CN205112139U - Plastic granules homogenization device - Google Patents

Abstract

The utility model provides a plastic granules homogenization device. Plastic granules homogenization device includes support, feeding storehouse, blending bunker, reposition of redundant personnel feed bin, circulation feed bin and vacuum transfer units, the blending bunker is located the support, the feeding storehouse is located the blending bunker top, the reposition of redundant personnel feed bin is located bottom in the blending bunker, and with the blending bunker intercommunication, circulation feed bin one end with feeding storehouse pipe connection, the other end with the blending bunker pipe connection, vacuum transfer units with feeding storehouse pipe connection. The utility model provides an it is great that plastic granules homogenization device has solved prior art's homogenization equipment shearing force, leads to the technical problem of master batch damage.

Description

Plastic grain homogenizer

Technical field

The utility model relates to plastics-production apparatus field, is specifically related to a kind of plastic grain homogenizer.

Background technology

Silicone plastics master batch, as the auxiliary agent of modifying plastics, has been widely used among modifying plastics processing.In the process of producing silicone plastics master batch, because of the impact of many process conditions, the product of gained has difference in various degree.Therefore, need one for the mixing homogenization process of the product of same batch or multiple batches, make its properties of product can be more stable.

Easily there is breakage, distortion, glue the phenomenons such as glutinous in silicone plastics master batch, but the homogenization installation of prior art all can produce larger shearing force in homogenization process, causes master batch profile influenced under Strong shear.Therefore the homogenizing to silicone plastics master batch, the homogenization installation of prior art can not be used, comparatively special device should be adopted, make silicone plastics master batch can either abundant homogenizing, can not make again it in homogenization process, occur too much impact.

Utility model content

For the homogenization installation shearing force solving prior art is comparatively large, cause the technical problem that master batch damages, the utility model provides a kind of homogenization process gentle, the undamaged plastic grain homogenizer of master batch.

A kind of plastic grain homogenizer, comprise support, feeding warehouse, blending bunker, shunting feed bin, circulation feed bin and vacuum feeder, described blending bunker is located at described support, described feeding warehouse is located at described blending bunker top, described blending bunker inner bottom part is located at by described shunting feed bin, and is communicated with described blending bunker, and described circulation feed bin one end is connected with described feeding warehouse pipeline, the other end is connected with described blending bunker pipeline, and described vacuum feeder is connected with described feeding warehouse pipeline.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described vacuum feeder is connected with described feeding warehouse top duct, and described circulation feed bin is connected with described feeding warehouse side ducts.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described blending bunker comprises blending bunker body, lower discharge port and side discharging opening, described lower discharge port is located at described blending bunker body bottom, and described side discharging opening is located at described blending bunker body bottom portion side.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described blending bunker also comprises observation window and guardrail, and described blending bunker body side is all located at by described observation window and described guardrail.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described shunting feed bin comprises shunting feed bin body, point fluidization tower, isocon and diffluence pass, described shunting feed bin body is located at described blending bunker body inner bottom part, described point of fluidization tower is located at described shunting feed bin bodies top, described isocon is located at described shunting feed bin body side, and described diffluence pass is located at described point fluidization tower.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described lower discharge port and described side discharging opening all extend to described shunting feed bin body.

In a kind of preferred embodiment of the plastic grain homogenizer provided at the utility model, described circulation feed bin is connected with described side discharge opening pipeline.

Compared to prior art, the described plastic grain homogenizer that the utility model provides has following beneficial effect:

One, described plastic grain homogenizer is provided with described vacuum feeder, by vacuumizing the method driving storehouse outer circulation, does not have strong shearing force, master batch not damaged in mixed process.

Two, described plastic grain homogenizer is provided with described shunting feed bin, and master batch, by entering different runners, flows down mixing homogenizing under gravity, master batch is mixed fully, improves homo-effect.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings, wherein:

The structural representation of the plastic grain homogenizer that Fig. 1 the utility model provides.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiments.

Referring to Fig. 1, is the structural representation of the plastic grain homogenizer that the utility model provides.

Described plastic grain homogenizer 1 comprises support 11, feeding warehouse 12, blending bunker 13, shunting feed bin 14, circulation feed bin 15 and vacuum feeder 16.

Described blending bunker 13 comprises blending bunker body 131, lower discharge port 132, side discharging opening 133, observation window 134 and guardrail 135.Described lower discharge port 132 is located at bottom described blending bunker body 131.Described side discharging opening 133 is located at side bottom described blending bunker body 131.Described blending bunker body 131 sidepiece is all located at by described observation window 134 and described guardrail 135.

Described shunting feed bin 14 comprises shunting feed bin body 141, point fluidization tower 142, isocon 143 and diffluence pass 144.Described point of fluidization tower 142 is vertically located at described shunting feed bin body 141 top, and described isocon 143 is located at described shunting feed bin body 141 sidepiece, and described diffluence pass 144 is located at described point fluidization tower 142.

Described blending bunker body 131 is located at described support 11, and described feeding warehouse 12 is located at described blending bunker 13 top.Described shunting feed bin body 141 is located at the bottom in described blending bunker body 131, and described lower discharge port 132 and described side discharging opening 133 all extend to described shunting feed bin body 141.Described circulation feed bin 15 one end is connected with described side discharging opening 133 pipeline, and the other end is connected with the side duct of described feeding warehouse 12.Described vacuum feeder 16 is connected with the top duct of described feeding warehouse 12.

During concrete enforcement, master batch to be mixed is added in described circulation feed bin 15.Under the effect of described vacuum feeder 16, master batch enters described blending bunker body 131 via described feeding warehouse 12.Time in described blending bunker body 131, master batch enters described point fluidization tower 142 via described diffluence pass 144, and then enters described shunting feed bin body 141, or enters described shunting feed bin body 141 via described isocon 143.Get back to described circulation feed bin 15 from described shunting feed bin body 141 by described side discharging opening 133 again, form batch mixing circulation.

After circulation repeatedly, master batch fully mixes under the effect of air-flow and gravity.Open described lower discharge port 132, master batch after releasing homogenizing.

Described observation window 134 is for observing batch mixing situation for staff, and described guardrail 135 is climbed to described blending bunker body 131 for assisting staff.

Compared to prior art, the described plastic grain homogenizer 1 that the utility model provides has following beneficial effect:

One, described plastic grain homogenizer 1 is provided with described vacuum feeder 16, by vacuumizing the method driving storehouse outer circulation, does not have strong shearing force, master batch not damaged in mixed process.

Two, described plastic grain homogenizer 1 is provided with described shunting feed bin 14, and master batch, by entering different runners, flows down mixing homogenizing under gravity, master batch is mixed fully, improves homo-effect.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical field, be all in like manner included within scope of patent protection of the present utility model.

Claims (7)

1. a plastic grain homogenizer, it is characterized in that: comprise support, feeding warehouse, blending bunker, shunting feed bin, circulation feed bin and vacuum feeder, described blending bunker is located at described support, described feeding warehouse is located at described blending bunker top, described blending bunker inner bottom part is located at by described shunting feed bin, and is communicated with described blending bunker, and described circulation feed bin one end is connected with described feeding warehouse pipeline, the other end is connected with described blending bunker pipeline, and described vacuum feeder is connected with described feeding warehouse pipeline.

2. plastic grain homogenizer according to claim 1, is characterized in that: described vacuum feeder is connected with described feeding warehouse top duct, and described circulation feed bin is connected with described feeding warehouse side ducts.

3. plastic grain homogenizer according to claim 1, it is characterized in that: described blending bunker comprises blending bunker body, lower discharge port and side discharging opening, described lower discharge port is located at described blending bunker body bottom, and described side discharging opening is located at described blending bunker body bottom portion side.

4. plastic grain homogenizer according to claim 3, is characterized in that: described blending bunker also comprises observation window and guardrail, described blending bunker body side is all located at by described observation window and described guardrail.

5. plastic grain homogenizer according to claim 3, it is characterized in that: described shunting feed bin comprises shunting feed bin body, point fluidization tower, isocon and diffluence pass, described shunting feed bin body is located at described blending bunker body inner bottom part, described point of fluidization tower is located at described shunting feed bin bodies top, described isocon is located at described shunting feed bin body side, and described diffluence pass is located at described point fluidization tower.

6. plastic grain homogenizer according to claim 5, is characterized in that: described lower discharge port and described side discharging opening all extend to described shunting feed bin body.

7. plastic grain homogenizer according to claim 3, is characterized in that: described circulation feed bin is connected with described side discharge opening pipeline.