CN205628485U - Isolating agent pond in banburying workshop reaches auxiliary engine system down - Google Patents

Abstract

The utility model relates to an isolating agent pond in banburying workshop reaches auxiliary engine system down, characterized by, cooling zone, isolating agent pond, conveying climbing device and dry section including arranging in proper order set up conveyer respectively in cooling zone, isolating agent pond and dry section, the cooling zone includes cooling tank and first fan, and first fan sets up in the discharge end of cooling tank, dry section sets up second fan and first heat exchanger, and the department sets up the second heat exchanger at conveying climbing device. The isolating agent pond includes isolating agent pond body, establishes the condensation water jacket at isolating agent pond body overcoat, and the comdenstion water is put in and is equipped with comdenstion water import and condensate outlet, at isolating agent this internal ultrasonic generrator that sets up of pond. The utility model discloses the water -soluble of oxidation graphite alkene and individual layer rate can be improved, the technology that oxidation graphite alkene used is adapted to as the isolating agent.

Description

The interleaving agent pond in banburying workshop and downwind scheme system

Technical field

This utility model relates to interleaving agent pond and the downwind scheme system in a kind of banburying workshop, a kind of be applicable to graphene oxide as the interleaving agent pond of interleaving agent banburying production process.

Background technology

In rubber production process, the viscosity of elastomeric compound is relatively big, and sizing material can be inter-adhesive in the course of processing, causes processing and transport difficult.Therefore, before elastomeric compound is finally made finished product, as, before carrying and accumulating elastomeric compound, extruded, extrude and before gum stock, all last layer interleaving agent can be coated with on corresponding film, to prevent film inter-adhesive.Interleaving agent kind is more, and the performance of glue is also had different impacts.Tradition interleaving agent is broadly divided into solid isolation agent, paste interleaving agent, liquid release agent etc..The most all kinds of interleaving agents all have different pluses and minuses, such as paste interleaving agent to need to be stirred in use preventing precipitation, liquid release agent transport difficult.Being verified by experiments, graphene oxide has good isolation effect in rubber mixing process to sizing material.But internal mixing pass downwind scheme operating system is only suitable for tradition interleaving agent at present.In order to preferably embody the isolation effect of graphene oxide, according to the character of graphene oxide, develop novel interleaving agent pond and use technique.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that the interleaving agent pond in a kind of banburying workshop and downwind scheme system, improves water solublity and the monolayer rate of graphene oxide, is adapted to the technique that graphene oxide uses as interleaving agent.

The technical scheme provided according to this utility model, the interleaving agent pond in described banburying workshop, including interleaving agent pond body, is characterized in that: at the outer sheathed condensed water set of described interleaving agent pond body, condensed water puts and is provided with condensed water import and condensation-water drain, and in interleaving agent pond, this most internal arranges ultrasonic generator.

Described downwind scheme system, is characterized in that, including the cooling section being sequentially arranged, interleaving agent pond, transmits climbing apparatus and dryer section, is respectively provided with transporter in cooling section, interleaving agent pond and dryer section；Described cooling section includes cooling bay and the first blower fan, and the first blower fan is arranged at the discharge end of cooling bay；Second blower fan and First Heat Exchanger are set in described dryer section, transmitting, at climbing apparatus, the second heat exchanger are set.

Further, the water inlet of the described second heat exchanger condensation-water drain with cooling bay or with interleaving agent pond condensed exterior water jacket is connected by cooling water pipeline, the outlet of the second heat exchanger is connected by cooling water pipeline with the water inlet of First Heat Exchanger, and the outlet of First Heat Exchanger is connected with circulating water reclamation pond.

Further, described cooling water pipeline arranges valve.

Further, the feed end at described cooling section arranges tablet machine.

Further, the employing of described transporter is carried out the conveyer belt transmitted by transfer roller.

This utility model compared with prior art, has the advantage that

(1) industrialization graphene oxide monolayer rate is relatively low, and interleaving agent pond described in the utility model adds ultrasonic system, and water solublity and the monolayer rate of graphene oxide can be greatly improved；

(2) sedimentation of the graphene oxide in the setting of ultrasonic system can prevent interleaving agent pond；

(3) eliminate artificial ultrasound and process the process of graphene oxide, simplify technological process, after opening Vltrasonic device, directly graphene oxide powder is put into interleaving agent pond；

(4) interleaving agent pond cyclic water jacket can reduce pool inner water temperature, it is ensured that pool inner water temperature maintains zone of reasonableness；

(5) interleaving agent pond recirculated water hot air drying makes full use of recirculated water energy heats air, improves the drying efficiency of sizing material, saves a large amount of heat energy simultaneously.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of downwind scheme system described in the utility model.

Fig. 2 is the schematic diagram in interleaving agent pond described in the utility model.

Detailed description of the invention

Below in conjunction with concrete accompanying drawing, the utility model is described in further detail.

Shown in Fig. 1～Fig. 2: as described in the interleaving agent pond in banburying workshop and downwind scheme system include tablet machine 1, cooling bay 2, interleaving agent pond 3, transmit climbing apparatus the 4, first blower fan 5-1, the second blower fan 5-2, First Heat Exchanger 6-1, the second heat exchanger 6-2, valve 7, cooling water pipeline 8, interleaving agent pond body 3-1, condensation water jacket 3-2, condensed water import 3-3, condensation-water drain 3-4, ultrasonic generator 3-5, cooling section 9, dryer section 10 etc..

As shown in Figure 2, the interleaving agent pond 3 in banburying workshop described in the utility model, including interleaving agent pond body 3-1, at interleaving agent pond body 3-1 outer sheathed condensed water set 3-2, condensation water jacket 3-2 is provided with condensed water import 3-3 and condensation-water drain 3-4, arranges ultrasonic generator 3-5 in the body 3-1 of interleaving agent pond.Due to water temperature higher time, graphene oxide the most easily reunites, and therefore arranges circulating water set outside interleaving agent pond, is reduced in the reasonable scope by aqueous temperature in time.

As shown in Figure 1, downwind scheme system described in the utility model, including the cooling section 9 being sequentially arranged, interleaving agent pond 3, transmit climbing apparatus 4 and dryer section 10, feed end at cooling section 9 arranges tablet machine 1, being respectively provided with transporter in cooling section 9, interleaving agent pond 3 and dryer section 10, transporter employing is carried out the conveyer belt transmitted by transfer roller.

As it is shown in figure 1, described cooling section 9 includes cooling bay 2 and the first blower fan 5-1, the first blower fan 5-1 is arranged at the discharge end of cooling bay 2.

As it is shown in figure 1, arrange the second blower fan 5-2 and First Heat Exchanger 6-1 in described dryer section 10, transmitting, at climbing apparatus 4, second heat exchanger 6-2 is set；The water inlet of described second heat exchanger 6-2 is connected with cooling bay 2 or with the condensation-water drain 3-4 of interleaving agent pond 3 condensed exterior water jacket 3-2 by cooling water pipeline 8, the outlet of the second heat exchanger 6-2 is connected by cooling water pipeline 8 with the water inlet of First Heat Exchanger 6-1, and the outlet of First Heat Exchanger 6-1 is connected with circulating water reclamation pond；Described cooling water pipeline 8 arranges valve 7.

Described interleaving agent pond mainly carries out the place of oxide impregnation Graphene to the glue stuff compounding surface after reducing temperature in cooling bay.Can elevate the temperature owing to for a long time graphene oxide water solution being carried out supersound process, therefore can intermittently starting ultrasonic.Principle is after being newly added graphene oxide in interleaving agent pond, the most ultrasonic 1 hour-2 hours, to improve the monolayer rate of graphene oxide.

Use Mixer Down-stream Eqiupment system described in the utility model to carry out the dipping process of interleaving agent, specifically include following steps:

(1) obtaining graphene oxide water solution by soluble in water for graphene oxide, the mass percentage concentration of graphene oxide water solution is 2 ‰～3 ‰, and graphene oxide water solution keeps neutrality；

(2) glue stuff compounding is after tabletting machine, and the temperature of glue stuff compounding is 90～160 DEG C, and communicated device is sent to cooling bay, and after the cooling of cooled pond, the temperature of glue stuff compounding is down to less than 60 DEG C；Drying up through blower fan during transmitting after the cooling of cooled pond, along with the evaporation of moisture, glue stuff compounding continues cooling；

(3) glue stuff compounding is sent to interleaving agent pond, interleaving agent fills graphene oxide water solution in pond, graphene oxide water solution carries out batch (-type) supersound process in interleaving agent pond, i.e. when interleaving agent pond is newly added graphene oxide water solution, so far supersound process 1～2h, ultrasonic power 500～1500W are carried out；The temperature of graphene oxide water solution is 20～40 DEG C, in case the reunion of oxidation Graphene；

(4) glue stuff compounding is sent to blower fan and is dried by transmitting climbing apparatus behind interleaving agent pond, heat exchanger is used to improve air themperature to 30～40 DEG C at climbing apparatus and blower fan transmitting, recirculated water in heat exchanger uses the recirculated water in the condensation water jacket outside cooling bay or interleaving agent pond, utilize recirculated water to import heat exchanger the air in back segment dry run is heated, the rate of drying of glue stuff compounding can be improved, rationally reclaimed thermal resource simultaneously；Dried through blower fan, graphene oxide is dispersed on glue stuff compounding surface.

In said process, the transfer rate of glue stuff compounding is 18～21m/min.

Claims (6)

1. the interleaving agent pond in a banburying workshop, including interleaving agent pond body (3-1), it is characterized in that: described interleaving agent pond body (3-1) the most sheathed condensed water set (3-2), condensation water jacket (3-2) is provided with condensed water import (3-3) and condensation-water drain (3-4), arranges ultrasonic generator (3-5) in interleaving agent pond body (3-1).

2. a downwind scheme system, is characterized in that, including the cooling section (9) being sequentially arranged, interleaving agent pond (3), transmission climbing apparatus (4) and dryer section (10), is respectively provided with transporter in cooling section (9), interleaving agent pond (3) and dryer section (10)；Described cooling section (9) includes cooling bay (2) and the first blower fan (5-1), and the first blower fan (5-1) is arranged at the discharge end of cooling bay (2)；Second blower fan (5-2) and First Heat Exchanger (6-1) are set in described dryer section (10), the second heat exchanger (6-2) is set transmitting climbing apparatus (4) place.

3. downwind scheme system as claimed in claim 2, it is characterized in that: the water inlet of described second heat exchanger (6-2) is connected with cooling bay (2) or with the condensation-water drain (3-4) of interleaving agent pond (3) condensed exterior water jacket (3-2) by cooling water pipeline (8), the outlet of the second heat exchanger (6-2) is connected by cooling water pipeline (8) with the water inlet of First Heat Exchanger (6-1), and the outlet of First Heat Exchanger (6-1) is connected with circulating water reclamation pond.

4. downwind scheme system as claimed in claim 3, is characterized in that: arrange valve (7) on described cooling water pipeline (8).

5. downwind scheme system as claimed in claim 2, is characterized in that: the feed end at described cooling section (9) arranges tablet machine (1).

6. downwind scheme system as claimed in claim 2, is characterized in that: the employing of described transporter is carried out the conveyer belt transmitted by transfer roller.