RU79401U1 - DUST CLEANER - Google Patents

Abstract

The utility model can be used in centralized dust-cleaning and dust-cleaning systems in the production rooms (workshops) of industrial enterprises in various industries. SUBSTANCE: installation for dust cleaning contains a set of dust nozzles with a handle and flexible hoses, nodes for connecting them to the pipe outlets, a piping system, a dust collector, a filter and a traction inducer installed before the cleaned air is emitted into the atmosphere or ventilation system, as well as an inertial air flow regulator made in the form of a fan wheel and placed in front of the dust collector, while the gravitational dust precipitation chamber is used as the latter. The use of a utility model makes it possible to increase the efficiency of dust extraction and dust collection processes with a wide range of input technological parameters. 1 n.p. formulas, 1 ill.

Description

The utility model relates to techniques for dust cleaning and dust cleaning and can be used in centralized vacuum systems for dust cleaning and its cleaning in the production rooms (workshops) of industrial enterprises in various industries.

In the workshops of many industrial enterprises, due to spills of bulk materials, during transportation and due to the deposition of dust from the air, there is an increased dust accumulation on the surface of structures, technological equipment, ducts, on the floor, etc.

General ventilation systems and local exhausts provide only partial removal of suspended dust fractions.

At present, in workshops, unproductive and hygienically inefficient manual cleaning is often used.

The dust problem can be solved by using, along with aspiration and general ventilation systems, also mobile and stationary centralized vacuum systems.

Mobile systems due to the high level of sound pressure, bulkiness, lack of efficiency, the inability to collect dust in hard to reach places are not widespread.

Stationary systems are characterized by high dust collection efficiency, unlimited dust collection, mechanized dust transportation, relatively low energy consumption and are mainly used in industrial enterprises, where the emitted dust does not allow humidification, where wet cleaning is prohibited by the technology, and also at negative air temperatures in the room.

At various periods of operation, various quantities of air and dust pass through the installation as a whole and through its individual sections. It's connected

so that at the entrance to the installation, the total number of operating points for dust intake changes all the time, respectively, the load with which the dust collectors work, as well as the inlet air velocity and the quality of cleaning, change.

This mode of operation of the dust-collecting plant complicates its operation, and during design it is very difficult to calculate the optimal conditions for their operation.

A known installation for cleaning dust in industrial premises, mainly using a centralized vacuum system, containing a set of dust nozzles with handles and flexible hoses, nodes for connecting them to the pipe bends, dry dust collector and traction inducer [Baltrenas PB Dust removal of air at building materials enterprises. - M .: Stroyizdat, 1990 .-- p. 144-145]. A cyclone is used as a dry dust collector in the first stage, and a vacuum filter in the second stage.

This installation is typical in the sense that it contains practically the most used equipment and is used at various enterprises with minor differences. It does not contain means of automatic regulation to reduce the negative impact of changes over a wide range of parameters of the dusty air mixture at the inlet of the installation and the operation of dust collecting equipment.

A known installation for cleaning dust in industrial premises, mainly using a centralized vacuum system, containing a set of dust nozzles with handles and flexible hoses, nodes for connecting them to the pipe bends, piping system, dry and wet dust collectors and traction inducer [Donat E.V. Pneumatic dusting in the shops of industrial enterprises. - M.: Profizdat, 1961.- c. 53-54, 128-130].

When using a wet dust collector in the second stage of air purification, a significant vacuum inside the dust collector makes continuous

removal of water contaminated with dust from it. Typically, this water is discharged into a special sealed hopper, the capacity of which is calculated for the entire duration of the continuous operation of the installation.

If the wet dust collector is located at an altitude of 8-10 m, then the water contaminated with dust can be discharged continuously through a vertical pipe into an open sump. At the same time, a column of water rises into a vertical pipe with a height of at least 7-8 m during operation of the installation due to vacuum, which prevents leakage.

Wet dust collectors along with equipment for clarification and removal of sludge are much more difficult to manufacture and maintain than, for example, bag filters.

But their use is justified in cases where sludge can be sent to technological equipment, to ash removal systems, etc. This greatly simplifies their operation.

But in this design, the installation also does not have the means to automatically control the operation of dust collecting equipment depending on changes in the input parameters of the dust-air mixture.

Known self-adjusting pneumatic conveying system containing suction, manifold, piping, fan and cyclone (or battery of cyclones), as well as means to achieve self-regulation of the system in the form of check valves, automatic and safety valves and signaling device [V.A. Larionov. Self-adjusting pneumatic conveying systems. - M.: TSNIITEIlesprom, p. 4-7].

The collector may take the form of a large section pipe either in the form of a “saw” made of large diameter pipes mounted at an angle to each other, or in the form of containers.

This system reduces air consumption, as well as the consumption of electricity and heat.

But this system requires capital expenditures for the installation of funds to achieve its self-regulation and maintain them in working condition during operation.

The problem the utility model aims to solve is to increase the efficiency of dust extraction and dust collection with a wide change in the input technological parameters, achieved by stabilizing the parameters of these processes by maintaining the required air velocity at the inlet to the intake device.

This problem is solved in that in the installation for dust cleaning, containing a set of dust nozzles with a handle and flexible hoses, the nodes of their connection to the pipe bends, a piping system, a dust collector, a filter and a traction stimulator installed before the purified air is released into the atmosphere or ventilation system, additionally contains an inertial air flow regulator, made in the form of a fan wheel and placed in front of the dust collector, while the gravitational dust precipitation is used as the latter flax camera.

The presence of an additional inertial air flow regulator provides the conditions for introducing the operation of the installation into self-regulation mode when changing the input parameters of the dusty air flow.

The implementation of this controller in the form of a fan wheel without an external drive allows the use of standard fans without changing their design.

Placing an inertial controller in front of the dust collector allows you to maintain the optimal mode of operation of the dry dust collection system.

The use of a gravity dust collection chamber as a dust collector allows, with a change in air flow rate in the piping system in the range from several hundred m ³ / h to several thousand m ³ / h, to ensure practically unchanged stable dust collection efficiency, while, for example, a centrifugal dry dust collector

(cyclone) is very sensitive to this air flow, since it requires a certain input speed.

In this case, the gravitational dust collector should be calculated from the condition of maintaining such a speed of air in it, at which dust deposition would be ensured.

The utility model is illustrated in the drawing, which invented the installation for dust collection.

The dust cleaning installation contains a set of dust nozzles 1, each of which is equipped with a handle 2 and flexible hoses 3, nodes for connecting them to the pipe bends, including fittings 4 and plugs (not shown in Fig.), Pipe bends 5 in the form of vertical pipelines, piping system 6, the main pipeline 7, the inertial air flow regulator 8 in the form of a fan wheel, a dry dust collector 9 in the form of a gravitational dust precipitation chamber, a filter 10 and a traction stimulator 11.

There can be several dust nozzles: for cleaning dust from the floor, from the surface of equipment, from walls and ceilings, for cleaning spills, and together they make up the kit.

Installation for cleaning dust works as follows.

After bringing the installation into working condition using means of shutoff valves, the tips of the flexible hoses 3 are inserted into the open holes of the fittings 4 and the dust removal is started using the dust extraction nozzle 1.

After removing dust from the entire site served by a particular nozzle, the sleeve 3 with the dust nozzle is disconnected, and the opening of the nozzle 4 is closed with a valve. Then the sleeve is connected to the next fitting and the cleaning cycle continues again.

Dust collection is carried out in two stages. First, the largest particles are emitted from the air in a dry dust collector 9, and then the smallest

- in the filter located behind it 10. The cleaned air through the traction stimulator 11 is discharged into the atmosphere or into the ventilation system.

When changing the technological parameters of the dust collection caused by the state of the dust, the method and speed of absorption, the number of working dust nozzles and the corresponding change in the parameters of the dust-air flow, the installation is brought to conditions that ensure stable dust collection efficiency, as follows.

The air entering the purification has unstable characteristics in terms of its quantity, the concentration of dust in it and the dispersed composition. The work of the traction stimulator is carried out in a constant mode.

Atmospheric pressure is a constant value, and a varying parameter in the installation is the discharge in the system, while it is necessary to maintain the value of the air flow rate at the inlet to the nozzles within acceptable values, since with an increase in this speed it is possible to suck in impurities (bolts, nuts, scrap and etc.), clogging the pipelines, and when reduced, dust of various dispersion will not be sucked out.

The minimum vacuum at which efficient dust extraction is possible corresponds to about 0.15-0.2 atm, which corresponds to an air flow velocity at the nozzle inlet of 25-35 m / s, which allows dust particles up to 3 mm in size to be sucked in.

If an increase in the air flow velocity at the entrance to the gap begins due to an increase in vacuum in the piping system, the inertial controller becomes a kind of resistance for it. In this case, the energy of the air flow is spent on unwinding this regulator and it enters the mode of controlling the technological parameters of the dusty air mixture.

When connecting more than one nozzle, the vacuum decreases in the system, the speed decreases when the nozzle enters the slot, while the inertial controller “delays” the air flow and does not give a pressure drop

in the piping system, which ensures optimal air flow rate at the inlet to the intake device.

Thus, the inertial air flow regulator functions as a natural damper, which ensures the optimal dust-air flow rate at the entrance to the slit of the intake device.

Using the utility model allows to improve sanitary and hygienic conditions at enterprises, reduce environmental pollution and reduce costs for means of automatic regulation of dust collection and dust collection processes.

Claims (1)

A dust cleaning installation comprising a set of dust nozzles with a handle and flexible hoses, nodes for connecting them to the pipe outlets, a piping system, a dust collector, a filter and a traction inducer installed before the cleaned air is released into the atmosphere or ventilation system, characterized in that it further comprises an inertial air flow regulator made in the form of a fan wheel and placed in front of the dust collector, while the gravitational dust precipitation is used as the latter th camera.