CN109230428A - A kind of packaged type concrete rotation material-distributing system - Google Patents
A kind of packaged type concrete rotation material-distributing system Download PDFInfo
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- CN109230428A CN109230428A CN201811161163.2A CN201811161163A CN109230428A CN 109230428 A CN109230428 A CN 109230428A CN 201811161163 A CN201811161163 A CN 201811161163A CN 109230428 A CN109230428 A CN 109230428A
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- 229910000831 Steel Inorganic materials 0.000 claims abstract description 88
- 239000010959 steel Substances 0.000 claims abstract description 88
- 239000000463 material Substances 0.000 claims abstract description 81
- 238000003466 welding Methods 0.000 claims description 17
- 244000261422 Lysimachia clethroides Species 0.000 claims description 8
- 230000000694 effects Effects 0.000 claims description 5
- 230000003014 reinforcing effect Effects 0.000 claims description 3
- 230000001681 protective effect Effects 0.000 claims 1
- 238000005266 casting Methods 0.000 abstract description 2
- 238000000034 method Methods 0.000 description 8
- 238000007599 discharging Methods 0.000 description 7
- 238000010276 construction Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 5
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 4
- 241000406668 Loxodonta cyclotis Species 0.000 description 3
- 230000032258 transport Effects 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 229910052742 iron Inorganic materials 0.000 description 2
- 230000007812 deficiency Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 239000002689 soil Substances 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/34—Devices for discharging articles or materials from conveyor
- B65G47/44—Arrangements or applications of hoppers or chutes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2201/00—Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
- B65G2201/04—Bulk
- B65G2201/045—Sand, soil and mineral ore
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- On-Site Construction Work That Accompanies The Preparation And Application Of Concrete (AREA)
Abstract
The present invention relates to a kind of packaged type concrete to rotate material-distributing system, structure includes bottom beam, splicing support frame and the sub-material rotary system that assembly is integrated, splicing support frame is detachably connected by bolt and bottom beam, and sub-material rotary system is welded to connect by rotary shaft system and bottom beam;Rotary shaft system bottom end is welded on bottom beam;Sub-material rotary system is by sub-material support frame, hopper, movable chute and is welded in the checkered steel plate of sub-material support frame incline apex and constitutes, and movable supporting portion is arranged in movable chute discharge end end.The present invention is effectively improved uniform blanking degree, improves blanking efficiency, avoids that cold seam phenomenon occurs in casting process, meet big cross section concreting demand.
Description
Technical field
The invention belongs to engineering machinery manufacturing fields, are related to concrete construction technology, and in particular to a kind of packaged type is mixed
Solidifying soil rotation material-distributing system.
Background technique
Under normal conditions, engineering pressure pipe shaft steel lining backfill section is relatively small, by laying single elephant trunk, is slipping
Managing lower mouth and laying two blanking points using a threeway is to be able to satisfy concreting requirement.And for such as diameter 10m with
On big cross section penstock vertical shaft steel lining backfill, if elephant trunk pan feeding is taken in vertical shaft straight section curved direction from diversion, such as only
It using one or two blanking point, will cause stress that steel pipe blanking is uneven, and lateral pressure is big, steel pipe caused to lift;Concrete material
Head distance is remote, easily causes cold seam, is not able to satisfy pouring quality requirement.
To solve technical problem present in construction, it is necessary to provide it is a kind of by single-point blanking be converted into multiple spot blanking can
Mobile rotation material-distributing system, and do not increase the difficulty of concrete construction operation.
Summary of the invention
It is an object of the invention to be directed in big cross section penstock vertical shaft steel lining backfilling process in the prior art, pressure steel
Pipe blanking is uneven, the big technological deficiency of lateral pressure, provides a kind of packaged type concrete rotation material-distributing system, is effectively improved down
Expect the uniformity, improves blanking efficiency, avoid that cold seam phenomenon occurs in casting process, meet big cross section concreting demand.
In order to achieve the above-mentioned object of the invention, the present invention provides following technical schemes:
A kind of packaged type concrete rotates material-distributing system, structure include assembly be integrated bottom beam, splicing support frame and
Sub-material rotary system, which is characterized in that the splicing support frame is detachably connected by bolt and bottom beam, sub-material rotation system
System is welded to connect by rotary shaft system and bottom beam;Rotary shaft system bottom end is fixedly welded on bottom beam;
The sub-material rotary system can carry out 360 ° of horizontal rotations by center axis of rotary shaft system along rotary shaft system;
The bottom beam is formed by welding by I-shaped steel longitudinal beam, I-shaped gooseneck and reinforced mesh, I-shaped steel longitudinal beam and I-steel
Beam welding constitutes bottom beam ontology, and reinforced mesh is fixed on bottom beam body top surface with welding manner;
The splicing support frame is by splicing support frame ontology and is welded in the checkered steel plate structure of splicing support frame bodies top
At formula chute is welded and fixed on checkered steel plate;
The rotary shaft system is by 70 center rotating shaft of Φ, upper end bearing, lower end bearing, 159 steel pipe sleeve of Φ, three
Gusset, upper fixing steel plate and lower fixing steel plate are constituted, and the 70 center rotating shaft upper end Φ penetrates in the bearing of upper end, Φ 70
Center rotating shaft lower end penetrates in the bearing of lower end, with 70 center rotating shaft of the Φ upper end bearing that is structure as a whole of assembly and under
End bearing is sheathed in 159 steel pipe sleeve of Φ respectively and is welded and fixed with 159 steel pipe sleeve of Φ, the 70 center rotating shaft bottom end Φ
Portion penetrates in fixing steel plate centre bore, and the 70 center rotating shaft bottom end Φ is solid by triangular steel plate and the welding of upper fixing steel plate
It is fixed;
The sub-material rotary system is by sub-material support frame, hopper, movable chute and is welded in sub-material support frame inclined-plane top
The checkered steel plate in portion is constituted, and sub-material support frame is welded and fixed with 159 steel pipe sleeve outer wall of Φ, and the hopper is set to rotary axis
It is welded and fixed right above the central axis of system with sub-material support frame, movable chute is fixedly welded on the riffled iron of sub-material rotary system
On plate;
Movable supporting portion is arranged in movable chute discharge end end, and movable supporting portion is set in shifting by moving casing
Dynamic formula chute discharge end end, movable supporting portion can upper and lower 180 ° rotate freely, movable supporting portion by 48 supporting steel pipe of Φ and with
The adjusting screw rod that 48 supporting steel pipe of Φ is threadedly engaged is assembled, and movable supporting portion bottom is connected with idler wheel by pin shaft;
When sub-material rotary system rotates horizontally, movable supporting portion is rotated upwards by moving casing, avoids movable supporting
Portion stops sub-material rotary system to rotate horizontally;In the fixed discharging of sub-material rotary system, by adjusting screw rod and 48 supporting steel of Φ
The connection depth of pipe inside thread, freely adjusts the bearing length in movable supporting portion, and the support pressure in movable supporting portion is transferred
Sub-material rotary system and movable chute is caused to have a down dip when on steel pipe opening, avoiding pouring out concrete, to reach sub-material rotation system
The effect that discharging of uniting consolidates.
Preferably, the splicing support frame ontology is the multistory frame structure of 48 steel-pipe welding of Φ, compared with existing structure,
Its own rigidity greatly promotes.
Preferably, the sub-material support frame is the multistory frame structure of 48 steel-pipe welding of Φ, compared with existing structure, from
Body rigidly greatly promotes.
Preferably, the checkered steel plate two sides of the splicing support frame are fixed with primary protection by the way of bolt connection
Column improves the safety of the system.
Preferably, the checkered steel plate two sides of the sub-material rotary system are fixed with second level protection by the way of bolt connection
Column improves the safety in sub-material operation process.
Preferably, the size of the bottom beam are as follows: length × width × height=10.5m × 2.4m × 0.44m, the ruler of splicing support frame
It is very little are as follows: length × width × height=4m × 1.2m × 4m, above-mentioned design structure can carry out size adjusting according to Specific construction operating environment.
Preferably, the pin shaft is processed using 36 spiral of Φ.
Preferably, high-order ladder is arranged in the splicing support frame side.
Preferably, low level ladder is arranged in the sub-material rotary system side.
Preferably, the I-shaped steel longitudinal beam is to be superimposed to be welded two-by-two by 4 22# I-steel, and I-shaped gooseneck is by 22#
I-steel is superimposed is made of welded connection two-by-two, and reinforced mesh is welded for 20cm according to array pitch by 16 reinforcing bar of Φ and forms mesh sheet knot
Structure.
Compared with prior art, the invention has the advantages that:
1, the packaged type concrete rotation material-distributing system that the present invention designs, splicing support frame are removable by bolt and bottom beam
Connection is unloaded, sub-material rotary system is welded to connect by rotary shaft system and bottom beam;Rotary shaft system bottom end is fixedly welded on bottom beam
On, when in use, splicing support frame is bolted with bottom beam and is integrated, in transhipment, by splicing support frame and bottom beam
Bolt unclamps, and transports respectively, so that the packaged type concrete rotation material-distributing system peace of design tears simplicity open, is easy to transport, is not necessarily to
Set up interim chute framed bent and multichannel chute;Construction efficiency is improved, practicability greatly promotes.
2, the packaged type concrete rotation material-distributing system that the present invention designs, sub-material rotary system is by sub-material support frame, material
Bucket, movable chute and the checkered steel plate composition for being welded in sub-material support frame incline apex, sub-material support frame and 159 steel pipe socket of Φ
Drum outer wall is welded and fixed, and hopper is set to right above the central axis of rotary shaft system and is welded and fixed with sub-material support frame, mobile
Chute is fixedly welded on the checkered steel plate of sub-material rotary system, and movable supporting portion is arranged in movable chute discharge end end, living
Dynamic support portion is set in movable chute discharge end end by moving casing, movable supporting portion can upper and lower 180 ° rotate freely,
Movable supporting portion is assembled by 48 supporting steel pipe of Φ and the adjusting screw rod being threadedly engaged with 48 supporting steel pipe of Φ, movable supporting portion
Bottom is connected with idler wheel by pin shaft;When sub-material rotary system rotates horizontally, movable supporting portion is revolved upwards by moving casing
Turn, avoids movable supporting portion that sub-material rotary system is stopped to rotate horizontally;In the fixed discharging of sub-material rotary system, by adjusting silk
The connection depth of bar and 48 supporting steel pipe inside thread of Φ, freely adjusts the bearing length in movable supporting portion, by movable supporting portion
Support pressure switching cause sub-material rotary system and movable chute to have a down dip when on steel pipe opening, avoiding pouring out concrete, with
Achieve the effect that sub-material rotary system discharging is firm;At the same time, above-mentioned design structure also ensures that sub-material rotary system is mobile
Independence, in entire moving process, bottom beam need to be only hoisted to the appointed part of perpendicular borehole pressure steel pipe, complete sub-material rotation
The assembly of system, rigidity and movable supporting portion without third party's support platform, using sub-material rotary system itself
Supporting role, entire sub-material rotary system independent operation can be realized, use is more convenient.
3, the packaged type concrete rotation material-distributing system that the present invention designs, the rotary shaft system of design, effective use rotation
The bearing rotary principle of rotating shaft system in moving process, only needs manually gently sub-material rotary system to be pushed to adjust blanking point position
Multiple spot blanking operation can be completed, it is easy to operate, securely and reliably.
4, the packaged type concrete rotation material-distributing system that the present invention designs can be hoisted to other and pour after pouring a storehouse
Working face use is built, rate height is used in turn.
5, the packaged type concrete rotation material-distributing system that the present invention designs, is divided movable rotary using 2 × 30t bridge machine
Material system be hoisted on perpendicular borehole pressure steel pipe it is in place after, bridge machine can loose hook, in movable rotary material-distributing system use process
It suspends in midair, is supported by penstock mouth, compared with prior art, use is more convenient without lifting system.
6, the packaged type concrete rotation material-distributing system that the present invention designs, splicing support frame are removable by bolt and bottom beam
Connection is unloaded, sub-material rotary system is welded to connect by rotary shaft system and bottom beam;Rotary shaft system bottom end is fixedly welded on bottom beam
On, the sub-material support frame on sub-material rotary system is welded and fixed with the 159 steel pipe sleeve outer wall of Φ in rotary shaft system, so that bottom
Beam and sub-material rotary system constitute rigid bodies indirectly, during sub-material rotary system moving in rotation, without other
Fulcrum simplifies the intrinsic structural complexity of multiple spot blanking.
Detailed description of the invention:
Fig. 1 is the structural schematic diagram that packaged type concrete rotates material-distributing system in the present invention.
Fig. 2 is the overlooking structure diagram that packaged type concrete rotates material-distributing system in the present invention.
Fig. 3 is the bottom beam overlooking structure diagram that packaged type concrete rotates material-distributing system in the present invention.
Fig. 4 is the rotary shaft system structure diagram that packaged type concrete rotates material-distributing system in the present invention.
Fig. 5 is the movable supporting portion structural schematic diagram that packaged type concrete rotates material-distributing system in the present invention.
Specific embodiment
With reference to the accompanying drawings of the specification 1,5 couples of attached drawing 2, attached drawing 3, attached drawing 4, attached drawing present invention make further to retouch in detail
It states.But this should not be interpreted as to the scope of the above subject matter of the present invention is limited to the following embodiments, it is all to be based on the content of present invention institute
The technology of realization all belongs to the scope of the present invention.
The present invention relates to a kind of packaged type concrete to rotate material-distributing system, and structure includes assembling the bottom beam 1 being integrated, connecing
Expect that support frame 2 and sub-material rotary system 8, splicing support frame 2 are detachably connected by bolt with bottom beam 1, sub-material rotary system 8 is logical
Overwinding rotating shaft system 6 and bottom beam 1 are welded to connect;16 bottom end of rotary shaft system is fixedly welded on bottom beam 1;
The sub-material rotary system 8 is that center axis can carry out 360 ° of horizontal rotations along rotary shaft system 6 with rotary shaft system 6
Turn;
The bottom beam 1 is formed by welding by I-shaped steel longitudinal beam 27, I-shaped gooseneck 271 and reinforced mesh 26, I-shaped steel longitudinal beam
27 are formed by welding bottom beam ontology with I-shaped gooseneck 271, and reinforced mesh 26 is fixed on bottom beam body top surface with welding manner;
The splicing support frame 2 is by splicing support frame ontology 21 and the riffled iron being welded at the top of splicing support frame ontology 21
Plate is constituted, and formula chute 3 is welded and fixed on checkered steel plate;
The rotary shaft system 6 is by 70 center rotating shaft 17 of Φ, upper end bearing 16, lower end bearing 161,159 steel of Φ
Pipe sleeve cylinder 18, triangular steel plate 19, upper fixing steel plate 20 and lower fixing steel plate 21 are constituted, and 70 center rotating shaft of Φ, 17 upper end is worn
Enter in upper end bearing 16,70 center rotating shaft of Φ, 17 lower end penetrates in lower end bearing 161, fills with 70 center rotating shaft 17 of Φ
Be sheathed in 159 steel pipe sleeve 18 of Φ respectively with the upper end bearing 16 and lower end bearing 161 being structure as a whole and with Φ 159
Steel pipe sleeve 18 is welded and fixed, and 70 center rotating shaft of Φ, 17 bottom end penetrates in 20 centre bore of fixing steel plate, and 70 center Φ turns
17 bottom end of moving axis is welded and fixed by triangular steel plate 19 with upper fixing steel plate 20;
The sub-material rotary system 8 is by sub-material support frame 81, hopper 5, movable chute 7 and is welded in sub-material support frame 81
The checkered steel plate of incline apex is constituted, and 159 steel pipe sleeve of sub-material support frame 81 and Φ, 18 outer wall is welded and fixed, and the hopper 5 is set
It is placed in right above the central axis of rotary shaft system 6 and is welded and fixed with sub-material support frame 81, movable chute 7 is fixedly welded on sub-material
On the checkered steel plate of rotary system 8;
Movable supporting portion 9 is arranged in the 7 discharge end end of movable chute, and movable supporting portion 9 passes through 28 sets of moving casing
Be located at 7 discharge end end of movable chute, movable supporting portion 9 can upper and lower 180 ° rotate freely, movable supporting portion 9 is supported by Φ 48
Steel pipe 23 and the adjusting screw rod 22 being threadedly engaged with 48 supporting steel pipe 23 of Φ are assembled, and 9 bottom of movable supporting portion passes through pin shaft
24 are connected with idler wheel 25;
When sub-material rotary system 8 rotates horizontally, movable supporting portion 9 is rotated upwards by moving casing 28, avoids activity
Support portion 9 stops sub-material rotary system 8 to rotate horizontally;In the fixed discharging of sub-material rotary system 8, by adjusting screw rod 22 and Φ
The connection depth of 48 supporting steel pipe, 23 inside thread, freely adjusts the bearing length in movable supporting portion 9, by movable supporting portion 9
Support pressure switching on steel pipe opening 15, avoiding that sub-material rotary system 8 and movable chute 7 is caused to have a down dip when pouring out concrete,
To achieve the effect that 8 discharging of sub-material rotary system is firm.
Preferably, the splicing support frame ontology 21 is the multistory frame structure of 48 steel-pipe welding of Φ, with existing structure phase
Than its own rigidity greatly promotes.
Preferably, the sub-material support frame 81 is the multistory frame structure of 48 steel-pipe welding of Φ, compared with existing structure,
Itself is rigidly greatly promoted.
Preferably, the checkered steel plate two sides of the splicing support frame 2 are fixed with primary protection by the way of bolt connection
Column 4 improves the safety of the system.
Preferably, it is anti-to be fixed with second level by the way of bolt connection for the checkered steel plate two sides of the sub-material rotary system 8
Guardrail 41 improves the safety in sub-material operation process.
Preferably, the size of the bottom beam 1 are as follows: length × width × height=10.5m × 2.4m × 0.44m, splicing support frame 2
Size are as follows: length × width × height=4m × 1.2m × 4m, above-mentioned design structure can carry out size tune according to Specific construction operating environment
It is whole.
Preferably, the pin shaft 24 is processed using 36 spiral of Φ.
Preferably, high-order ladder 201 is arranged in 2 side of splicing support frame.
Preferably, low level ladder 801 is arranged in 8 side of sub-material rotary system.
Preferably, the I-shaped steel longitudinal beam 27 is to be superimposed to be welded two-by-two by 4 22# I-steel, I-shaped gooseneck 271
It is superimposed and is made of welded connection two-by-two by 22# I-steel, reinforced mesh 26 is welded for 20cm according to array pitch by 16 reinforcing bar of Φ and formed
Mesh sheet structure.
In the design, preferably 17 ° of angle of fixed chute 3 and horizontal direction, the angle of 7 horizontal direction of movable chute
It is preferred that 18 °, above-mentioned design is conducive to promote unloading efficiency, while guaranteeing the security and stability of discharging.
When specifically used: material-distributing system is curved in diversion is completed for the rotation of the packaged type concrete of design, integrally hangs
It is transported to vertical shaft inner working face, row items are bent into after the completion of every storehouse pours, then on Integral lifting to diversion using flat truck
Transport other Shaft Stopes.
When operation, concrete blanking since vertical shaft elephant trunk 10 is flowed by the fixed chute 3 on splicing support frame 2
Hopper 5, then to the movable chute 7 on sub-material rotary system 8, the lower mouth of movable chute 7 on sub-material rotary system 8 moves in advance
Move to the blanking point of setting, after the completion of a blanking point blanking again by the chute on sub-material rotary system be moved to it is next under
Shots achieve the purpose that be converted into multiple blanking points by a blanking point.
When specifically used, according to actual application environment, can be equidistantly spaced multiple blanking points, and as shown in Figure 2 answers
With scene, be equidistantly spaced 4 blanking points, i.e. blanking point 1, blanking point 2 12, blanking point 3 13 and blanking point four
14, when blanking, the feed opening end of movable chute 7 is moved to corresponding blanking point 1, blanking point 2 12, blanking point 3 13
With blanking point 4 14.
According to described above, can be completed to application of the invention.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Technical concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.
Claims (10)
1. a kind of packaged type concrete rotates material-distributing system, structure includes bottom beam (1), the splicing support frame that assembly is integrated
(2) and sub-material rotary system (8), which is characterized in that the splicing support frame (2) is detachably connected by bolt with bottom beam (1),
The sub-material rotary system (8) is welded to connect by rotary shaft system (6) and bottom beam (1);Rotary shaft system (6) the bottom end weldering
It connects and is fixed on bottom beam (1);
The sub-material rotary system (8) is that center axis can carry out 360 ° of horizontal rotations along rotary shaft system (6) with rotary shaft system (6)
Turn;
The bottom beam (1) is formed by welding by I-shaped steel longitudinal beam (27), I-shaped gooseneck (271) and reinforced mesh (26), I-steel
Bottom beam ontology is formed by welding in stringer (27) and I-shaped gooseneck (271), and reinforced mesh (26) is fixed on bottom beam sheet with welding manner
Body top surface;
The splicing support frame (2) is by splicing support frame ontology (21) and the decorative pattern being welded at the top of splicing support frame ontology (21)
Steel plate is constituted, and formula chute (3) are welded and fixed on checkered steel plate;
The rotary shaft system (6) is by 70 center rotating shaft of Φ (17), upper end bearing (16), lower end bearing (161), Φ
159 steel pipe sleeves (18), triangular steel plate (19), upper fixing steel plate (20) and lower fixing steel plate (21) are constituted, 70 center Φ
Rotation axis (17) upper end penetrates in upper end bearing (16), and 70 center rotating shaft of Φ (17) lower end penetrates lower end bearing (161)
Interior, the upper end bearing (16) and lower end bearing (161) being structure as a whole with 70 center rotating shaft of Φ (17) assembly cover respectively
It is welded and fixed in 159 steel pipe sleeve (18) of Φ and with 159 steel pipe sleeve (18) of Φ, 70 center rotating shaft of Φ (17) bottom end
It penetrates in fixing steel plate (20) centre bore, 70 center rotating shaft of Φ (17) bottom end passes through triangular steel plate (19) and upper positioning steel
Plate (20) is welded and fixed;
The sub-material rotary system (8) is by sub-material support frame (81), hopper (5), movable chute (7) and is welded in sub-material support
The checkered steel plate of frame (81) incline apex is constituted, and sub-material support frame (81) is welded and fixed with Φ 159 steel pipe sleeve (18) outer wall, institute
It states hopper (5) and is set to right above the central axis of rotary shaft system (6) and be welded and fixed with sub-material support frame (81), movable chute
(7) it is fixedly welded on the checkered steel plate of sub-material rotary system (8);
Movable supporting portion (9) are arranged in movable chute (7) the discharge end end, and movable supporting portion (9) pass through moving casing
(28) be set in movable chute (7) discharge end end, movable supporting portion (9) can upper and lower 180 ° rotate freely, movable supporting portion
(9) it is assembled by 48 supporting steel pipe of Φ (23) and the adjusting screw rod (22) being threadedly engaged with 48 supporting steel pipe of Φ (23), activity
Support portion (9) bottom is connected with idler wheel (25) by pin shaft (24).
2. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the splicing support frame
Ontology (21) is the multistory frame structure of 48 steel-pipe welding of Φ.
3. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the sub-material support frame
It (81) is the multistory frame structure of 48 steel-pipe welding of Φ.
4. packaged type concrete rotates material-distributing system according to claim 2, which is characterized in that the splicing support frame
(2) checkered steel plate two sides are fixed with primary protection column (4) by the way of bolt connection.
5. packaged type concrete described in accordance with the claim 3 rotates material-distributing system, which is characterized in that sub-material rotation system
The checkered steel plate two sides of system (8) are fixed with second level protective fence (41) by the way of bolt connection.
6. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the bottom beam (1)
Size are as follows: length × width × height=10.5m × 2.4m × 0.44m, the size of splicing support frame (2) are as follows: length × width × height=4m ×
1.2m×4m。
7. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the pin shaft (24) is adopted
It is processed with 36 spiral of Φ.
8. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the splicing support frame
(2) high-order ladder (201) is arranged in side.
9. rotating material-distributing system according to packaged type concrete described in claim 1 or claim 5, which is characterized in that institute
State sub-material rotary system (8) side setting low level ladder (801).
10. packaged type concrete described in accordance with the claim 1 rotates material-distributing system, which is characterized in that the I-steel is vertical
Beam (27) is to be superimposed to be welded two-by-two by 4 22# I-steel, and I-shaped gooseneck (271) is superimposed welding by 22# I-steel two-by-two
It is formed by connecting, reinforced mesh (26) is welded for 20cm according to array pitch by 16 reinforcing bar of Φ and forms mesh sheet structure.
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CN201811161163.2A CN109230428B (en) | 2018-09-30 | 2018-09-30 | Movable concrete rotary material distributing system |
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CN201811161163.2A CN109230428B (en) | 2018-09-30 | 2018-09-30 | Movable concrete rotary material distributing system |
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CN109230428B CN109230428B (en) | 2023-12-29 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117184850A (en) * | 2023-11-07 | 2023-12-08 | 广东盈坚实业集团有限公司 | Feeder for concrete production |
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CN206625575U (en) * | 2017-03-31 | 2017-11-10 | 中建八局第一建设有限公司 | A kind of elephant trunk system for exempting to pump the quick cloth concrete of gamut |
CN209023721U (en) * | 2018-09-30 | 2019-06-25 | 中国水利水电第七工程局有限公司 | A kind of packaged type concrete rotation material-distributing system |
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CN117184850A (en) * | 2023-11-07 | 2023-12-08 | 广东盈坚实业集团有限公司 | Feeder for concrete production |
CN117184850B (en) * | 2023-11-07 | 2024-01-16 | 广东盈坚实业集团有限公司 | Feeder for concrete production |
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