CN217844601U - Novel disc type continuous dryer - Google Patents

Abstract

The utility model discloses a novel disc continuous drying machine, the reciprocating impact tunnel drilling machine comprises a machine body, the fuselage lower extreme is provided with four kickers, the fuselage upper end is provided with the charging means, inside upwards running through has the blast pipe in fuselage upper end left side, the blast pipe lower extreme is provided with layering air guide device, layering air guide device includes air guide hole, air duct and manifold, layering air guide device lower extreme is connected with the manifold, the manifold outer end is connected with a plurality of air ducts, through setting up layering air guide device at the blast pipe lower extreme, lets the air duct can conduct away the vapor of evaporation in the big year charging tray outside, and the vapor that makes the evaporation send can be quick, timely conduction go out, through setting up the condensate collection device at layering air guide device lower extreme, lets the drop of water that condenses in the manifold flow into the collecting chamber along the drainage tube inside, absorbs and blocks through the carbon core simultaneously, and the rethread is twisted off the collection jar and is handled the water of collecting, prevents that the drop of water from evaporating once more and gets into in the wet material.

Description

Novel disc type continuous dryer

Technical Field

The utility model belongs to the technical field of the desiccator is relevant, concretely relates to novel continuous desiccator of disc.

Background

The disc type continuous drier is continuous drying equipment mainly based on heat conduction for dehumidifying materials, and indirectly heats wet materials placed on a disc surface in a heat conduction mode through stirring of a plurality of layers of fixed hollow heating circular material carrying discs and a rotating rake, so that moisture in the continuously moving and rolling materials is evaporated at an operating temperature, and qualified dry finished products are continuously obtained at the bottom of the equipment.

Through the retrieval, patent document with application number CN202110662404.7 discloses a disk dryer, and disk dryer includes the casing, is equipped with the pivot in the casing, is equipped with the first heating plate of array distribution in the pivot, is equipped with the second heating plate of array distribution in the pivot, is equipped with the hopper on the casing, is equipped with the air exhauster on the casing, is equipped with the rake arm on the first heating plate, is equipped with the harrow leaf on the rake arm, and first heating plate includes a plurality of sector plates, is equipped with interior upright section of thick bamboo on the first heating plate, and interior upright section of thick bamboo is connected with sector plate, and one side of sector plate is equipped with the input port, and the opposite side is equipped with the delivery outlet. The utility model discloses disk dryer, the heating plate is divided into a plurality of fan-shaped little dishes, set up arc and arc piece in the fan-shaped little dish, form the circulation cavity in the heating plate, reduce the thermal stress of heating plate, the protection quotation, but the exhaust duct of current disk continuous dryer only installs the top at the dryer, and the steam of lower floor's evaporation just can be siphoned away by the blast pipe at top after the material of upper strata can be absorbed repeatedly in the fuselage inside, not only reduced the drying efficiency of material, still can cause the damage to little year charging tray and big year charging tray, steam is far greater than the density at fuselage inside at the inside density of blast pipe simultaneously, and the temperature in the blast pipe also is far below the inside temperature of fuselage, so steam condenses inside the blast pipe very easily, form the drop of water, the drop of water that forms also flows once more very easily inside the fuselage, make the material be drenched, reduce material drying efficiency promptly, reduce steam and get rid of efficiency again.

The utility model discloses the content

An object of the utility model is to provide a novel continuous desiccator of disk to the steam that the continuous desiccator of disk evaporation that proposes in solving above-mentioned background art can not be quick, timely discharge, leads to material drying efficiency to reduce, and the steam that evaporates simultaneously condenses once more inside the blast pipe easily and can reach the fuselage inside, makes the material by the problem of wetting.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel disc continuous dryer, includes the fuselage, the fuselage lower extreme is provided with four kickers, the fuselage upper end is provided with the charging means, the inside blast pipe that upwards runs through in fuselage upper end left side, the blast pipe lower extreme is provided with layering air guide device, layering air guide device includes air guide hole, air duct and collection pipe, layering air guide device lower extreme is connected with the collection pipe, it is connected with a plurality of air ducts, a plurality of to collect the pipe outer end the inside all inwards runs through of air duct inner has a plurality of air guide holes, it is connected with the water collection device that condenses to collect the pipe lower extreme.

Preferably, the condensed water collecting device comprises a collecting tank, a drainage tube, a collecting chamber, a baffle ring and a carbon core, wherein the lower end of the collecting pipe is connected with the drainage tube, the lower end of the drainage tube is provided with the carbon core, the lower end of the carbon core is provided with the baffle ring, the collecting tank is sleeved at the lower end of the drainage tube, the collecting chamber penetrates upwards inside the collecting tank, and the drainage tube penetrates upwards inside the left side of the lower end of the machine body.

Preferably, the fuselage is inside to be provided with a plurality of big charging trays that carry, and is a plurality of it carries the charging tray to carry to be provided with a plurality of little between the charging tray greatly, and is a plurality of it carries the charging tray and a plurality of big upper ends of carrying all to be provided with a plurality of commentaries on classics harrows for carrying, the feeder can carry wet material to the big upper end of carrying the charging tray of upper end greatly.

Preferably, it is a plurality of the commentaries on classics harrow will carry the wet material of charging tray upper end to the inboard through the rotation and turn, carry the charging tray intermediate position greatly and be provided with the hole that falls and wet material and fall to the charging tray upper end of carrying for a short time from the hole that falls when turning to the most inboard, the commentaries on classics harrow is through rotatory carrying the wet material of charging tray upper end for a short time outwards to turn and wet material and fall to the charging tray upper end of carrying for a short time along the edge when turning the outside.

Preferably, the fuselage rear end is provided with the heating pipe of connection in that little year charging tray and big year charging tray are inside, the heating pipe carries heating medium little year charging tray and big year charging tray inside and heating medium again from another more heat pipe outflow after little year charging tray and big year charging tray internal circulation round, the fuselage lower extreme is provided with discharge gate and fuselage lower extreme and is conical setting.

Preferably, the air guide pipes are uniformly distributed at the outer end of the collecting pipe downwards, the insides of the air guide pipes are communicated with the inside of the collecting pipe, the air guide pipes are arranged in an annular mode, and the air guide holes are uniformly distributed at the inner ends of the air guide pipes and the insides of the air guide holes are communicated with the inside of the air guide pipes.

Preferably, the collecting pipe and the drainage pipe are fixed on the left side of the lower end of the machine body in a welding mode, the collecting pipe is communicated with the inside of the drainage pipe, the drainage pipe is fixedly connected with the collecting tank through threads, the outer diameter of the carbon core is larger than the inner diameter of the drainage pipe and larger than the inner diameter of the baffle ring, the collecting chamber is arranged in a convex mode, and the carbon core can move up and down in the upper end of the collecting chamber.

Compared with the prior art, the utility model provides a novel disc continuous drying machine possesses following beneficial effect:

1. through set up layering air guide device at the blast pipe lower extreme, let the air duct can conduct away the steam that evaporates in the heavy burden charging tray outside, prevent that the steam that the lower floor evaporated from entering into the wet material on other layers once more, make the steam that evaporates can quick, timely conduction go away, improve drying efficiency.

2. Through setting up the water collection device that condenses at layering air guide device lower extreme, let collect intraductal condensation drop of water flow into along the drainage tube and collect indoor portion, absorb and block through the carbon core simultaneously, the rethread is twisted off the collection tank and is handled the water of collecting, prevents in the drop of water secondary evaporation enters into wet material, can effectively improve the conduction efficiency of steam.

Drawings

Fig. 1 is a schematic view of a three-dimensional section structure of a novel disc type continuous dryer of the present invention.

Fig. 2 is a schematic view of the three-dimensional section structure of the layered gas guide device of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the condensed water collecting device of the present invention.

Fig. 4 is a schematic view of a three-dimensional section structure of the condensed water collecting device of the present invention.

In the figure: 1. an exhaust pipe; 2. a layered gas guide device; 3. a small material carrying disc; 4. rotating the harrow; 5. a large material carrying tray; 6. a condensed water collecting device; 7. supporting legs; 8. a body; 9. a feeder; 10. a gas-guide hole; 11. an air duct; 12. a collecting pipe; 13. a collection tank; 14. a drainage tube; 15. a collection chamber; 16. a baffle ring; 17. a carbon core.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model provides a as shown in fig. 1-4 a novel disk continuous drying machine, including fuselage 8, 8 lower extremes of fuselage are provided with four legs 7, 8 upper ends of fuselage are provided with charging means 9, 8 upper ends left sides of fuselage are inside upwards to run through there is blast pipe 1, 1 lower extreme of blast pipe is provided with layering air guide device 2, layering air guide device 2 includes air guide hole 10, air duct 11 and collection pipe 12, 2 lower extremes of layering air guide device are connected with collection pipe 12, collection pipe 12 outer end is connected with a plurality of air ducts 11, 11 the inside all inwards run through there are a plurality of air guide holes 10 in a plurality of air ducts 11, collection pipe 12 lower extreme is connected with congeals water collection device 6, it is including collection jar 13 to congeal water collection device 6, drainage tube 14, collection room 15, fender ring 16 and carbon core 17, collection pipe 12 lower extreme is connected with drainage tube 14, drainage tube 14 lower extreme is provided with carbon core 17, carbon core 17 lower extreme is provided with fender ring 16, drainage tube 14 lower extreme has cup jointed collection jar 13, collection jar 13 is upwards run through to collection jar 13 inside upwards, drainage tube 14 is inside, drainage upwards runs through there is collection room 15, drainage tube 14 upwards runs through in 8 lower extreme left sides inside.

As shown in fig. 1, a plurality of large material loading trays 5 are arranged inside a machine body 8, a plurality of small material loading trays 3 are arranged between the large material loading trays 5, a plurality of rotary rakes 4 are arranged at the upper ends of the small material loading trays 3 and the large material loading trays 5, wet materials can be conveyed to the upper end of the large material loading tray 5 at the uppermost end by a feeder 9, the wet materials at the upper end of the large material loading tray 5 are turned inwards by the rotary rakes 4 through rotation, the wet materials can be dried more quickly, a falling hole is formed in the middle of the large material loading tray 5, the wet materials fall to the upper end of the small material loading tray 3 from the falling hole when turning to the innermost end, continuous drying can be achieved, the rotary rakes 4 rotate the wet materials of the small material loading tray 3 outwards, the wet materials fall to the upper end of the next large material loading tray 5 along the edge when turning to the outermost side, the wet materials can be conveyed downwards better, the rear end of the machine body 8 is provided with a conical material discharge hole which is connected between the small material loading tray 3 and the large material loading tray 5, temperature stability is kept, a heating pipe conveys heating media to the inside the small material loading tray 3 and the large material loading tray 5, and the large material loading tray 8, and the heating pipe is arranged to be more convenient to flow out, and another circle of the lower end of the large material loading tray 8, and the machine body to collect heat pipe, and the heat pipe is arranged to be more convenient to be dried.

As shown in figure 2, a plurality of air ducts 11 evenly distribute downwards in the outer end of collection pipe 12, and the air guide effect is better, and a plurality of air ducts 11 are inside all to be linked together with collection pipe 12, can be better derive steam, and air duct 11 is the annular setting, and a plurality of air guide holes 10 evenly distributed are all linked together with air duct 11 is inside at air duct 11 inner and a plurality of air guide holes 10, can be more timely with steam leading-in collection pipe 12 inside.

As shown in figures 3 and 4, a collecting pipe 12 and a drainage pipe 14 are fixed on the left side of the lower end of a machine body 8 in a welding mode, the collecting pipe 12 is communicated with the inside of the drainage pipe 14, the fixing is firmer, the sealing performance is better, the drainage pipe 14 is fixedly connected with a collecting tank 13 through threads, the fixing and the taking down are more convenient, the outer diameter of a carbon core 17 is larger than the inner diameter of the drainage pipe 14 and larger than the inner diameter of a baffle ring 16, the carbon core 17 can be better fixed in position, a collecting chamber 15 is arranged in a convex shape, the carbon core 17 can move up and down in the upper end of the collecting chamber 15, and the carbon core 17 can be more conveniently replaced.

The utility model discloses theory of operation: the dryer power supply is opened, the dryer is preheated, then wet materials are conveyed to the interior of a feeder 9, the wet materials are conveyed to the upper end of a large material carrying disc 5 in a machine body 8 through the feeder 9, the wet materials are turned inwards through a rotary rake 4 and fall to the upper end of a small material carrying disc 3 on the next layer, the rotary rake 4 on the upper end of the small material carrying disc 3 turns the wet materials outwards again, the wet materials finally fall to the upper end of the large material carrying disc 5 on the next layer from the edge, the wet materials are finally led out from a discharge port at the lower end of the machine body 8 in a reciprocating mode, in the process, the water vapor evaporated by the wet materials can be conducted to an exhaust pipe 1 through a layered air guide device 2, when the evaporated water vapor reaches the outer side of the large material carrying disc 5 on each layer, the evaporated water vapor can enter an air guide pipe 11 along an air guide hole 10 and then enters the interior of a collecting pipe 12, the water vapor finally is discharged along the exhaust pipe 1, the evaporated water vapor can be rapidly and timely discharged, the water vapor cannot enter other layers and can be re-absorbed by the wet materials through a collecting pipe, the collecting device 17, the drying efficiency can be effectively improved, meanwhile, the drying efficiency can be improved when the water vapor collecting efficiency and the water vapor collecting efficiency of the collecting device is improved after the collecting device is changed, the collecting device, and the collecting device, the collecting device can be improved after the water collecting efficiency of the collecting device, and the collecting device, the collecting device can be improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a novel continuous desiccator of disk, includes fuselage (8), is located four leg (7) of fuselage (8) lower extreme, is located feeder (9) of fuselage (8) upper end, is located left blast pipe (1) in fuselage (8) upper end, its characterized in that: the lower end of the exhaust pipe (1) is provided with a layered air guide device (2);

layering air guide device (2) are including air guide hole (10), air duct (11) and collection pipe (12), layering air guide device (2) lower extreme is connected with collection pipe (12), collection pipe (12) outer end is connected with a plurality of air ducts (11), and is a plurality of air duct (11) inner inside all inwards runs through has a plurality of air guide holes (10), collection pipe (12) lower extreme is connected with and congeals water collection device (6).

2. The novel tray type continuous dryer as claimed in claim 1, wherein: condensate water collection device (6) are including collection tank (13), drainage tube (14), collection room (15), keep off ring (16) and carbon core (17), collection pipe (12) lower extreme is connected with drainage tube (14), drainage tube (14) lower extreme is provided with carbon core (17), carbon core (17) lower extreme is provided with keeps off ring (16), collection tank (13) have been cup jointed to drainage tube (14) lower extreme, collection tank (13) inside upwards runs through there is collection room (15), drainage tube (14) upwards runs through inside fuselage (8) lower extreme left side.

3. The novel tray type continuous dryer as claimed in claim 1, wherein: fuselage (8) inside is provided with a plurality of big charging trays (5) that carry, and is a plurality of carry charging tray (3) a plurality of for a short time, a plurality of carry charging tray (3) and a plurality of big charging tray (5) upper end all to be provided with a plurality of commentaries on classics harrow (4) greatly carry between charging tray (5), feeder (9) can carry wet material and carry the big charging tray (5) upper end of carrying of upper end greatly.

4. The novel tray type continuous dryer as claimed in claim 3, wherein: it is a plurality of change harrow (4) will carry the wet material in the charging tray (5) upper end to the inboard side through the rotation and turn, carry charging tray (5) intermediate position greatly and be provided with down the hole and wet material and fall to carrying charging tray (3) upper end for a short time from the hole of falling when turning to the most inboard, change harrow (4) and fall to carrying charging tray (5) upper end for a long time along the edge when the wet material that will carry the charging tray (3) upper end for a short time outwards turns and wet material turns the outside through the rotation.

5. The novel tray type continuous dryer as claimed in claim 3, wherein: fuselage (8) rear end is provided with the connection and carries the heating pipe of charging tray (3) and carry inside of charging tray (5) greatly for a short time, the heating pipe carries heating medium to carry charging tray (3) and carry inside and heating medium of charging tray (5) and carry again from another heat pipe more behind charging tray (3) and the internal circulation round of charging tray (5) greatly for a short time and flow out, fuselage (8) lower extreme is provided with discharge gate and fuselage (8) lower extreme and is conical setting.

6. The novel tray type continuous dryer as claimed in claim 1, wherein: a plurality of air duct (11) evenly distributes downwards in header pipe (12) outer end, and is a plurality of air duct (11) inside all is linked together with header pipe (12) inside, air duct (11) are the annular setting, and is a plurality of air guide hole (10) evenly distributed all is linked together with air duct (11) inside at air duct (11) inner and a plurality of air guide hole (10).

7. The novel tray type continuous dryer as claimed in claim 2, wherein: the collecting pipe (12) and the drainage pipe (14) are fixed on the left side of the lower end of the machine body (8) in a welding mode, the collecting pipe (12) is communicated with the interior of the drainage pipe (14), the drainage pipe (14) is fixedly connected with the collecting tank (13) through threads, the outer diameter of the carbon core (17) is larger than the inner diameter of the drainage pipe (14) and larger than the inner diameter of the baffle ring (16), the collecting chamber (15) is arranged in a convex shape, and the carbon core (17) can move up and down in the upper end of the collecting chamber (15).

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