CN206327835U - Combined bidirectional screw lifting conveyer - Google Patents

Abstract

The utility model provides a kind of combined bidirectional screw lifting conveyer, including material storing box, power transmission shaft, left-turn spiral part, right hand helix part, lifting belt wheel, elevator belt；The elevator belt wheel is set in power transmission shaft middle part, and left-turn spiral part and right hand helix part are connected on power transmission shaft, respectively positioned at the left and right sides of lifting belt wheel；Elevator belt lower end is set on lifting belt wheel, and elevator belt top protrudes upward material storing box at the opening at the top of material storing box；Drive shaft mount is located on material storing box, and power transmission shaft two ends are connected with material storing box both sides body pivot；Left-turn spiral part, right hand helix part and lifting belt wheel are located in material storing box and can rotated together with power transmission shaft.The utility model uses fabricated structure, and detachable any part, compact conformation is easy to install.

Description

Combined bidirectional screw lifting conveyer

Technical field

The utility model is related to a kind of conveying equipment special, especially a kind of screw lifting conveying equipment.

Background technology

Auger conveyor is wide variety of a kind of plant equipment in modern production logistics transportation, that is, utilizes spiral component Rotary motion, material is transported forward.In ball blast（Or sandblasting）Field of machines, it is mainly used in ball blast（Or sandblasting）Afterwards Pellet (or sand material) mixture is conveyed to elevator, and the mixture comprising pellet (or sand material) is conveyed to separator by elevator The separation of mixture is carried out, and then effective pellet (or sand material) after separation is conveyed to ball blast again（Or sandblasting）Device is thrown Ball（Or sandblasting）Cleaning work.Helical feed is compared with other conveying equipments, with simple in construction, good seal performance, operation The advantages of safe ready and low cost of manufacture.

Current ball blast（Or sandblasting）Machine is mounted on cleaning chamber body bottom with auger conveyor, has transverse and longitudinal two to it point, Only irreversibly deliver, and generally existing transfer efficiency it is low the problem of.Helical blade abrasion frequency is high, and workman's dismounting in maintenance is tired Difficulty, influences production efficiency.In addition, lifting driving is typically all individually control with helical feed driving, cost is higher.

The content of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art there is provided one kind is simple in construction, is dismantled just Easy combined bidirectional screw lifting conveyer, has both material conveying and two functions of material lifting, the bidirectional screw leaf of installation Piece can be high from left and right two to material lifting center, transfer efficiency is delivered to by material.The technical solution adopted in the utility model is：

A kind of combined bidirectional screw lifting conveyer, including material storing box, power transmission shaft, left-turn spiral part, right hand helix Part, lifting belt wheel, elevator belt；

The elevator belt wheel is set in power transmission shaft middle part, and left-turn spiral part and right hand helix part are connected to transmission On axle, respectively positioned at the left and right sides of lifting belt wheel；Elevator belt lower end is set on lifting belt wheel, and elevator belt top is from material storing box Material storing box is protruded upward at the opening at top；

Drive shaft mount is located on material storing box, and power transmission shaft two ends are connected with material storing box both sides body pivot；Left-turn spiral part, Right hand helix part and lifting belt wheel are located in material storing box and can rotated together with power transmission shaft.

Specifically, left-turn spiral part and right hand helix part include sleeve pipe and helical blade；Sleeve pipe is set in transmission On axle；Helical blade is connected to jacket exterior, and the helical blade of left-turn spiral part and right hand helix part is in opposite direction；Sleeve pipe Medial extremity be connected with the catch with axis hole；The outboard end of sleeve pipe is connected with keyway sleeve or the end plate with axis hole；Sleeve pipe Locked using locking member in outside；The keyway sleeve or end plate at outside of sleeve end or the catch of sleeve pipe medial extremity pass through the second flat key It is connected with power transmission shaft.

Or,

Left-turn spiral part and right hand helix part include sleeve pipe and helical blade；Sleeve pipe is set on power transmission shaft；Spiral shell Vane piece is connected to jacket exterior, and the helical blade of left-turn spiral part and right hand helix part is in opposite direction；The inner side of sleeve pipe End is connected with the catch with axis hole；The outboard end of sleeve pipe is connected with the end plate with axis hole；Outside of sleeve utilizes locking member Locking；At least one end is welded with power transmission shaft in the two ends of outside in sleeve pipe.

Or,

Left-turn spiral part and right hand helix part include helical blade, and helical blade is connected directly between on power transmission shaft；It is left The helical blade for revolving helical element and right hand helix part is in opposite direction.

Further, power transmission shaft is provided with transmission shafts rank；Lifting belt wheel one end is against transmission shafts rank side, left-handed spiral shell A helical element medial extremity in rotation part or right hand helix part props up and is positioned at transmission shafts rank opposite side, another Spacing collar is set between helical element and the lifting belt wheel other end.

Further, elevator belt is provided with hopper.

Further, feeding pipeline is connected with the opening at the top of material storing box, part of the elevator belt outside material storing box is located at In feeding pipeline.

Further, boatswain chair has been bolted it on the side box body of material storing box two；Boatswain chair lower end is connected and installed with bearing Bearing block；The side box body of material storing box two is stretched out at the two ends of power transmission shaft respectively, is connected with the bearing on bearing block.

Or, bearing of the connect setting on the side box body of material storing box two is distinguished at power transmission shaft two ends.

Further, lifting belt wheel is connected by the first flat key with power transmission shaft；Or lifting belt wheel is welded with power transmission shaft.

The utility model has the advantage of：The utility model uses fabricated structure, detachable any part, structure Compact, easy to install, it can be located away from work chamber body, it is to avoid during helical blade maintenance, and power transmission shaft dismounting is difficult Problem, bidirectional screw blade can convey material from two ends optional position to center, and conevying efficiency is higher.Further, since having both Enhanced feature and helical feed function, only need to install a set of drive system, save production cost.

Brief description of the drawings

Fig. 1 is structure composition schematic diagram of the present utility model.

Fig. 2 is section components enlarged drawing of the present utility model.

Fig. 3 is operating diagram of the present utility model.

Embodiment

With reference to specific drawings and Examples, the utility model is described in further detail.

The combined bidirectional screw lifting conveyer that the utility model is provided, as depicted in figs. 1 and 2, including：Material storing box 1, Power transmission shaft 2, left-turn spiral part 3, right hand helix part 4, lifting belt wheel 5, elevator belt 6；

Lifting belt wheel 5 is set in the middle part of power transmission shaft 2, is connected by the first flat key 7 with power transmission shaft 2；In this example, in order to Convenient disassembly during maintenance, therefore consider that lifting belt wheel 5 is connected with power transmission shaft 2 by flat key, in other embodiments, both can also Direct firm welding；

Left-turn spiral part 3 and right hand helix part 4 are connected on power transmission shaft 2, respectively positioned at the left and right two of lifting belt wheel 5 Side；In this example, left-turn spiral part 3 and right hand helix part 4 include sleeve pipe 401, the catch 402 with axis hole, keyway set Cylinder 403, helical blade 404；Both sides helical blade conveys material along power transmission shaft 2 to center during work；

Sleeve pipe 401 is set on power transmission shaft 2；Helical blade 404 is welded on outside sleeve pipe 401；Keyway sleeve 403 is connected to The outboard end of sleeve pipe 401 is simultaneously connected by the second flat key 8 with power transmission shaft 2, so as to limit helical element phase using the second flat key 8 To the rotary freedom of power transmission shaft 2；The medial extremity of sleeve pipe 401 is connected with catch 402；Locked using locking nut 9 in the outside of sleeve pipe 401 Tightly；It can make it that the position that torque is transmitted between power transmission shaft 2 and sleeve pipe 402 is wider using keyway sleeve 403；And another simplicity Design be that the outboard end of sleeve pipe 401, which connects a center, the end plate of axis hole, the end plate of the outboard end of sleeve pipe 401 is flat by second Key 8 is connected with power transmission shaft 2；Or be connected by the second flat key 8 with power transmission shaft 2 can also for the catch 402 of the medial extremity of sleeve pipe 401；

More easy structure is can also directly to weld at the two ends of sleeve pipe 401 or at least one end and power transmission shaft 2；

As another most simple design of left-turn spiral part 3 and right hand helix part 4, left-turn spiral part 3 and dextrorotation Helical element 4 can only include helical blade 404, and helical blade 404 is directly welded on power transmission shaft 2；

The helical blade 404 of left-turn spiral part 3 and right hand helix part 4 is in opposite direction.

In order to install positioning and easy disassembly during lifting belt wheel 5, power transmission shaft 2 is provided with transmission shafts rank 201；Lifting The one end of belt wheel 5 is against the side of transmission shafts rank 201, and the catch 402 of the sleeve medial extremity of right hand helix part 4 is propped up and is positioned at The opposite side of transmission shafts rank 201；Set between the catch 402 and the lifting other end of belt wheel 5 of the sleeve medial extremity of left-turn spiral part 3 Spacing collar 10；

Feeding pipeline 11 is connected with the opening at the top of material storing box 1, part of the elevator belt 6 outside material storing box 1 is located at feeding In pipeline 11；Elevator belt 6 is provided with hopper 601；

The two ends of power transmission shaft 2 can pass through the bearing that is arranged on 1 liang of side box body of material storing box and the both sides body pivot of material storing box 1 Connection；

And in order to the lifting conveyer overhaul when, can easy disassembly change part, pass through spiral shell on 1 liang of side box body of material storing box Tether and be connected to boatswain chair 12；The lower end of boatswain chair 12 is connected and installed with the bearing block 13 of bearing；Material storing box is stretched out at the two ends of power transmission shaft 2 respectively 1 liang of side box body, is connected with the bearing on bearing block 13.

As shown in figure 3, during work, the top of elevator belt 6 is driven by motor-driven mechanism to rotate, and drives lifting belt wheel 5, transmission Axle 2 rotates；Material in the chamber body 14 that works flows into the bottom of material-storing box 3 by feeding plate 15, now, the driving of elevator upper motor Power transmission shaft 1 rotates, and power transmission shaft 1 drives left-turn spiral part 3, right hand helix part 4 and lifting belt wheel 5 rotating Vortex, thing together Material is acted on by helical blade normal thrust, is axially moved along power transmission shaft 1 to center.When solid accumulation is in material-storing box 3 During center, lifting belt wheel 5 is by the tension of elevator belt 6, and driving hopper 601 works, so that by material lifting to equipment Other positions, carry out the work such as the separation or dedusting of next step.

Claims (10)

1. a kind of combined bidirectional screw lifting conveyer, it is characterised in that including material storing box (1), power transmission shaft (2), left-handed spiral shell Revolve part (3), right hand helix part (4), lifting belt wheel (5), elevator belt (6)；

The lifting belt wheel (5) is set in power transmission shaft (2) middle part, and left-turn spiral part (3) and right hand helix part (4) are even It is connected on power transmission shaft (2), respectively positioned at the left and right sides of lifting belt wheel (5)；Elevator belt (6) lower end is set in lifting belt wheel (5) On, elevator belt (6) top protrudes upward material storing box at the opening at the top of material storing box (1)；

Power transmission shaft (2) is erected on material storing box (1), and power transmission shaft (2) two ends are connected with material storing box (1) both sides body pivot；It is left-handed Helical element (3), right hand helix part (4) and lifting belt wheel (5) are located in material storing box (1) and can be together with power transmission shafts (2) Rotate.

2. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Left-turn spiral part (3) and right hand helix part (4) include sleeve pipe (401) and helical blade (404)；Sleeve pipe (401) It is set on power transmission shaft (2)；Helical blade (404) is connected to sleeve pipe (401) outside, left-turn spiral part (3) and right hand helix The helical blade (404) of part (4) is in opposite direction；The medial extremity of sleeve pipe (401) is connected with the catch (402) with axis hole；Set The outboard end of pipe (401) is connected with keyway sleeve (403) or the end plate with axis hole；Locking member is utilized on the outside of sleeve pipe (401) Locking；The keyway sleeve (403) or end plate of sleeve pipe (401) outboard end or the catch (402) of sleeve pipe (401) medial extremity pass through second Flat key (8) is connected with power transmission shaft (2).

3. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Left-turn spiral part (3) and right hand helix part (4) include sleeve pipe (401) and helical blade (404)；Sleeve pipe (401) It is set on power transmission shaft (2)；Helical blade (404) is connected to sleeve pipe (401) outside, left-turn spiral part (3) and right hand helix The helical blade (404) of part (4) is in opposite direction；The medial extremity of sleeve pipe (401) is connected with the catch (402) with axis hole；Set The outboard end of pipe (401) is connected with the end plate with axis hole；Locking member locking is utilized on the outside of sleeve pipe (401)；In sleeve pipe (401) At least one end is welded with power transmission shaft (2) in the two ends of outside.

4. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Left-turn spiral part (3) and right hand helix part (4) include helical blade (404), and helical blade (404) is connected directly between On power transmission shaft (2)；The helical blade (404) of left-turn spiral part (3) and right hand helix part (4) is in opposite direction.

5. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Power transmission shaft (2) is provided with transmission shafts rank (201)；Lifting belt wheel (5) one end is against transmission shafts rank (201) side, left A helical element medial extremity in rotation helical element (3) or right hand helix part (4) props up and is positioned at transmission shafts rank (201) opposite side, spacing collar (10) is set between another helical element and lifting belt wheel (5) other end.

6. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Elevator belt (6) is provided with hopper (601).

7. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Feeding pipeline (11) is connected with opening at the top of material storing box (1), part of the elevator belt (6) in material storing box (1) outside is located at In feeding pipeline (11).

8. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Boatswain chair (12) has been bolted on the side box body of material storing box (1) two；Boatswain chair (12) lower end is connected and installed with the axle of bearing Bearing (13)；The side box body of material storing box (1) two is stretched out at the two ends of power transmission shaft (2) respectively, is connected with the bearing on bearing block (13).

9. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Distinguish bearing of the connect setting on the side box body of material storing box (1) two in power transmission shaft (2) two ends.

10. combined bidirectional screw lifting conveyer as claimed in claim 1, it is characterised in that

Lifting belt wheel (5) is connected by the first flat key (7) with power transmission shaft (2)；Or lifting belt wheel (5) is welded with power transmission shaft (2).