CN203886477U - Dual-stage mixing device of high-light low-temperature-resistant super-tough ABS (Acrylonitrile Butadiene Styrene) or PC (Poly Carbonate) material - Google Patents

Abstract

The utility model discloses a dual-stage mixing device of a high-light low-temperature-resistant super-tough ABS (Acrylonitrile Butadiene Styrene) or PC (Poly Carbonate) material. The dual-stage mixing device comprises a hot mixing assembly and a cold mixing assembly, wherein the hot mixing assembly comprises a hot mixing cylinder and a heater arranged on the cylinder wall, a first rotating blade and a second rotating blade which rotate reversely are arranged at the bottom of the hot mixing cylinder, a first discharging hole which can be opened or closed is arranged at the bottom of the hot mixing cylinder, a discharging blade is arranged on the hot mixing cylinder, corresponding to the first discharging hole; the cold mixing assembly comprises a cold mixing assembly and a cooling channel arranged on the cylinder wall, a rotating blade is arranged at the bottom of the cold mixing cylinder, a baffle rod is arranged on the cylinder wall, corresponding to the rotating blade, a second discharging hole which can be opened or closed is arranged at the bottom of the cold mixing cylinder; and the top position of the hot mixing assembly is higher than that of the cold mixing assembly, and the first discharging hole of the hot mixing assembly is communicated with a feeding hole of the cold mixing assembly. According to the dual-stage mixing device, through arranging the rotating blades which rotate reversely and arranging the baffle plate, the mixing effect is improved; and through arranging a discharging structure, automatic discharging of a material is realized, and the material is thoroughly discharged.

Description

The double-stage hybrid device of the low temperature resistant super tough ABS of high light or PC material

Technical field

The utility model relates to the technical field of mixing of materials, relates in particular to the double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material.

Background technology

Mixing of materials is processing procedure conventional in industrial production, different material size or different mixabilities have produced different requirements to mixing apparatus, there is in the market mixer miscellaneous, substantially can meet the mixing needs of different material, but existing mixing apparatus disposal ability is more single, and production efficiency is low.A kind of mixing arrangement designing for the mixed process for cold mixing of heat provided herein, can realize and first material be carried out to heat mixing, then the twin-stage mixed processing process of material being carried out to cold mixing, and the feature of this device is twin-stage mixed processing, and mixed effect is good; Twin-stage process implementation is from being dynamically connected, and production efficiency is high; Discharging structure is set, and automatic-discharging realized by material and emission effect is good.

Utility model content

An object of the present utility model is: the double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material is provided, by the rotor of reverse rotation being set and baffle plate being set, effectively improves the mixed effect of material.

Another object of the present utility model is: the double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material is provided, by discharging structure is set, realizes automatic-discharging material and make discharge of materials effect good.

For reaching this object, the utility model by the following technical solutions:

The double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material, comprise the mixed assembly of heat and cold mixed assembly, the mixed assembly of described heat comprises the mixed cylinder of heat and is arranged on the heating element on the casing wall of the mixed cylinder of described heat, the bottom interval of the mixed cylinder of described heat is provided with for mixed material and mutual counter-rotational the first rotor and the second rotor, the bottom of the mixed cylinder of described heat offers the first able to turn on or off discharge port near a side of described cold mixed assembly, corresponding described the first discharge port is also provided with the discharging cutter that enters described the first discharge port for promoting material on the mixed cylinder of described heat, described discharging cutter is arranged between described the second rotor and the bottom of the mixed cylinder of described heat, described discharging cutter with described the second rotor without directly contacting, described cold mixed assembly comprises cold mixed cylinder and is arranged on the cooling duct on the casing wall of described cold mixed cylinder, described cold mixed cylinder bottom portion is provided with the rotating knife for mixed material and discharging, corresponding described rotating knife is also provided with pin on the casing wall of described cold mixed cylinder, described pin and described rotating knife are crisscross arranged, described pin is with described rotating knife without directly contacting, and the bottom of described cold mixed cylinder offers the second able to turn on or off discharge port away from a side of the mixed assembly of described heat, the bottom position of the mixed assembly of described heat is higher than the tip position of described cold mixed assembly, and described first discharge port of the mixed assembly of described heat is communicated with the charging aperture of described cold mixed assembly.

Preferably, the quantity of described pin is two, is separately fixed at the both sides of the casing wall of described cold mixed cylinder.

Particularly, on the casing wall of the mixed cylinder of described heat, described heating element is set, can in mixed material process, synchronously to material, be dried processing, described cooling duct is set on the casing wall of described cold mixed cylinder, contribute to cooling material after overheated mixed processing, make the material that mixes rear discharge in normal temperature.The stirring structure that described rotating knife and described pin formation sound collision type are set in counter-rotational described the first rotor and described the second rotor, described cold mixed cylinder is set in the mixed cylinder of described heat, has all effectively improved mixed effect.When described the first discharge port is opened, the material that described discharging cutter can promote in the mixed cylinder of described heat enters described the first discharge port, contributes to make discharge of materials more thorough; When described the second discharge port is opened, the material that described rotating knife can promote in cold mixed cylinder enters described the second discharge port, contributes to make discharge of materials more thorough.

As a kind of preferred technical scheme, one side of the mixed cylinder of described heat is provided with the mixed motor of heat, described the first rotor is positioned at described the second rotor away from a side of the bottom of the mixed cylinder of described heat, described the first rotor and described the second rotor are connected by gear and the mixed motor-driven of described heat and realize simultaneously and rotating backward, and described the first rotor, described the second rotor and described heat are mixed the first clutch that is provided with selective adhesive between motor.

Preferably, the mixed motor of described heat, described first clutch are connected with the controller of outer setting respectively.

Preferably, described the first rotor is connected with the same output of the mixed motor of described heat with described the second rotor, and particularly, by the selective connection of described clutch, described the first rotor and described the second rotor rotate simultaneously or stop simultaneously.

As a kind of preferred technical scheme, the length of described discharging cutter is greater than the length of described the first rotor, described the second rotor, described discharging cutter is connected by the mixed motor-driven of gear and described heat, is provided with the second clutch of selective adhesive between the mixed motor of described discharging cutter and described heat.

Preferably, described second clutch is connected with the described controller of outer setting.

Preferably, the gearratio of the mixed motor of described heat and described the first rotor, the second rotor is greater than the gearratio of the mixed motor of described heat and described discharging cutter.Particularly, when described heat is mixed cylinder in mixed flow regime, described first clutch adhesive, described second clutch disconnects, described the first rotor and described the second rotor high speed rotating also stir material, when the mixed cylinder of described heat is when discharging operating mode, and described second clutch adhesive, described first clutch disconnects, and described discharging cutter slowly runs and promotes material and enters described the first discharge port.

As a kind of preferred technical scheme, one side of described cold mixed cylinder is provided with cold mixed motor, described rotating knife is connected with described cold mixed motor-driven by belt component, between described rotating knife and described cold mixed motor, is provided with the speed changer that can change described rotating knife rotating speed.

Preferably, described belt component comprise the output shaft end that is arranged on described cold mixed motor the first belt pulley, be arranged on the second belt pulley in the rotating shaft of described rotating knife and for connecting the belt of described the first belt pulley and described the second belt pulley.

Preferably, described cold mixed motor, described speed changer are connected with the described controller of outer setting respectively.

Particularly, when described cold mixed cylinder is during in mixed flow regime, described rotating knife high speed rotating also stirs material, and when described cold mixed cylinder is during in discharge operating mode, described rotating knife slowly runs and promotes material and enters described the second discharge port.

As a kind of preferred technical scheme, the mixed cylinder of described heat comprises the mixed shell of heat and the mixed inner casing of the heat in inner side in outside, between the mixed inner casing of the mixed shell of described heat and described heat, forms columniform shell wall cavity, and described heating element is arranged in described shell wall cavity.

Preferably, described heating element is connected with the described controller of outer setting.

Preferably, on the mixed shell of described heat, there is thermal insulation layer, can prevent that heat from conducting to outside the mixed cylinder of heat, effectively protects operator's safety.In addition, the pedestal of the mixed cylinder of described heat also adopts heat-barrier material, can prevent that heat from conducting to workbench.

As a kind of preferred technical scheme, described heating element is heat-generating pipe, and described heat-generating pipe curl is distributed in whole columniform described shell wall cavity, contributes to provide more equably heat.

As a kind of preferred technical scheme, described cold mixed cylinder comprises cold mixed shell and the cold mixed inner casing in inner side in outside, is formed for the cooling duct of material in cooling cylinder between described cold mixed shell and described cold mixed inner casing.

Preferably, bottom, described cooling duct offers the floss hole that cooling fluid all can be discharged.

As a kind of preferred technical scheme, the both sides of described cooling duct offer respectively cooling fluid entrance and cooling liquid outlet, and described cooling fluid entrance and described cooling liquid outlet are communicated with the coolant system of outer setting respectively and form cooling circuit.Particularly, described cooling fluid entrance and described cooling liquid outlet are arranged on the two ends of apart from each other, contribute to the cooling fluid whole cooling duct of flowing through fully, contribute to improve cooling effect.

Preferably, described coolant system is connected with the described controller of outer setting.

As a kind of preferred technical scheme, corresponding described the first discharge port position of the mixed cylinder of described heat arranges the first material implication cylinder, and the first material mouth that the piston rod end of described the first material implication cylinder is provided with for described the first discharge port of selective sealing stops up.

Preferably, described the first material implication cylinder is connected with the described controller of outer setting.

As a kind of preferred technical scheme, corresponding described the second discharge port position of described cold mixed cylinder arranges the second material implication cylinder, and the second material mouth that the piston rod end of described the second material implication cylinder is provided with for described the second discharge port of selective sealing stops up.

Preferably, described the second material implication cylinder is connected with the described controller of outer setting.

Particularly, operator packs material to be mixed after the mixed cylinder of described heat into, by controller, the time of heat mixing and cold mixing being set respectively and being started makes device enter mixed flow regime, described heat is mixed electric motor starting, described first clutch adhesive, described the first rotor and described the second rotor rotate and stir material; When arriving the nominal time of heat mixing, described first clutch disconnects and described second clutch adhesive, described discharging swivel moves and promotes material and enters described the first discharge port, described the first material implication cylinder working of while is also opened described the first discharge port, and material escapes and enter described cold mixed cylinder from described the first discharge port; When material all enters after described cold mixed cylinder, described the first material implication cylinder returns to and closes described the first discharge port, described cold mixed electric motor starting of while, and speed changer is in high transmission ratio state, and described rotating knife rotates and stirs material; When arriving cold mixed calibration during the time, speed changer is transformed into underneath drive than state, and described rotating knife promotes material and enters described the second discharge port, and described the second material implication cylinder working of while is also opened described the second discharge port, material is discharged from described the second discharge port, completes twin-stage and mixes.

The beneficial effects of the utility model are: the double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material is provided, by the rotor of reverse rotation being set and baffle plate being set, improves the mixed effect of material; By discharging structure is set, realizes automatic-discharging material and make discharge of materials thorough.

Accompanying drawing explanation

According to drawings and embodiments the utility model is described in further detail below.

Fig. 1 is the system construction drawing of the double-stage hybrid device of the low temperature resistant super tough ABS of the high light described in embodiment or PC material.

In Fig. 1:

10, the mixed cylinder of heat; 101, the mixed shell of heat; 102, the mixed inner casing of heat; 11, heating element; 12, the mixed motor of heat; 13, the first rotor; 14, the second rotor; 15, discharging cutter; 16, the first material implication cylinder; 17, the first material mouth stops up; 18, the first discharge port;

20, cold mixed cylinder; 201, cold mixed shell; 202, cold mixed inner casing; 21, cooling duct; 22, cooling fluid entrance; 23, cooling liquid outlet; 24, cold mixed motor; 25, rotating knife; 26, pin; 27, the second material implication cylinder; 28, the second material mouth stops up; 29, the second discharge port;

30, workbench;

40, control case.

The specific embodiment

Below in conjunction with accompanying drawing and by the specific embodiment, further illustrate the technical solution of the utility model.

As shown in Figure 1, in the present embodiment, the double-stage hybrid device of the low temperature resistant super tough ABS of a kind of high light or PC material, comprise the mixed assembly of heat and cold mixed assembly, the mixed assembly of heat comprises the mixed cylinder 10 of heat and heating element 11, the mixed cylinder 10 of heat comprises the mixed shell 101 of heat and the mixed inner casing 102 of the heat in inner side in outside, between the mixed shell 101 of heat and the mixed inner casing 102 of heat, forms columniform shell wall cavity, and heating element 11 is arranged in shell wall cavity.On the mixed shell 101 of heat, have thermal insulation layer, the pedestal of the mixed cylinder 10 of heat adopts heat-barrier material, effectively prevents that heat from conducting to the mixed outer injury of cylinder 10 operator of heat.

In the present embodiment, heating element 11 is heat-generating pipe, and heat-generating pipe curl is distributed in whole columniform shell wall cavity.Heating element 11 is not limited to heat-generating pipe, can be also existing other the conventional heating plant in this area.

The bottom interval of the mixed cylinder 10 of heat is provided with counter-rotational the first rotor 13 and the second rotor 14 mutually, the first rotor 13 is positioned at a side of the bottom away from the mixed cylinder 10 of heat of the second rotor 14, one side of the mixed cylinder 10 of heat is provided with the mixed motor 12 of heat, the first rotor 13 and the second rotor 14 output shaft by gear and the mixed motor 12 of heat is in transmission connection and realizes simultaneously and rotating backward, and the first rotor 13, the second rotor 14 mix with heat the first clutch that is provided with selective adhesive between motor 12.

In other embodiment, the first rotor 13 is connected with the mixed motor 12 of heat by chain assemblies or belt component with the second rotor 14.

The bottom of the mixed cylinder 10 of heat offers the first discharge port 18 near a side of cold mixed assembly, the first material mouth that the piston rod end that corresponding the first discharge port 18 positions of the mixed cylinder 10 of heat arrange the first material implication cylinder 16, the first material implication cylinders 16 is provided with for selective sealing the first discharge port 18 stops up 17.

Corresponding the first discharge port 18 is also provided with the discharging cutter 15 that enters the first discharge port 18 for promoting material on the mixed cylinder 10 of heat, discharging cutter 15 is arranged between the second rotor 14 and the bottom of the mixed cylinder 10 of heat, the length of discharging cutter 15 is greater than the length of the first rotor 13, the second rotor 14, discharging cutter 15 is in transmission connection by the mixed motor 12 of gear and heat, is provided with the second clutch of selective adhesive between the mixed motor 12 of discharging cutter 15 and heat.Especially, the gearratio of the mixed motor 12 of heat and the first rotor 13, the second rotor 14 is greater than the gearratio of the mixed motor 12 of heat and discharging cutter 15.

Cold mixed assembly comprises cold mixed cylinder 20 and cooling duct 21, and cold mixed cylinder 20 comprises cold mixed shell 201 and the cold mixed inner casing 202 in inner side in outside, between cold mixed shell 201 and cold mixed inner casing 202, forms cooling duct 21.The both sides of cooling duct 21 offer respectively cooling fluid entrance 22 and cooling liquid outlet 23, cooling fluid entrance 22 and cooling liquid outlet 23 are communicated with the coolant system of outer setting respectively and form cooling circuit, in addition, 21 bottoms, cooling duct offer the floss hole that cooling fluid all can be discharged.

Cold mixed cylinder 20 bottoms are provided with rotating knife 25, the bottom in cold mixed cylinder 20 outsides is provided with cold mixed motor 24, rotating knife 25 is in transmission connection by belt component and cold mixed motor 24, between rotating knife 25 and cold mixed motor 24, is provided with the speed changer that can change rotating knife 25 rotating speeds.In addition, corresponding rotation cutter 25 is also provided with pin 26 on the casing wall of cold mixed cylinder 20, and pin 26 is crisscross arranged with rotating knife 25, and both are without directly contact, and in the present embodiment, the quantity of pin 26 is two, is separately fixed at the both sides of the casing wall of cold mixed cylinder 20.

The bottom of cold mixed cylinder 20 offers the second discharge port 29 away from a side of the mixed assembly of heat, the second material mouth that the piston rod end that corresponding the second discharge port 29 positions of cold mixed cylinder 20 arrange the second material implication cylinder 27, the second material implication cylinders 27 is provided with for selective sealing the second discharge port 29 stops up 28.

The present embodiment device also has workbench 30 and controls case 40, control the top that case 40, the mixed cylinder 10 of heat and the mixed motor 12 of heat are arranged on workbench 30, cold mixed cylinder 20 and cold mixed motor 24 are arranged on the below of workbench 30, the bottom position of the mixed assembly of heat is higher than the tip position of cold mixed assembly, and the first discharge port 18 of the mixed assembly of heat is communicated with the charging aperture of cold mixed assembly.

Control in case 40 and be provided with controller, the mixed motor 12 of heat, cold mixed motor 24, first clutch, second clutch, speed changer, heating element 11, coolant system, the first material implication cylinder 16, the second material implication cylinder 27 are all connected with controller.

" first " herein, " second " are only used to be distinguished on describing, and do not have special implication.

What need statement is; the above-mentioned specific embodiment is only preferred embodiment of the present utility model and institute's application technology principle; in technical scope disclosed in the utility model; the variation that any those skilled in the art of being familiar with easily expect or replacement, all should be encompassed in protection domain of the present utility model.

Claims (10)

1. the double-stage hybrid device of the low temperature resistant super tough ABS of high light or PC material, it is characterized in that, comprise the mixed assembly of heat and cold mixed assembly, the mixed assembly of described heat comprises the mixed cylinder of columniform heat and is arranged on the heating element on the casing wall of the mixed cylinder of described heat, the bottom interval of the mixed cylinder of described heat is provided with for mixed material and mutual counter-rotational the first rotor and the second rotor, the bottom of the mixed cylinder of described heat offers the first able to turn on or off discharge port near a side of described cold mixed assembly, corresponding described the first discharge port is also provided with the discharging cutter that enters described the first discharge port for promoting material on the mixed cylinder of described heat, described discharging cutter is arranged between described the second rotor and the bottom of the mixed cylinder of described heat, described cold mixed assembly comprises columniform cold mixed cylinder and is arranged on the cooling duct on the casing wall of described cold mixed cylinder, described cold mixed cylinder bottom portion is provided with the rotating knife for mixed material and discharging, corresponding described rotating knife is also provided with pin on the casing wall of described cold mixed cylinder, and the bottom of described cold mixed cylinder offers the second able to turn on or off discharge port away from a side of the mixed assembly of described heat, the bottom position of the mixed assembly of described heat is higher than the tip position of described cold mixed assembly, and described first discharge port of the mixed assembly of described heat is communicated with the charging aperture of described cold mixed assembly.

2. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 1 or PC material, it is characterized in that, one side of the mixed cylinder of described heat is provided with the mixed motor of heat, described the first rotor is positioned at described the second rotor away from a side of the bottom of the mixed cylinder of described heat, described the first rotor and described the second rotor are connected by gear and the mixed motor-driven of described heat and realize simultaneously and rotating backward, and described the first rotor, described the second rotor and described heat are mixed the first clutch that is provided with selective adhesive between motor.

3. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 2 or PC material, it is characterized in that, the length of described discharging cutter is greater than the length of described the first rotor, described the second rotor, described discharging cutter is connected by the mixed motor-driven of gear and described heat, is provided with the second clutch of selective adhesive between the mixed motor of described discharging cutter and described heat.

4. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 3 or PC material, it is characterized in that, one side of described cold mixed cylinder is provided with cold mixed motor, described rotating knife is connected with described cold mixed motor-driven by belt component, between described rotating knife and described cold mixed motor, is provided with the speed changer that can change described rotating knife rotating speed.

5. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 4 or PC material, it is characterized in that, the mixed cylinder of described heat comprises the mixed shell of heat and the mixed inner casing of the heat in inner side in outside, between the mixed inner casing of the mixed shell of described heat and described heat, form columniform shell wall cavity, described heating element is arranged in described shell wall cavity.

6. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 5 or PC material, is characterized in that, described heating element is heat-generating pipe, and described heat-generating pipe curl is distributed in whole described shell wall cavity.

7. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 6 or PC material, it is characterized in that, described cold mixed cylinder comprises cold mixed shell and the cold mixed inner casing in inner side in outside, is formed for the cooling duct of material in cooling cylinder between described cold mixed shell and described cold mixed inner casing.

8. the double-stage hybrid device of the low temperature resistant super tough ABS of high light according to claim 7 or PC material, it is characterized in that, the both sides of described cooling duct offer respectively cooling fluid entrance and cooling liquid outlet, and described cooling fluid entrance and described cooling liquid outlet are communicated with the coolant system of outer setting respectively and form cooling circuit.

9. according to the double-stage hybrid device of the low temperature resistant super tough ABS of the high light described in claim 1 to 8 any one or PC material, it is characterized in that, corresponding described the first discharge port position of the mixed cylinder of described heat arranges the first material implication cylinder, and the first material mouth that the piston rod end of described the first material implication cylinder is provided with for described the first discharge port of selective sealing stops up.

10. according to the double-stage hybrid device of the low temperature resistant super tough ABS of the high light described in claim 1 to 8 any one or PC material, it is characterized in that, corresponding described the second discharge port position of described cold mixed cylinder arranges the second material implication cylinder, and the second material mouth that the piston rod end of described the second material implication cylinder is provided with for described the second discharge port of selective sealing stops up.