CN202470677U - Novel drainage sand drying tower - Google Patents

Abstract

A novel drainage sand drying tower relates to a drying device. A first guide plate (6) is in an inverted conical shape and arranged on the lower part of a material distributor (4), a first feeding port (7) is formed on the lower part of the first guide plate (6), a second guide plate (10) is in a conical shape and arranged on the lower part of the first guide plate (6), a first hot air port (9) is formed on the upper part of the second guide plate (10), a second feeding port (10) is formed by the periphery of the lower part of the second guide plate (10) and an inner wall (2), a third feeding port (13) is formed on the lower part of a third guide plate (12), a fourth guide plate (15) is fixed on the inner wall (2) through three second supports (14), a second hot air port (16) is formed on the upper part of the fourth guide plate (15), and a fourth feeding port (17) is formed by the periphery of the lower part of the fourth guide plate (15) and the inner wall (2). The novel drainage sand drying tower is reasonable in design and simple in structure, the running field of equipment is clean and sanitary, and the yield is high.

Description

A kind of novel drainage sand drying tower

Technical field:

The utility model relates to a kind of drying unit, is specifically related to a kind of novel vertical drainage sand drying tower.

Background technology:

Mostly the existing drying plant of controlling the gold use is the plane of structure roller dryer, and this machine has following technological deficiency, and the oven dry material is inhomogeneous, and floor space is big and energy consumption is high, bad adaptability, and labor strength is big, because of it needs manual work material is sent into dryer.

The utility model content:

The purpose of the utility model provides a kind of novel drainage sand drying tower, and it is reasonable in design, and is simple in structure, with low cost; This tower heat-insulating property is strong, under the drainage sand material flow resistance little, need not artificial material loading, the tower floor space is little, can save labour 50%, product quality reaches 98% quality percentage; The oven dry dry materials is even, and energy consumption is low, adapts to by force, and labor strength is little; Thermal source is stable, equipment operational site cleaning, health, and yield rate is high.

In order to solve the existing problem of background technology, the utility model is to adopt following technical scheme: it comprises tower outer wall 1, inner wall of tower 2, charging aperture 3, stock distributor 4, exhaust duct 5, first deflector 6, first support 8, second deflector 10, the 3rd deflector 12, second support 14, the 4th deflector 15, discharging opening 18 and intake stack 19; Tower outer wall 1 is arranged on the outside of inner wall of tower 2, and the insulation material composition cylindrical shell of tower outer wall 1 and inner wall of tower 2 and setting between the two thereof, and charging aperture 3 is arranged on the top of cylindrical shell; Stock distributor 4 is arranged on the top of cylindrical shell, and stock distributor 4 is arranged on the bottom of charging aperture 3, and exhaust duct 5 is arranged on the outside upper right quarter of cylindrical shell; The upper end of first deflector 6 is fixed on the inwall 2, and is the bottom that back taper is arranged on stock distributor 4, and first feed opening 7 is formed at the bottom of first deflector 6; Second deflector, the 10 tapered bottoms that are arranged on first deflector 6; Second deflector 10 is fixed on the inwall 2 through three first supports 8, and the bottom that first hot-air mouth, 9, the second deflectors 10 are formed at the top of second deflector 10 forms second feed opening 11 with inwall 2 on every side; The 3rd deflector 12 is the bottom that back taper is arranged on second deflector 10; And the 3rd feed opening 13, the four deflectors 15 tapered bottoms that are arranged on the 3rd deflector 12 are formed at the bottom of the 3rd deflector 12, and the 4th deflector 15 is fixed on the inwall 2 through three second supports 14; Second hot-air mouth 16 is formed at the top of the 4th deflector 15; Form the 4th feed opening 17 with inwall 2 around the bottom of the 4th deflector 15, discharging opening 18 is arranged on the bottom of cylindrical shell, and intake stack 19 is arranged on the lower left quarter in the cylindrical shell outside.

Described first deflector 6 is 25-40 ° of angle with inwall 2.

The utlity model has following beneficial effect: it is reasonable in design, and is simple in structure, with low cost, this tower heat-insulating property is strong, under the drainage sand material flow resistance little, need not artificial material loading; The tower floor space is little, can save labour 50%, and product quality reaches 98% quality percentage, and the oven dry dry materials is even; And energy consumption is low, adapts to by force, and labor strength is little; Thermal source is stable, equipment operational site cleaning, health, and yield rate is high.

Description of drawings:

Fig. 1 is the structural representation of the utility model.

The specific embodiment:

Referring to Fig. 1, this specific embodiment adopts following technical scheme: it comprises tower outer wall 1, inner wall of tower 2, charging aperture 3, stock distributor 4, exhaust duct 5, first deflector 6, first support 8, second deflector 10, the 3rd deflector 12, second support 14, the 4th deflector 15, discharging opening 18 and intake stack 19; Tower outer wall 1 is arranged on the outside of inner wall of tower 2, and the insulation material composition cylindrical shell of tower outer wall 1 and inner wall of tower 2 and setting between the two thereof, and charging aperture 3 is arranged on the top of cylindrical shell; Stock distributor 4 is arranged on the top of cylindrical shell, and stock distributor 4 is arranged on the bottom of charging aperture 3, and exhaust duct 5 is arranged on the outside upper right quarter of cylindrical shell; The upper end of first deflector 6 is fixed on the inwall 2, and is the bottom that back taper is arranged on stock distributor 4, and first feed opening 7 is formed at the bottom of first deflector 6; Second deflector, the 10 tapered bottoms that are arranged on first deflector 6; Second deflector 10 is fixed on the inwall 2 through three first supports 8, and the bottom that first hot-air mouth, 9, the second deflectors 10 are formed at the top of second deflector 10 forms second feed opening 11 with inwall 2 on every side; The 3rd deflector 12 is the bottom that back taper is arranged on second deflector 10; And the 3rd feed opening 13, the four deflectors 15 tapered bottoms that are arranged on the 3rd deflector 12 are formed at the bottom of the 3rd deflector 12, and the 4th deflector 15 is fixed on the inwall 2 through three second supports 14; Second hot-air mouth 16 is formed at the top of the 4th deflector 15; Form the 4th feed opening 17 with inwall 2 around the bottom of the 4th deflector 15, discharging opening 18 is arranged on the bottom of cylindrical shell, and intake stack 19 is arranged on the lower left quarter in the cylindrical shell outside.

Described first deflector 6 is 25-40 ° of angle with inwall 2.

Through stock distributor 4, stock distributor 4 is with the material uniform distribution, and is material bed thin along charging aperture 3 for material; Material can be along first deflector 6, first feed opening 7 that goes downstream, and material goes downstream along second deflector 10, to second feed opening 11; Go downstream along the 3rd deflector 12 again and get into the 3rd feed opening 13; Go downstream along the 4th deflector 15 and get into the 4th feed opening 17, the back gets into discharging opening 18, and hot blast gets into second hot-air mouth 16 through hot-air distributor along the 4th deflector 15; Hot blast gets into first hot-air mouth 9 from the 3rd feed opening 13; Get into first feed opening 7 by first hot-air mouth 9 again, get into exhaust outlet through stock distributor 4 again, get into exhaust duct 5 by exhaust outlet.In this process, material and hot blast can carry out abundant drying at dry place, because of deflector is skewed; In the process of Flow of Goods and Materials, material can be the thin layer thermally equivalent and then accomplish dry run, and material is through three dry places thus; Fully very thermally equivalent is accomplished drying fully, and novel in addition drainage sand drying tower vertical structure is better, and has used centrifugal force to make material from top to bottom; But need not stir just thermally equivalent, realize energy-conserving and environment-protective, improve productivity ratio.

This specific embodiment is reasonable in design, and is simple in structure, with low cost, this tower heat-insulating property is strong, under the drainage sand material flow resistance little, need not artificial material loading; The tower floor space is little, can save labour 50%, and product quality reaches 98% quality percentage, and the oven dry dry materials is even; And energy consumption is low, adapts to by force, and labor strength is little; Thermal source is stable, equipment operational site cleaning, health, and yield rate is high.

Claims (2)

1. a novel drainage sand drying tower is characterized in that it comprises tower outer wall (1), inner wall of tower (2), charging aperture (3), stock distributor (4), exhaust duct (5), first deflector (6), first support (8), second deflector (10), the 3rd deflector (12), second support (14), the 4th deflector (15), discharging opening (18) and intake stack (19); Tower outer wall (1) is arranged on the outside of inner wall of tower (2), and the insulation material composition cylindrical shell of tower outer wall (1) and inner wall of tower (2) and setting between the two thereof, and charging aperture (3) is arranged on the top of cylindrical shell; Stock distributor (4) is arranged on the top of cylindrical shell; And stock distributor (4) is arranged on the bottom of charging aperture (3), and exhaust duct (5) is arranged on the outside upper right quarter of cylindrical shell, and the upper end of first deflector (6) is fixed on the inwall (2); And be the bottom that back taper is arranged on stock distributor (4); First feed opening (7) is formed at the bottom of first deflector (6), the tapered bottom that is arranged on first deflector (6) of second deflector (10), and second deflector (10) is fixed on the inwall (2) through three first supports (8); First hot-air mouth (9) is formed at the top of second deflector (10); Form second feed opening (11) with inwall (2) around the bottom of second deflector (10), the 3rd deflector (12) is the bottom that back taper is arranged on second deflector (10), and the 3rd feed opening (13) is formed at the bottom of the 3rd deflector (12); The tapered bottom that is arranged on the 3rd deflector (12) of the 4th deflector (15); The 4th deflector (15) is fixed on the inwall (2) through three second supports (14), and second hot-air mouth (16) is formed at the top of the 4th deflector (15), forms the 4th feed opening (17) with inwall (2) around the bottom of the 4th deflector (15); Discharging opening (18) is arranged on the bottom of cylindrical shell, and intake stack (19) is arranged on the lower left quarter in the cylindrical shell outside.

2. a kind of novel drainage sand drying tower according to claim 1 is characterized in that described first deflector (6) and inwall (2) are 25-40 ° of angle.

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