CN211168532U - Pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage - Google Patents
Pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage Download PDFInfo
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- CN211168532U CN211168532U CN201922024032.6U CN201922024032U CN211168532U CN 211168532 U CN211168532 U CN 211168532U CN 201922024032 U CN201922024032 U CN 201922024032U CN 211168532 U CN211168532 U CN 211168532U
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Abstract
A pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage comprises a head part shell, wherein a head shaft is arranged in the head part shell, and head part sealing structures are arranged on the inner sides of taper sleeve bearings at two ends of the head shaft; the tail part comprises a tail part shell, a tail shaft is arranged in the tail part shell, and tail part sealing structures are arranged on the inner sides of tail part bearings at two ends of the tail shaft; the outer side of the tail shaft is tensioned through a tensioning device; the tensioning device comprises a tensioning screw rod assembly arranged at the upper end of the bearing block, and the top end of the tensioning screw rod assembly is positioned in the screw rod sealing box; the lower end of the bearing seat is provided with a heavy hammer tensioning device; the interlude includes the pipe casing, pipe casing and convex flange welding. The utility model provides a pair of prevent withstand voltage tubular bucket elevator of ash leakage can solve the problem that the ash leaked under the long-term safety and stability operation of pressure and 350 ℃ of 0.3Mpa environment.
Description
Technical Field
The utility model relates to a lifting machine, especially a prevent withstand voltage tubular bucket elevator of ash leakage.
Background
The prior blast furnace dry ash conveying process comprises the following steps: the ash powder enters the buried scraper conveyor to be in a normal pressure state through the middle two-stage buffer bin and the two-stage valve in an exchange opening mode. The process links are complex, the valve is worn quickly, the pipeline is blocked frequently, and the maintenance and the replacement are frequent. In order to simplify the process route, reduce the maintenance cost and reduce the labor intensity of workers, a middle buffer bin and a valve are required to be cancelled in the new process, so that the materials can quickly enter a bucket elevator under the pressure state of 0.2 Mpa.
The existing bucket elevator has the following problems: 1) the shell of the existing airtight bucket elevator is of a rectangular structure spliced by steel plates, so that the shell can deform to cause ash powder leakage, serious potential safety hazards exist, and the use requirement of a new process route cannot be met. 2) The heavy hammer tensioning structures of the existing bucket elevator are mostly arranged externally, and the sealing performance of the structures cannot meet the pressure requirement; the tensioning weight cannot meet the tensioning requirement; the weight block is unstable and easy to shake in the tensioning process. 3) The existing airtight structure has poor sealing performance of the bearing seat, so that the bearing enters dust, and the bearing is frequently damaged; in addition, the shell is deformed due to too large pressure, so that pressure leakage sealing is not tight.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a prevent withstand voltage tubular bucket elevator of ash leakage is provided, can be in the long-term safe and stable operation under 0.3 Mpa's pressure and 350 ℃ environment, satisfied the needs of new technology route
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:
a pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage comprises a head part, a middle section, a tail part, a traction chain and a hopper;
the head comprises a head shell, a head shaft is arranged in the head shell, and head sealing structures are arranged on the inner sides of taper sleeve bearings at two ends of the head shaft;
the tail part comprises a tail part shell, a tail shaft is arranged in the tail part shell, and tail part sealing structures are arranged on the inner sides of tail part bearings at two ends of the tail shaft;
the head sealing structure and the tail sealing structure respectively comprise a primary graphite sealing box, a secondary mechanical labyrinth sealing structure and a tertiary temperature-resistant lip sealing structure;
the outer side of the tail shaft is tensioned through a tensioning device; the tensioning device comprises a tensioning screw rod assembly arranged at the upper end of the bearing block, and the top end of the tensioning screw rod assembly is positioned in the screw rod sealing box; the lower end of the bearing seat is provided with a heavy hammer tensioning device
The interlude includes a plurality of pipe casings, and every pipe casing and convex flange welding pass through convex flange sealing connection between each pipe casing.
The output end of the head shaft is directly driven by a speed reducer and a motor. The direct connection mode is adopted, so that the defect that the shell is not airtight due to shaft deformation caused by the action of bending moment in a chain transmission mode is overcome.
The head shell and the tail shell are made of circular tubes in a penetrating mode. The pressure resistance of the shell is ensured.
The head cover is installed on the top end of the head shell, the tail sealing covers are installed at two ends of the tail shell, and the head cover and the tail sealing covers are designed to be arc-shaped end sockets. Pressure resistance and air tightness are ensured.
The primary graphite sealing box comprises a packing box cover and a packing box base, the packing box cover and the packing box base form a packing box, and a graphite packing is arranged in the packing box; the secondary mechanical labyrinth seal structure comprises a mechanical labyrinth seal arranged in the packing box seat, and the mechanical labyrinth seal is tightly attached to a plurality of annular seal teeth on the shaft; the three-level temperature-resistant lip type sealing structure comprises a two-level double-lip PTFE stainless steel oil seal and a one-level PTFE frameless oil seal.
And the packing box base is provided with an air ring, and an air path pipeline is communicated with the air ring.
The tensioning screw rod assembly comprises a screw rod, and the lower end of the screw rod is installed on the tail bearing block. The upper part of the screw rod is provided with a screw rod locking nut and a spring, and the top end of the screw rod is positioned in the screw rod sealing box and is limited by a screw rod adjusting nut.
The counterweight tensioning device comprises a plurality of counterweight blocks, the counterweight blocks are connected into a counterweight block through a counterweight block connecting bolt, the upper end of the counterweight block is connected with the tail bearing seat through a counterweight lifting lug and a counterweight connecting pin shaft, and two ends of the counterweight block are inserted into the tail bearing seat through a counterweight block deviation-preventing fixing bolt for fixing.
The utility model relates to a prevent withstand voltage tubular bucket elevator of ash leakage has following technological effect:
1) the head and the tail of the bucket elevator are provided with a circular tube type cavity structure, the middle shell is provided with a pressure-resistant tube type structure and a convex flange sealing structure, so that the shell is uniformly stressed and cannot deform relative to the existing rectangular structure, ash powder leakage cannot be caused, and the bucket elevator can operate under the pressure of 0.3Mpa and the environment of 350 ℃ for a long time in a safe and stable manner, so that high-temperature gas leakage is avoided. In addition, the tubular structure is easy to produce, and materials are saved.
2) The bearing is effectively protected from the influence of gas dust by adopting the mode of one-level packing sealing, two-level mechanical labyrinth air chamber sealing and three-level oil sealing, and the service life of the bearing is prolonged. In addition, the graphite packing is provided with the air ring, and the back flushing is carried out in the shaft by utilizing the air pipeline, so that the graphite packing can effectively prevent dust from entering the packing box through the gap between the shafts, and the throttling effect can be formed between the teeth of the mechanical labyrinth seal to achieve the purpose of labyrinth seal; and adopt the dustproof withstand voltage of two lip PTFE stainless steel oil seals, the PTFE does not have the combined design of skeleton oil blanket oil conservation lubrication, has both played dustproof effect, plays lubricated effect again.
3) A heavy hammer tensioning mechanism is arranged in the bucket elevator, so that the sealing property is ensured to meet the pressure requirement; the weight blocks connected by the multiple balancing weights ensure that the tensioning weight can meet the tensioning requirement; through the weight block deviation prevention fixing bolt, the balancing weight is stable in the tensioning process and is not easy to shake. In conclusion, the heavy hammer tensioning mechanism can effectively realize the pressure-resistant (0.3 MPa) sealing operation of the bucket elevator and simultaneously provide enough tensioning force.
Drawings
The invention will be further explained with reference to the following figures and examples:
fig. 1 is a main schematic diagram of the present invention.
Fig. 2 is a schematic main sectional view of the middle head of the present invention.
Fig. 3 is a front view of the middle tail part of the present invention.
Fig. 4 is a left side schematic view of the middle tail portion of the utility model.
Fig. 5 is a schematic view of the middle tail portion of the present invention.
FIG. 6 is a partial front view of the middle section of the present invention
Fig. 7 is a schematic view of the middle tail portion of the present invention.
Fig. 8 is a front view of the middle tension mechanism of the present invention.
Fig. 9 is a left side view of the middle tension mechanism of the present invention.
Fig. 10 is a front view of the sealing mechanism of the present invention.
Fig. 11 is a partially enlarged schematic view of a portion a of fig. 10.
In the figure: the device comprises a motor 1, a speed reducer 2, a head 3, a traction chain 4, a hopper 5, an access door 6, an intermediate section 7, a tail 8, a shaft sleeve 9, a taper sleeve bearing 10, a left sealing box 11, a head cover 12, a head shaft 13, a head wheel 14, a secondary sealing box 15, an air pipeline 16, an oil circuit lubricating pipeline 17, a head bearing seat 18, a head shell 19, a tail shell 20, a lead screw sealing box 21, a tensioning lead screw assembly 22, a tail bearing seat 23, a tail shaft 24, a tail bearing 25, a heavy hammer tensioning device 26, a tail wheel 27, a tail sealing cover 28, a primary sealing box 29, a right sealing box 30, a feeding port 31, an oil circuit lubricating pipeline 32, an air pipeline 33, a manhole access door 34, a circular pipe shell 35, a convex flange 36, an arc-shaped end enclosure 37 and. 2-1 parts of a screw rod, 2-2 parts of a screw rod locking nut, 2-3 parts of a spring, 2-4 parts of a screw rod adjusting nut, 2-5 parts of a weight block, 2-6 parts of a weight block connecting bolt, 2-7 parts of a weight lifting lug, 2-8 parts of a weight connecting pin shaft, 2-9 parts of a weight block deviation preventing fixing bolt, 3-1 parts of a packing box cover, 3-2 parts of a graphite packing, 3-3 parts of a packing box seat, 3-4 parts of a frameless oil seal, 3-5 parts of a packing box silica gel sealing gasket, 3-6 parts of an air ring, 3-7 parts of a bearing seat fixing flange, 3-8 parts of a bearing seat silica gel sealing gasket, 3-9 parts of a double-lip PTFE stainless steel oil seal, 3-10 parts of a mechanical labyrinth seal, 3-11 parts.
Detailed Description
As shown in figure 1, the pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage comprises a motor 1, a speed reducer 2, a head part 3, a traction chain 4, a hopper 5, an access door 6, a middle section 7 and a tail part 8.
As shown in fig. 2, the head 3 comprises a head shell 19, and the head shell 19 is made of circular tubes in a penetrating manner, so that the pressure resistance of the shell is ensured. Head 12 is installed on head casing 19 top, and head 12 adopts the design of circular arc type head, and withstand voltage does not leak gas, effectively isolated outside and inside atmospheric pressure. A head shaft 13 is arranged in the head shell 19, a pair of head wheels 14 are arranged in the middle of the head shaft 13, taper sleeve bearings 10 are arranged at two ends of the head shaft 13, and a head sealing structure is arranged on the inner sides of the taper sleeve bearings 10.
As shown in fig. 10 to 11, the head seal structure and the tail seal structure are the same, and a left seal box 11 and a right seal box 30 which have the same structure are arranged on the left and the right. The left sealing box 11 and the right sealing box 30 are respectively one-level packing seal, two-level mechanical labyrinth seal and three-level temperature-resistant lip seal, so that the bearing is effectively protected from being influenced by gas dust, and the service life of the bearing is prolonged.
Specifically, the first-level packing sealing structure comprises a packing box cover 3-1 and a packing box base 3-3, wherein the packing box cover 3-1 and the packing box base 3-3 form a packing box, and a graphite packing 3-2 is arranged in the packing box. In addition, an air ring 3-6 is arranged on the packing box base 3-3, an air pipeline 16 is communicated with the air ring 3-6, and the air pipeline 16 performs back flushing in the shaft through the air ring 3-6, so that dust is effectively prevented from entering the packing box through an inter-shaft gap.
The secondary mechanical labyrinth seal comprises mechanical labyrinth seals 3-10 arranged on the right side of the gas ring 3-6, a plurality of annular seal teeth arranged at one time are arranged on the corresponding shaft along the axial direction, a series of closure gaps and expansion cavities are formed between the teeth, and the sealed gas generates throttling effect when passing through the gaps of the zigzag labyrinth to achieve the purpose of leakage resistance.
The third-level temperature-resistant lip type seal is positioned on the right side of the mechanical labyrinth seal 3-10, and a second-level double-lip PTFE stainless steel oil seal 3-9 and a first-level PTFE frameless oil seal 3-4 are adopted. The sealing structure has the advantages that the two-stage double-lip PTFE stainless steel oil seal 3-9 is mainly used for dust prevention and pressure resistance, and the one-stage PTFE frameless oil seal 3-4 is mainly used for sealing lubricating oil in the bearing and keeping the oil and lubricating.
In addition, the bearing seat fixing flange 3-7 is welded with the shell of the round pipe, and the head bearing seat 18 is tightly connected to the bearing seat fixing flange 3-7 through bolts and a bearing seat silica gel sealing gasket 3-8. The packing box base 3-3 is hermetically connected with the head bearing base 18 through bolts and a packing box silica gel sealing gasket 3-5.
The head shaft 13 is connected with the speed reducer 2 and the motor 1, the direct connection speed reducer 2 is used, and the direct connection mode is adopted for driving, so that the defect that the shell is not airtight due to shaft deformation caused by the action of bending moment in a chain transmission mode is avoided.
As shown in fig. 3 and 5, the tail portion 8 includes a tail housing 20, and the tail housing 20 is designed as a circular tube, and can stably withstand pressure of 0.3Mpa without deformation and ash leakage. Afterbody casing 20 right side is equipped with afterbody charge door 31, and manhole access door 34 has been seted up to afterbody charge door 31 offside, conveniently overhauls to observe and maintain, changes hopper 5, adjusts 4 length of drag chain. The front side and the rear side of the tail shell 20 are provided with tail sealing covers 28, and the tail sealing covers 28 are designed to be arc-shaped end sockets, so that the tail shell is pressure-resistant and airtight.
As shown in fig. 4, a tail shaft 24 is arranged in the tail housing 20, a pair of tail wheels 27 is mounted in the middle of the tail shaft 24, tail bearings 25 are mounted at two ends of the tail shaft 24, a tail sealing structure is arranged on the inner side of each tail bearing 25, the outer side of each tail bearing 25 is mounted on a tail bearing seat 23, and the tail bearing seats 23 are adjusted through a tensioning mechanism.
As shown in fig. 8-9, the tensioning mechanism adjustment includes a tensioning screw assembly 22 mounted on the upper end of the tail bearing block 23 and a weight tensioner 26 mounted on the lower end of the tail bearing block 23.
Specifically, the tensioning screw rod assembly 22 comprises a screw rod 2-1, and the lower end of the screw rod 2-1 is mounted on a tail bearing block 23. A screw rod locking nut 2-2 is connected with a proper position on the screw rod 2-1 in a threaded manner, a spring 2-3 is sleeved on the screw rod 2-1 at the upper end of the screw rod locking nut 2-2, and the upper end of the spring 2-3 is propped against the tail shell 20. The screw rod 2-1 penetrates through the tail shell 20 and is positioned in the screw rod sealing box 21.
The screw rod sealing box 21 adopts a round tube pressure-resistant structure, and because only one connection part exists in the round tube, the leakage is reduced, and the sealing performance is good.
The upper part of the screw rod 2-1 passes through a limiting plate 2-10 in a screw rod sealing box 21 and is connected with a screw rod adjusting nut 2-4.
When the bucket elevator chain is installed, the screw rod adjusting nut 2-4 can be adjusted, so that the screw rod 2-1 drives the tail bearing block 23 to move upwards for a certain distance, and the bucket elevator traction chain is convenient to install. The screw rod locking nut 2-2 is arranged, the telescopic length of the spring 2-3 can be adjusted by adjusting the distance between the screw rod locking nut 2-2 and the tail shell 20, the tension force of the spring is further adjusted, and the spring 2-3 can buffer and lift the violent vibration of the tail bearing seat 23 caused by uneven material conveying.
The weight tensioning device 26 comprises weight blocks 2-5, the weight blocks 2-5 comprise a plurality of balancing weights, and the balancing weights are connected through weight block connecting bolts 2-6. The weight blocks 2-5 can be added or reduced according to the balance weight required by the pressure-resistant bucket elevator, and are convenient and flexible.
The upper ends of the weight blocks 2-5 are connected with the tail bearing seat 23 through weight lifting lugs 2-7 and weight connecting pin shafts 2-8, so that the weight blocks are not easy to shake, and the stability of the balance weight is ensured.
And the two ends of the weight block 9 are additionally provided with weight block deviation-preventing fixing bolts 2-9, and the weight block deviation-preventing fixing bolts 2-9 are inserted into the tail bearing block 23 for fixing, so that the bearing block deviation caused by vibration can be prevented, and the guide fixing function is borne.
During adjustment, the screw rod sealing box 21 is taken down, the tensioning screw rod 22 is adjusted to the highest position, the traction chain is installed, then the screw rod nut is loosened, and after once adjustment, free tensioning can be achieved through the heavy hammer tensioning device 26, and the device is convenient and reliable. The weight tensioner 26 is compact and can increase or decrease the weight with the height.
As shown in fig. 6-7, the middle section 7 is formed by welding a circular tube housing 35 and a raised flange 36. The connection surface of the raised face flange 36 is of a gas-tight pressure-resistant design. The circular tube shell 35 is designed by adopting a circular tube type structure and is connected with the head shell 19 and the tail shell 20 into a whole. The round tube has good pressure resistance, and high-temperature gas leakage is avoided; the material is saved, and the production and the processing are easy; the cross-sectional area of the circular tube shell 35 is small, and the installation space is saved.
In addition, still be provided with access door 6 on interlude 7, access door 6 is the same with manhole access door 34 structure, all adopts circular arc type head 37 + hinge 36 quick-open type structure. The traction chain 4 and the hopper 5 are convenient to overhaul.
The working principle and the process are as follows: the motor 1, the speed reducer 2, the head 3, the middle section 7 and the tail 8 are assembled into a whole. The tensioning screw 22 is adjusted to the highest position, the traction chain 4 and the hopper 5 are installed, then the screw nut is loosened, the weight tensioning device 26 is tensioned freely, the equipment is started, and the traction chain 4 rotates along with the rotation of the head pulley 14. The material is lifted to the discharge opening at the head part from the tail part by the hopper 5 and is discharged, and the material is conveyed.
Claims (8)
1. The utility model provides a prevent withstand voltage tubular bucket elevator of ash leakage which characterized in that: comprises a head (3), a middle section (7), a tail (8), a traction chain (4) and a hopper (5);
the head (3) comprises a head shell (19), a head shaft (13) is installed in the head shell (19), and head sealing structures are arranged on the inner sides of taper sleeve bearings (10) at the two ends of the head shaft (13);
the tail part (8) comprises a tail part shell (20), a tail shaft (24) is installed in the tail part shell (20), and tail part sealing structures are arranged on the inner sides of tail part bearings (25) at the two ends of the tail shaft (24);
the head sealing structure and the tail sealing structure respectively comprise a primary graphite sealing box, a secondary mechanical labyrinth sealing structure and a tertiary temperature-resistant lip sealing structure;
the outer side of the tail shaft (24) is tensioned through a tensioning device; the tensioning device comprises a tensioning screw rod assembly (22) arranged at the upper end of a bearing seat (23), and the top end of the tensioning screw rod assembly (22) is positioned in a screw rod sealing box (21); the lower end of the bearing seat (23) is provided with a heavy hammer tensioning device (26);
the middle section (7) comprises a plurality of circular tube shells (35), each circular tube shell (35) is welded with a convex flange (36), and the circular tube shells (35) are connected in a sealing mode through the convex flanges (36).
2. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: the output end of the head shaft (13) is directly driven by the speed reducer (2) and the motor (1).
3. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: the head shell (19) and the tail shell (20) are made of circular tubes in a penetrating mode.
4. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: head cover (12) are installed on head casing (19) top, and the sealed lid of afterbody (28) are installed at afterbody casing (20) both ends, and head cover (12), the sealed lid of afterbody (28) all adopt the design of circular arc type head.
5. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: the primary graphite sealing box comprises a packing box cover (3-1) and a packing box base (3-3), the packing box cover (3-1) and the packing box base (3-3) form a packing box, and a graphite packing (3-2) is arranged in the packing box; the secondary mechanical labyrinth seal structure comprises a mechanical labyrinth seal (3-10) arranged in a packing box seat (3-3), and the mechanical labyrinth seal (3-10) is tightly attached to a plurality of annular seal teeth on the shaft; the three-level temperature-resistant lip type sealing structure comprises a two-level double-lip PTFE stainless steel oil seal (3-9) and a one-level PTFE frameless oil seal (3-4).
6. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 5, characterized in that: the packing box seat (3-3) is provided with an air ring (3-6), and the air circuit pipeline (16) is communicated with the air ring (3-6).
7. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: the tensioning screw rod assembly (22) comprises a screw rod (2-1), and the lower end of the screw rod (2-1) is installed on the tail bearing seat (23); the upper part of the screw rod (2-1) is provided with a screw rod locking nut (2-2) and a spring (2-3), and the top end of the screw rod (2-1) is positioned in a screw rod sealing box (21) and is limited by a screw rod adjusting nut (2-4).
8. The pressure-resistant pipe type bucket elevator capable of preventing ash leakage according to claim 1, characterized in that: the heavy hammer tensioning device (26) comprises a plurality of balancing weights, the balancing weights are connected into heavy hammer blocks (2-5) through heavy hammer block connecting bolts (2-6), the upper ends of the heavy hammer blocks (2-5) are connected with the tail bearing seat (23) through heavy hammer lifting lugs (2-7) and heavy hammer connecting pin shafts (2-8), and the two ends of the heavy hammer blocks (2-5) are inserted into the tail bearing seat (23) through heavy hammer block deviation preventing fixing bolts (2-9) to be fixed.
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CN201922024032.6U CN211168532U (en) | 2019-11-21 | 2019-11-21 | Pressure-resistant pipe type bucket elevator capable of preventing powder ash leakage |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110884851A (en) * | 2019-11-21 | 2020-03-17 | 湖北宜都运机机电股份有限公司 | Pressure-resistant pipe type bucket elevator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110884851A (en) * | 2019-11-21 | 2020-03-17 | 湖北宜都运机机电股份有限公司 | Pressure-resistant pipe type bucket elevator |
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