and the mode through liquid sediment separation discharges the solution after the decoloration with the active carbon sediment separation, realizes continuous production, need not manual operation, and is simple more, safety, environmental protection, high-efficient.

Drawings

Fig. 1 is a schematic structural diagram of a decoloring tank for preparing gluconolactone according to the present invention;

FIG. 2 is a schematic sectional view of a part of a decoloring tank for glucono-delta-lactone production according to the present invention;

FIG. 3 is a schematic view of the material shaft of a decoloring tank for glucono-delta-lactone production according to the present invention;

fig. 4 is an enlarged view of the feeding stirring blade part of the decoloring tank for preparing gluconolactone.

In the figure: the device comprises a base 1, a driving motor 11, a tank body 2, a stock solution pipe 21, a material discharging pipe 22, a fixed frame 23, a sealed waste discharging pipe 3, a filtering and discharging pipe 31, a waste discharging pipe 32, a charging hopper 4, a charging pipe 41, a waste discharging shaft 5, a driving wheel 51, a porous spiral blade 52, a material shaft 6, a driven wheel 61, a material groove 62, a fixed shaft 63, a transmission belt 7, a material feeding and stirring blade 8, a material scattering channel 81 and a material scattering port 82.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a decolorizing tank for preparing gluconolactone comprises a base 1, a tank body 2 and a sealed waste discharge pipe 3 are respectively installed on the base 1, the sealed waste discharge pipe 3 is fixed on the outer side wall of the tank body 2, a waste discharge shaft 5 is installed in the sealed waste discharge pipe 3 in a centering and rotating mode, a porous spiral blade 52 is installed on the waste discharge shaft 5, a material shaft 6 is inserted on the inner top wall of the tank body 2 in a centering and rotating mode, the upper end of the material shaft 6 extends to the upper side of the tank body 2 and is provided with a material groove 62, a plurality of feeding stirring blades 8 are installed on one section of side wall of the tank body 2 at equal intervals on the material shaft 6, a material discharge pipe 22 is inserted on the bottom wall of the tank body 2 in a centering mode, the lower end of the material discharge pipe 22 is inserted on the lower end side wall of the sealed waste discharge pipe 3, a filter discharge pipe 31 is inserted on the lower end side wall of the sealed waste discharge pipe 3, a waste discharge pipe 32 is inserted on the upper end side wall of the sealed waste discharge pipe 3 in an inclined mode, and a raw material pipe 21 is inserted on the upper surface of the tank body 2.

The purified and desalted gluconic acid solution enters the tank body 2 from the stock solution pipe 21, activated carbon for decolorization is put into the tank from the trough 62 of the material shaft 6, the material shaft 6 rotates to drive the charging stirring blade 8 to rotate, the activated carbon is subjected to centrifugal force by the rotating material shaft 6 and the charging stirring blade 8, the activated carbon is enabled to move outwards and is discharged from the charging stirring blade 8, namely the activated carbon can be diffused in the raw material solution to adsorb pigment, and the charging stirring blade 8 is rotationally stirred, so that the activated carbon is more uniformly and fully contacted with the raw material solution, and the adsorption decolorization effect is improved;

solution after the decoloration is arranged to sealed row waste pipe 3 through arranging material pipe 22 and the active carbon after using together in, and the axle 5 that wastes discharge rotates and to be made porous spiral leaf 52 rotate, then porous spiral leaf 52 can upwards carry the active carbon in the colourless solution and discharge from waste pipe 32, and colourless solution is discharged through straining calandria 31, strains calandria 31 and has the filtering action, can avoid the active carbon from straining calandria 31 discharge.

The fixing frame 23 is installed on the inner wall of the upper end of the discharging pipe 22, the fixing shaft 63 is fixedly installed at the lower end of the material shaft 6, the lower end of the fixing shaft 63 is rotatably inserted into the fixing frame 23, and the material shaft 6 rotates to enable the fixing shaft 63 to rotate on the fixing frame 23, so that stability is improved.

Install loading hopper 4 between two parties on the upper surface of jar body 2, the lower extreme of loading hopper 4 is inserted and is equipped with filling tube 41, and the lower extreme of filling tube 41 is inserted and is established in silo 62, and filling tube 41 rotates with the inner wall of silo 62 to be connected, and in activated carbon sent into loading hopper 4 through outside pay-off machine, then got into silo 62 through filling tube 41 in, reduced the amount of labour.

Install driving motor 11 on the diapire of base 1, the lower extreme of wasting discharge shaft 5 extends to the below of base 1 and with driving motor 11's spindle fixed connection, driving motor 11 can direct drive wasting discharge shaft 5 rotate.

The upper end of the axle of wasting discharge 5 extends to the sealed top of wasting discharge pipe 3 and installs action wheel 51, material axle 6 is located one section cover of jar body 2 top and establishes and installs from driving wheel 61, action wheel 51 and install drive belt 7 jointly from between driving wheel 61, the diameter of action wheel 51 is greater than the diameter from driving wheel 61, the axle of wasting discharge 5 rotates and makes action wheel 51 rotate, then make material axle 6 rotate through drive belt 7 and from driving wheel 61, only through the drive of a driving motor 11, the energy consumption is lower, the maintenance cost is lower, and the action wheel 51 diameter is greater than from driving wheel 61 diameter, then can make to drive material axle 6 from driving wheel 61 and rotate fast, make the active carbon receive the centrifugal action reinforcing, make it spill out more easily.

All set up the spill material passageway 81 that runs through intercommunication silo 62 on every reinforced stirring leaf 8's the outer arc lateral wall, a plurality of material mouths 82 that spill have all been seted up on the upper and lower inner wall of material passageway 81, the active carbon in the silo 62 receives centrifugal force effect to get into in spilling material passageway 81, and the active carbon still receives centrifugal force effect to continue outwards moving in spilling material passageway 81, make partly active carbon discharge from spilling material mouth 82, another part active carbon discharges from the port that spills material passageway 81, make it can be in jar raw materials solution of internal 2 quick diffusion, increase the speed of adsorption and decoloration.

When the utility model is used, the raw liquid pipe 21 is connected with the conveying pipe of the gluconic acid solution, the filter tube pipe 31 is connected with the external finished product conveying pipe, the upper end of the active carbon conveying belt machine is arranged above the loading hopper 4, the upper end of the belt machine for conveying waste residues is arranged below the waste pipe 32, and the driving motor 11 is started;

the driving motor 11 drives the waste discharge shaft 5 to rotate, so that the multi-hole spiral blade 52 and the driving wheel 51 both rotate, the driving wheel 51 drives the driven wheel 61 to rapidly rotate through the transmission belt 7, so that the material shaft 6 is rapidly rotated, and the material shaft 6 rapidly rotates to drive the plurality of feeding stirring blades 8 to rapidly rotate in the raw material solution;

the activated carbon enters the material groove 62 from the charging hopper 4 along the charging pipe 41, the activated carbon in the material groove 62 is discharged outwards under the centrifugal action by the rotating material shaft 6 to the material scattering channel 81 of the material scattering stirring blade 8, the activated carbon in the material scattering channel 81 is also discharged outwards under the centrifugal action by the rotating material scattering stirring blade 8, the activated carbon is discharged from the material scattering port 82 and the outer edge port of the material scattering channel 81 respectively, the activated carbon can be rapidly diffused in the raw material solution, and the raw material solution is more uniformly and fully contacted with the activated carbon by matching with the rotary stirring of the material scattering stirring blade 8, so that the raw material solution is rapidly adsorbed and decolored into a colorless solution;

colorless solution and active carbon waste material are discharged from the discharge pipe 22 to the sealed waste discharge pipe 3, and then the rotatory porous spiral blade 52 can upwards convey the active carbon waste material and discharge from the waste pipe 32 to the waste belt conveyor, and colorless solution in the sealed waste discharge pipe 3 is discharged to the finished product conveying pipe after being filtered by the filtering and discharging pipe 31.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a gluconolactone preparation is with decoloration jar, includes base (1), its characterized in that, install jar body (2) and sealed waste pipe (3) of arranging on base (1) respectively, sealed waste pipe (3) of arranging are fixed on the lateral wall of the jar body (2), it installs waste shaft (5) to rotate jointly placed in the middle in sealed waste pipe (3) of arranging, install porous spiral leaf (52) on waste shaft (5) of arranging, it is equipped with material axle (6) to rotate to insert placed in the middle on the interior roof of the jar body (2), the upper end of material axle (6) extends to the top of the jar body (2) and has seted up silo (62), material axle (6) are located one section lateral wall of the jar body (2) on the equidistance install a plurality of stirring leaf (8), insert placed in the middle on the diapire of the jar body (2) and are equipped with discharge tube (22), the lower extreme of discharge tube (22) is inserted and is equipped with on the lower extreme lateral wall of sealed waste pipe (3), insert on the lower extreme lateral wall of sealed waste pipe (3) is equipped with waste pipe (31) of arranging, insert the waste pipe (3) on the lateral wall (21) of the waste pipe (21) of arranging, insert the waste pipe (21) on the upper surface of the waste pipe.

2. The decolorizing tank for preparing gluconolactone according to claim 1, wherein a fixing frame (23) is installed on the inner wall of the upper end of the discharging pipe (22), a fixing shaft (63) is fixedly installed on the lower end of the material shaft (6), and the lower end of the fixing shaft (63) is rotatably inserted on the fixing frame (23).

3. The decoloring tank for preparing gluconolactone according to claim 1, wherein a feeding hopper (4) is installed in the middle of the upper surface of the tank body (2), a feeding pipe (41) is inserted into the lower end of the feeding hopper (4), the lower end of the feeding pipe (41) is inserted into the material tank (62), and the feeding pipe (41) is rotatably connected with the inner wall of the material tank (62).

4. The decolorizing pot for preparing gluconolactone according to claim 1, wherein a driving motor (11) is installed on the bottom wall of the base (1), and the lower end of the waste discharge shaft (5) extends to the lower part of the base (1) and is fixedly connected with the crankshaft of the driving motor (11).

5. The decolorizing tank for preparing gluconolactone according to claim 1, wherein the upper end of the waste discharge shaft (5) extends to the upper part of the sealed waste discharge pipe (3) and is provided with a driving wheel (51), a section of the material shaft (6) positioned above the tank body (2) is sleeved with a driven wheel (61), a transmission belt (7) is arranged between the driving wheel (51) and the driven wheel (61), and the diameter of the driving wheel (51) is larger than that of the driven wheel (61).

6. The decoloring tank for preparing gluconolactone according to claim 1, wherein a scattering channel (81) penetrating through the communicating trough (62) is formed on the outer arc side wall of each feeding stirring blade (8), and a plurality of scattering ports (82) are formed on the upper and lower inner walls of the scattering channel (81).

Images