CN206013722U - Conveying worm screw shaft structure - Google Patents
Conveying worm screw shaft structure Download PDFInfo
- Publication number
- CN206013722U CN206013722U CN201620958560.2U CN201620958560U CN206013722U CN 206013722 U CN206013722 U CN 206013722U CN 201620958560 U CN201620958560 U CN 201620958560U CN 206013722 U CN206013722 U CN 206013722U
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- China
- Prior art keywords
- blade
- blade assembly
- conveying worm
- screw shaft
- worm screw
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Abstract
This utility model provides a kind of conveying worm screw shaft structure for being applied to belong to material transfer equipment technical field,The spiral shaft body (1) of described conveying worm screw shaft structure is upper to arrange blade (2),Blade (2) includes blade assembly I (3) and blade assembly II (4),Blade assembly I (3) is set to the structure for protruding from spiral shaft body (1) surface,Blade assembly II (4) is connected with blade assembly I (3) by connecting bolt (5),Conveying worm screw shaft structure of the present utility model,Simple structure,Low manufacture cost,Only need to simply be improved,When conveying worm long-term work causes blade from becoming worn,Whole helical axis need not be changed,Effectively reduce conveying worm downtime,Effectively reduce blade wear simultaneously,Improve blade service life,Improve utilization rate,Intensity and maintenance cost are changed in final reduction.
Description
Technical field
This utility model belongs to material transfer equipment technical field, more specifically, be related to a kind of for conveying powdered,
The conveying worm screw shaft structure of graininess 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, are important equipment in induction system.During due to working during conveying worm running material
Between long, and material propertiess for conveying, the blade wear to the screw shaft structure of conveying worm is larger, therefore, in prior art
Conveying worm general half a year or 1 year helical axis need to be changed, it is long that this results in conveying worm downtime, shadow
Ring material normally to convey.And when changing helical axis, not only high labor intensive, and higher cost and renewal cost is spent, cause
Maintenance cost increases.
Utility model content
Technical problem to be solved in the utility model is:For the deficiencies in the prior art, there is provided a kind of simple structure,
Conveying worm long-term work and when causing blade from becoming worn, it is not necessary to change whole helical axis, so as to effectively reduce spiral
Conveyer downtime, while effectively reducing blade wear, blade service life is improved, improve product utilization rate, final reduction
Change the conveying worm screw shaft structure of intensity and maintenance cost.
Solve the problems, such as that techniques discussed above, the technical scheme that this utility model is taken are:
This utility model be a kind of conveying worm screw shaft structure, described conveying worm screw shaft structure bag
Spiral shaft body is included, blade is set in spiral shaft body, the blade arranged in described spiral shaft body includes I He of blade assembly
Blade assembly II, the blade assembly I of described blade are set to the structure for protruding from helical axis body surface, the blade group of blade
Part II is connected with blade assembly I by connecting bolt.
Multiple blades are set in the spiral shaft body, and multiple blades are arranged in spiral shaft body in the shape of a spiral, each
The blade assembly II of blade is connected with I side of blade assembly.
The blade assembly I and blade assembly II of the blade described in each is disposed as the knot along one week arrangement of spiral shaft body
Structure, the blade assembly I and blade assembly II of each blade are configured to the structure for linking together, and multiple blades constitute spiral
Axle blade assembly.
Described spiral shaft vane component is set to the structure being arranged in spiral shaft body in the shape of a spiral.
The II outer edge portion of component of the blade assembly II of each blade arranges block overlay cladding I, the blade of each blade
II end head of component of component II arranges overlay cladding II.
Clearance portion is set between each two blade, and the helical axis body surface of clearance portion arranges overlay cladding III, overlay cladding III
It is set to the structure along one week arrangement of spiral shaft body.
Multiple connecting holes I by gap arrangement, the blade of each blade are set on the blade assembly I of the blade described in each
Arrange on component II and the one-to-one connecting hole II of I quantity of connecting hole and position on blade assembly I, each I He of connecting hole
A connecting bolt is passed through with the I corresponding connecting hole II of connecting hole.
The blade assembly I of the blade described in each is set to the structure being welded in spiral shaft body.
Using the technical solution of the utility model, following beneficial effect can be obtained:
Conveying worm screw shaft structure described in the utility model, by being set to blade assembly I and leaf by blade
Piece component II, so, blade assembly I is fixedly connected with propeller body, and blade assembly II is connected with blade assembly I, in spiral
During conveyer conveying material, mainly contacted with material by blade assembly II, when blade assembly II is because working long hours
When there is abrasion, only need to pull down blade assembly II and be changed, be not in that blade wear will change whole spiral transferring
Send the problem of machine screw shaft structure, it is only necessary to change blade blade assembly II, part is changed so as to reduce conveying worm
When labor intensity, reduce maintenance cost.The II outer edge portion position of component of overlay cladding I is set, and overlay cladding II is set
II end head position of component, be the position being in the most contact with material in material conveying process, therefore and wear and tear the tightest
The position of weight, and after overlay cladding I and overlay cladding II are arranged, can only wear and tear overlay cladding I and overlay cladding II in blade working, and not
Can be worn and torn blade itself, therefore, effectively increase the service life of blade, it is not necessary to change helical axis knot according to the original cycle
Structure, extends helical axis conveyer use time, reduces maintenance cost.Arrange III helical axis body part of overlay cladding, be
The position being in the most contact with material in material conveying process, therefore and the most serious position of wearing and tearing, after overlay cladding III is arranged,
Only can be worn and torn overlay cladding III when screw shaft structure works, and without spiral shaft body of wearing and tearing, therefore, effectively increase helical axis
1 service life of body, it is not necessary to change screw shaft structure according to the original cycle, extend helical axis conveyer use time.
Conveying worm screw shaft structure of the present utility model, simple structure, low manufacture cost, it is only necessary to simply improved,
Effective effect can be produced just, when conveying worm long-term work causes blade from becoming worn, it is not necessary to change whole spiral
Axle, effectively reduces conveying worm downtime, while effectively reducing blade wear, improves blade service life, improves and use
Rate, final reduction change intensity and maintenance cost.
Description of the drawings
Brief description is made to the content expressed by each accompanying drawing of this specification and the labelling in figure below:
Fig. 1 is the overall structure diagram of conveying worm screw shaft structure described in the utility model;
Fig. 2 is the broken section structural representation of conveying worm screw shaft structure described in the utility model;
Accompanying drawing acceptance of the bid note is respectively:1st, spiral shaft body;2nd, blade;3rd, blade assembly I;4th, blade assembly II;5th, connect
Bolt;6th, spiral shaft vane component;7th, II outer edge portion of component;8th, overlay cladding I;9th, II end head of component;10th, overlay cladding II;
11st, clearance portion;12nd, overlay cladding III;13rd, connecting hole I;14th, connecting hole II.
Specific embodiment
Below against accompanying drawing, by the description to embodiment, to specific embodiment of the present utility model as involved by
The shape of each component, the mutual alignment between construction, each several part and annexation, the effect of each several part and operation principle etc. make into
The detailed description of one step:
As shown in accompanying drawing 1, accompanying drawing 2, this utility model be a kind of conveying worm screw shaft structure, described spiral transferring
The machine screw shaft structure of sending includes spiral shaft body 1, arranges blade 2, set in described spiral shaft body 1 in spiral shaft body 1
The blade 2 that puts 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 spiral
The structure on 1 surface of shaft body, the blade assembly II 4 of blade 2 are connected with blade assembly I 3 by connecting bolt 5.Said structure sets
Put, by blade is set to blade assembly I 3 and blade assembly II 4, so, blade assembly I 3 is fixed with propeller body and connected
Connect, blade assembly II 4 is connected with blade assembly I 3, so, during conveying worm conveying material, mainly by blade group
Part II 4 is contacted with material, and when blade assembly II 4 occurs wearing and tearing because working long hours, it is only necessary to pull down blade assembly II 4
Changed, so, be not in problem that blade wear will change whole conveying worm screw shaft structure, and
Only need to change blade blade assembly II 4, so as to not only reduce labor intensity during conveying worm replacing part, Er Qieyou
Effect reduces maintenance cost.
The II outer edge portion 7 of component of the blade assembly II 4 of each blade 2 arranges the overlay cladding I 8 of bulk, each blade 2
II end head of component 9 of blade assembly II 4 arranges overlay cladding II 10.The II outer edge portion position of component of overlay cladding I 8 is set, with
And II end head of component, 9 position of setting overlay cladding II 10, it is the position being in the most contact with material in material conveying process, because
This is also abrasion position the most serious, and after overlay cladding I 8 and overlay cladding II 10 are arranged, can only wear and tear heap in blade working
Layer I 8 and overlay cladding II 10, without the blade itself that weares and teares, therefore, effectively increase the service life of blade, it is not necessary to press
Screw shaft structure is changed according to the original cycle, helical axis conveyer use time is extended, is reduced maintenance cost.
Clearance portion 11 is set between each two blade 2, and 1 surface of spiral shaft body of clearance portion 11 arranges overlay cladding III 12,
Overlay cladding III 12 is set to the structure along 1 one weeks arrangements of spiral shaft body.Arrange III 12 helical axis body part of overlay cladding, be
Therefore and the most serious position of wearing and tearing the position being in the most contact with material in material conveying process, overlay cladding III 12 is arranged
Afterwards, can only wear and tear overlay cladding III 12 when screw shaft structure works, and without spiral shaft body 1 of wearing and tearing, therefore, effectively increase
1 service life of spiral shaft body, it is not necessary to change screw shaft structure according to the original cycle, extends the use of helical axis conveyer
Time.
And after overlay cladding I 8, overlay cladding II 10 and overlay cladding III 12 wear and tear, it is only necessary to shutting down increases new overlay cladding I 8, heap
Layer II 10 and overlay cladding III 12, you can normal work again, reduce the complex shape of maintenance, reduce servicing down times,
Effectively reduce the maintenance cost of conveying worm screw shaft structure.
Conveying worm screw shaft structure of the present utility model, simple structure, low manufacture cost, it is only necessary to carry out simple
Improvement, just can produce effective effect, when conveying worm long-term work causes blade from becoming worn, it is not necessary to change whole
Individual helical axis, effectively reduces conveying worm downtime, while effectively reducing blade wear, improves blade service life, carries
High utilization rate, final reduction change intensity and maintenance cost.
Multiple blades 2 are set in the spiral shaft body 1, and multiple blades 2 are arranged in spiral shaft body 1 in the shape of a spiral,
The blade assembly II 4 of each blade 2 is connected with I 3 side of blade assembly.Such structure, multiple blades are combined, and are formed
The working-blade being arranged in whole spiral shaft body.
The blade assembly I 3 and blade assembly II 4 of the blade 2 described in each is disposed as arranging within 1 one weeks along spiral shaft body
Structure, the blade assembly I 3 and blade assembly II 4 of each blade 2 are configured to the structure for linking together, multiple blades 2
Composition spiral shaft vane component 6.
Described spiral shaft vane component 6 is set to the structure being arranged in spiral shaft body 1 in the shape of a spiral.
Multiple connecting holes I 13 by gap arrangement are set on the blade assembly I 3 of the blade 2 described in each, described in each
Arrange on the blade assembly II 4 of blade 2 and the one-to-one connecting hole II of I 13 quantity of connecting hole and position on blade assembly I 3
14, each connecting hole I 13 and a connecting bolt 5 is passed through with I 13 corresponding connecting hole II 14 of the connecting hole.So, it is achieved that
Blade assembly I 3 and blade assembly II 4 are reliably connected, it is ensured that blade is functional in use, will not occur to separate or pine
Dynamic, improve use time.
The blade assembly I 3 of the blade 2 described in each is set to the structure being welded in spiral shaft body 1.
Conveying worm screw shaft structure described in the utility model, by being set to blade assembly I and leaf by blade
Piece component II, so, blade assembly I is fixedly connected with propeller body, and blade assembly II is connected with blade assembly I, in spiral
During conveyer conveying material, mainly contacted with material by blade assembly II, when blade assembly II is because working long hours
When there is abrasion, only need to pull down blade assembly II and be changed, be not in that blade wear will change whole spiral transferring
Send the problem of machine screw shaft structure, it is only necessary to change blade blade assembly II, part is changed so as to reduce conveying worm
When labor intensity, reduce maintenance cost.The II outer edge portion position of component of overlay cladding I is set, and overlay cladding II is set
II end head position of component, be the position being in the most contact with material in material conveying process, therefore and wear and tear the tightest
The position of weight, and after overlay cladding I and overlay cladding II are arranged, can only wear and tear overlay cladding I and overlay cladding II in blade working, and not
Can be worn and torn blade itself, therefore, effectively increase the service life of blade, it is not necessary to change helical axis knot according to the original cycle
Structure, extends helical axis conveyer use time, reduces maintenance cost.Arrange III helical axis body part of overlay cladding, be
The position being in the most contact with material in material conveying process, therefore and the most serious position of wearing and tearing, after overlay cladding III is arranged,
Only can be worn and torn overlay cladding III when screw shaft structure works, and without spiral shaft body of wearing and tearing, therefore, effectively increase helical axis
1 service life of body, it is not necessary to change screw shaft structure according to the original cycle, extend helical axis conveyer use time.
Conveying worm screw shaft structure of the present utility model, simple structure, low manufacture cost, it is only necessary to simply improved,
Effective effect can be produced just, when conveying worm long-term work causes blade from becoming worn, it is not necessary to change whole spiral
Axle, effectively reduces conveying worm downtime, while effectively reducing blade wear, improves blade service life, improves and use
Rate, final reduction change intensity and maintenance cost.
Exemplary description is carried out to this utility model above in conjunction with accompanying drawing, it is clear that this utility model concrete implementation is simultaneously
Do not limited by aforesaid way, if the various improvement that method design of the present utility model and technical scheme are carried out are employed, or
Not improved by of the present utility model design and technical scheme directly apply to other occasions, in protection of the present utility model
In the range of.
Claims (8)
1. a kind of conveying worm screw shaft structure, described conveying worm screw shaft structure include spiral shaft body
(1), spiral shaft body (1) is upper arranges blade (2), it is characterised in that:The upper blade (2) for arranging of described spiral shaft 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) are connected with blade assembly I (3) by connecting bolt (5).
2. conveying worm screw shaft structure according to claim 1, it is characterised in that:Spiral shaft body (1)
Upper setting multiple blade (2), multiple blade (2) are arranged in spiral shaft body (1) in the shape of a spiral, the blade of each blade (2)
Component II (4) is connected with I (3) side of blade assembly.
3. conveying worm screw shaft structure according to claim 2, it is characterised in that:Blade (2) described in each
Blade assembly I (3) and blade assembly II (4) be disposed as the structure along the arrangement of spiral shaft body (1) a week, each blade
(2) blade assembly I (3) and blade assembly II (4) is configured to the structure for linking together, and multiple blade (2) constitute spiral shell
Spin axis blade assembly (6).
4. conveying worm screw shaft structure according to claim 3, it is characterised in that:Described spiral shaft vane group
Part (6) is set to the structure being arranged in spiral shaft body (1) in the shape of a spiral.
5. conveying worm screw shaft structure according to claim 1, it is characterised in that:The blade of each blade (2)
The II outer edge portion (7) of component of component II (4) arranges block overlay cladding I (8), the blade assembly II (4) of each blade (2)
II end head of component (9) arranges overlay cladding II (10).
6. conveying worm screw shaft structure according to claim 1, it is characterised in that:Between each two blade (2)
Clearance portion (11) is set, and spiral shaft body (1) surface of clearance portion (11) arranges overlay cladding III (12), and overlay cladding III (12) is arranged
It is the structure along (1) one week arrangement of spiral shaft body.
7. conveying worm screw shaft structure according to claim 1, it is characterised in that:Blade (2) described in each
The upper multiple connecting holes I (13) arranged by gap arrangement of blade assembly I (3), the blade assembly II of the blade (2) described in each
(4) the one-to-one connecting hole II (14) of I (13) quantity of connecting hole and position in upper setting and blade assembly I (3), each company
Connect hole I (13) and with I (13) the corresponding connecting hole II (14) of connecting hole through a connecting bolt (5).
8. conveying worm screw shaft structure according to claim 2, it is characterised in that:Blade (2) described in each
Blade assembly I (3) be set to the structure being welded in spiral shaft body (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620958560.2U CN206013722U (en) | 2016-08-27 | 2016-08-27 | Conveying worm screw shaft structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620958560.2U CN206013722U (en) | 2016-08-27 | 2016-08-27 | Conveying worm screw shaft structure |
Publications (1)
Publication Number | Publication Date |
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CN206013722U true CN206013722U (en) | 2017-03-15 |
Family
ID=58251874
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CN201620958560.2U Active CN206013722U (en) | 2016-08-27 | 2016-08-27 | Conveying worm screw shaft structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106144449A (en) * | 2016-08-27 | 2016-11-23 | 安徽海螺川崎节能设备制造有限公司 | A kind of conveying worm screw shaft structure |
-
2016
- 2016-08-27 CN CN201620958560.2U patent/CN206013722U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106144449A (en) * | 2016-08-27 | 2016-11-23 | 安徽海螺川崎节能设备制造有限公司 | A kind of conveying worm screw shaft structure |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant |