CN214349610U - High-yield double-screw extruder for producing alloy materials - Google Patents

Abstract

The utility model discloses an alloy material production is with high yield twin-screw extruder, include the base and fix the extruder body on the base, the upper end of extruder body is equipped with the feeder hopper, the first L shaped plate of fixedly connected with on the right side wall of extruder body, be equipped with the motor on the first L shaped plate, be equipped with on the output shaft of motor and be used for realizing this internal threaded rod pivoted first drive mechanism of extruder, the right side of first L shaped plate is equipped with second L shaped plate, fixedly connected with transmission section of thick bamboo on the second L shaped plate, be equipped with in the transmission section of thick bamboo and be used for carrying the conveying mechanism in the feeder hopper with the material, be equipped with the stoving mechanism who is used for drying the material in the transmission section of thick bamboo, be equipped with the second drive mechanism who is used for providing the required power of conveying mechanism between first L shaped plate and the second L shaped plate. The utility model discloses rational in infrastructure, it can make things convenient for the material loading, can also carry out the stoving of material simultaneously at the in-process of material loading, improves production efficiency greatly.

Description

High-yield double-screw extruder for producing alloy materials

Technical Field

The utility model relates to an alloy material technical field especially relates to an alloy material production is with high yield double screw extruder.

Background

The alloy has a series of excellent properties of high hardness, wear resistance, good strength and toughness, heat resistance, corrosion resistance and the like, particularly high hardness and wear resistance, and the conventional alloy is produced by a double-screw extruder.

When the existing double-screw extruder is used, materials are mostly fed into a feeding hopper of the double-screw extruder through manual work, but the feeding hopper is generally high, manual feeding is relatively troublesome, the existing materials are mostly required to be dried and then processed, the production mode of distributed processing wastes time, the efficiency is low, and the problem is solved by the high-yield double-screw extruder for producing alloy materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and the high yield twin-screw extruder is used in alloy material production that proposes, it can make things convenient for the material loading, can also carry out the stoving of material simultaneously at the in-process of material loading, improves production efficiency greatly.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an alloy material production is with high yield twin-screw extruder, includes the base and fixes the extruder body on the base, the upper end of extruder body is equipped with the feeder hopper, the first L shaped plate of fixedly connected with on the right side wall of extruder body, be equipped with the motor on the first L shaped plate, be equipped with on the output shaft of motor and be used for realizing this internal threaded rod pivoted first drive mechanism of extruder, the right side of first L shaped plate is equipped with second L shaped plate, fixedly connected with transmission section of thick bamboo on the second L shaped plate, be equipped with in the transmission section of thick bamboo and be used for carrying the conveying mechanism in the feeder hopper with the material, be equipped with the stoving mechanism that is used for drying the material in the transmission section of thick bamboo, be equipped with the second drive mechanism that is used for providing the required power of conveying mechanism between first L shaped plate and the second L shaped plate.

Preferably, the first transmission mechanism comprises two rotating shafts fixedly connected to the internal thread rod of the extruder body, the upper ends of the rotating shafts are fixedly connected with the output shaft of the motor, and the two rotating shafts are fixedly connected with gears matched with each other.

Preferably, the conveying mechanism comprises a transmission shaft rotatably connected in the transmission cylinder, and a helical blade is fixedly connected to the side wall of the transmission shaft.

Preferably, drying mechanism is including setting up the gas storage chamber in the transmission shaft, be equipped with a plurality of gas outlets that run through the transmission shaft on the lateral wall in gas storage chamber, it is a plurality of all be equipped with in the gas outlet and keep off the cloth, fixedly connected with air heater on the transmission section of thick bamboo, the outlet duct and the sealed intercommunication in gas storage chamber of air heater.

Preferably, the second transmission mechanism comprises two connecting shafts rotatably connected to the base, a worm is fixedly connected to the rotating shaft, the left end of the second transmission mechanism is fixedly connected to a worm wheel matched with the worm, two belt wheels are fixedly connected to the connecting shafts, the two belt wheels are connected through a belt, and the right end of the second transmission mechanism is fixedly connected to the connecting shafts and the transmission shaft.

Preferably, the upper end of a transmission section of thick bamboo is equipped with the discharging pipe that extends to the feeder hopper upper end, transmission section of thick bamboo lower extreme intercommunication is equipped with the inlet pipe.

Compared with the prior art, the utility model, its beneficial effect does:

1. through setting up first drive mechanism and second drive mechanism, realize can driving the pivot of upper end and rotate when the motor rotates, make the pivot of lower extreme rotate through gear drive to make this internal two threaded rods of extruder rotate, when the pivot of lower extreme rotates, make the worm rotate, drive matched with worm wheel and rotate with it, make the right-hand member connecting axle rotate through the band pulley, realize using the power on the extruder on the material transport altogether, realize the saving of power resource.

2. Through setting up conveying mechanism and stoving mechanism, realize the transmission shaft and rotate for helical blade rotates, realizes the transport of material, and at helical blade transportation process, the air heater is opened, and in sending into the gas storage chamber with steam, then blow to the material through a plurality of gas outlets and carry out the stoving of material, make to extrude off-the-shelf quality better.

Drawings

FIG. 1 is a schematic structural view of a high-yield twin-screw extruder for producing alloy material according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at the position A of the high-yield twin-screw extruder for producing alloy material according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at the position B of the high-yield twin-screw extruder for producing alloy material according to the present invention;

fig. 4 is a schematic top view of a worm gear of the high-yield twin-screw extruder for producing alloy material according to the present invention.

In the figure: the extruder comprises a base 1, an extruder body 2, a feed hopper 3, a motor 4, a second L-shaped plate 5, a transmission cylinder 6, a rotating shaft 7, a gear 8, a transmission shaft 9, a helical blade 10, an air storage cavity 11, an air outlet 12, a hot air blower 13, a worm 14, a worm wheel 15, a belt wheel 16, a belt 17, a discharge pipe 18 and a feed pipe 19.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention can be embodied in many different forms other than those specifically described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit and scope of the invention, and it is therefore not to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-4, a high-yield double-screw extruder for producing alloy materials comprises a base 1 and an extruder body 2 fixed on the base 1, wherein a feed hopper 3 is arranged at the upper end of the extruder body 2, a first L-shaped plate is fixedly connected to the right side wall of the extruder body 2, a motor 4 is arranged on the first L-shaped plate, a first transmission mechanism used for achieving rotation of a threaded rod in the extruder body 2 is arranged on an output shaft of the motor 4, the first transmission mechanism comprises two rotating shafts 7 fixedly connected to an internal threaded rod of the extruder body 2, the upper rotating shafts 7 are fixedly connected with an output shaft of the motor 4, and gears 8 matched with each other are fixedly connected to the two rotating shafts 7.

The right side of the first L-shaped plate is provided with a second L-shaped plate 5, a transmission cylinder 6 is fixedly connected onto the second L-shaped plate 5, a discharge pipe 18 extending to the upper end of the feed hopper 3 is arranged at the upper end of the transmission cylinder 6, a feed pipe 19 is communicated with the lower end of the transmission cylinder 6, a conveying mechanism used for conveying materials into the feed hopper 3 is arranged in the transmission cylinder 6, the conveying mechanism comprises a transmission shaft 9 rotatably connected into the transmission cylinder 6, helical blades 10 are fixedly connected onto the side wall of the transmission shaft 9, a drying mechanism used for drying the materials is arranged in the transmission cylinder 6 and comprises an air storage cavity 11 arranged in the transmission shaft 9, a plurality of air outlets 12 penetrating through the transmission shaft 9 are arranged on the side wall of the air storage cavity 11, blocking cloth is arranged in the plurality of air outlets 12, a hot air fan 13 is fixedly connected onto the transmission cylinder 6, an air outlet pipe of the hot air fan 13 is communicated with the air storage cavity 11 in a sealing manner, and the spiral blades 10 are arranged, Transmission shaft 9, gas storage chamber 11 etc. realize transmission shaft 9 and rotate for helical blade 10 rotates, realizes the transport of material, and in helical blade 10 transportation process, air heater 13 opened, send steam into in the gas storage chamber 11, then blow the stoving that carries out the material on the material through a plurality of gas outlets 12, make to extrude off-the-shelf quality better.

A second transmission mechanism for providing power needed by the conveying mechanism is arranged between the first L-shaped plate and the second L-shaped plate 5, the second transmission mechanism comprises two connecting shafts which are rotationally connected on the base 1, a worm 14 is fixedly connected on the lower end rotating shaft 7, a worm wheel 15 matched with the worm 14 is fixedly connected on the left end connecting shaft, belt wheels 16 are fixedly connected on the two connecting shafts, the two belt wheels 16 are connected through a belt 17, the right end connecting shaft is fixedly connected with a transmission shaft 9, through the arrangement of the rotating shaft 7, the gear 8, the belt wheels 16 and the like, the rotating shaft 7 at the upper end can be driven to rotate when the motor 4 rotates, the rotating shaft 7 at the lower end is driven to rotate through the transmission of the gear 8, so that the two threaded rods in the extruder body 2 are rotated, when the lower end rotating shaft 7 rotates, the worm 14 is rotated to drive the worm wheel 15 matched with the worm to rotate, and the right end connecting shaft is rotated through the belt wheels 16, the power on the extruder body 2 is shared to material conveying, and the power resource is saved.

When the utility model is used, firstly, the motor 4 is turned on, the rotation of the motor 4 can drive the rotating shaft 7 at the upper end to rotate, the gear 8 at the upper end is rotated, the gear 8 at the lower end is driven to rotate, the rotating shaft 7 at the lower end is rotated, two threaded rods in the extruder body 2 are rotated, when the rotating shaft 7 at the lower end is rotated, the worm 14 is rotated, the worm wheel 15 matched with the worm is driven to rotate, the left end connecting shaft is rotated, the left end belt wheel 16 is rotated, the belt wheel 16 at the right end is driven to rotate through the belt 17, the transmission shaft 9 is rotated, the helical blade 10 is rotated, at the moment, materials are put into the transmission cylinder 6 from the feeding pipe 19, are conveyed by the helical blade 10 and then are led out from the discharging pipe 18, finally, the materials enter the extruder body 2 through the feeding hopper 3, in the conveying process of the helical blade 10, the hot air blower 13 is turned on, hot air is sent into the air storage cavity 11, then the materials are discharged from a plurality of air outlets 12 to be dried, so that the quality of the extruded finished products is better.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an alloy material production is with high yield twin-screw extruder, includes base (1) and fixes extruder body (2) on base (1), its characterized in that, the upper end of extruder body (2) is equipped with feeder hopper (3), the first L shaped plate of fixedly connected with on the right side wall of extruder body (2), be equipped with motor (4) on the first L shaped plate, be equipped with on the output shaft of motor (4) and be used for realizing the threaded rod pivoted first drive mechanism in extruder body (2), the right side of first L shaped plate is equipped with second L shaped plate (5), fixedly connected with transmission section of thick bamboo (6) is gone up in second L shaped plate (5), be equipped with in transmission section of thick bamboo (6) and be used for carrying the material conveying mechanism in feeder hopper (3), be equipped with the stoving mechanism that is used for drying the material in transmission section of thick bamboo (6), be equipped with between first L shaped plate and the second L shaped plate (5) and be used for providing the required power of conveying mechanism And a second transmission mechanism.

2. The high-yield twin-screw extruder for producing the alloy material as claimed in claim 1, wherein the first transmission mechanism comprises two rotating shafts (7) fixedly connected to the internal threaded rod of the extruder body (2), the rotating shaft (7) at the upper end is fixedly connected with an output shaft of the motor (4), and the two rotating shafts (7) are fixedly connected with gears (8) which are matched with each other.

3. A high-yield twin-screw extruder for producing alloy material according to claim 1, wherein the conveying mechanism comprises a transmission shaft (9) rotatably connected in the transmission barrel (6), and helical blades (10) are fixedly connected to the side wall of the transmission shaft (9).

4. The high-yield twin-screw extruder for producing alloy materials as claimed in claim 3, wherein the drying mechanism comprises an air storage chamber (11) arranged in the transmission shaft (9), the side wall of the air storage chamber (11) is provided with a plurality of air outlets (12) penetrating through the transmission shaft (9), a plurality of air outlets (12) are provided with a blocking cloth, the transmission cylinder (6) is fixedly connected with a hot air blower (13), and an air outlet pipe of the hot air blower (13) is communicated with the air storage chamber (11) in a sealing manner.

5. The high-yield twin-screw extruder for producing alloy materials as claimed in claim 2, wherein the second transmission mechanism comprises two connecting shafts rotatably connected to the base (1), a worm (14) is fixedly connected to the rotating shaft (7) at the lower end, a worm wheel (15) matched with the worm (14) is fixedly connected to the connecting shaft at the left end, belt wheels (16) are fixedly connected to both the two connecting shafts, the two belt wheels (16) are connected through a belt (17), and the connecting shaft at the right end is fixedly connected to the transmission shaft (9).

6. A high-yield twin-screw extruder for producing alloy materials, as claimed in claim 1, wherein the upper end of the conveying cylinder (6) is provided with a discharge pipe (18) extending to the upper end of the feed hopper (3), and the lower end of the conveying cylinder (6) is communicated with a feed pipe (19).

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