CN209853318U - Rotary powder pressurizing and conveying device - Google Patents

Rotary powder pressurizing and conveying device Download PDF

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Publication number
CN209853318U
CN209853318U CN201920241050.7U CN201920241050U CN209853318U CN 209853318 U CN209853318 U CN 209853318U CN 201920241050 U CN201920241050 U CN 201920241050U CN 209853318 U CN209853318 U CN 209853318U
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cylinder
powder
fixed cylinder
rotary
plunger
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CN201920241050.7U
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霍耿磊
甘晓雁
章刚
马超
商贵信
刘春雷
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Changzheng Engineering Co Ltd
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Changzheng Engineering Co Ltd
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Abstract

The utility model discloses a rotary type pulverized coal pressurized conveying device, which comprises a fixed cylinder, a rotary cylinder and a plurality of plunger cylinders, wherein the plunger cylinders are provided with a normal pressure feed inlet and a powder outlet, the plunger cylinders are internally provided with cylindrical pistons and hydraulic cylinders for driving the cylindrical pistons to move in the plunger cylinders, and the powder outlet is fixed on the fixed cylinder; the fixed cylinder is sleeved on the rotating cylinder, the rotating cylinder can rotate relative to the fixed cylinder, and a motor for driving the rotating cylinder to rotate is arranged on the fixed cylinder; the rotary cylinder is provided with a powder inlet and a high-pressure discharge hole, and when the rotary cylinder rotates relative to the fixed cylinder, the powder inlet can be communicated with the powder outlet. Through the utility model discloses a rotation type powder pressurization conveyor has realized the continuous conveyor of powder, has reduced the energy consumption, has avoided inert gas's emission.

Description

Rotary powder pressurizing and conveying device
Technical Field
The utility model relates to a powder pressurization transport technical field, in particular to rotation type powder pressurization conveyor.
Background
Powder is an aggregate of many small particles, and common powder is powdered coal, flour or cement powder.
The pressurized conveying process of the powder is related to a plurality of fields of coal chemical industry, metallurgy, food processing and the like. Coal gasification, especially pulverized coal pressure gasification, is a clean coal utilization technology, and has been rapidly developed in recent years and widely used. The pulverized coal pressure conveying technology is an indispensable technical link of the pulverized coal pressure gasification technology. The pressurized pulverized coal conveying technology is to increase dry pulverized coal from normal pressure to a certain specific high pressure so as to realize combustion and gasification of the pulverized coal under high pressure.
The principle of the existing industrially used pulverized coal pressurized conveying technology is that high-pressure inert gas is used for rushing into a pulverized coal pressurized locking bucket, the pressure is improved, the pulverized coal is conveyed to a pulverized coal storage tank after being balanced with the pressure of the pulverized coal storage tank, the high-pressure inert gas is used for replacing solid pulverized coal in the locking bucket, then the high-pressure inert gas in the pulverized coal locking bucket is discharged, and the process is circulated. For example, CN1376761A discloses a method and a device for feeding dry pulverized coal in a dry pulverized coal pressure gasification process, the device comprises an intermediate charging bucket with a conical surface provided with an inert gas inlet device for storing pulverized coal, and a high-pressure pulverized coal bunker connected with the bottom of the intermediate charging bucket through a pipeline, the intermediate charging bucket is pressurized by inert gas, so that the pressure in the intermediate charging bucket is the same as that of the high-pressure pulverized coal bunker connected with the intermediate charging bucket, and then the pulverized coal is conveyed to the high-pressure pulverized coal bunker. The adoption of the technology mainly has the following technical defects:
1. a large amount of inert gases such as N2, CO2 and the like need to be discharged in the pressurizing process, so that the great environmental pollution is caused;
2. the efficiency of the pressurizing and conveying process is low, and continuous adjustability cannot be realized;
3. the pressure conveying needs high pressure resistant equipment, and the volume is large, and the manufacturing cost is high;
4. the energy consumption is big, and is high to the sealed and pressure resistance performance requirement of powder conveying pipeline and pipeline auxiliary member.
SUMMERY OF THE UTILITY MODEL
In order to solve the above problem, the utility model provides a rotation type powder pressurization conveyor need not discharge inert gas, realizes the continuous conveyor of powder.
In order to achieve the purpose, the rotary powder pressurized conveying device comprises a fixed cylinder, a rotary cylinder and a plurality of plunger cylinders, wherein the plunger cylinders are provided with a normal-pressure feed inlet and a powder outlet, the plunger cylinders are internally provided with cylindrical pistons and hydraulic cylinders for driving the cylindrical pistons to move in the plunger cylinders, and the powder outlet is fixed on the fixed cylinder; the fixed cylinder is sleeved on the rotating cylinder, the rotating cylinder can rotate relative to the fixed cylinder, and a motor for driving the rotating cylinder to rotate is arranged on the fixed cylinder; the rotary cylinder is provided with a powder inlet and a high-pressure discharge hole, and when the rotary cylinder rotates relative to the fixed cylinder, the powder inlet can be communicated with the powder outlet.
Preferably, the plunger cylinders are uniformly arranged along the circumferential direction of the fixed cylinder.
Preferably, a sealing strip is arranged between the fixed cylinder and the rotary cylinder, the sealing strip is arranged on the inner surface of the fixed cylinder, the sealing strip divides the inner surface of the fixed cylinder into a plurality of mutually independent partition areas, and one plunger cylinder is arranged in each partition area.
Preferably, a plurality of adjusting bolts are arranged on the fixed cylinder, springs are arranged between the adjusting bolts and the sealing strips, and the adjusting bolts are in threaded connection with the fixed cylinder.
Preferably, the number of the plunger cylinders is six, and the six plunger cylinders are arranged in two layers along the axial direction of the fixed cylinder.
Preferably, a combined seal ring is arranged between the cylindrical piston and the plunger cylinder, the combined seal ring comprises a V-shaped cloth clamping seal ring and a U-shaped seal ring, a spring piece with a U-shaped cross section is arranged in a groove of the U-shaped seal ring, and the V-shaped cloth clamping seal ring is arranged on one side of an opening of the U-shaped seal ring.
Compare current fine coal pressure conveyor, the utility model discloses a rotation type powder pressure conveyor, it is not high to the resistance to pressure of delivery path, the energy consumption is low, has reduced the equipment size moreover, has reduced equipment cost, has avoided discharging inert gas. Through the utility model discloses a rotation type powder pressurization conveyor has realized the continuous conveyor of powder, has reduced the energy consumption, has avoided inert gas's emission.
Drawings
FIG. 1 is a schematic view of a rotary powder pressing and conveying device according to the present invention;
FIG. 2 is an enlarged view of a portion of area A of FIG. 1;
FIG. 3 is a top view of the rotary powder pressurized delivery apparatus of the present invention showing an embodiment employing six plunger cylinders;
FIG. 4 is an expanded view of the rotary cylinder;
FIG. 5 is an expanded view of the fixed barrel;
FIG. 6 is a schematic view of the fitting relationship between the seal strip and the adjusting bolt;
fig. 7 is a schematic layout of the composite seal ring.
Detailed Description
To maintain the following description of the disclosed embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted. The following describes in detail embodiments of the present invention with reference to the drawings.
As shown in fig. 1-5, the utility model discloses a rotation type powder pressurization conveyor, including solid fixed cylinder 10, rotatory section of thick bamboo 20 and a plurality of plunger jar 30, be provided with ordinary pressure feed inlet 31 and powder export 32 on the plunger jar 30, be provided with tube-shape piston 33 and drive in the plunger jar 30 tube-shape piston 33 is in the pneumatic cylinder 331 of the removal in the plunger jar 30, the powder is followed after the feeding of ordinary pressure feed inlet 31, tube-shape piston 33 is in can push the powder under the drive of pneumatic cylinder 331 to powder export 32, powder export 32 is fixed gu on the solid fixed cylinder 10.
The fixed cylinder 10 is sleeved on the rotating cylinder 20, the rotating cylinder 20 can rotate relative to the fixed cylinder 10, a motor 23 for driving the rotating cylinder 20 to rotate is arranged on the fixed cylinder 10, and the fixed cylinder 10 and the rotating cylinder 20 are coaxially arranged and are in clearance fit.
The rotary cylinder 20 is provided with a powder inlet 21 and a high-pressure discharge port 22, and when the rotary cylinder 20 rotates relative to the fixed cylinder 10, the powder inlet 21 can be communicated with the powder outlet 32. The high-pressure discharge port 22 is arranged at the bottom end of the rotary cylinder 20 and is connected with a high-pressure storage bin.
The plurality of plunger cylinders 30 are uniformly arranged along the circumferential direction of the fixed cylinder 10. The number of the plunger cylinders 30 may be determined according to the amount of the powder to be conveyed, if only one layer of the plunger cylinders 30 is provided, only one powder inlet 21 is provided, and when the rotary drum 20 rotates, the powder outlet 32 of each plunger cylinder 30 is sequentially communicated with the powder inlet 21 to be cyclically circulated. The number of the plunger cylinders 30 is preferably six, and six plunger cylinders 30 are arranged in two layers along the axial direction of the fixed cylinder 10, each layer is three, and the upper and lower layers of the plunger cylinders 30 are arranged at intervals, so that the plunger cylinders 30 are still uniformly arranged along the circumferential direction of the fixed cylinder 10 when viewed from the top. When the two-layer arrangement is adopted, the number of the powder inlets 21 is two, and each powder inlet 21 corresponds to one layer of the plunger cylinder 30.
A sealing strip 40 is arranged between the fixed cylinder 10 and the rotary cylinder 20, the sealing strip 40 is arranged on the inner surface of the fixed cylinder 10, the sealing strip 40 divides the inner surface of the fixed cylinder 10 into a plurality of mutually independent partition areas 41, sealing is maintained between the partition areas 41, and one plunger cylinder 30 is arranged in each partition area 41.
In order to ensure that the sealing strip 40 is arranged between the fixed cylinder 10 and the rotary cylinder 20 to have good sealing and ensure that the sealing is kept between the partition areas 41, a plurality of adjusting bolts 11 are arranged on the fixed cylinder 10, springs 12 are arranged between the adjusting bolts 11 and the sealing strip 40, and the adjusting bolts 11 are in threaded connection with the fixed cylinder 10. The compression amount of the spring 12 is controlled by rotating the adjusting bolt 11, so that the sealing strip 40 is always kept in reliable sealing, and the matching relation between the sealing strip 40 and the adjusting bolt 11 is shown in fig. 6.
A combined seal ring 50 is arranged between the cylindrical piston 33 and the plunger cylinder 30, the combined seal ring 50 includes a V-shaped cloth clamping seal ring 51 and a U-shaped seal ring 52, as shown in fig. 7, a spring plate 53 having a U-shaped cross section is arranged in a groove of the U-shaped seal ring 52, and the V-shaped cloth clamping seal ring 51 is arranged on one side of an opening of the U-shaped seal ring 52. V type presss from both sides cloth sealing washer 51 and is used for striking off the powder, makes the powder get into the sealed volume of main part and descends greatly, and U type sealing washer 52 is sealed for the main part, compensates through spring leaf 53 and seals, does U type sealing washer 52 provides reasonable resilience force, U type sealing washer 52 outward appearance covers self-lubricating wear-resistant material, both can reach good sealed effect, can effectively increase sealed life again. The V-shaped cloth-sandwiched seal ring 51 is provided on the plunger cylinder 30 on the side close to the powder outlet 32.
Taking one of the plunger cylinders 30 as an example to illustrate the powder conveying process of the rotary powder pressurized conveying device of the present invention, the powder is sucked into the plunger cylinder 30 from the normal pressure feed inlet 31, at this time, the powder inlet 21 of the rotary drum 20 does not enter the partition area 41 where the plunger cylinder 30 is located, and after the material is added, the plunger cylinder 30 and the partition area 41 where the plunger cylinder 30 is located are at normal pressure. After charging, the cylindrical piston 33 is driven by the hydraulic cylinder 331 to move in a direction close to the powder outlet 32, the normal pressure feed port 31 is closed, then the pulverized coal inlet 21 on the rotary drum 20 enters the partition area 41 where the plunger cylinder 30 is located during the rotation of the rotary drum 20, the inside of the rotary drum 20 is communicated with the high pressure bin through the high pressure discharge port 22, the inside of the partition area 41 where the plunger cylinder 30 is located starts to be pressurized, the inside of the plunger cylinder 30 also starts to be pressurized, as the rotary drum 20 continues to rotate, the powder inlet 21 on the rotary drum 20 is intersected with and communicated with the powder outlet 32 on the plunger cylinder 30, so that the powder feeding channel is opened, the cylindrical piston 33 in the plunger cylinder 30 continues to move in a direction close to the powder outlet 32 until the end of the cylindrical piston 33 reaches the powder outlet 32, the powder is pushed out of the plunger cylinder 30 from the powder outlet 32 and enters the rotary drum 20 through the powder inlet 21, and the powder entering the rotary drum 20 finally enters a high-pressure silo through the high-pressure discharge hole 22. When the rotating cylinder 20 continues to rotate until the powder inlet 21 on the rotating cylinder 20 does not intersect with the powder outlet 32 on the plunger cylinder 30, the plunger cylinder 30 completes one charge. At this time, the cylindrical piston 33 in the plunger cylinder 30 remains stationary, the rotary drum 20 continues to rotate until the partition 41 where the plunger cylinder 30 is located is rotated out, the rotary drum enters the next partition, the partition 41 where the plunger cylinder 30 is located and the high pressure in the rotary drum 20 are cut off, the partition 41 where the plunger cylinder 30 is located is at a high pressure but has a small volume, then the cylindrical piston 33 in the plunger cylinder 30 moves in a direction away from the powder outlet 32, so that a negative pressure is formed in the plunger cylinder 30, after the cylindrical piston 33 is reset, the normal pressure feed port 31 is opened, and since the inside of the plunger cylinder 30 is at the negative pressure at this time, powder is sucked into the plunger cylinder 30 to realize recharging and wait for the next powder inlet 21 to enter the partition where the plunger cylinder 30 is located, so as to carry out the next powder conveying. The powder is transferred from normal pressure to high pressure by the cooperation of the operation of the rotary cylinder 20 and the plunger cylinder 30. The plurality of plunger cylinders 30 are sequentially circulated to convey the powder, so that the powder can be continuously conveyed.
As described above, exemplary embodiments of the present invention are described in detail with reference to the accompanying drawings. It should be understood that the invention is not intended to be limited to the details shown. Equivalent or similar changes in the structure and features of the exemplary embodiments may be made without departing from the spirit and scope of the invention, which shall also fall within the scope of protection defined by the claims appended hereto.

Claims (6)

1. A rotary powder pressurizing and conveying device is characterized by comprising a fixed cylinder, a rotary cylinder and a plurality of plunger cylinders,
the plunger type cylinder is provided with a normal-pressure feeding hole and a powder outlet, a cylindrical piston and a hydraulic cylinder for driving the cylindrical piston to move in the plunger type cylinder are arranged in the plunger type cylinder, and the powder outlet is fixed on the fixed cylinder;
the fixed cylinder is sleeved on the rotating cylinder, the rotating cylinder can rotate relative to the fixed cylinder, and a motor for driving the rotating cylinder to rotate is arranged on the fixed cylinder;
the rotary cylinder is provided with a powder inlet and a high-pressure discharge hole, and when the rotary cylinder rotates relative to the fixed cylinder, the powder inlet can be communicated with the powder outlet.
2. The rotary powder pressurized transport device according to claim 1, wherein the plurality of plunger cylinders are arranged uniformly in the circumferential direction of the fixed cylinder.
3. The rotary powder pressurized conveying device according to claim 1, wherein a sealing strip is provided between the fixed cylinder and the rotary cylinder, the sealing strip is provided on an inner surface of the fixed cylinder, the sealing strip divides the inner surface of the fixed cylinder into a plurality of mutually independent divided regions, and one plunger cylinder is provided in each divided region.
4. The rotary powder pressurized conveying device according to claim 3, wherein a plurality of adjusting bolts are arranged on the fixed cylinder, a spring is arranged between each adjusting bolt and the corresponding sealing strip, and each adjusting bolt is in threaded connection with the corresponding fixed cylinder.
5. The rotary powder pressurized transport device according to claim 1, wherein the number of the plunger cylinders is six, and six plunger cylinders are provided in two stages in the axial direction of the fixed cylinder.
6. The rotary powder pressurized conveying device according to claim 1, wherein a combined seal ring is provided between the cylindrical piston and the plunger cylinder, the combined seal ring includes a V-shaped cloth-sandwiched seal ring and a U-shaped seal ring, a spring piece having a U-shaped cross-sectional shape is provided in a groove of the U-shaped seal ring, and the V-shaped cloth-sandwiched seal ring is provided on an opening side of the U-shaped seal ring.
CN201920241050.7U 2019-02-26 2019-02-26 Rotary powder pressurizing and conveying device Active CN209853318U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920241050.7U CN209853318U (en) 2019-02-26 2019-02-26 Rotary powder pressurizing and conveying device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920241050.7U CN209853318U (en) 2019-02-26 2019-02-26 Rotary powder pressurizing and conveying device

Publications (1)

Publication Number Publication Date
CN209853318U true CN209853318U (en) 2019-12-27

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CN201920241050.7U Active CN209853318U (en) 2019-02-26 2019-02-26 Rotary powder pressurizing and conveying device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111606053A (en) * 2019-02-26 2020-09-01 航天长征化学工程股份有限公司 Rotary powder pressurizing and conveying device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111606053A (en) * 2019-02-26 2020-09-01 航天长征化学工程股份有限公司 Rotary powder pressurizing and conveying device

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