CN216172297U - Activation equipment of two unifications of popped bonding - Google Patents

Abstract

The utility model belongs to the technical field of activation equipment, particularly relates to the field of B01J19/18, and particularly relates to swelling and bonding two-in-one activation equipment. The utility model provides a bulking and bonding two-in-one activation device which comprises a first activation bin and a second activation bin, wherein the first activation bin and the second activation bin both have axial lengths, and the axial direction of the first activation bin is parallel to the axial direction of the second activation bin. The utility model applies two activation bins, the powder modification and the formula burdening are carried out step by step in the same host machine, and the utility model is suitable for burdening materials with various formulas and different melting points, has strong process variability and can be suitable for the production of products with special process requirements. The original physical state of the powder is not influenced after the working procedures of modification, formulation and the like are carried out, the modification and activation effects are not influenced by the granularity of the materials, the activation is uniform, and the modification auxiliary agent is saved.

Description

Activation equipment of two unifications of popped bonding

Technical Field

The utility model belongs to the technical field of activation equipment, particularly relates to the field of B01J19/18, and particularly relates to swelling and bonding two-in-one activation equipment.

Background

With the continuous development of modern society and the continuous improvement of the level of the people's economy, the demand of domestic chemical products is gradually increased, and in the modern chemical production, a double-flat feeding machine and a double-flat screw extruder are used as equipment for extruding and conveying activated raw materials, the function of the equipment is to extrude and convey the activated raw materials into the activation equipment, then the activated raw materials injected into the activation equipment are activated by the activation equipment, wherein the main function of the activation equipment is that after calcium carbonate or other minerals wait for the activated raw materials to enter the activation equipment, the calcium carbonate or other minerals are turned over by screw blades of the two parts and rotated by blade angles, the equipment is heated to raise the temperature of the materials to be activated to between 90 and 100 ℃, so that the moisture in the calcium carbonate or other minerals is reduced to be below zero percent, and then a specific activating agent is added to raise the temperature to 160 ℃, to inside calcium carbonate of activation equipment or other mineral expand and the surface is compound, it is popped to produce the mineral substance, make the mineral substance diameter obviously diminish, the volume obviously increases, make the mineral substance volume increase degree exceed about ten percent, and make the mineral substance surface covering compound degree reach ninety nine points five percent, and at the in-process that the raw materials got into activation equipment through getting into two flat feeders and two flat screw extruder, just need use the loading hopper, guide the inside raw materials of getting into two flat feeders and two flat screw extruder, thereby guarantee that industrial chemicals can steadily get into inside the activation equipment.

The utility model discloses a roller surface activation device, which solves the problems that the surface of a roller needs to be subjected to chromium plating treatment in the production process, the plated surface of the roller needs to be activated before chromium plating, and the existing activation device is high in manufacturing cost and poor in activation effect.

Similar to the above patents, the existing activation equipment is activated by a single cavity, the activation reaction cannot be accurately controlled, the standardization of flow control cannot be realized in the process of adding a formula or an auxiliary agent, an operator needs to perform treatment according to experience and time, the operation difficulty is increased, the possibility of errors is high, and the activation effect is finally influenced.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides a bulking and bonding two-in-one activation device which comprises a first activation cabin and a second activation cabin, wherein the first activation cabin and the second activation cabin both have axial lengths, and the axial direction of the first activation cabin is parallel to the axial direction of the second activation cabin.

As a preferable technical scheme, the device further comprises a feeding bin and a discharging bin, wherein the feeding bin is arranged at the other layer of the first activation bin relative to the second activation bin, and the discharging bin is arranged at the other side of the second activation bin relative to the first activation bin.

As a preferable technical scheme, the device further comprises a first conveying mechanism, a second conveying mechanism and a third conveying mechanism; the first conveying mechanism is arranged between the feeding bin and the first activation bin and communicated with the feeding bin and the first activation bin; the second conveying mechanism is arranged between the first activation cabin and the second activation cabin and communicated with the first activation cabin and the second activation cabin; the third conveying mechanism is arranged between the second activation bin and the first discharge bin and communicated with the second activation bin and the discharge bin.

As a preferable technical scheme, the first conveying mechanism, the second conveying mechanism and the third conveying mechanism are all set as spiral elevators, and the first conveying mechanism is communicated with the bottom of the feeding bin and the top of the first activation bin; the second conveying mechanism is communicated with the bottom of the first activation bin and the top of the second activation bin; and the third conveying mechanism is communicated with the bottom of the second activation bin and the top of the discharge bin.

As a preferable technical scheme, a first charging opening is arranged at the top of the first activation bin, and the first charging opening is arranged in parallel with a connection point of the first activation bin and the first conveying mechanism; and a second charging opening is arranged at the top of the second activation bin, and the second charging opening is arranged in parallel with the connecting point of the second activation bin and the second transmission mechanism.

As a preferable technical scheme, two stirring shafts are arranged in the first activation bin, the axial directions of the two stirring shafts in the first activation bin are arranged in parallel with the axial direction of the first activation bin, and the two stirring shafts in the first activation bin are arranged at the same horizontal height; the rotation directions of the two stirring shafts in the first activation bin are opposite.

As a preferable technical scheme, two stirring shafts are arranged in the second activation bin, the axial directions of the two stirring shafts in the second activation bin are arranged in parallel with the axial direction of the second activation bin, and the two stirring shafts in the second activation bin are arranged at the same horizontal height; the rotation directions of the two stirring shafts in the second activation bin are opposite.

As a preferable technical scheme, two stirring shafts in the first activation bin are driven by the same motor, a steering mechanism is arranged on the side wall of the first activation bin, and a transmission belt extending from the motor firstly bypasses the steering mechanism and then sequentially bypasses the two stirring shafts from different directions.

As a preferable technical scheme, two stirring shafts in the second activation bin are driven by the same motor, a steering mechanism is arranged on the side wall of the second activation bin, and a transmission belt extending from the motor firstly bypasses the steering mechanism and then sequentially bypasses the two stirring shafts from different directions.

As a preferred technical scheme, a dust remover is arranged at a feeding port of the feeding bin.

Has the advantages that:

(1) the utility model provides an activation device integrating puffing and bonding, which is used for the activation process of material powder, adopts two split activation bins to activate materials, and can be used for surface modification of powder materials such as light calcium carbonate, heavy calcium carbonate, superfine calcium carbonate, nano calcium carbonate, calcium carbonate whiskers, kaolin, carbon black, barium sulfate, calcium sulfate whiskers, aluminum hydroxide and the like.

(2) The gravity-free principle is adopted for modification processing, so that the activation rate of the powder is greatly improved. The material is stirred by using a rotating shaft with two rotating directions, and the working of the gravity-free principle is adopted, so that the modifier can be quickly and uniformly contacted with the powder under the condition of extremely small (0.1-2%) proportion of the added modifier, the aim of high-quality modification is fulfilled, and the activation rate of the powder can be up to more than 98%. Meanwhile, the raw material formula realizes high uniformity, lays a solid foundation for the product quality of the next granulation process, greatly improves the product quality of master batches and effectively reduces the production cost.

(3) The utility model applies two activation bins, the powder modification and the formula burdening are carried out step by step in the same host machine, and the utility model is suitable for burdening materials with various formulas, different densities and different melting points, has strong process variability and can be suitable for the production of products with special process requirements. The original physical state of the powder is not influenced after the working procedures of modification, formulation and the like are carried out, the modification and activation effects are not influenced by the granularity of the materials, the activation is uniform, and the modification auxiliary agent is saved.

(4) Except for the initial feeding of the modified powder, the additive and the formula materials, the machine set is fully automatically operated, and only one person is needed for use operation, ingredient inspection and the like. The packaging mode of the powder can be adjusted from the existing single 25 kg packaging bag to ton packaging bag, so that the powder can be recycled for a long time.

Drawings

FIG. 1 is a schematic diagram of a two-in-one bulking and bonding activation apparatus according to the present invention;

the device comprises a first activation bin, a second activation bin, a feeding bin, a discharging bin, a first conveying mechanism, a second conveying mechanism, a third conveying mechanism, a first charging hole, a second charging hole, a stirring shaft, a steering mechanism and a dust remover, wherein the first activation bin is 1-the first activation bin, the second activation bin is 2-the feeding bin is 3-the discharging bin is 4-the first conveying mechanism, the second conveying mechanism is 6-the second conveying mechanism, the third conveying mechanism is 7-the 8-the first charging hole, the second charging hole, the 10-the stirring shaft, the steering mechanism is 11-and the dust remover is 12-the dust remover.

Detailed Description

The utility model provides an activation equipment of two unifications of popped bonding, includes first activation storehouse 1 and second activation storehouse 2, first activation storehouse 1 and second activation storehouse 2 all have axial length, the axial direction of first activation storehouse 1 with the axial direction parallel arrangement of second activation storehouse 2.

In some preferred embodiments, the device further comprises a feeding bin 3 and a discharging bin 4, wherein the feeding bin 3 is arranged at another layer of the first activation bin 1 relative to the second activation bin 2, and the discharging bin 4 is arranged at the other side of the second activation bin 2 relative to the first activation bin 1.

In some preferred embodiments, the device further comprises a first conveying mechanism 5, a second conveying mechanism 6, a third conveying mechanism 7; the first conveying mechanism 5 is arranged between the feeding bin 3 and the first activation bin 1 and communicated with the feeding bin 3 and the first activation bin 1; the second conveying mechanism 6 is arranged between the first activation cabin 1 and the second activation cabin 2 and is communicated with the first activation cabin 1 and the second activation cabin 2; the third conveying mechanism 7 is arranged between the second activation bin 2 and the first discharging bin 4 and communicated with the second activation bin 2 and the discharging bin 4.

In some preferred embodiments, the first conveying mechanism 5, the second conveying mechanism 6 and the third conveying mechanism 7 are all provided as spiral elevators, and the first conveying mechanism 5 is communicated with the bottom of the feeding bin 3 and the top of the first activation bin 1; the second conveying mechanism 6 is communicated with the bottom of the first activation cabin 1 and the top of the second activation cabin 2; the third conveying mechanism 7 is communicated with the bottom of the second activation bin 2 and the top of the discharge bin 4.

In some preferred embodiments, a first feeding port 8 is arranged at the top of the first activation bin 1, and the first feeding port 8 is arranged in parallel with the connection point of the first activation bin 1 and the first conveying mechanism; and a second feed inlet 9 is arranged at the top of the second activation bin 2, and the second feed inlet 9 is arranged in parallel with the connection point of the second activation bin 2 and the second conveying mechanism 6.

In some preferred embodiments, the first and second addition ports can be used not only as addition ports for formula or modifier, but also as observation ports for the state of the materials in the activation chamber.

In some preferred embodiments, two stirring shafts 10 are arranged in the first activation bin 1, the axial directions of the two stirring shafts 10 in the first activation bin 1 are arranged in parallel with the axial direction of the first activation bin 1, and the two stirring shafts 10 in the first activation bin 1 are arranged at the same horizontal height; the rotation directions of the two stirring shafts 10 in the first activation bin 1 are opposite.

In some preferred embodiments, two stirring shafts 10 are arranged in the second activation bin 2, the axial directions of the two stirring shafts 10 in the second activation bin 2 are arranged in parallel with the axial direction of the second activation bin 2, and the two stirring shafts 10 in the second activation bin 2 are arranged at the same horizontal height; the rotation directions of the two stirring shafts 10 in the second activation bin 2 are opposite.

In some preferred embodiments, two stirring shafts 10 in the first activation bin 1 are driven by the same motor, and a turning mechanism 11 is arranged on the side wall of the first activation bin 1, and a belt extending from the motor firstly bypasses the turning mechanism 11 and then sequentially bypasses the two stirring shafts 10 from different directions.

In some preferred embodiments, the two stirring shafts 10 in the second activation cabin 2 are driven by the same motor, and the side wall of the second activation cabin 2 is provided with a steering mechanism 11, and a belt extending from the motor firstly bypasses the steering mechanism 11 and then sequentially bypasses the two stirring shafts 10 from different directions.

In some preferred embodiments, a dust remover 12 is arranged at the feeding opening of the feeding bin 3.

The working principle is as follows:

adding modified powder (light calcium carbonate or heavy calcium carbonate and the like) into a feeding bin. The material is input into the first activation bin by the feeding bin lifter, and the material is heated by the first activation bin. When the temperature of the materials is raised to the temperature required by the process, a modifier is added into a first feeding port (an additive feeding port) at the top of the first activation bin, the additive (the modifier) is added into the first activation bin, and the liquid modifier is added through a liquid adding system. After the material activation modification is finished, the active powder is input into the modification batching host machine through a discharging spiral lifter. Various formula materials are added into the main modification ingredient machine through a spiral feeding machine, a micro formula material is added into an additive feeding hopper at the top of the main modification ingredient machine, the micro formula material is added into the main modification ingredient machine, and a liquid formula material is added through a liquid adding system. After the materials are fully mixed and evenly proportioned in the modifying and proportioning machine, the materials are conveyed by an output elevator to enter a discharging bin. And discharging at the rear end of the discharging bin, distributing and connecting the materials into subsequent granulating equipment through a conveyor, and performing the next granulating process.

Claims (10)

1. The utility model provides an activation equipment of two unifications of popped bonding, its characterized in that includes first activation storehouse (1) and second activation storehouse (2), first activation storehouse (1) and second activation storehouse (2) all have axial length, the axial direction of first activation storehouse (1) with the axial direction parallel arrangement of second activation storehouse (2).

2. The swelling-bonding two-in-one activation equipment according to claim 1, further comprising a feeding bin (3) and a discharging bin (4), wherein the feeding bin (3) is arranged at the other layer of the first activation bin (1) relative to the second activation bin (2), and the discharging bin (4) is arranged at the other side of the second activation bin (2) relative to the first activation bin (1).

3. The swelling-bonding two-in-one activation equipment according to claim 2, further comprising a first conveying mechanism (5), a second conveying mechanism (6), a third conveying mechanism (7); the first conveying mechanism (5) is arranged between the feeding bin (3) and the first activation bin (1) and communicated with the feeding bin (3) and the first activation bin (1); the second conveying mechanism (6) is arranged between the first activation cabin (1) and the second activation cabin (2) and is communicated with the first activation cabin (1) and the second activation cabin (2); the third conveying mechanism (7) is arranged between the second activation bin (2) and the first discharge bin (4) and communicated with the second activation bin (2) and the discharge bin (4).

4. The swelling-bonding two-in-one activation equipment according to claim 3, wherein the first conveying mechanism (5), the second conveying mechanism (6) and the third conveying mechanism (7) are all set as spiral elevators, and the first conveying mechanism (5) is communicated with the bottom of the feeding bin (3) and the top of the first activation bin (1); the second conveying mechanism (6) is communicated with the bottom of the first activation bin (1) and the top of the second activation bin (2); the third conveying mechanism (7) is communicated with the bottom of the second activation bin (2) and the top of the discharge bin (4).

5. The swelling-bonding two-in-one activation equipment according to claim 4, wherein a first feeding port (8) is arranged at the top of the first activation bin (1), and the first feeding port (8) is arranged in parallel with the connection point of the first activation bin (1) and the first conveying mechanism; the top of the second activation bin (2) is provided with a second feed inlet (9), and the second feed inlet (9) is arranged in parallel with the connection point of the second activation bin (2) and the second conveying mechanism (6).

6. The puffing and bonding two-in-one activation equipment according to claim 5, wherein two stirring shafts (10) are arranged in the first activation bin (1), the axial directions of the two stirring shafts (10) in the first activation bin (1) are arranged in parallel with the axial direction of the first activation bin (1), and the two stirring shafts (10) in the first activation bin (1) are arranged at the same horizontal height; the rotation directions of the two stirring shafts (10) in the first activation bin (1) are opposite.

7. The puffing and bonding two-in-one activation equipment according to claim 5, wherein two stirring shafts (10) are arranged in the second activation bin (2), the axial directions of the two stirring shafts (10) in the second activation bin (2) are arranged in parallel with the axial direction of the second activation bin (2), and the two stirring shafts (10) in the second activation bin (2) are arranged at the same horizontal height; the rotation directions of the two stirring shafts (10) in the second activation bin (2) are opposite.

8. The swelling-bonding two-in-one activation device according to claim 6, wherein the two stirring shafts (10) in the first activation bin (1) are driven by the same motor, and a steering mechanism (11) is arranged on the side wall of the first activation bin (1), and a belt extending from the motor firstly bypasses the steering mechanism (11) and then bypasses the two stirring shafts (10) in sequence from different directions.

9. The swelling-bonding two-in-one activation device according to claim 7, wherein the two stirring shafts (10) in the second activation bin (2) are driven by the same motor, and a steering mechanism (11) is arranged on the side wall of the second activation bin (2), and a belt extending from the motor firstly bypasses the steering mechanism (11) and then bypasses the two stirring shafts (10) in sequence from different directions.

10. The swelling-bonding two-in-one activation equipment according to claim 1, wherein a dust remover (12) is arranged at the feeding port of the feeding bin (3).

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