CN213529639U - Energy-saving efficient powder selecting and collecting system - Google Patents
Energy-saving efficient powder selecting and collecting system Download PDFInfo
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- CN213529639U CN213529639U CN202021828374.XU CN202021828374U CN213529639U CN 213529639 U CN213529639 U CN 213529639U CN 202021828374 U CN202021828374 U CN 202021828374U CN 213529639 U CN213529639 U CN 213529639U
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Abstract
The utility model discloses an energy-saving high-efficiency powder selecting and collecting system, wherein a powder selecting device comprises an energy-saving environment-friendly high-efficiency powder selecting machine, and a feed inlet and an air inlet at a high position and a low position are respectively communicated with a feed pipe and an air inlet pipe; the powder collecting device comprises an energy-saving cyclone dust collector and a pulse dust collector, wherein a feed inlet of the energy-saving cyclone dust collector is communicated with a qualified product outlet and an air outlet of the energy-saving environment-friendly high-efficiency powder concentrator through a powder outlet pipe, and is communicated with an air return pipe; the conveying device comprises a fan, a finished product hoister and a coarse powder hoister, an air outlet of the fan is communicated with an air inlet pipe, an air return pipe is communicated with an air inlet of the fan, a pulse pipe is communicated with the air inlet pipe, a feed inlet of the finished product hoister is communicated with a discharge hole of the energy-saving, environment-friendly and efficient powder concentrator through a feeding pipe I, and discharge holes of the pulse dust collector and the energy-saving cyclone dust collector are communicated with a feed inlet of the finished product hoister through a feeding pipe II and a feeding pipe III. The utility model discloses area is little, simple structure, practices thrift the cost, economic environmental protection.
Description
Technical Field
The utility model relates to a powder processing collecting system specifically is an energy-conserving high-efficient selection powder receives powder system.
Background
The existing general powder concentrator is configured as follows: the powder selecting machine is connected with a fan, 4-6 cyclone collectors are matched, qualified materials collected by the cyclone collectors enter a screw conveyer (or the height of the powder selecting machine is increased by 4-6 meters, and all cyclone finished powder is obliquely collected), and the cyclone finished powder is conveyed into a hoist by the screw conveyer to be delivered into a warehouse.
The powder selecting machine has the following disadvantages: high energy consumption, low efficiency, large machine body volume, high material cost, large occupied area, large foundation construction work amount, long installation period and inconvenient maintenance.
SUMMERY OF THE UTILITY MODEL
The not enough to prior art, the utility model aims to solve the technical problem that an energy-conserving high-efficient selection powder of energy saving and consumption reduction, raise the efficiency and output, satisfy the environmental protection requirement receives whitewashed system is proposed.
Can solve above-mentioned technical problem's energy-conserving high-efficient selection powder and receive powder system, its technical scheme includes the selection powder device, receives powder device and conveyor, and the institute is different:
1. the powder selecting device comprises an energy-saving environment-friendly high-efficiency powder selecting machine, wherein a high-position feed inlet and a low-position air inlet of the energy-saving environment-friendly high-efficiency powder selecting machine are respectively communicated with a feed pipe and an air inlet pipe.
2. The powder collecting device comprises an energy-saving cyclone dust collector and a pulse dust collector, a feed inlet of the energy-saving cyclone dust collector is communicated with a qualified product outlet of the energy-saving environment-friendly high-efficiency powder concentrator through a powder outlet pipe, an air return pipe is communicated with an air outlet of the energy-saving cyclone dust collector, a feed inlet of the pulse dust collector is communicated with a pulse pipe, and an air outlet of the pulse dust collector is communicated with the atmosphere.
3. The conveying device comprises a fan, a finished product hoister and a coarse powder hoister, an air outlet of the fan is communicated with an air inlet pipe, an air return pipe is communicated with an air inlet of the fan, a pulse pipe is communicated with the air inlet pipe, a feed inlet of the finished product hoister is communicated with a discharge hole of the energy-saving environment-friendly high-efficiency powder concentrator through a discharge pipe I, and discharge holes of the pulse dust collector and the energy-saving cyclone dust collector are communicated with a feed inlet of the finished product hoister through a discharge pipe II and a discharge pipe III respectively.
Conventionally, the feed pipe communicates with the raw material bin.
Conventionally, a finished product warehouse is arranged corresponding to a discharge port of a finished product hoister.
Conventionally, a coarse powder warehouse is arranged corresponding to a discharge port of a coarse powder lifter.
In order to avoid resonance and reduce system vibration, the energy-saving, environment-friendly and high-efficiency powder concentrator, the fan, the energy-saving cyclone dust collector and the pulse dust collector are all erected on respective and independently arranged racks.
The utility model has the advantages that:
the utility model discloses energy-conserving high-efficient selection powder is received powder system and is accounted for compact structure, and the floor area is little, practices thrift the cost, economic environmental protection.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
And (3) identifying the figure number: 1. an energy-saving, environment-friendly and high-efficiency powder concentrator; 2. an energy-saving cyclone dust collector; 3. a pulse dust collector; 4. a fan; 5. a finished product hoister; 6. a coarse powder elevator; 7. a feed pipe; 8. an air inlet pipe; 9. a powder outlet pipe; 10. a pulse tube; 11. a raw material bin; 12. a finished product warehouse; 13. and (4) a coarse powder storage.
Detailed Description
The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.
The utility model discloses energy-conserving high-efficient selection powder receives powder system, including former feed bin 11, energy-conserving environmental protection high-efficient selection powder machine 1, energy-conserving cyclone 2, pulse dust collector 3, fan 4, finished product lifting machine 5, finished product storehouse 12, middlings lifting machine 6 and middlings storehouse 13, former feed bin 11 and energy-conserving environmental protection high-efficient selection powder machine 1 constitute the selection powder device of system, energy-conserving cyclone 2 and pulse dust collector 3 constitute the receipts powder device of system, fan 4, finished product lifting machine 5, finished product storehouse 12, middlings lifting machine 6 and middlings storehouse 13 constitute the conveyor of system, as shown in figure 1.
The coarse powder lifting machine 6 and the finished product lifting machine 5 are arranged in a left foundation pit and a right foundation pit of a foundation according to left and right positions, the energy-saving environment-friendly high-efficiency powder selecting machine 1, the raw material bin 11, the energy-saving cyclone dust collector 2, the pulse dust collector 3 and the fan 4 are erected on the foundation between the coarse powder lifting machine 6 and the finished product lifting machine 5 through respective arranged racks, the energy-saving environment-friendly high-efficiency powder selecting machine 1 is arranged close to the coarse powder lifting machine 6, the energy-saving cyclone dust collector 2 is arranged close to the finished product lifting machine 5, the raw material bin 11 is arranged above the energy-saving environment-friendly high-efficiency powder selecting machine 1, the pulse dust collector 3 is arranged above the energy-saving cyclone dust collector 2, a finished product bin 12 erected on the foundation is arranged at a discharge port corresponding to the top of the finished product.
The energy-saving environment-friendly high-efficiency powder concentrator is characterized in that a feed inlet and an air inlet are arranged at the upper and lower positions in the middle of a machine body of the energy-saving environment-friendly high-efficiency powder concentrator 1, the top of the machine body is an outlet of qualified powder (fine powder), the bottom of the machine body is an outlet of unqualified powder (coarse powder), the feed inlet of the energy-saving environment-friendly high-efficiency powder concentrator 1 is communicated with a discharge outlet of a raw material bin 11 through a feed pipe 7, the air inlet of the energy-saving environment-friendly high-efficiency powder concentrator 1 is communicated with an air outlet of a fan 4 through an air inlet pipe 8, the qualified powder outlet of the energy-saving environment-friendly high-efficiency powder concentrator 1 is communicated with a feed inlet at the top of an energy-saving cyclone dust collector 2 through a powder outlet pipe 9, the discharge outlet of the energy-saving environment-friendly high-, an air outlet in the upper part of the pulse dust collector 3 is communicated with the atmosphere, a discharge hole in the bottom of the pulse dust collector 3 is communicated with a feed inlet in the bottom of the finished product hoister 5 through a discharge pipe II, and a discharge hole in the bottom of the energy-saving cyclone dust collector 2 is communicated with a feed inlet in the bottom of the finished product hoister 5 through a discharge pipe III, as shown in figure 1.
The utility model discloses an operation mode does:
1. the material is discharged from a raw material bin 11 into an energy-saving environment-friendly high-efficiency powder selecting machine 1 through a feeding pipe 7, calcium hydroxide materials are blown away and raised by airflow entering the energy-saving environment-friendly high-efficiency powder selecting machine 1 through an air inlet pipe 8, sorted qualified powder (fine powder) enters an energy-saving cyclone dust collector 2 through a powder outlet pipe 9 to be collected, unsorted unqualified powder (coarse powder) falls down and enters a coarse powder elevator 6 through a discharging pipe I, and the unqualified powder (coarse powder) is gathered in a coarse powder bin 13 by the coarse powder elevator 6.
2. The air flow passing through the air return pipe circulating flow air return fan 4 mostly enters the energy-saving environment-friendly high-efficiency powder concentrator 1 again, and the small air flow enters the pulse dust collector 3 through the pulse pipe 10 for treatment and then is discharged into the atmosphere.
3. Qualified powder (fine powder) collected by the pulse dust collector 3 enters the finished product elevator 5 through the discharging pipe II at the bottom discharging port, qualified powder (fine powder) collected by the energy-saving cyclone dust collector 2 enters the finished product elevator 5 through the discharging pipe III at the bottom discharging port, and the qualified powder (fine powder) is gathered in the finished product warehouse 12 by the finished product elevator 5.
The utility model has the advantages that:
1. the utility model discloses a feeding mode is different from traditional selection powder machine and adopts the roof feeding, but sets up the feed inlet at the fuselage middle part, has reduced the feeding height, consequently also reduces thereupon to the height of the material loading lifting machine of 11 pay-offs in former feed bin, has reduced the required power of material loading lifting machine.
2. The utility model discloses in the structure, energy-concerving and environment-protective high-efficient selection powder machine 1 top is connected with energy-conserving cyclone 2 through one return bend (go out powder pipe 9), and energy-conserving cyclone 2 lower parts are put to one side has the muffler and links to each other with fan 4 through a corner pipe, have simplified the pipeline structure, have kept the wind speed simultaneously, and the powder has had enough centrifugal force, is convenient for collect, has improved efficiency, has practiced thrift the preparation material, has reduced the energy consumption.
3. The utility model discloses in the structure, connect air-supply line 8 and pulse dust remover 3 with pulse tube 10 in order to solve the pressure-fired problem.
4. The utility model discloses in, the specification of the pulse dust collector 3 of adoption is 24 sack, 0.55kw motor, and the specification of the pulse dust collector 3 that equal large-scale output adopted on the market is 64 sacks, 5.5kw motor, and is obvious, the utility model discloses a pulse dust collector 3 greatly reduced the energy consumption.
5. The utility model discloses in the structure, the mounting height of energy-concerving and environment-protective high-efficient selection powder machine 1 selects the powder machine to reduce to some extent than tradition, and energy-concerving and environment-protective high-efficient selection powder machine 1's organism volume selects the powder machine to reduce to some extent than tradition, has practiced thrift the factory building space, has practiced thrift the material, the cost is reduced.
6. The utility model discloses in the structure, qualified powder (farine) that energy-conserving cyclone 2 and pulse dust collector 3 collected can directly get into finished product lifting machine 5 at the discharge gate, need not to send into finished product lifting machine 5 through screw conveyer, has reduced the application of attached transmission equipment, has practiced thrift the cost.
In the utility model, the energy-saving, environment-friendly and high-efficiency powder concentrator 1 is a product (application number 201911376383.1) patented by the unit; the energy-saving cyclone dust collector 2 is a product which is patented by my unit (with the application number of 201911379525. X).
Claims (5)
1. Energy-conserving high-efficient selection powder is received powder system, including selection powder device, receive powder device and conveyor, its characterized in that:
the powder selecting device comprises an energy-saving environment-friendly high-efficiency powder selecting machine (1), wherein a high-position feed inlet and a low-position air inlet of the energy-saving environment-friendly high-efficiency powder selecting machine (1) are respectively communicated with a feed pipe (7) and an air inlet pipe (8);
the powder collecting device comprises an energy-saving cyclone dust collector (2) and a pulse dust collector (3), a feed inlet of the energy-saving cyclone dust collector (2) is communicated with a qualified product outlet of the energy-saving environment-friendly high-efficiency powder concentrator (1) through a powder outlet pipe (9), an air return pipe is communicated with an air outlet of the energy-saving cyclone dust collector (2), a feed inlet of the pulse dust collector (3) is communicated with a pulse pipe (10), and an air outlet of the pulse dust collector (3) is communicated with the atmosphere;
conveyor includes fan (4), finished product lifting machine (5) and middlings lifting machine (6), the air exit intercommunication air-supply line (8) of fan (4), the air intake of muffler intercommunication fan (4), pulse tube (10) intercommunication air-supply line (8), the discharge gate of energy-concerving and environment-protective high-efficient selection powder machine (1) is passed through to the feed inlet of finished product lifting machine (5) unloading pipe I intercommunication, the discharge gate of pulse dust collector (3) and energy-conserving cyclone (2) is respectively through the feed inlet of unloading pipe II and unloading pipe III intercommunication finished product lifting machine (5).
2. The energy-saving efficient powder selecting and collecting system according to claim 1, characterized in that: the feeding pipe (7) is communicated with the raw material bin (11).
3. The energy-saving efficient powder selecting and collecting system according to claim 1, characterized in that: a finished product warehouse (12) is arranged corresponding to the discharge hole of the finished product hoister (5).
4. The energy-saving efficient powder selecting and collecting system according to claim 1, characterized in that: a coarse powder storehouse (13) is arranged corresponding to the discharge hole of the coarse powder lifter (6).
5. The energy-saving efficient powder selecting and collecting system according to any one of claims 1 to 4, characterized in that: the energy-saving environment-friendly high-efficiency powder concentrator (1), the fan (4), the energy-saving cyclone dust collector (2) and the pulse dust collector (3) are all erected on respective independently arranged racks.
Priority Applications (1)
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CN202021828374.XU CN213529639U (en) | 2020-08-27 | 2020-08-27 | Energy-saving efficient powder selecting and collecting system |
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CN202021828374.XU CN213529639U (en) | 2020-08-27 | 2020-08-27 | Energy-saving efficient powder selecting and collecting system |
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CN213529639U true CN213529639U (en) | 2021-06-25 |
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CN202021828374.XU Active CN213529639U (en) | 2020-08-27 | 2020-08-27 | Energy-saving efficient powder selecting and collecting system |
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