CN204816780U - A jet milling device for hydroresorcinol flash drying system - Google Patents

Abstract

The utility model discloses a jet milling device for hydroresorcinol flash drying system, including charge -in pipeline, ejection of compact pipeline, the cavity, conical body and inner wall, the conical body sets up in the cavity on the bottom surface, the inner wall sets up in the cavity and slope setting, the upper shed that the inner wall top edge encloses is greater than the under shed that the inner wall lower limb encloses, the inner wall top edge is connected with the cavity, be equipped with the gap in inner wall lower limb and the cavity between the bottom surface, the inner wall is hollow structure, be connected with a cooling water circulation system on the inner wall, charge -in pipeline sets up in the cavity left side, ejection of compact pipe setup is in the cavity top, compared with the prior art, the utility model crushing effect promotes greatly, and the kinetic energy loss is less at every turn in the crushing step, and the in -process is more orderly collecting, has avoided the material at some dead angle to be seen off the jet milling device smoothly, is equipped with cooling water circulation system moreover for the heat can be taken away by timely quilt, avoids concentrating the damage that causes equipment because of the heat.

Description

For 1, the air flow crushing device of hydroresorcinol expansion drying system

Technical field

The utility model relates to a kind of air flow crushing device, especially a kind of for 1, the air flow crushing device of hydroresorcinol expansion drying system.

Background technology

Have on the market now and plant 1, hydroresorcinol is loose powder crystal-like structure, its drying reaches the requirement using flash vapor stream drying, its pulverizing when pulverizing of air flow crushing device of expansion drying system is not thorough on the market now, in each pulverising step, kinetic energy loss is large, and in pulverizer some position, dead angle material is more difficult sends reducing mechanism smoothly.

Utility model content

The utility model, according to prior art Problems existing, proposes a kind of winding system with compression, cooling function, solves these problems above.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of for 1, the air flow crushing device of hydroresorcinol expansion drying system, it is characterized in that: comprise feed pipe, discharge pipe, cavity, bullet and inwall, described bullet is arranged on cavity inner bottom surface, described inwall to be arranged in cavity and to be obliquely installed, the upper shed that described inwall top edge surrounds is greater than the under shed that inwall lower limb surrounds, described inwall top edge is connected with cavity, gap is provided with between inwall lower limb and cavity inner bottom surface, described inwall is hollow structure, described inwall is connected with a cooling water recirculation system, described feed pipe is arranged on the left of cavity, described discharge pipe is arranged on above cavity.

The present embodiment adopts inwall inclined design, when the material of feed pipe enters in cavity, due to the inclined design of inwall, material is beaten move downward along inwall after sidewall is pulverized, when moving to cavity bottom, enter in the middle of cavity by the gap in inwall lower limb and cavity between ground, entering the stop running into bullet in the process in the middle of cavity, material is smashed further, when material is beaten on bullet, power be now decomposed into perpendicular to bullet sidewall power with along bullet sidewall power upwards, material is made to increase along bullet sidewall, finally enter discharge pipe.

Further, discharge pipe import department is provided with aggregate bin, and described aggregate bin osculum end is connected with discharge pipe import department, and described aggregate bin big opening end is fixedly connected with inwall.

The present embodiment adopts the design of aggregate bin, when material is in the process risen along bullet sidewall, because cavity internal gas pressure is unstable, when air pressure is lower, material on bullet sidewall can depart from sidewall, and now, the material departing from sidewall runs into the stop of aggregate bin, delivered to discharge pipe import by orderly, smoothly the material smashed is sent into next link.

Further, feed pipe is divided into horizontal component and oblique lower right corner part, and described oblique lower right corner divides and is arranged on the right side of horizontal component.

The present embodiment is divided into horizontal component and oblique lower right corner part feed pipe, when material enters from horizontal component, then oblique lower right corner part is entered, what make material enter cavity is direction, the oblique lower right corner, in the process that material is smashed, avoid vertically to beat and cause a large amount of kinetic energy loss on inwall, for follow-up carrying out saves energy, reach energy-conservation effect.

Further, cooling water recirculation system comprises circulating pump and water tank, described circulating pump, is connected by pipeline between water tank and inwall.

The present embodiment connects the design of a cooling water recirculation system on inwall, when by heated 1, when hydroresorcinol enters cavity by feed pipe, beat on inwall, heat is taken away by the cooling water in inwall, to 1, hydroresorcinol is lowered the temperature, and avoids whole device in subsequent process and cannot send two because of heat and cause damage.

Compared with prior art, the utility model is used for 1, the air flow crushing device of hydroresorcinol expansion drying system, crushing effect promotes greatly, and in pulverising step, each kinetic energy loss is less, more orderly in collection process, the material avoiding some dead angle cannot be sent air flow crushing device smoothly, and be provided with cooling water recirculation system, heat can be pulled away timely, avoid because heat concentrates the damage causing equipment.

Accompanying drawing explanation

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

1, horizontal component, 2, discharge pipe, 3, cavity, 4, bullet, 5, inwall, 6, gap, 7, aggregate bin, 8, oblique lower right corner part, 9, circulating pump, 10, water tank, 11, pipeline.

Detailed description of the invention

In order to understand the utility model further, below in conjunction with accompanying drawing, the utility model is described.

As shown in Figure 1, the one that the present embodiment provides is for 1, the air flow crushing device of hydroresorcinol expansion drying system, comprise feed pipe, discharge pipe 2, cavity 3, bullet 4 and inwall 5, described bullet 4 is arranged on cavity 3 inner bottom surface, described inwall 5 to be arranged in cavity 3 and to be obliquely installed, the upper shed that described inwall 5 top edge surrounds is greater than the under shed that inwall 5 lower limb surrounds, described inwall 5 top edge is connected with cavity 3, gap 6 is provided with between inwall 5 lower limb and cavity 3 inner bottom surface, described inwall 5 is hollow structure, described inwall 5 is connected with a cooling water recirculation system, described feed pipe is arranged on the left of cavity 3, described discharge pipe 2 is arranged on above cavity 3.

All parts for the present embodiment explains:

1) discharge pipe 2 import department is provided with aggregate bin 7, and described aggregate bin 7 osculum end is connected with discharge pipe 2 import department, and described aggregate bin 7 big opening end is fixedly connected with inwall 5.

2) feed pipe is divided into horizontal component 1 and oblique lower right corner part 8, and described oblique lower right corner divides and is arranged on the right side of horizontal component.

3) cooling water recirculation system comprises circulating pump 9 and water tank 10, described circulating pump 9, is connected by pipeline 11 between water tank 10 and inwall 5.

Operation principle: when material enters from horizontal component, then oblique lower right corner part is entered, what make material enter cavity is direction, the oblique lower right corner, in the process that material is smashed, avoid vertically to beat and cause a large amount of kinetic energy loss on inwall, for follow-up carrying out saves energy, reach energy-conservation effect; When by heated 1, when hydroresorcinol enters cavity by feed pipe, beat on inwall, take away heat by the cooling water in inwall, to 1, hydroresorcinol is lowered the temperature, and avoids whole device in subsequent process and cannot send two because of heat and cause damage; When the material of feed pipe enters in cavity, due to the inclined design of inwall, material is beaten move downward along inwall after sidewall is pulverized, when moving to cavity bottom, enter in the middle of cavity by the gap in inwall lower limb and cavity between ground, entering the stop running into bullet in the process in the middle of cavity, material is smashed further, when material is beaten on bullet, power be now decomposed into perpendicular to bullet sidewall power with along bullet sidewall power upwards, make material increase along bullet sidewall; When material is in the process risen along bullet sidewall, because cavity internal gas pressure is unstable, when air pressure is lower, material on bullet sidewall can depart from sidewall, now, the material departing from sidewall runs into the stop of aggregate bin, is delivered to discharge pipe import, smoothly the material smashed is sent into next link by orderly.

These are only preferred embodiment of the present utility model; it should be pointed out that for the ordinary skill in the art, do not departing under principle prerequisite of the present utility model; can also make various deformation and improvement, this also should be considered as protection domain of the present utility model.

Claims (4)

1. one kind for 1, the air flow crushing device of hydroresorcinol expansion drying system, it is characterized in that: comprise feed pipe, discharge pipe, cavity, bullet and inwall, described bullet is arranged on cavity inner bottom surface, described inwall to be arranged in cavity and to be obliquely installed, the upper shed that described inwall top edge surrounds is greater than the under shed that inwall lower limb surrounds, described inwall top edge is connected with cavity, gap is provided with between inwall lower limb and cavity inner bottom surface, described inwall is hollow structure, described inwall is connected with a cooling water recirculation system, described feed pipe is arranged on the left of cavity, described discharge pipe is arranged on above cavity.

2. according to claim 1 for 1, the air flow crushing device of hydroresorcinol expansion drying system, it is characterized in that: described discharge pipe import department is provided with aggregate bin, described aggregate bin osculum end is connected with discharge pipe import department, and described aggregate bin big opening end is fixedly connected with inwall.

3. according to claim 1 for 1, the air flow crushing device of hydroresorcinol expansion drying system, is characterized in that: described feed pipe is divided into horizontal component and oblique lower right corner part, and described oblique lower right corner divides and is arranged on the right side of horizontal component.

4. according to claim 1 for 1, the air flow crushing device of hydroresorcinol expansion drying system, is characterized in that: described cooling water recirculation system comprises circulating pump and water tank, described circulating pump, is connected by pipeline between water tank and inwall.