CN102897446B - Anti-blocking powder conveying equipment with spraying devices - Google Patents

Abstract

Power conveying equipment comprises at least one tapered hopper, each tapered hopper comprises an upper feed section and a lower discharge section, each lower discharge section is provided with each spraying device and a blade, each blade is arranged below the corresponding spraying device, a nozzle of each spraying device sprays gas towards the inner wall of each lower discharge section, and each blade is connected with a rotating shaft and rotates through the same. The equipment improves anti-blocking efficiency and reduces energy consumption.

Description

There is the anti-blocking powder load transfer device of spraying equipment

Technical field

The invention belongs to powder transportation art, be specifically related to a kind of powder load transfer device with choke preventing function, particularly a kind of powder load transfer device when carrying along gravitational field with choke preventing function.

Background technology

At present, in chemical industry, field of boilers, powder conveying is very general process, and wherein the vertical transport of powder is modal process.In general, along the powder of gravitational field, carries in order to save energy, be all dependence gravity carry out powder freely decline carry.Powder load transfer device along gravitational field comprises at least one broach hopper, and this broach hopper comprises top material loading section and bottom blanking section.Although the outlet size of blanking section, much larger than the particle diameter of powder, still likely forms and builds bridge when the discharge downwards of powder material entirety.This obstruction can cause the fault of load transfer device, and then has influence on the fault of whole system.The major cause resulting in blockage is such as having friction force between powder and equipment inner wall, has friction force etc. between powder.In order to prevent latch up phenomenon, corresponding anti-block apparatus must be set in load transfer device.

For many years, in order to solve blockage problem, developed vibration or beaten the methods such as inwall, rotation scraping inwall, gas injection inwall.200810140442.0 proposed the equipment of rotary conic hopper stationary blade, 201020262144.1 proposed the equipment of the fixing broach hopper of rotating blade, although these two kinds of equipment can reach the effect that prevents obstruction, but it is all higher that it prevents stopping up the energy consumption needing, still need a kind of powder load transfer device that prevents efficiently obstruction.

Summary of the invention

Blockage problem while carrying in order to solve powder material, the design people provides a kind of powder load transfer device and method with choke preventing function.

Powder load transfer device proposed by the invention, it comprises at least one broach hopper, this broach hopper comprises top material loading section and bottom blanking section, in bottom, blanking section has spraying equipment and blade, wherein spraying equipment is below blade, the nozzle of spraying equipment is subordinate's section of expecting inwall jet gas down, and blade is connected with S. A., by S. A., rotates.

Wherein, spraying equipment is connected with S. A., and S. A. is hollow, for spraying equipment provides jet gas.

Wherein, upwards jet gas of the nozzle of spraying equipment, nozzle and horizontal sextant angle 15-50 °, preferably 35 °.

Wherein, blade has the nozzle of subordinate's section of expecting inwall jet gas down.

Wherein, the nozzle Jet with downward flow direction gas on blade.

Wherein, blade plan form can be in the shape of a spiral, straight tabular or swash plate shape.

Wherein, at the outlet section of bottom blanking section, there is flow measurement.

The flow measuring when flow measurement drops to when a certain amount of, starts anti-blocking equipment, can only start spraying equipment, only start blade, also can start spraying equipment and blade simultaneously; When starting blade, the nozzle that can start blade also can not start the nozzle of blade.

The condition of startup is set according to the character of powder material, in general when flow drops to the 80%-40% of normal discharge, starts anti-blocking equipment, reduction energy consumption that can maximal efficiency.For power plant boiler fine coal, carry, in general when flow, drop to 70% time startup of normal discharge; And for the fly ash carry of flying dust treating system, in general when flow drop to normal discharge 50% time start.

This equipment is by two kinds of anti-block apparatus of nozzle and blade are set simultaneously, according to actual conditions select to start the two one of or start simultaneously, improved anti-blocking efficiency, reduced energy consumption.By discharge measurement, judge stopping state, select start anti-block apparatus suitable opportunity, improved anti-blocking efficiency, reduced energy consumption.The spray angle of adjusting spraying equipment nozzle, has improved anti-blocking efficiency, has reduced energy consumption.Nozzle is set on blade, in rotation, sprays, improved anti-blocking efficiency, reduced energy consumption.

Accompanying drawing explanation

Fig. 1 represents the structural representation of this equipment.

The specific embodiment

This equipment is referring to Fig. 1.Its structure comprises: at least one broach hopper, this broach hopper comprises top material loading section 1 and bottom blanking section 2, in bottom blanking section 2, there is spraying equipment 5 and blade 4, wherein spraying equipment 5 is below blade 4, the nozzle of spraying equipment 5 is subordinate's section of expecting inwall jet gas down, blade 4 is connected with S. A. 3, by S. A., rotates.Spraying equipment 5 is connected with S. A. 3, and S. A. 3 is hollow, for spraying equipment provides jet gas.Upwards jet gas of the nozzle of spraying equipment.Blade has the nozzle of subordinate's section of expecting inwall jet gas down.Nozzle Jet with downward flow direction gas on blade.Outlet section in bottom blanking section has flow measurement 6, and blade plan form is swash plate shape.

When conveying powder material, flow measurement 6 measuring flows change, and when flow drops to when a certain amount of, start anti-block apparatus, can only start spraying equipment 5, only start blade 4, also can start spraying equipment 5 and blade 4 simultaneously; When starting blade 4, the nozzle that can start blade 4 also can not start the nozzle of blade 4, thereby prevents that efficiently powder material from stopping up.

Comparative example 1:

Structure and this equipment are similar, just there is no spraying equipment 5, take fine coal as example, when flow drop to normal discharge 70% time start blade (not starting the nozzle of blade), measuring flow returns to 95% energy consumption of normal discharge.

Comparative example 2:

Structure is identical with comparative example 1, take fine coal as example, when flow drop to normal discharge 70% time start blade and (start the nozzle of blade, the nozzle Jet with downward flow direction gas on blade simultaneously, 75 ° of nozzle and horizontal sextant angles), measuring flow returns to 95% energy consumption of normal discharge.

Comparative example 3:

Structure and this equipment are similar, just there is no blade 4, upwards jet gas of the nozzle of spraying equipment, 35 ° of nozzle and horizontal sextant angles, take fine coal as example, when flow drop to normal discharge 70% time start spraying equipment 5, measuring flow returns to 95% energy consumption of normal discharge.

Embodiment 1:

Take fine coal as example, when flow drop to normal discharge 70% time start spraying equipment 5 and blade 4 (not starting the nozzle of blade), upwards jet gas of the nozzle of spraying equipment, 35 ° of nozzle and horizontal sextant angles, measuring flow returns to 95% energy consumption of normal discharge.

Embodiment 2:

Take fine coal as example, when flow drop to normal discharge 70% time start spraying equipment 5 and blade 4 (starts the nozzle of blade simultaneously, nozzle Jet with downward flow direction gas on blade, 75 ° of nozzle and horizontal sextant angles), upwards jet gas of the nozzle of spraying equipment, 35 ° of nozzle and horizontal sextant angles, measuring flow returns to 95% energy consumption of normal discharge.

Take the energy consumption of comparative example 1 as 1, calculate the energy consumption of other comparative example and embodiment, in Table 1.

	Comparative example 1	Comparative example 2	Comparative example 3	Embodiment 1	Embodiment 2
						Energy consumption	100％	95％	120％	85％	80％

As can be seen from the table, there is blade and spraying equipment simultaneously can reduce anti-blocking energy consumption.

Embodiment 3:

Take fine coal as example, when flow drop to normal discharge 70% time start spraying equipment 5 and blade 4 (not starting the nozzle of blade), upwards jet gas of the nozzle of spraying equipment, 15,25,35,45,55 ° of nozzle and horizontal sextant angles.Measuring flow returns to 95% energy consumption of normal discharge.Take the energy consumption of 15 ° of angles as 1, calculate the energy consumption of other angle, in Table 2.

	15°	25°	35°	45°	55°
						Energy consumption	100％	95％	80％	90％	105％

As can be seen from the table, 35 ° have lowest energy consumption.

Embodiment 4:

Take fine coal as example, when flow drop to normal discharge 40%, 50%, 60%, 70%, 80% time start spraying equipment 5 and blade 4 (simultaneously starting the nozzle of blade), upwards jet gas of the nozzle of spraying equipment, 35 ° of nozzle and horizontal sextant angles, wherein, nozzle Jet with downward flow direction gas on blade, 75 ° of nozzle and horizontal sextant angles, flow return to normal discharge 95% time close spraying equipment 5 and blade 4 (simultaneously closing the nozzle of blade), calculate the energy consumption of carrying the anti-blocking equipment of 10kg material.Energy consumption take 40% is 1, calculates other energy consumption, in Table 3.

	40％	50％	60％	70％	80％
						Energy consumption	100％	100％	95％	90％	100％

As can be seen from the table, start and there is lowest energy consumption 70% time.

Embodiment 5:

Similar to Example 4, just change fine coal into flying dust, the results are shown in Table 4.

	40％	50％	60％	70％	80％
						Energy consumption	100％	90％	95％	100％	100％

As can be seen from the table, start and there is lowest energy consumption 50% time.

Claims (4)

1. a powder load transfer device, it comprises at least one broach hopper, this broach hopper comprises top material loading section and bottom blanking section, in bottom, blanking section has spraying equipment and blade, wherein spraying equipment is below blade, the nozzle of spraying equipment is subordinate's section of expecting inwall jet gas down, blade is connected with S. A., by S. A., rotate, upwards jet gas of the nozzle of spraying equipment, nozzle and horizontal sextant angle 15-50 °, its Leaf has the nozzle of subordinate's section of expecting inwall jet gas down, nozzle Jet with downward flow direction gas on its Leaf, wherein at the outlet section of bottom blanking section, there is flow measurement, spraying equipment is connected with S. A..

2. equipment as claimed in claim 1, wherein upwards jet gas of the nozzle of spraying equipment, 35 ° of nozzle and horizontal sextant angles.

3. equipment as claimed in claim 2, described S. A. is hollow, for spraying equipment provides jet gas.

4. the equipment as described in claim 1-3 any one, wherein blade plan form in the shape of a spiral, straight tabular or swash plate shape.

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