CN106144449A - A kind of conveying worm screw shaft structure - Google Patents

Abstract

nullThe present invention provides a kind of conveying worm screw shaft structure being applied to belong to material transfer equipment technical field，On the helical axis body (1) of described conveying worm screw shaft structure, blade (2) is set，Blade (2) includes blade assembly I (3) and blade assembly II (4)，Blade assembly I (3) is set to protrude from the structure on helical axis body (1) surface，Blade assembly II (4) is connected with blade assembly I (3) by connecting bolt (5)，The conveying worm screw shaft structure of the present invention，Simple in construction，Cost of manufacture is low，Have only to simply improve，When causing blade from becoming worn in conveying worm long-term work，Need not change whole helical axis，Effectively reduce conveying worm downtime，Effectively reduce blade wear simultaneously，Improve blade service life，Improve utilization rate，Final reduction changes intensity and maintenance cost.

Description

A kind of conveying worm screw shaft structure

Technical field

The invention belongs to material transfer equipment technical field, more specifically, relate to a kind of for conveying powdered, granule The conveying worm screw shaft structure of shape or little lump material.

Background technology

Conveying worm is wide variety of a kind of conveying equipment in the fields such as chemical industry, building materials, grain, mainly for delivery of Powdery, graininess and little lump material, be equipment important in induction system.During owing to working during conveying worm running material Between long, and the material properties of conveying, relatively big, therefore, in prior art to the blade wear of the screw shaft structure of conveying worm Conveying worm general half a year or 1 year helical axis need to be replaced, it is long for downtime that this results in conveying worm, shadow Ring material normally to carry.And when changing helical axis, not only labor intensity is big, and spend higher cost and renewal cost, cause Maintenance cost increases.

Summary of the invention

The technical problem to be solved is: for the deficiencies in the prior art, it is provided that a kind of simple in construction, at spiral Conveyer long-term work and when causing blade from becoming worn, it is not necessary to change whole helical axis, thus effectively reduce helical feed Machine downtime, effectively reduce blade wear simultaneously, improve blade service life, improve product utilization rate, finally reduce replacing The conveying worm screw shaft structure of intensity and maintenance cost.

Techniques discussed above problem to be solved, the technical scheme that the present invention takes is:

The present invention is a kind of conveying worm screw shaft structure, and described conveying worm screw shaft structure includes spiral shell Spin axis body, helical axis body arranges blade, and the blade that described helical axis body is arranged includes blade assembly I and blade Assembly II, the blade assembly I of described blade is set to protrude from the structure of helical axis body surface, the blade assembly II of blade It is connected with blade assembly I by connecting bolt.

Arranging multiple blade on described helical axis body, multiple blades are arranged on helical axis body in the shape of a spiral, each The blade assembly II of blade is connected with blade assembly I side.

The blade assembly I of each described blade and blade assembly II are disposed as the knot arranged for a week along helical axis body Structure, the blade assembly I of each blade and blade assembly II are configured to the structure linked together, multiple blades composition spiral Axle blade assembly.

Described spiral shaft vane assembly is set to the structure being arranged on helical axis body in the shape of a spiral.

The assembly II outer edge portion of the blade assembly II of each blade arranges the overlay cladding I of bulk, the blade of each blade Assembly II end head of assembly II arranges overlay cladding II.

Arranging clearance portion between each two blade, the helical axis body surface of clearance portion arranges overlay cladding III, overlay cladding III It is set to the structure arranged for a week along helical axis body.

On the blade assembly I of each described blade, the multiple connecting holes I arranged by gap, the blade of each blade are set Arrange on assembly II and connecting hole I quantity on blade assembly I and position connecting hole II one to one, each connecting hole I He The connecting hole II corresponding with this connecting hole I is through a connecting bolt.

The blade assembly I of each described blade is set to the structure being welded on helical axis body.

Use technical scheme, can obtain following beneficial effect:

Conveying worm screw shaft structure of the present invention, by being set to blade assembly I and vane group by blade Part II, so, blade assembly I is fixing with propeller body to be connected, and blade assembly II is connected with blade assembly I, in helical feed During machine conveying material, mainly contacted with material by blade assembly II, when blade assembly II occurs because working long hours During abrasion, only need to pull down blade assembly II and be changed, not have blade wear and will change whole conveying worm By the problem of screw shaft structure, it is only necessary to replacing blade and blade chip module II, thus when reducing conveying worm replacing parts Labor intensity, reduces maintenance cost.The position, assembly II outer edge portion of overlay cladding I is set, and the group of overlay cladding II is set Part II end head position, is to contact most positions in material conveying process with material, the most also weares and teares the most serious Position, and after overlay cladding I and overlay cladding II are arranged, only can wear and tear overlay cladding I and overlay cladding II when blade working, without grinding Damage blade itself, therefore, is effectively increased the service life of blade, it is not necessary to change screw shaft structure according to the original cycle, Extend helical axis conveyer and use the time, reduce maintenance cost.Overlay cladding III helical axis body part is set, is at material Course of conveying contacts with material most positions, is the most also the most serious position of wearing and tearing, after overlay cladding III is arranged, at spiral shell Only can wear and tear during spin axis arrangement works overlay cladding III, without abrasion helical axis body, therefore, is effectively increased helical axis body In 1 service life, it is not necessary to change screw shaft structure according to the original cycle, extend helical axis conveyer and use the time.This Bright conveying worm screw shaft structure, simple in construction, cost of manufacture is low, it is only necessary to simply improve, and just can produce Effectively effect, when causing blade from becoming worn in conveying worm long-term work, it is not necessary to change whole helical axis, effectively drop Low conveying worm downtime, effectively reduce blade wear simultaneously, improve blade service life, improve utilization rate, final decline Low replacing intensity and maintenance cost.

Accompanying drawing explanation

Content expressed by accompanying drawing each to this specification and the labelling in figure make brief description below:

Fig. 1 is the overall structure schematic diagram of conveying worm screw shaft structure of the present invention；

Fig. 2 is the broken section structural representation of conveying worm screw shaft structure of the present invention；

Accompanying drawing acceptance of the bid note is respectively as follows: 1, helical axis body；2, blade；3, blade assembly I；4, blade assembly II；5, connect Bolt；6, spiral shaft vane assembly；7, assembly II outer edge portion；8, overlay cladding I；9, assembly II end head；10, overlay cladding II； 11, clearance portion；12, overlay cladding III；13, connecting hole I；14, connecting hole II.

Detailed description of the invention

Below against accompanying drawing, by the description to embodiment, each structure the most involved to the detailed description of the invention of the present invention Mutual alignment and annexation, the effect of each several part and operation principle etc. between the shape of part, structure, each several part are made further Detailed description:

As shown in accompanying drawing 1, accompanying drawing 2, the present invention is a kind of conveying worm screw shaft structure, described conveying worm Include helical axis body 1 with screw shaft structure, helical axis body 1 arranges blade 2, described helical axis body 1 is arranged Blade 2 includes that blade assembly I 3 and blade assembly II 4, the blade assembly I 3 of described blade 2 are set to protrude from helical axis originally The structure on body 1 surface, the blade assembly II 4 of blade 2 is connected with blade assembly I 3 by connecting bolt 5.Said structure is arranged, logical Crossing and blade is set to blade assembly I 3 and blade assembly II 4, so, blade assembly I 3 is fixing with propeller body to be connected, leaf Chip module II 4 is connected with blade assembly I 3, so, during conveying worm conveying material, mainly by blade assembly II 4 Contact with material, and when blade assembly II 4 abrasion occurs because working long hours, it is only necessary to pull down blade assembly II 4 and give Change, so, do not have blade wear and will change the problem of whole conveying worm screw shaft structure, and only need Blade and blade chip module II 4 to be changed, thus labor intensity when not only reducing conveying worm replacing parts, and effectively drop Low maintenance cost.

The assembly II outer edge portion 7 of the blade assembly II 4 of each blade 2 arranges the overlay cladding I 8 of bulk, each blade 2 Assembly II end head 9 of blade assembly II 4 arranges overlay cladding II 10.The position, assembly II outer edge portion of overlay cladding I 8 is set, with And assembly II end head 9 position of overlay cladding II 10 is set, it is in material conveying process, contact most positions with material, because of This is also the most serious position of wearing and tearing, and after overlay cladding I 8 and overlay cladding II 10 are arranged, only can wear and tear heap when blade working Layer I 8 and overlay cladding II 10, without abrasion blade itself, therefore, be effectively increased the service life of blade, it is not necessary to press Change screw shaft structure according to the original cycle, extend helical axis conveyer and use the time, reduce maintenance cost.

Clearance portion 11 is set between each two blade 2, the helical axis body 1 surface configuration overlay cladding III 12 of clearance portion 11, Overlay cladding III 12 is set to the structure arranged for 1 one weeks along helical axis body.Overlay cladding III 12 helical axis body part is set, be Contacting most positions in material conveying process with material, be the most also the most serious position of wearing and tearing, overlay cladding III 12 is arranged After, only can wear and tear overlay cladding III 12 when screw shaft structure works, and without abrasion helical axis body 1, therefore, is effectively increased In helical axis body 1 service life, it is not necessary to change screw shaft structure according to the original cycle, extend helical axis conveyer and use Time.

And after overlay cladding I 8, overlay cladding II 10 and overlay cladding III 12 abrasion, it is only necessary to shut down the new overlay cladding I 8 of increase, heap Layer II 10 and overlay cladding III 12, can the most normally work, and reduces the complex shape of maintenance, decreases servicing down times, Effectively reduce the maintenance cost of conveying worm screw shaft structure.

The conveying worm screw shaft structure of the present invention, simple in construction, cost of manufacture is low, it is only necessary to simply change Enter, just can produce effective effect, when causing blade from becoming worn in conveying worm long-term work, it is not necessary to change whole spiral shell Spin axis, effectively reduces conveying worm downtime, effectively reduces blade wear simultaneously, improves blade service life, and raising makes By rate, final reduction changes intensity and maintenance cost.

Arranging multiple blade 2 on described helical axis body 1, multiple blades 2 are arranged on helical axis body 1 in the shape of a spiral, The blade assembly II 4 of each blade 2 is connected with blade assembly I 3 side.Such structure, multiple vane group are combined, and are formed It is arranged in the working-blade on whole helical axis body.

The blade assembly I 3 of each described blade 2 and blade assembly II 4 are disposed as within 1 one weeks, arranging along helical axis body Structure, the blade assembly I 3 of each blade 2 and blade assembly II 4 are configured to the structure linked together, multiple blades 2 Composition spiral shaft vane assembly 6.

Described spiral shaft vane assembly 6 is set to the structure being arranged on helical axis body 1 in the shape of a spiral.

The multiple connecting holes I 13 arranged by gap are set on the blade assembly I 3 of each described blade 2, each described Arrange on the blade assembly II 4 of blade 2 and connecting hole I 13 quantity on blade assembly I 3 and position connecting hole II one to one 14, each connecting hole I 13 and the connecting hole II 14 corresponding with this connecting hole I 13 are through a connecting bolt 5.So, it is achieved that Being reliably connected of blade assembly I 3 and blade assembly II 4, it is ensured that blade is the most functional, will not occur to separate or pine Dynamic, improve the use time.

The blade assembly I 3 of each described blade 2 is set to the structure being welded on helical axis body 1.

Conveying worm screw shaft structure of the present invention, by being set to blade assembly I and vane group by blade Part II, so, blade assembly I is fixing with propeller body to be connected, and blade assembly II is connected with blade assembly I, in helical feed During machine conveying material, mainly contacted with material by blade assembly II, when blade assembly II occurs because working long hours During abrasion, only need to pull down blade assembly II and be changed, not have blade wear and will change whole conveying worm By the problem of screw shaft structure, it is only necessary to replacing blade and blade chip module II, thus when reducing conveying worm replacing parts Labor intensity, reduces maintenance cost.The position, assembly II outer edge portion of overlay cladding I is set, and the group of overlay cladding II is set Part II end head position, is to contact most positions in material conveying process with material, the most also weares and teares the most serious Position, and after overlay cladding I and overlay cladding II are arranged, only can wear and tear overlay cladding I and overlay cladding II when blade working, without grinding Damage blade itself, therefore, is effectively increased the service life of blade, it is not necessary to change screw shaft structure according to the original cycle, Extend helical axis conveyer and use the time, reduce maintenance cost.Overlay cladding III helical axis body part is set, is at material Course of conveying contacts with material most positions, is the most also the most serious position of wearing and tearing, after overlay cladding III is arranged, at spiral shell Only can wear and tear during spin axis arrangement works overlay cladding III, without abrasion helical axis body, therefore, is effectively increased helical axis body In 1 service life, it is not necessary to change screw shaft structure according to the original cycle, extend helical axis conveyer and use the time.This Bright conveying worm screw shaft structure, simple in construction, cost of manufacture is low, it is only necessary to simply improve, and just can produce Effectively effect, when causing blade from becoming worn in conveying worm long-term work, it is not necessary to change whole helical axis, effectively drop Low conveying worm downtime, effectively reduce blade wear simultaneously, improve blade service life, improve utilization rate, final decline Low replacing intensity and maintenance cost.

Above in conjunction with accompanying drawing, the present invention is carried out exemplary description, it is clear that concrete implementation of the present invention is not by above-mentioned The restriction of mode, if the various improvement that the method design that have employed the present invention is carried out with technical scheme, or the most improved by this Design and the technical scheme of invention directly apply to other occasions, the most within the scope of the present invention.

Claims (8)

1. a conveying worm screw shaft structure, described conveying worm screw shaft structure includes helical axis body (1), helical axis body (1) arranges blade (2), it is characterised in that: the upper blade (2) arranged of described helical axis body (1) Including blade assembly I (3) and blade assembly II (4), the blade assembly I (3) of described blade (2) is set to protrude from helical axis The structure on body (1) surface, the blade assembly II (4) of blade (2) is connected with blade assembly I (3) by connecting bolt (5).

Conveying worm screw shaft structure the most according to claim 1, it is characterised in that: described helical axis body (1) On multiple blade (2) is set, multiple blades (2) are arranged on helical axis body (1) in the shape of a spiral, the blade of each blade (2) Assembly II (4) is connected with blade assembly I (3) side.

Conveying worm screw shaft structure the most according to claim 2, it is characterised in that: each described blade (2) Blade assembly I (3) and blade assembly II (4) be disposed as the structure arranged along helical axis body (1) a week, each blade (2) blade assembly I (3) and blade assembly II (4) are configured to the structure linked together, multiple blades (2) composition spiral shell Spin axis blade assembly (6).

Conveying worm screw shaft structure the most according to claim 3, it is characterised in that: described spiral shaft vane group Part (6) is set to the structure being arranged on helical axis body (1) in the shape of a spiral.

Conveying worm screw shaft structure the most according to claim 1, it is characterised in that: the blade of each blade (2) The assembly II outer edge portion (7) of assembly II (4) arranges the overlay cladding I (8) of bulk, the blade assembly II (4) of each blade (2) Assembly II end head (9) arranges overlay cladding II (10).

Conveying worm screw shaft structure the most according to claim 1, it is characterised in that: between each two blade (2) Arranging clearance portion (11), helical axis body (1) the surface configuration overlay cladding III (12) of clearance portion (11), overlay cladding III (12) is arranged For the structure arranged for (1) a week along helical axis body.

Conveying worm screw shaft structure the most according to claim 1, it is characterised in that: each described blade (2) The upper multiple connecting holes I (13) arranged by gap that arrange of blade assembly I (3), the blade assembly II of each described blade (2) (4) upper setting and connecting hole I (13) quantity on blade assembly I (3) and position connecting hole II (14), Mei Gelian one to one Connect hole I (13) and the connecting hole II (14) corresponding with this connecting hole I (13) through a connecting bolt (5).

Conveying worm screw shaft structure the most according to claim 2, it is characterised in that: each described blade (2) Blade assembly I (3) be set to the structure that is welded on helical axis body (1).