CN204073905U - double-layer energy-saving mixer - Google Patents

double-layer energy-saving mixer Download PDF

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Publication number
CN204073905U
CN204073905U CN201420465475.3U CN201420465475U CN204073905U CN 204073905 U CN204073905 U CN 204073905U CN 201420465475 U CN201420465475 U CN 201420465475U CN 204073905 U CN204073905 U CN 204073905U
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CN
China
Prior art keywords
heat dissipating
dissipating layer
anemostat
blade
radiating tube
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420465475.3U
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Chinese (zh)
Inventor
武晓旭
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Boffi Special Guest (tianjin) Technology Development Co Ltd
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Boffi Special Guest (tianjin) Technology Development Co Ltd
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Priority to CN201420465475.3U priority Critical patent/CN204073905U/en
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Publication of CN204073905U publication Critical patent/CN204073905U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model belongs to Mixing Machine field, particularly relate to a kind of double-layer energy-saving mixer, comprise casing, controller, seal cover, dense block, discharging opening, top flap, base plate A, base plate B, hinge, opening-closing plate, monitor, motor, rotating shaft, reduction box, motor wheel, sprocket wheel, pedestal, main shaft, chain, stabilizer, rolling bearing units, blade A, blade B, blade C, blade D, feed opening, water pump, heat dissipating layer A, heat dissipating layer B, heat dissipating layer C, heat dissipating layer D, radiating tube A, anemostat A, radiating tube B, anemostat B, radiating tube C, anemostat C, radiating tube D, anemostat D, anemostat E, exhaust duct, described heat dissipating layer A is at described base plate B, between monitor, described heat dissipating layer B is in described top flap, between base plate A, described heat dissipating layer C is below described top flap, described heat dissipating layer D is at described heat dissipating layer A, between heat dissipating layer B.

Description

Double-layer energy-saving mixer
Technical field
The utility model belongs to Mixing Machine field, particularly relates to a kind of double-layer energy-saving mixer.
Background technology
Mixer is that a kind of blade-carrying axle rotates in cylinder or groove, plurality of raw materials is uniformly mixed, makes it the machine becoming a kind of mixture or suitable denseness.Mixer has been divided into multiple, has forced mixer, single horizontal shaft blender, twin-shaft mixer etc.Points for attention: mixer and automatic feeder, must clean up the inside, especially winter, like this can be life-extending.Namely mixer is mixer, because the usual effect of mixer is exactly all kinds of dry powder and mortar of mix and blend, therefore is commonly called as mixer.
Mixer is determined by multiple parameter, and it is impossible for describing a mixer by any one single parameter.Shaft power (P), impeller discharge liquid measure (Q), pressure head (H), diameter of propeller blade (D) and speed of agitator (N) are five basic parameters of a description mixer.The flow number of the lifting rate of blade and blade itself, the first power of blade rotating speed and the cube of diameter of propeller blade are directly proportional.Stir consume shaft power then with specific gravity, the power levels number of blade itself, the cube of rotating speed and five powers of diameter of propeller blade are directly proportional.Under certain power and blade form situation, impeller discharge liquid measure (Q) and pressure head (H) can be regulated by the change diameter (D) of blade and the coupling of rotating speed (N), namely major diameter blade is equipped with the mixer higher mobilization of generation of the slow-speed of revolution (ensureing that shaft power is constant) and lower pressure head, and minor diameter blade is equipped with high rotating speed and then produces higher pressure head and lower mobilization.In tank diameter, micelle be made mutually to collide, and only way is to provide enough shear rates.From agitation mechanism, just because of the existence of fluid velocity difference, just make mutually to mix between each layer of fluid, therefore, all whipping process always relate to fluid shear rate.Shear stress is a kind of power, is the true cause stirring air bubbles dispersion and the breakup of drop etc. in application.It must be noted that, in whole tank diameter, the size of fluid each point shear rate is not consistent.Shown by the research distributed to shear rate, at least there are four kinds of shear rate numerical value in a tank diameter, they are: experimental study shows, with regard to blade district, no matter which kind of slurry type, when diameter of propeller blade one timing, maximum shear speed and average shear rate all increase with the raising of rotating speed.But when rotating speed one timing, maximum shear speed is relevant with slurry type with the relation of diameter of propeller blade with average shear rate.When rotating speed one timing, radial mode blade maximum shear speed increases with the increase of diameter of propeller blade, and average shear rate and diameter of propeller blade size have nothing to do.These reduce at mixer about the concept of blade district shear rate and demand special care in Enlargement Design.Because sulculus is compared with vat, sulculus mixer often has the characteristics such as high rotating speed (N), little diameter of propeller blade (D) and low tip speed (ND), and vat mixer often has the large characteristic such as diameter of propeller blade (D) and high tip speed (ND) of the slow-speed of revolution (N).
Summary of the invention
The utility model provides a kind of double-layer energy-saving mixer, to solve the too much heat loss problems of too of the agitator radiating tube proposed in above-mentioned background technology.
The technical problem that the utility model solves realizes by the following technical solutions: the utility model provides a kind of double-layer energy-saving mixer, it is characterized in that: comprise casing, controller, seal cover, dense block, discharging opening, top flap, base plate A, base plate B, hinge, opening-closing plate, monitor, motor, rotating shaft, reduction box, motor wheel, sprocket wheel, pedestal, main shaft, chain, stabilizer, rolling bearing units, blade A, blade B, blade C, blade D, feed opening, water pump, heat dissipating layer A, heat dissipating layer B, heat dissipating layer C, heat dissipating layer D, radiating tube A, anemostat A, radiating tube B, anemostat B, radiating tube C, anemostat C, radiating tube D, anemostat D, anemostat E, exhaust duct, described controller, seal cover on described casing, described water pump in the side of described casing, described controller on the side of described seal cover, described discharging opening in the bottom of described casing, described top flap on the top of described casing, described stabilizer, rolling bearing units are at described casing, between top flap, described rolling bearing units are on described stabilizer, and described exhaust duct is on the side of described rolling bearing units, and described exhaust duct runs through described casing, top flap, described heat dissipating layer D is at the middle part of described casing, and described feed opening runs through described heat dissipating layer D, described base plate A, base plate B is in the bottom of described casing, and described opening-closing plate is at described base plate A, between base plate B, described hinge is at the back side of described opening-closing plate, and one end of described hinge connects described base plate B, the other end of described hinge connects described opening-closing plate, described monitor on described heat dissipating layer A, described dense block on described monitor, described motor, pedestal in the bottom of described casing, described rotating shaft, reduction box, motor wheel is at described base plate A, between motor, described rotating shaft runs through described reduction box, and one end of described rotating shaft connects described motor, and the other end of described rotating shaft connects described motor wheel, and described sprocket wheel is at described pedestal, between base plate A, described sprocket wheel, motor wheel is between described chain, and described main shaft is in described top flap, between base plate A, described main shaft runs through described stabilizer, top flap, blade A, blade B, heat dissipating layer D, blade C, blade D, base plate A, sprocket wheel, one end of described main shaft connects described rolling bearing units, and the other end of described main shaft connects described pedestal, described blade A, blade B is at described heat dissipating layer C, between heat dissipating layer D, described blade A on described blade B, described blade C, blade D is at described heat dissipating layer D, between base plate A, described blade C is on described blade D, and described heat dissipating layer A is at described base plate B, between monitor, described heat dissipating layer B is in described top flap, between base plate A, described heat dissipating layer B is at connection described heat dissipating layer C, described heat dissipating layer C below described top flap, and described heat dissipating layer D is at described heat dissipating layer A, between heat dissipating layer B, described heat dissipating layer A, heat dissipating layer B connects described heat dissipating layer D, described radiating tube A, anemostat A in the inside of described heat dissipating layer C, described radiating tube B, the inside of anemostat B heat dissipating layer B described in me, described radiating tube C, anemostat C in the inside of described heat dissipating layer D, described radiating tube D, anemostat D, anemostat E is in the inside of described heat dissipating layer A.
Described anemostat A is on described anemostat B, described radiating tube A runs through described anemostat A, described radiating tube B runs through described anemostat A, anemostat B, and one end of described radiating tube B connects described radiating tube A, and the other end of described radiating tube B connects described water pump.
Described radiating tube C runs through described anemostat C, and one end of described radiating tube C connects described radiating tube D, and the other end of described radiating tube C connects described radiating tube B.
Described radiating tube D runs through anemostat D, anemostat E, and described anemostat D is on described anemostat E.
The beneficial effects of the utility model are:
1 double-layer energy-saving mixer is provided with radiating tube, anemostat in heat dissipating layer, the use of a large amount of radiating tube can be saved, radiating tube runs through anemostat, a large amount of heat energy is diffused into whole heat dissipating layer by anemostat, realize the object that agitator large area just can be provided to be incubated with a small amount of radiating tube, energy-conserving and environment-protective, do not waste water power.
A 2 anemostats transferring heat, not transmit fluid, therefore can reduce the probability of damage, save replacement cost.
3 double-layer paddles can make the abundant agitating heating of material, and feed opening is provided with hinge, the two-layer whipping temp of mixer are independent of each other, more effective temperature control.
Occupation of land space saved by 4 double-layer energy-saving mixers, again saves the length of pipeline, and radiating tube, anemostat run through fuselage interior simultaneously, avoid the long dissipated heat of heating tube.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described further:
In figure: 1-casing, 2-controller, 3-seal cover, 4-dense block, 5-discharging opening, 6-top flap, 7-base plate A, 8-base plate B, 9-hinge, 10-opening-closing plate, 11-monitor, 12-motor, 13-rotating shaft, 14-reduction box, 15-motor wheel, 16-sprocket wheel, 17-pedestal, 18-main shaft, 19-chain, 20-stabilizer, 21-rolling bearing units, 22-blade A, 23-blade B, 24-blade C, 25-blade D, 26-feed opening, 27-water pump, 28-heat dissipating layer A, 29-heat dissipating layer B, 30-heat dissipating layer C, 31-heat dissipating layer D, 32-radiating tube A, 33-anemostat A, 34-radiating tube B, 35-anemostat B, 36-radiating tube C, 37-anemostat C, 38-radiating tube D, 39-anemostat D, 40-anemostat E, 41-exhaust duct.
Embodiment:
The present embodiment comprises casing 1, controller 2, seal cover 3, dense block 4, discharging opening 5, top flap 6, base plate A7, base plate B8, hinge 9, opening-closing plate 10, monitor 11, motor 12, rotating shaft 13, reduction box 14, motor wheel 15, sprocket wheel 16, pedestal 17, main shaft 18, chain 19, stabilizer 20, rolling bearing units 21, blade A22, blade B23, blade C24, blade D25, feed opening 26, water pump 27, heat dissipating layer A28, heat dissipating layer B29, heat dissipating layer C30, heat dissipating layer D31, radiating tube A32, anemostat A33, radiating tube B34, anemostat B35, radiating tube C36, anemostat C37, radiating tube D38, anemostat D39, anemostat E40, exhaust duct 41, controller 2, seal cover 3 on casing 1, water pump 27 in the side of casing 1, controller 2 on the side of seal cover 3, discharging opening 5 in the bottom of casing 1, top flap 6 on the top of casing 1, stabilizer 20, rolling bearing units 21 are at casing 1, between top flap 6, rolling bearing units 21 are on stabilizer 20, and exhaust duct 41 is on the side of rolling bearing units 21, and exhaust duct 41 runs through casing 1, top flap 6, heat dissipating layer D31 is at the middle part of casing 1, and feed opening 26 runs through heat dissipating layer D31, base plate A7, base plate B8 is in the bottom of casing 1, and opening-closing plate 10 is at base plate A7, between base plate B8, hinge 9 at the back side of opening-closing plate 10, one end connecting bottom board B8 of hinge 9, the other end of hinge 9 connects opening-closing plate 10, monitor 11 on heat dissipating layer A28, dense block 4 on monitor 11, motor 12, pedestal 17 in the bottom of casing 1, rotating shaft 13, reduction box 14, motor wheel 15 is at base plate A7, between motor 12, rotating shaft 13 runs through reduction box 14, and one end of rotating shaft 13 connects motor 12, and the other end of rotating shaft 13 connects motor wheel 15, and sprocket wheel 16 is at pedestal 17, between base plate A7, sprocket wheel 16, motor wheel 15 is between chain 19, and main shaft is in top flap 6, between base plate A7, main shaft 18 runs through stabilizer 20, top flap 6, blade A22, blade B23, heat dissipating layer D31, blade C24, blade D25, base plate A7, sprocket wheel 16, one end of main shaft 18 connects rolling bearing units 21, and the other end of main shaft 18 connects pedestal 17, blade A22, blade B23 is at heat dissipating layer C30, between heat dissipating layer D31, blade A22 on blade B23, blade C24, blade D25 is at heat dissipating layer D31, between base plate A7, blade C24 is on blade D25, and heat dissipating layer A28 is at base plate B8, between monitor 11, heat dissipating layer B29 is in top flap 6, between base plate A7, heat dissipating layer B29 is at connection heat dissipating layer C30, and heat dissipating layer C30 is below top flap 6, and heat dissipating layer D31 is at heat dissipating layer A28, between heat dissipating layer B29, heat dissipating layer A28, heat dissipating layer B29 connects heat dissipating layer D31, radiating tube A32, anemostat A33 in the inside of heat dissipating layer C30, radiating tube B34, anemostat B35 in the inside of I heat dissipating layer B29, radiating tube C36, anemostat C37 in the inside of heat dissipating layer D31, radiating tube D38, anemostat D39, anemostat E40 is in the inside of heat dissipating layer A28.
Anemostat A33 is on anemostat B35, and radiating tube A32 runs through anemostat A33, and radiating tube B34 runs through anemostat A33, anemostat B35, and one end of radiating tube B34 connects radiating tube A32, and the other end of radiating tube B34 connects water pump 27.
Radiating tube C36 runs through anemostat C37, and one end of radiating tube C36 connects radiating tube D38, and the other end of radiating tube C36 connects radiating tube B34.
Radiating tube D38 runs through anemostat D39, anemostat E40, and anemostat D39 is on anemostat E40.
Utilize technical scheme described in the utility model, or those skilled in the art being under the inspiration of technical solutions of the utility model, designing similar technical scheme, and reach above-mentioned technique effect, is all fall into protection domain of the present utility model.

Claims (4)

1. a double-layer energy-saving mixer, is characterized in that: comprise casing, controller, seal cover, dense block, discharging opening, top flap, base plate A, base plate B, hinge, opening-closing plate, monitor, motor, rotating shaft, reduction box, motor wheel, sprocket wheel, pedestal, main shaft, chain, stabilizer, rolling bearing units, blade A, blade B, blade C, blade D, feed opening, water pump, heat dissipating layer A, heat dissipating layer B, heat dissipating layer C, heat dissipating layer D, radiating tube A, anemostat A, radiating tube B, anemostat B, radiating tube C, anemostat C, radiating tube D, anemostat D, anemostat E, exhaust duct, described controller, seal cover on described casing, described water pump in the side of described casing, described controller on the side of described seal cover, described discharging opening in the bottom of described casing, described top flap on the top of described casing, described stabilizer, rolling bearing units are at described casing, between top flap, described rolling bearing units are on described stabilizer, and described exhaust duct is on the side of described rolling bearing units, and described exhaust duct runs through described casing, top flap, described heat dissipating layer D is at the middle part of described casing, and described feed opening runs through described heat dissipating layer D, described base plate A, base plate B is in the bottom of described casing, and described opening-closing plate is at described base plate A, between base plate B, described hinge is at the back side of described opening-closing plate, and one end of described hinge connects described base plate B, the other end of described hinge connects described opening-closing plate, described monitor on described heat dissipating layer A, described dense block on described monitor, described motor, pedestal in the bottom of described casing, described rotating shaft, reduction box, motor wheel is at described base plate A, between motor, described rotating shaft runs through described reduction box, and one end of described rotating shaft connects described motor, and the other end of described rotating shaft connects described motor wheel, and described sprocket wheel is at described pedestal, between base plate A, described sprocket wheel, motor wheel is between described chain, and described main shaft is in described top flap, between base plate A, described main shaft runs through described stabilizer, top flap, blade A, blade B, heat dissipating layer D, blade C, blade D, base plate A, sprocket wheel, one end of described main shaft connects described rolling bearing units, and the other end of described main shaft connects described pedestal, described blade A, blade B is at described heat dissipating layer C, between heat dissipating layer D, described blade A on described blade B, described blade C, blade D is at described heat dissipating layer D, between base plate A, described blade C is on described blade D, and described heat dissipating layer A is at described base plate B, between monitor, described heat dissipating layer B is in described top flap, between base plate A, described heat dissipating layer B is at connection described heat dissipating layer C, described heat dissipating layer C below described top flap, and described heat dissipating layer D is at described heat dissipating layer A, between heat dissipating layer B, described heat dissipating layer A, heat dissipating layer B connects described heat dissipating layer D, described radiating tube A, anemostat A in the inside of described heat dissipating layer C, described radiating tube B, the inside of anemostat B heat dissipating layer B described in me, described radiating tube C, anemostat C in the inside of described heat dissipating layer D, described radiating tube D, anemostat D, anemostat E is in the inside of described heat dissipating layer A.
2. a kind of double-layer energy-saving mixer according to claim 1, it is characterized in that: described anemostat A is on described anemostat B, described radiating tube A runs through described anemostat A, described radiating tube B runs through described anemostat A, anemostat B, one end of described radiating tube B connects described radiating tube A, and the other end of described radiating tube B connects described water pump.
3. a kind of double-layer energy-saving mixer according to claim 1, it is characterized in that: described radiating tube C runs through described anemostat C, one end of described radiating tube C connects described radiating tube D, the other end of described radiating tube C connects described radiating tube B.
4. a kind of double-layer energy-saving mixer according to claim 1, it is characterized in that: described radiating tube D runs through anemostat D, anemostat E, described anemostat D is on described anemostat E.
CN201420465475.3U 2014-08-18 2014-08-18 double-layer energy-saving mixer Expired - Fee Related CN204073905U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420465475.3U CN204073905U (en) 2014-08-18 2014-08-18 double-layer energy-saving mixer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420465475.3U CN204073905U (en) 2014-08-18 2014-08-18 double-layer energy-saving mixer

Publications (1)

Publication Number Publication Date
CN204073905U true CN204073905U (en) 2015-01-07

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420465475.3U Expired - Fee Related CN204073905U (en) 2014-08-18 2014-08-18 double-layer energy-saving mixer

Country Status (1)

Country Link
CN (1) CN204073905U (en)

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GR01 Patent grant
C14 Grant of patent or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150107

Termination date: 20150818

EXPY Termination of patent right or utility model