CN206142145U - Material mixes stirring conveying equipment - Google Patents

Abstract

The utility model discloses a material mixes stirring conveying equipment, including the base, installing the casing on the base, the inside of casing is equipped with fast axis and slow -speed shaft side by side, and the right side of casing is equipped with speed reducer and the power device continuous with the speed reducer, the right -hand member of fast axis and the right -hand member of slow -speed shaft all link to each other with the speed reducer, the up end of casing is equipped with at least one feed inlet, and the lower terminal surface of casing is equipped with a discharge gate, the direction of rotation of fast axis is opposite with the direction of rotation of slow -speed shaft, the fast axis is equipped with a plurality of blades I, and the helical structure I who forms the discontinuous is arranged along the axial spiral of fast axis to blade I, and the slow -speed shaft is equipped with a plurality of blades II, and revolving to on the contrary of helical structure II, the helical structure I that forms the discontinuous and helical structure II is arranged to blade II along the axial spirals of slow -speed shaft, and helical structure I and helical structure are II crisscross each other. The utility model discloses compact structure, through the high speed of fast axis break up, the abundant mixtures of combined effect between fast axis and the slow -speed shaft.

Description

A kind of material mixes conveying equipment

Technical field

This utility model is related to raw material processing apparatus field, refers in particular to a kind of material and mixes conveying equipment.

Background technology

Material is mixed when particularly mixing to two kinds of materials of dry and wet, wherein one that to be faced If problem is exactly that humidity of materials is larger, product quality will be had a strong impact on, typically to solve the problems, such as the larger needs of humidity of materials Addition so can be mixed well using the material drying device of energy heats to material, but this side Method will improve production cost.

The content of the invention

To solve the problems, such as prior art, the utility model proposes a kind of compact conformation, depolymerization ability are strong, mix effect Material that is really good, being capable of flexible blade angle mixes conveying equipment.

This utility model be solve the problems, such as technical scheme that prior art adopted for：A kind of material is mixed Conveying equipment, including pedestal, the housing on pedestal, the inside of housing is provided with side by side high speed shaft and slow-speed shaft, at a high speed The two ends of axle are connected respectively with the left and right two ends of housing；The two ends of slow-speed shaft are connected respectively with the left and right two ends of housing；Housing The power set that right side is provided with reductor and is connected with reductor；The right-hand member of high speed shaft and the right-hand member of slow-speed shaft with deceleration Machine is connected；The upper surface of housing is provided with least one charging aperture, and the lower surface of housing is provided with a discharging opening；The rotation of high speed shaft Direction is contrary with the direction of rotation of slow-speed shaft；

High speed shaft is provided with some blades I, and blade I arranges the helical structure I to form discontinuous along the axial screw of high speed shaft, Slow-speed shaft is provided with some blades II, and blade II arranges the helical structure II to form discontinuous, spiral along the axial screw of slow-speed shaft Structure I is oppositely oriented with helical structure II, and helical structure I is interlaced with helical structure II.

Further, blade I is arranged on high speed shaft by screw rod I, and screw rod I extends radially through high speed shaft along high speed shaft；Spiral shell It is parallel to each other between bar I；

Blade II is arranged on slow-speed shaft by screw rod II, and screw rod II extends radially through slow-speed shaft along slow-speed shaft.

Further, screw rod I is cased with successively blade seat I, inferior lobe bar I and nut I, blade seat I and lower blade The both sides that seat I is respectively arranged on high speed shaft, blade seat I is located between blade I and high speed shaft, one end of blade seat I be provided with The cooperating teeth I of the matching connection of blade I, the other end is provided with the globoidal structure I coupled with high speed shaft matching；One end of inferior lobe bar I The globoidal structure II coupled with high speed shaft matching is provided with, the other end is contacted with nut I and is connected；

Screw rod II is cased with successively blade seat II, inferior lobe bar II and nut II, blade seat II and inferior lobe bar II both sides for being respectively arranged on slow-speed shaft, blade seat II is located between blade II and slow-speed shaft, and one end of blade seat II is provided with The cooperating teeth II coupled with the matching of blade II, the other end is provided with the globoidal structure III coupled with slow-speed shaft matching；Inferior lobe bar II One end be provided with and the slow-speed shaft globoidal structure IV that couple of matching, the other end contacts connected with nut II.

Further, surface of the charging aperture located at gap between high speed shaft and slow-speed shaft；Discharging opening located at high speed shaft with it is low The underface in gap between fast axle.

Further, the material conveying direction of high speed shaft and slow-speed shaft is direction of the charging aperture to discharging opening.

Further, the two ends of high speed shaft are connected respectively by bearing I, bearing II with housing, and the two ends of slow-speed shaft lead to respectively Cross bearing III, bearing IV to be connected with housing.

Further, the right-hand member of the right-hand member of high speed shaft and slow-speed shaft is connected respectively by shaft coupling with reductor.

Further, power set are motor.

Further, the rotary speed of high speed shaft is the twice of low speed axle rotary speed.

This utility model has an advantage in that relative to prior art

1st, the convenient aggregate for crushing large-scale wet feed material of this utility model high speed shaft, combining between high speed shaft and slow-speed shaft Effect can be sufficiently mixed material, and material will not be sticked to affect on housing overall mixed performance, it is possible to increase mixed performance, no The situation for needing Jing often to clean housing occurs；

2nd, material is sufficiently mixed because of the synergy between high speed shaft and slow-speed shaft in this utility model, the profit inside material Wet water, pore water are absorbed from reference to moisture after dry powder blend becomes unbound water, sticky adhering liquid（Cream pasty state） Define that density is little, deposition rate is high, specific surface area is big, loose little particle state；Material internal moisture diffusion loose after mixing Surface is arrived, the area of mass transfer between granule and air-flow can have been increased, moisture evaporation block, transmission resistance is little, if coordinating heating dry Dry equipment, can saving heat energy, improve the thermal efficiency；

3rd, this utility model designs horizontal type structure using twin shaft, using same Motor drive, solution is being improved to greatest extent The device space is reduced while poly- mixed, compact conformation, structural stability is strong；

4th, cooperating teeth is provided between blade of the present utility model and blade seat, can conveniently adjusts the direction of blade, adjusted Examination is convenient, it is possible to increase the adaptability of integral device；Expand the scope of application.

Description of the drawings

Fig. 1 is the schematic front view of the embodiment of this utility model one；

Fig. 2 is the schematic top plan view of Fig. 1 embodiments；

Fig. 3 is the schematic perspective view of Fig. 1 embodiments；

Fig. 4 is the structural representation of Fig. 1 Leafs I.

Specific embodiment

This utility model is described further in conjunction with accompanying drawing and embodiment.

Embodiment

With reference to Fig. 1, Fig. 2 and Fig. 3, the present embodiment includes pedestal 1, the housing 2 on pedestal 1, the inside of housing 2 High speed shaft 3 and slow-speed shaft 4 are provided with side by side, and the two ends of high speed shaft 3 are connected respectively with the left and right two ends of housing 2；The two of slow-speed shaft 4 End is connected respectively with the left and right two ends of housing 2；The power set that the right side of housing 2 is provided with reductor 5 and is connected with reductor 5 6；The right-hand member of high speed shaft 3 and the right-hand member of slow-speed shaft 4 are connected with reductor 5；The upper surface of housing 2 is provided with two charging apertures, One siccative charging aperture 7, a wet feed charging aperture 8, the lower surface of housing 2 is provided with a discharging opening；The direction of rotation of high speed shaft 3 It is contrary with the direction of rotation of slow-speed shaft 4；

High speed shaft 3 is provided with some blades I 9, and blade I 9 arranges the spiral knot to form discontinuous along the axial screw of high speed shaft 3 Structure I, slow-speed shaft 4 is provided with some blades II 10, and blade II 10 arranges the spiral knot to form discontinuous along the axial screw of slow-speed shaft 4 Structure II, helical structure I is oppositely oriented with helical structure II, and helical structure I is interlaced with helical structure II；In high speed shaft 3 And in the middle of the rotary course of slow-speed shaft 4, helical structure I will not be interfered with each other with helical structure II, that is to say, that blade I 9 with Blade II 10 is just interleaved in rotary course.

Blade I 9 is arranged on high speed shaft 3 by screw rod I 91, and screw rod I 91 extends radially through high speed shaft 3 along high speed shaft 3；Spiral shell It is parallel to each other between bar I 91；

Blade II 10 is arranged on slow-speed shaft 4 by screw rod II, and screw rod II extends radially through slow-speed shaft 4 along slow-speed shaft 4.

Screw rod I 91 is cased with successively blade seat I 92, inferior lobe bar I 93 and nut I 94, blade seat I 92 and inferior lobe Bar I 93 is respectively arranged on the both sides of high speed shaft 3, and blade seat I 92 is located between blade I 9 and high speed shaft 3, blade seat I 92 One end is provided with the cooperating teeth I coupled with the matching of blade I 9, and the other end is provided with the globoidal structure I coupled with the matching of high speed shaft 3；Inferior lobe One end of bar I 93 is provided with the globoidal structure II coupled with the matching of high speed shaft 3, and the other end is contacted with nut I 94 and is connected；

Screw rod II is cased with successively blade seat II, inferior lobe bar II and nut II, blade seat II and inferior lobe bar II both sides for being respectively arranged on slow-speed shaft 4, blade seat II is located between blade II 10 and slow-speed shaft 4, one end of blade seat II The cooperating teeth II coupled with the matching of blade II 10 is provided with, the other end is provided with the globoidal structure III coupled with the matching of slow-speed shaft 4；Inferior lobe One end of bar II is provided with the globoidal structure IV coupled with the matching of slow-speed shaft 4, and the other end is contacted with nut II and is connected.

Cooperating teeth I and this structure of cooperating teeth II can conveniently adjust the angle of blade I 9 and blade II 10.

The surface of siccative charging aperture 7, wet feed charging aperture 8 located at gap between high speed shaft 3 and slow-speed shaft 4；Discharging opening sets The underface in gap between high speed shaft 3 and slow-speed shaft 4.

The material conveying direction of high speed shaft 3 and slow-speed shaft 4 is direction of the charging aperture to discharging opening.

The two ends of high speed shaft 3 are connected respectively by bearing I, bearing II with housing 2, and the two ends of slow-speed shaft 4 pass through respectively axle Hold III, bearing IV to be connected with housing 2.

The right-hand member of high speed shaft 3 and the right-hand member of slow-speed shaft 4 are connected respectively by shaft coupling with reductor 5.

Power set 6 are motor.

The rotary speed of high speed shaft 3 is the twice of the rotary speed of slow-speed shaft 4.

Dry material is entered inside housing 2 from siccative charging aperture 7, and wet stock is entered inside housing 2 from wet feed charging aperture 8, is led to The high speed for crossing high speed shaft 3 is broken up, the synergy between high speed shaft 3 and slow-speed shaft 4, and fully two kinds of materials are mixed, high Fast axle 3 is consistent with the material transportation direction of slow-speed shaft 4, and final mixed material leaves housing 2 by discharging opening.

Claims (9)

1. a kind of material mixes conveying equipment, it is characterised in that including pedestal, the housing on pedestal, the shell The inside of body is provided with side by side high speed shaft and slow-speed shaft, and the two ends of the high speed shaft are connected respectively with the left and right two ends of housing；Institute The two ends for stating slow-speed shaft are connected respectively with the left and right two ends of housing；Be provided with the right side of the housing reductor and with reductor phase Power set even；The right-hand member of the high speed shaft and the right-hand member of slow-speed shaft are connected with reductor；The upper surface of the housing At least one charging aperture is provided with, the lower surface of the housing is provided with a discharging opening；The direction of rotation of the high speed shaft and low speed The direction of rotation of axle is contrary；

The high speed shaft is provided with some blades I, and the blade I arranges the spiral knot to form discontinuous along the axial screw of high speed shaft Structure I, the slow-speed shaft is provided with some blades II, and the blade II arranges the spiral to form discontinuous along the axial screw of slow-speed shaft Structure II, the helical structure I is oppositely oriented with helical structure II, and the helical structure I is interlaced with helical structure II.

2. material according to claim 1 mixes conveying equipment, it is characterised in that the blade I is pacified by screw rod I It is mounted on high speed shaft, the screw rod I extends radially through high speed shaft along high speed shaft；It is parallel to each other between the screw rod I；The blade II is arranged on slow-speed shaft by screw rod II, and the screw rod II extends radially through slow-speed shaft along slow-speed shaft.

3. material according to claim 2 mixes conveying equipment, it is characterised in that the screw rod I is cased with successively Blade seat I, inferior lobe bar I and nut I, upper leaf bar I and inferior lobe bar I are respectively arranged on the both sides of high speed shaft, institute State blade seat I to be located between blade I and high speed shaft, one end of upper leaf bar I is provided with the cooperation coupled with the matching of blade I Tooth I, the other end is provided with the globoidal structure I coupled with high speed shaft matching；One end of the inferior lobe bar I is provided with and is matched with high speed shaft The globoidal structure II of connection, the other end is contacted with nut I and is connected；

The screw rod II is cased with successively blade seat II, inferior lobe bar II and nut II, upper leaf bar II and inferior lobe Bar II is respectively arranged on the both sides of slow-speed shaft, and upper leaf bar II is located between blade II and slow-speed shaft, upper leaf bar II one end is provided with the cooperating teeth II coupled with the matching of blade II, and the other end is provided with the globoidal structure coupled with slow-speed shaft matching Ⅲ；One end of the inferior lobe bar II is provided with the globoidal structure IV coupled with slow-speed shaft matching, and the other end contacts phase with nut II Even.

4. material according to claim 1 mixes conveying equipment, it is characterised in that the charging aperture is located at high speed shaft The surface in gap between slow-speed shaft；Underface of the discharging opening located at gap between high speed shaft and slow-speed shaft.

5. material according to claim 4 mixes conveying equipment, it is characterised in that the high speed shaft and slow-speed shaft Material conveying direction be charging aperture to discharging opening direction.

6. material according to claim 1 mixes conveying equipment, it is characterised in that the two ends difference of the high speed shaft It is connected with housing by bearing I, bearing II, the two ends of the slow-speed shaft are connected respectively by bearing III, bearing IV with housing.

7. material according to claim 1 mixes conveying equipment, it is characterised in that the right-hand member of the high speed shaft and The right-hand member of slow-speed shaft is connected respectively by shaft coupling with reductor.

8. material according to claim 1 mixes conveying equipment, it is characterised in that the power set are motor.

9. material according to claim 1 mixes conveying equipment, it is characterised in that the rotary speed of the high speed shaft It is the twice of low speed axle rotary speed.