CN205364154U - Vacuum extruder higher level structure - Google Patents

Abstract

This patent application discloses vacuum extruder higher level structure, including extruding the barrel, extrude the axle and install and extruding epaxial stirring sword, spiral reamer, set up the feed inlet on extruding the barrel, still extrude the barrel including being located to be the groove of extruding of V type, should extrude to rotate to be connected with in the notch in groove and extrude the axle, should extrude the axle and be close to feed inlet one side and install a plurality ofly the stirring sword is extruded the axle and is kept away from feed inlet one side and be connected with the spiral reamer. The squeezing action power that this extruder higher level structure can make the mud material and extrude the inslot wall is big, can not form dead mud district again, is favorable to the mud material to be extruded.

Description

Level structure on vacuum-extruder

Technical field

This utility model belongs to material and is extruded field in forcing press, is specifically related to level structure on a kind of vacuum-extruder.

Background technology

Vacuum-extruder adopts unit extrusion principle, single shaft, single mud cylinder, single-screw coaxial-type sealing mechanism.Body is all formed by Plate Welding.Reasonable in design, extrusion pressure is big.Suitable in raw material production all size hollow bricks such as shale, high-content fly ash, gangue, clays.This machine is practical, invest little, instant effect, is the ideal equipment of brick field technological transformation.Vacuum-extruder be pug is stirred, evacuation process, the satisfactory mud bar of spiral squeezing.The kind of vacuum-extruder can be divided into single-stage, twin-stage two kinds, and double-stage vacuum extruding machine is divided into superior portion and inferior portion, and higher level is twin shaft or single-shaft stirring machine, and subordinate is extruser.

For existing double-stage vacuum extruding machine, stirring blade that its higher level generally includes extruding groove, extrudes axle and is arranged on shaft, spiral reamer, higher level is often for tentatively stirring pug, extrude and transferring out, and the extruding groove of existing superior portion is commonly referred to as cylindric or in flat shape, for cylindric extruding groove, pug squeezing action power with barrel in extruding groove is less；For the extruding groove of flat shape, in the process of extruding, in extruding groove, it is readily formed Si Ni district, hinders mixing and the extrusion of pug.

Utility model content

The purpose of this utility model is in that to provide level structure on a kind of vacuum-extruder, and on this extruder, level structure can make pug big with the squeezing action power of extruding groove inwall, will not form again Si Ni district, be conducive to pug to extrude.

For reaching above-mentioned purpose, the technical solution of the utility model is as follows:

Level structure on vacuum-extruder, including extrusion cylinder, extrusion axle and the stirring blade being arranged on extrusion axle, spiral reamer, described extrusion cylinder offers charging aperture, also include being positioned at extruded tube body, and V-shaped extruding groove, being rotatably connected to extrusion axle in the notch of this extruding groove, this extrusion axle is provided with some described stirring blades near charging aperture side, and extrusion axle is connected to described spiral reamer away from charging aperture side.

The principle of this programme: time specifically used, start vacuum-extruder, extrusion axle rotates, then being added from charging aperture by pug to be processed, drive stirring blade and spiral reamer to rotate in extrusion axle rotation process, stirring blade then stirs the pug in extruding groove, V-shaped due to extruding groove, so pug extrudes with the sidewall of extruding groove when being stirred, pug is from charging aperture side toward discharging opening one side shifting simultaneously, and pug is sent by spiral reamer.

The advantage of this programme is: in this programme, and the shape of extruding groove is V-shaped, and pug extrudes with the sidewall of extruding groove when being stirred, and the active force extruded is compared with cylindric extruding groove, and active force is bigger；And the extruding groove of V-type is compared with in flat shape extruding groove, will not form Si Ni district in the bottom of extruding groove, is conducive to pug to be extruded.

Prioritization scheme 1, the further optimization to base case, described stirring blade is in spiral distribution on extrusion axle, and the angle formed between adjacent two stirring blades is 90 °.Form the stirring blade of Spiral distribution while stirring pug, moreover it is possible to pushed toward discharging opening side by the pug in extruding groove.

Prioritization scheme 2, the further optimization to base case, described extrusion axle is provided with inner conical drogue away from charging aperture one end, and the inwall of described extruded tube is provided with external conical sleeve, forms annular discharging opening between described inner conical drogue and external conical sleeve.After arranging inner conical drogue and external conical sleeve in a manner described, pressure when pug is extruded increases, better through the density of the pug of superior portion extrusion.

Prioritization scheme 3, the further optimization to prioritization scheme 2, described extrusion axle is connected to plate-like away from charging aperture one end and cuts trowel dish.Plate-like is cut trowel dish and is rotated together with extrusion axle, when pug is extruded, can be cut trowel dish and in fragment by plate-like, so can be discharged by the air in pug.

Prioritization scheme 4, the further optimization to base case, prioritization scheme any one of 1-3, described stirring blade is connected with extrusion axle bolt.Stirring blade is in use easy to abrasion, so needing often to change, mounts and dismounts when above-mentioned connected mode is conveniently replaceable.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, this utility model is described in further detail:

Fig. 1 is the structural representation of this utility model vacuum-extruder higher level's constructive embodiment 1；

Fig. 2 is the structural representation of this utility model vacuum-extruder higher level's constructive embodiment 2；

Fig. 3 is the structural representation of extruding groove part in this utility model vacuum-extruder higher level's constructive embodiment 1 or 2.

Detailed description of the invention

Below by detailed description of the invention, this utility model is described in further detail:

Accompanying drawing labelling in Figure of description includes: extrusion cylinder 1, extrusion axle 2, extruding groove 3, stirring blade 4, spiral reamer 5, inner conical drogue 6, external conical sleeve 7, plate-like cut trowel dish 8.

Embodiment 1

Embodiment 1 is basic as shown in accompanying drawing 1 and Fig. 3, level structure on a kind of vacuum-extruder, including extrusion cylinder 1, extrusion axle 2 and the stirring blade 4 being arranged on extrusion axle 2, spiral reamer 5, extrusion cylinder 1 offers charging aperture, the present embodiment also includes being positioned at extrusion cylinder 1, and V-shaped extruding groove 3, the notch of this extruding groove 3 is rotatably connected to extrusion axle 2 by bearing, this extrusion axle 2 is provided with some stirring blades 4 near charging aperture side, and extrusion axle 2 is welded with spiral reamer 5 away from charging aperture side.

In the present embodiment, stirring blade 4 is in spiral distribution on extrusion axle 2, and the angle formed between adjacent two stirring blades 4 is 90 °, and stirring blade 4 is connected with extrusion axle 2 bolt.Form the stirring blade 4 of Spiral distribution while stirring pug, moreover it is possible to pushed toward discharging opening side by the pug in extruding groove 3.Stirring blade 4 is in use easy to abrasion, so needing often to change, mounts and dismounts when above-mentioned connected mode is conveniently replaceable.

In the present embodiment, extrusion axle 2 has been bolted inner conical drogue 6 away from charging aperture one end, and the inwall of extruded tube is bolted external conical sleeve 7, forms annular discharging opening between inner conical drogue 6 and external conical sleeve 7.After arranging inner conical drogue 6 and external conical sleeve 7 in a manner described, pressure when pug is extruded increases, better through the density of the pug of superior portion extrusion.

Embodiment 2

As in figure 2 it is shown, with being distinguished by of embodiment 1: extrusion axle 2 is connected to plate-like away from charging aperture one end and cuts trowel dish 8.Plate-like is cut trowel dish 8 and is rotated together with extrusion axle 2, when pug is extruded, can be cut trowel dish 8 and in fragment by plate-like, so can be discharged by the air in pug.

Specific works flow process:

It is specifically described for embodiment 1 below: as shown in Figure 1, time specifically used, start vacuum-extruder, extrusion axle 2 rotates, then pug to be processed is added from charging aperture, extrusion axle 2 rotation process drive stirring blade 4 and spiral reamer 5 to rotate, stirring blade 4 then stirs the pug in extruding groove 3, V-shaped due to extruding groove 3, so pug extrudes with the sidewall of extruding groove 3 when being stirred, pug is from charging aperture side toward discharging opening one side shifting simultaneously, and pug is sent by spiral reamer 5.

In this programme, the shape of extruding groove 3 is V-shaped, and pug extrudes with the sidewall of extruding groove 3 when being stirred, and the active force extruded is compared with cylindric extruding groove 3, and active force is bigger；And the extruding groove 3 of V-type is compared with in flat shape extruding groove 3, will not form Si Ni district in the bottom of extruding groove 3, is conducive to pug to be extruded.

Above-described is only embodiment of the present utility model, and in scheme, the general knowledge such as known concrete structure and characteristic does not do too much description at this.Should be understood that; for a person skilled in the art, under the premise without departing from this utility model structure, it is also possible to make some deformation and improvement; these also should be considered as protection domain of the present utility model, and these are all without affecting effect and the practical applicability that this utility model is implemented.The protection domain that this application claims should be as the criterion with the content of its claim, and the detailed description of the invention in description etc. records the content that may be used for explaining claim.

Claims (5)

1. level structure on vacuum-extruder, including extrusion cylinder, extrusion axle and the stirring blade being arranged on extrusion axle, spiral reamer, described extrusion cylinder offers charging aperture, it is characterized in that, also include being positioned at extruded tube body V-shaped extruding groove, being rotationally connected in the notch of this extruding groove and state extrusion axle to some extent, this extrusion axle is provided with some described stirring blades near charging aperture side, and extrusion axle is connected to described spiral reamer away from charging aperture side.

2. level structure on vacuum-extruder according to claim 1, it is characterised in that described stirring blade is in spiral distribution on extrusion axle, and the angle formed between adjacent two stirring blades is 90 °.

3. level structure on vacuum-extruder according to claim 1, it is characterised in that described extrusion axle is provided with inner conical drogue away from charging aperture one end, the inwall of described extruded tube is provided with external conical sleeve, forms annular discharging opening between described inner conical drogue and external conical sleeve.

4. level structure on vacuum-extruder according to claim 3, it is characterised in that described extrusion axle is connected to plate-like away from charging aperture one end and cuts trowel dish.

5. level structure on the vacuum-extruder according to any one of claim 1-4, it is characterised in that described stirring blade is connected with extrusion axle bolt.