CN221061900U - Starch dewatering device for starch production - Google Patents

Abstract

The utility model discloses a starch dehydration device for starch production, which comprises a placing table, supporting legs, a dehydration tank, a feeding structure, a stirring structure, a drying structure and a discharging structure, wherein the supporting legs are arranged on the placing table; the landing leg is located and is placed a bottom of the platform, and the dehydration box is located one side of placing a top of the platform, and the charging structure is located and is placed one side of keeping away from the dehydration box of the platform, and inside the dehydration box was located to stirring structure, drying structure located the dehydration box top, and the one side of keeping away from the charging structure of dehydration box was located to ejection of compact structure. Compared with the prior art, the utility model has the advantages that: the utility model not only can be convenient for feeding to avoid blocking caused by caking and drying the starch after dehydration, but also can be convenient for taking out the dehydrated starch to avoid residue from influencing subsequent processing operation.

Description

Starch dewatering device for starch production

Technical Field

The utility model relates to the technical field of starch dehydration devices, in particular to a starch dehydration device for starch production.

Background

After the starch is subjected to cleaning, crushing and filtering, sand and mud removing, concentration and refining working sections, the starch is subjected to a starch dehydration step. The dehydration of starch is an indispensable link in the process of preparing starch, the water content of the refined starch slurry is too high to be directly dried, so that the starch milk obtained by refining must be dehydrated before being dried, redundant water in the starch milk is removed, the load of the drying link is lightened, a large amount of energy sources can be saved, a necessary foundation is laid for quick drying, the water content of the starch slurry is obviously reduced, the drying is convenient, and the quality of starch products is ensured.

The patent number among the prior art is CN 215162289U's patent discloses a starch dewatering device for starch production, including the dehydration tank, the left side fixedly connected with slope transport section of thick bamboo of linking bridge, the up end left side and the lower terminal surface right side of slope transport section of thick bamboo communicate respectively and have throw hopper and inlet pipe, the lower extreme of inlet pipe communicates with the up end of dehydration tank, the bearing frame is installed on the inside left side of slope transport section of thick bamboo, driving motor is installed on the right side of slope transport section of thick bamboo, driving motor's output can be dismantled and be connected with the screw conveying axle, the other end of screw conveying axle runs through slope transport section of thick bamboo and with the right side swing joint of bearing frame to the effect of conveniently adding the starch that does not dewater in the dehydration tank when having reached starch dehydration, avoid the too high problem that leads to the frequent input starch of staff of material throwing into of dehydration tank to lead to the staff to producing tired easily, reduced staff's intensity of labour.

However, the prior art patents suffer from several drawbacks:

(1) The device of prior art is spiral feeding mode and is easy to cause the jam of a conveying cylinder because of the caking of starch during feeding, and the process of dredging the conveying cylinder is complicated and troublesome, influences the production and processing of starch, reduces work efficiency.

(2) The device of the prior art can not dry the dehydrated starch, the dehydration efficiency is low, the dehydrated starch also needs to be dried by a dryer, the functionality is single, and the use requirement of people can not be well met.

(3) The device of prior art is stirring and scattering starch and water because of stirring vane is rotatory in the dehydration in-process, leads to starch to scatter in the dehydration box inside, and the starch after the dehydration takes out comparatively inconvenient for starch processing production efficiency is lower, and the starch after the dehydration is located the dehydration box inside moreover, is difficult to take out, even takes out also to form easily and remains, the use of the starch dehydration of being inconvenient for.

Disclosure of utility model

The technical problem to be solved by the utility model is to overcome the technical defects, provides a method which not only can be convenient for feeding and avoid blocking caused by caking, but also can dry the starch after dehydration, and the dehydrated starch can be taken out conveniently, so that the residue is avoided from influencing the subsequent processing operation.

In order to solve the problems, the technical scheme of the utility model is as follows: a starch dehydration device for starch production comprises a placing table, supporting legs, a dehydration tank, a feeding structure, a stirring structure, a drying structure and a discharging structure;

The landing leg is located and is placed a bottom of the platform, the dewatering box is located and is placed one side at a top of the platform, the loading structure is located and is placed one side of the platform away from the dewatering box, the stirring structure is located inside the dewatering box, the drying structure is located at a top of the dewatering box, and the discharging structure is located at one side of the dewatering box away from the loading structure.

Further, the inside bottom fixedly connected with filter of dehydration tank, the filter top is equipped with the dehydration chamber, the filter below is equipped with the hopper, hopper bottom intercommunication has the drain pipe, the valve is installed to the lateral wall of drain pipe, dehydration chamber top fixedly connected with top cap.

Further, the feeding structure comprises a feeding box, one side fixedly connected with bracing piece that the feeding box bottom is close to the landing leg, the one end fixedly connected with of bracing piece is in the middle of the landing leg, the inside rotatable pivot that is equipped with of feeding box, transmission connection has a conveyer belt between the pivot, the surface equidistance of conveyer belt is provided with the baffle, the terminal of baffle contacts with the inside wall of feeding box, the front end fixedly connected with motor one that the feeding box bottom is close to pivot one side, the output fixedly connected with of motor one is in the pivot, feeding box bottom entrance is equipped with the feeding hopper, be equipped with filter screen one in the feeding hopper, one side fixedly connected with inlet pipe that the feeding box top is close to the top cap.

Further, stirring structure includes motor two, motor two fixed connection is in top cap top intermediate position, motor two output fixedly connected with bull stick, the bull stick rotates to be connected in the top cap, fixedly connected with a plurality of groups stirring leaf on the bull stick, fixedly connected with a plurality of groups connecting rod between the stirring leaf, the one end fixedly connected with scraper blade that the connecting rod is close to dehydration intracavity wall.

Further, the stoving structure includes the through-hole, the through-hole is seted up in the both sides of top cap top surface, fixedly connected with filter screen two in the through-hole, filter screen two below is equipped with the fan, the inside heating wire circle that is equipped with of top cap, the bull stick outside is located to the heating wire circle.

Further, ejection of compact structure includes the spout, the spout is seted up and is kept away from one side of going up the workbin in the dewatering box, sliding connection has movable plate in the spout, the spacing groove one that uses with the movable plate cooperation is seted up to the spout bottom, one side fixedly connected with pull rod of dewatering box is kept away from at the movable plate top, the pull rod top alternates there is the gag lever post, gag lever post part outside cover between movable plate and the pull rod is equipped with spring one, gag lever post part fixedly connected with clamp plate between movable plate and the pull rod, limit groove two that uses with the gag lever post cooperation is seted up to one side that the spout top is close to the bull stick, one side fixedly connected with telescopic link that the movable plate bottom is close to the bull stick, the spring two is overlapped in the telescopic link outside, one side that the bull stick is close to the bull stick is seted up trapezoidal joint groove, one side fixedly connected with discharging pipe is kept away from to trapezoidal joint groove.

Compared with the prior art, the utility model has the advantages that:

(1) According to the utility model, the feeding structure is arranged, the motor drives the rotating shaft to rotate, so that the conveying belt is driven to rotate, the undehydrated starch raw materials fall onto the conveying belt from the feeding hopper, are sequentially separated by the baffle plate and ascend along with the conveying belt, and finally are poured into the dewatering cavity, so that the blockage of the spiral conveying cylinder caused by the agglomeration of starch is effectively avoided, and the processing efficiency is improved;

(2) According to the utility model, the drying structure is arranged, the fan is started to bring the hot air generated by the electric heating wire coil into the dehydration cavity to raise the temperature of the air in the box, so that more effective dehydration of starch can be realized, the drying effect is finally achieved, and the drying efficiency of the dehydrated starch is improved;

(3) According to the utility model, the stirring structure and the discharging structure are arranged, the motor II drives the rotating rod to rotate, so that the stirring blade is driven to stir and break up starch to promote the dehydration of the starch, meanwhile, the scraping plate can be driven to scrape the inner wall of the dehydration cavity, so that the starch can not form residues in the dehydration cavity, after the dehydration is finished, the pull rod is pulled to drive the trapezoid clamping block to move upwards, the limiting rod is inserted into the limiting groove I under the action of the spring I, the starch is conveniently taken out from the discharging pipe, the limiting rod is pulled out after the starch is taken out, and the pull plate is pulled downwards to enable the trapezoid clamping block to be clamped into the trapezoid clamping groove under the elastic action of the spring II, so that the use is convenient.

Drawings

FIG. 1 is a perspective view of a starch dewatering device for starch production according to the present utility model.

FIG. 2 is a sectional view of a starch dewatering apparatus for starch production according to the present utility model.

FIG. 3 is a schematic structural view of a starch dewatering device for starch production according to the present utility model at section A.

As shown in the figure: 1. a placement table; 2. a support leg; 3. a dewatering box; 31. a filter plate; 32. a dewatering cavity; 33. a hopper; 34. a drain pipe; 35. a valve; 36. a top cover; 4. a feeding structure; 41. feeding a material box; 42. a support rod; 43. a rotating shaft; 44. a conveyor belt; 45. a first motor; 46. a baffle; 47. a charging hopper; 48. a first filter screen; 49. a feed pipe; 5. a stirring structure; 51. a second motor; 52. a rotating rod; 53. stirring the leaves; 54. a connecting rod; 55. a scraper; 6. a drying structure; 61. a through hole; 62. a second filter screen; 63. a blower; 64. an electric heating wire coil; 7. a discharging structure; 71. a chute; 72. a moving plate; 721. a first limit groove; 73. a pull rod; 74. a limit rod; 741. a first spring; 742. a pressing plate; 743. a limiting groove II; 75. a telescopic rod; 76. a second spring; 77. a trapezoid clamping block; 78. a trapezoid clamping groove; 79. and a discharging pipe.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals.

It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 3, a starch dehydration device for starch production comprises a placing table 1, supporting legs 2, a dehydration tank 3, a feeding structure 4, a stirring structure 5, a drying structure 6 and a discharging structure 7; the landing leg 2 is located and is placed platform 1 bottom, and dewatering box 3 locates one side of placing platform 1 top, and dewatering box 3 inside bottom fixedly connected with filter 31 is equipped with dehydration chamber 32 above the filter 31, and filter 31 below is equipped with hopper 33, and hopper 33 bottom intercommunication has drain pipe 34, and valve 35 is installed to drain pipe 34's lateral wall, and dehydration chamber 32 top fixedly connected with top cap 36 opens valve 35 when the dehydration is accomplished during the use, and the waste liquid passes through drain pipe 34 and discharges.

The feeding structure 4 is arranged on one side of the placing table 1 far away from the dewatering box 3, the feeding structure 4 comprises a feeding box 41, one side, close to the supporting leg 2, of the bottom of the feeding box 41 is fixedly connected with a supporting rod 42, one end of the supporting rod 42 is fixedly connected to the middle of the supporting leg 2, a group of rotatable rotating shafts 43 are arranged in the feeding box 41, a conveying belt 44 is connected between the rotating shafts 43 in a transmission mode, baffles 46 are arranged on the surface of the conveying belt 44 at equal intervals, the tail ends of the baffles 46 are in contact with the inner side wall of the feeding box 41, the front end, close to the rotating shafts 43, of the bottom of the feeding box 41 is fixedly connected with a motor 45, the output end of the motor 45 is fixedly connected to the rotating shafts 43, a feeding hopper 47 is arranged at the inlet of the bottom of the feeding box 41, a filter screen 48 is arranged in the feeding hopper 47, one side, close to the top of the feeding box 41 is fixedly connected with a feeding pipe 49, the filter screen 48 is convenient to filter impurities carried in undehydrated starch, during use, the motor 45 is started to drive the rotating shafts 43 to rotate, accordingly, undehydrated starch materials fall onto the conveying belt 44 from the hopper 47, are separated by the baffles 46 in sequence, and follow the conveying belt 44, finally move upwards, the conveying belt 44, the front end is close to the conveying hopper and the conveying hopper 32, and processing efficiency is prevented from being blocked by the spiral drum.

The stirring structure 5 is arranged inside the dewatering box 3, the stirring structure 5 comprises a motor II 51, the motor II 51 is fixedly connected to the middle position of the top cover 36, the output end of the motor II 51 is fixedly connected with a rotating rod 52, the rotating rod 52 is rotatably connected to the top cover 36, a plurality of groups of stirring blades 53 are fixedly connected to the rotating rod 52, a plurality of groups of connecting rods 54 are fixedly connected between the stirring blades 53, one end of each connecting rod 54, which is close to the inner wall of the dewatering cavity 32, is fixedly connected with a scraping plate 55, and when in use, the motor II 51 is started to drive the rotating rod 52 to rotate, and then the stirring blades 53 are driven to stir starch to break up and promote the dewatering of the starch, and meanwhile, the scraping plate 55 can be driven to scrape the inner wall of the dewatering cavity 32, so that the starch is taken out from a discharging pipe 79, and the starch cannot form residues in the dewatering cavity 32.

The dehydration tank 3 top is located to stoving structure 6, and stoving structure 6 includes through-hole 61, and through-hole 61 is seted up in the both sides of top cap 36 top surface, and fixedly connected with filter screen two 62 in the through-hole 61, filter screen two 62 below is equipped with fan 63, and top cap 36 is inside to be equipped with heating wire circle 64, and the bull stick 52 outside is located to heating wire circle 64, and the hot-blast of taking the output of heating wire circle 64 into dehydration intracavity 32 to make incasement air temperature rise to start fan 63 during the use, can realize more effective dehydration to starch, finally reaches dry effect, has improved the dry efficiency of starch after the dehydration.

The discharging structure 7 is arranged on one side of the dewatering box 3 far away from the feeding structure 4, the discharging structure 7 comprises a chute 71, the chute 71 is arranged on one side of the dewatering box 3 far away from the feeding box 41, a movable plate 72 is connected in a sliding way in the chute 71, a first limit groove 721 matched with the movable plate 72 is arranged at the bottom of the chute 71, a pull rod 73 is fixedly connected to one side of the top of the movable plate 72 far away from the dewatering box 3, a limit rod 74 is inserted at the top of the pull rod 73, a first spring 741 is sleeved outside a part of the limit rod 74 between the movable plate 72 and the pull rod 73, a pressing plate 742 is fixedly connected to a part of the limit rod 74 between the movable plate 72 and the pull rod 73, a second limit groove 743 matched with the limit rod 74 is arranged on one side of the top of the chute 71 near the rotary rod 52, a telescopic rod 75 is fixedly connected to one side of the bottom of the movable plate 72 near the rotary rod 52, the outside cover of telescopic link 75 is equipped with spring two 76, the one end fixedly connected with trapezoidal joint piece 77 of telescopic link 75, trapezoidal joint groove 78 has been seted up to one side that the spout 71 bottom is close to bull stick 52, one side fixedly connected with discharging pipe 79 that trapezoidal joint groove 78 kept away from bull stick 52, after the dehydration is accomplished in the use, pull rod 73 drives trapezoidal joint piece 77 and upwards moves, make gag lever post 74 peg graft in gag lever post one 743 under spring one 741 effect, pull out gag lever post 74 after the starch is taken out, make trapezoidal joint piece 77 joint in trapezoidal joint groove 78 under the elastic action of spring two 76 with pull rod 73 downward pulling, simultaneously movable plate 72 bottom joint is in gag lever post one 721, the follow-up starch dehydration work of being convenient for.

In specific use, the first motor 45 is started to drive the rotating shaft 43 to rotate, thereby driving the conveying belt 44 to rotate, undehydrated starch raw materials fall onto the conveying belt 44 from the feeding hopper 47, are sequentially separated by the baffle 46 and move upwards along with the conveying belt 44, finally are poured into the dehydration cavity 32, then the second motor 51 is started to drive the rotating rod 52 to rotate, further stirring blades 53 are driven to stir and break up starch to promote dehydration of the starch, meanwhile, the scraping plate 55 can be driven to scrape the inner wall of the dehydration cavity 32, so that the starch can not form residues in the dehydration cavity 32, the valve 35 is opened after dehydration is finished, waste liquid is discharged through the drain pipe 34, then the fan 63 is started to bring hot air produced by the heating wire ring 64 into the dehydration cavity 32 to raise the temperature of air in the box, more effective dehydration of the starch can be realized, finally, the effect of drying is achieved, afterwards, the pull rod 73 is pulled to drive the trapezoid clamping block 77 to move upwards, the limiting rod 74 is inserted into the limiting groove 743 under the action of the first spring 741, the starch is conveniently taken out from the discharging pipe 79, the limiting rod 74 is pulled out, the starch is pulled down, the waste starch is pulled down, the elastic clamping block 76 is pulled down under the action of the second spring 741, the limiting rod 74 is pulled down, the trapezoid clamping block 78 is conveniently and the starch is conveniently dehydrated in the subsequent operation of the trapezoid clamping groove 78.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (6)

1. A starch dewatering device for starch production, which is characterized in that: comprises a placing table (1), supporting legs (2), a dewatering box (3), a feeding structure (4), a stirring structure (5), a drying structure (6) and a discharging structure (7);

The supporting leg (2) is arranged at the bottom of the placing table (1), the dewatering box (3) is arranged at one side of the top of the placing table (1), the feeding structure (4) is arranged at one side of the placing table (1) away from the dewatering box (3), the stirring structure (5) is arranged inside the dewatering box (3), the drying structure (6) is arranged at the top of the dewatering box (3), and the discharging structure (7) is arranged at one side of the dewatering box (3) away from the feeding structure (4).

2. A starch dewatering device for starch production according to claim 1, wherein: the inside bottom fixedly connected with filter (31) of dehydration tank (3), filter (31) top is equipped with dehydration chamber (32), filter (31) below is equipped with hopper (33), hopper (33) bottom intercommunication has drain pipe (34), valve (35) are installed to the lateral wall of drain pipe (34), dehydration chamber (32) top fixedly connected with top cap (36).

3. A starch dewatering device for starch production according to claim 2, wherein: the feeding structure (4) comprises a feeding box (41), one side fixedly connected with bracing piece (42) that is close to landing leg (2) in feeding box (41) bottom, one end fixedly connected with of bracing piece (42) is in the middle of landing leg (2), feeding box (41) inside is equipped with a set of rotatable pivot (43), transmission connection has a conveyer belt (44) between pivot (43), the surface equidistance of conveyer belt (44) is provided with baffle (46), the end of baffle (46) is contacted with the inside wall of feeding box (41), the front end fixedly connected with motor one (45) that is close to pivot (43) one side in feeding box (41) bottom, the output fixedly connected with of motor one (45) is in pivot (43), feeding box (41) bottom entrance is equipped with feeding hopper (47), be equipped with filter screen one (48) in feeding box (47), one side fixedly connected with inlet pipe (49) that is close to top cap (36) in feeding box (41) top.

4. A starch dewatering device for starch production according to claim 2, wherein: stirring structure (5) are including motor two (51), motor two (51) fixedly connected with top cap (36) top intermediate position, motor two (51) output fixedly connected with bull stick (52), bull stick (52) swivelling joint is in top cap (36), fixedly connected with a plurality of groups stirring leaf (53) on bull stick (52), fixedly connected with a plurality of groups connecting rod (54) between stirring leaf (53), one end fixedly connected with scraper blade (55) that connecting rod (54) are close to dehydration chamber (32) inner wall.

5. The starch dewatering device for starch production according to claim 4, wherein: the drying structure (6) comprises through holes (61), the through holes (61) are formed in two sides of the top surface of the top cover (36), a second filter screen (62) is fixedly connected in the through holes (61), a fan (63) is arranged below the second filter screen (62), an electric heating wire ring (64) is arranged in the top cover (36), and the electric heating wire ring (64) is arranged outside the rotating rod (52).

6. The starch dewatering device for starch production according to claim 4, wherein: the discharging structure (7) comprises a chute (71), one side of a feeding box (41) is far away from a water dehydrating tank (3) is arranged on the chute (71), a movable plate (72) is connected in the chute (71) in a sliding way, a first limit groove (721) matched with the movable plate (72) is formed in the bottom of the chute (71), a pull rod (73) is fixedly connected to one side of the top of the movable plate (72) far away from the water dehydrating tank (3), a limit rod (74) is inserted into the top of the pull rod (73), a first spring (741) is sleeved outside a part of the limit rod (74) between the movable plate (72) and the pull rod (73), a pressing plate (742) is fixedly connected to the part of the limit rod (74) between the movable plate (72) and the pull rod (73), a second limit groove (743) matched with the limit rod (74) is formed in one side of the top of the chute (71) close to the bottom of the movable plate (52), a telescopic rod (75) is fixedly connected to one side of the movable plate (72) close to the rotary rod (52), a second telescopic rod (75) is sleeved outside the telescopic rod (75) and one end of the telescopic rod (75) close to the telescopic rod (52) is fixedly connected to one side of the trapezoidal connecting block (78), one side of the trapezoid clamping groove (78) far away from the rotating rod (52) is fixedly connected with a discharging pipe (79).