CN212701541U - Emulsification tank with balanced heat conduction - Google Patents

Abstract

The utility model provides an emulsification tank of balanced heat conduction, including the jar body that has feed inlet and discharge gate, jar external zone of heating that is equipped with, the internal heat conduction mechanism that is equipped with of jar, heat conduction mechanism includes the heat pipe and sets up rather than communicating a plurality of honeycomb ducts that set up on the heat pipe, the heat pipe runs through jar body and jar rotation and is connected, heat pipe one end is rotated and is connected with the inlet pipe that is used for providing the hot-fluid, the heat pipe other end rotates and is connected with the discharging pipe, the heat pipe takes place to rotate through the drive assembly drive, and a plurality of honeycomb ducts of driven drive. The utility model discloses the heat conduction mechanism that sets up can carry out the heat exchange through heat pipe and a plurality of honeycomb duct and the material of jar internal portion to the effect that heat pipe and honeycomb duct can also act as rabbling mechanism among the prior art stirs the material in the emulsification jar, is guaranteeing under the prerequisite that each material effectively mixed, has increased the heat exchange area of jar internal material, accelerates the heat exchange efficiency of jar internal material.

Description

Emulsification tank with balanced heat conduction

Technical Field

The utility model relates to an emulsification tank technical field, in particular to emulsification tank of balanced heat conduction.

Background

The function of the emulsification tank is to dissolve one or more materials (water soluble solid phase, liquid phase or jelly, etc.) in another liquid phase and hydrate them into a relatively stable emulsion. The emulsifying tank is widely applicable to the emulsification and mixing of edible oil, powder, sugar and other raw and auxiliary materials, and the emulsification tank is also used for the emulsification and dispersion of certain coatings and paints.

The material emulsification in-process can be under the uniform temperature, so can set up the zone of heating outside the emulsification tank jar body among the prior art to at internal agitating unit that sets up of jar, be convenient for the material emulsification in-process can be under the constant temperature state.

The zone of heating that sets up among the prior art can only with the quick heat transfer of the material that is close to jar internal wall, the material after the heat transfer moves the heat exchange between the material of being convenient for through stirring subassembly towards jar body center, but this kind of heat transfer mode inefficiency, especially relates to the emulsification reaction of a small number of endotherms, because heat exchange efficiency is low, can not ensure that the internal fluid equilibrium of jar is heated, influences the emulsification effect of the internal fluid of emulsification jar.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides an emulsification tank of balanced heat conduction has solved among the prior art emulsification tank and has carried out emulsification in-process heat conduction efficiency low, the uneven problem of being heated.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an emulsification tank of balanced heat conduction, is including the jar body that has feed inlet and discharge gate, jar external zone of heating that is equipped with, the internal heat conduction mechanism that is equipped with of jar, heat conduction mechanism includes the heat pipe and sets up rather than communicating a plurality of honeycomb ducts that set up on the heat pipe, the heat pipe runs through jar body and rotates with a body and be connected, heat pipe one end is rotated and is connected with the inlet pipe that is used for providing the hot-fluid, the heat pipe other end rotates and is connected with the discharging pipe, the heat pipe takes place to rotate through the drive assembly.

Further, the heat conduction pipe is arranged vertically, the guide pipe is a horizontal pipe perpendicular to the heat conduction pipe, and the guide pipes are distributed along the length direction of the heat conduction pipe.

Furthermore, a plurality of stirring rods which are spirally arranged are arranged on the heat conduction pipe along the length direction of the heat conduction pipe.

Furthermore, the flow guide pipe is in a [ -shape and comprises a connecting section, a transition section and a connecting section which are sequentially connected, wherein the two connecting sections are arranged in parallel and are connected with the heat conduction pipe;

the lengths of the transition sections of the plurality of flow guide pipes are gradually decreased from the inner wall of the tank body to the direction of the heat conduction pipe, and the rotation paths of the two transition sections of any two flow guide pipes are not overlapped when the two transition sections rotate along with the heat conduction pipe.

Further, the driving assembly comprises a driving bevel gear and a driven bevel gear which are meshed with each other, wherein the driving bevel gear is connected with a driving motor which is coaxially arranged.

The principle of the utility model is as follows: before the material to be emulsified is added into the tank body, the heating layer is controlled to work (in the prior art, electric heating or steam heating or circulating hot water heating) firstly, the inlet pipe is controlled to introduce hot fluid, the hot fluid circulates through the heat conduction pipe and the flow guide pipe and then is led out from the outlet pipe, so that the tank body is preheated firstly, after the tank body is preheated for a certain time, various materials to be emulsified are all introduced into the tank body from the inlet of the tank body, the driving assembly is started to work at the moment to drive the heat conduction pipe to rotate, the heat conduction pipe rotates to drive the flow guide pipes to rotate.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses the heat conduction mechanism that sets up can carry out the heat exchange through the material of heat pipe and a plurality of honeycomb duct and jar internal portion to the effect that heat pipe and honeycomb duct can also act as among the prior art rabbling mechanism stirs the material in the emulsification jar, under the prerequisite of guaranteeing that each material effectively mixes, the heat exchange area of jar internal material has been increased, accelerate the heat exchange efficiency of jar internal material, heat conduction mechanism sets up the internal balanced being heated of jar internal material of being convenient for of jar at jar internal energy simultaneously, improve the emulsification effect of jar internal material.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram in embodiment 2 of the present invention.

In the figure: 1. a tank body; 2. a material guide pipe; 3. a heating layer; 4. a water inlet pipe; 5. a heat-insulating layer; 6. a discharge pipe; 7. a discharge pipe; 8. a water outlet pipe; 9. a stirring rod; 10. a flow guide pipe; 11. a heat conducting pipe; 12. a drive motor; 13. a mounting seat; 14. a drive shaft; 15. a drive bevel gear; 16. a feed pipe; 17. a driven bevel gear; 19. a shunt tube; 191. a connecting section; 192. a transition section.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

Example 1

As shown in fig. 1, an embodiment of the present invention provides an emulsification tank with balanced heat conduction, which includes a tank body 1, wherein a feed inlet is arranged at the middle upper portion of the tank body 1, and the feed inlet is connected with a material guide pipe 2; be equipped with the discharge gate in jar body 1 bottom, the discharge gate is connected with discharge tube 6. The material guide pipe 2 is convenient for guiding the materials to be mixed into the tank body 1, and the discharge pipe 6 is convenient for guiding the mixed materials out of the tank body 1. For the use of this emulsification tank, the utility model discloses be equipped with zone of heating 3 outside jar body 1 to be equipped with heat preservation 5 outside zone of heating 3, wherein zone of heating 3 is electrical heating, steam heating or circulating water heating among the prior art, the utility model discloses a circulating water heating, zone of heating 3 are hollow structure, are connected with inlet tube 4 and outlet pipe 8, and the heating operation to zone of heating 3 can refer to patent number: CN 209302610U discloses relevant control in the patent.

For making the material that gets into jar body 1 internal can be to balanced heat conduction in emulsification process, the utility model discloses be equipped with heat conduction mechanism in jar body 1, heat conduction mechanism includes heat pipe 11 and sets up on heat pipe 11 rather than communicating with each other a plurality of honeycomb ducts 10 that set up, heat pipe 11 runs through jar body 1 and rotates through sealed bearing and be connected, 11 one end of heat pipe is rotated through sealed bearing and is connected with the inlet pipe 16 that is used for providing the hot-fluid, the 11 other end of heat pipe is rotated through sealed bearing and is connected with discharging pipe 7, heat pipe 11 takes place to rotate through the drive assembly drive, and a plurality of honeycomb ducts 10 of driven drive rotate. Before materials to be emulsified are added into the tank body 1, the heating layer 3 is controlled to work, the feeding pipe 16 is controlled to guide hot fluid, the hot fluid flows through the heat conduction pipe 11 and the flow guide pipe 10 and then is guided out from the discharging pipe 7, the tank body 1 is preheated firstly, after the tank body 1 is preheated for a certain time, various materials to be emulsified are all guided into the tank body 1 from the feeding of the tank body 1, the driving assembly is started to work at the moment to drive the heat conduction pipe 11 to rotate, the heat conduction pipe 11 rotates to drive the flow guide pipes 10 to rotate, and the materials in the tank body 1 are mixed. The utility model discloses the heat conduction mechanism that sets up can carry out the heat exchange through the material of heat pipe 11 and a plurality of honeycomb duct 10 and jar body 1 inside to heat pipe 11 can also stir the material in the emulsification jar with honeycomb duct 10 as the effect of rabbling mechanism among the prior art, under the prerequisite of guaranteeing that each material effectively mixes, the heat exchange area of the internal material of jar 1 has been increased, accelerate the heat exchange efficiency of the internal material of jar 1, the balanced of the internal material of jar 1 of being convenient for of heat conduction mechanism setting simultaneously is heated in jar body 1, improve the emulsification effect of the internal material of jar 1. The utility model discloses a practical hot-fluid can also be hot water for the hot-air, can be full of heat pipe 11 and honeycomb duct 10 for the hot-fluid, can set up corresponding pressure valve on discharging pipe 7.

In order to facilitate the installation of the heat conduction pipe 11 and the tank body 1, the heat conduction pipe 11 is vertically arranged; for making things convenient for honeycomb duct 10 can effectively stir the material in the jar body 1 in the heat conduction, the utility model discloses a plurality of honeycomb ducts 10 that set up are the horizontal pipe of perpendicular heat pipe 11, wherein, two honeycomb ducts 10 become a set of and two honeycomb ducts 10 set up relatively, and the multiunit honeycomb duct 10 that a plurality of honeycomb ducts 10 fall into is laid along 11 length direction of heat pipe. The plurality of groups of flow guide pipes 10 and the heat conduction pipes 11 form a structure in a shape like a Chinese character feng, which is more beneficial to transverse mixing of materials in the tank body 1.

For the vertical mixed effect of the material in the increase jar body 1, the utility model discloses be equipped with a plurality of puddlers 9 that are the spiral setting along its length direction on heat pipe 11.

For the convenience with the drive of heat pipe 11, the utility model discloses the drive assembly who sets up includes intermeshing's drive bevel gear 15 and driven bevel gear 17, and wherein drive bevel gear 15 is connected with the driving motor 12 of coaxial setting. The driving motor 12 is arranged at the top outside the tank body 1, a driving shaft 14 of the driving motor 12 is connected with a driving bevel gear 15, and the driving shaft 14 of the driving motor 12 is connected with a mounting seat 13 arranged at the top outside the tank body 1 through a rotating bearing. The driving motor 12 works to drive the driving bevel gear 15 to rotate, the driving bevel gear 15 rotates to drive the driven bevel gear 17 meshed with the driving bevel gear to rotate, the driven bevel gear 17 rotates to drive the heat conduction pipe 11 to rotate, and the heat conduction pipe 11 rotates to drive the plurality of flow guide pipes 10 to rotate to mix materials in the tank body 1.

Example 2

To facilitate the distinction between the draft tube of example 2 and the draft tube of example 1, the draft tube of example 1 is referred to as draft tube 10 and the draft tube of example 2 is referred to as shunt tube 19.

When the hot fluid is used for leading in the heat conduction pipe 11, in order to facilitate the hot fluid to rapidly circulate in the flow dividing pipe 19, the flow dividing pipe 19 arranged in the utility model can also be in a [ -shape, the flow dividing pipe 10 comprises a connecting section 191, a transition section 192 and a connecting section 191 which are sequentially connected, and the two connecting sections 191 are arranged in parallel and are connected with the heat conduction pipe 11; the shunt tubes 19 with the [ -shaped structures are convenient for shunting hot fluid in the heat conduction pipes 11 and also convenient for heat exchange between the shunt tubes 19 and materials in the tank body 1.

In order to facilitate the transverse mixing of the materials in the tank body 1, the utility model discloses the length of the changeover portion 192 of a plurality of shunt tubes 19 that set up is decreased progressively by the direction of the inner wall of the tank body 1 towards the heat pipe 11, and the rotation path when two changeover portions 192 of arbitrary two shunt tubes 19 rotate along with the heat pipe 11 does not overlap.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. The utility model provides an emulsification tank of balanced heat conduction, is including the jar body that has feed inlet and discharge gate, jar external zone of heating that is equipped with, its characterized in that: the internal heat conduction mechanism that is equipped with of jar, heat conduction mechanism includes the heat pipe and sets up rather than communicating a plurality of honeycomb ducts that set up on the heat pipe, the heat pipe runs through a jar body and rotates with a jar body to be connected, heat pipe one end is rotated and is connected with the inlet pipe that is used for providing the hot-fluid, the heat pipe other end is rotated and is connected with the discharging pipe, the heat pipe takes place to rotate through the drive assembly drive, and a plurality of honeycomb ducts of driven drive rotate.

2. The emulsification tank of claim 1, wherein: the heat conduction pipes are vertically arranged, the guide pipes are horizontal pipes perpendicular to the heat conduction pipes, and the guide pipes are distributed along the length direction of the heat conduction pipes.

3. The emulsification tank of claim 2, wherein: the heat conduction pipe is provided with a plurality of stirring rods which are spirally arranged along the length direction of the heat conduction pipe.

4. The emulsification tank of claim 1, wherein: the flow guide pipe is in a shape of [ ", and comprises a connecting section, a transition section and a connecting section which are sequentially connected, wherein the two connecting sections are arranged in parallel and are connected with the heat conduction pipe;

the lengths of the transition sections of the plurality of flow guide pipes are gradually decreased from the inner wall of the tank body to the direction of the heat conduction pipe, and the rotation paths of the two transition sections of any two flow guide pipes are not overlapped when the two transition sections rotate along with the heat conduction pipe.

5. The emulsification tank of any one of claims 1-4, wherein: the driving assembly comprises a driving bevel gear and a driven bevel gear which are meshed with each other, wherein the driving bevel gear is connected with a driving motor which is coaxially arranged.

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