CN209875380U - Energy compensation device of dust remover - Google Patents

Abstract

The utility model discloses a dust remover energy compensation device, which comprises a wind driven generator arranged in a dust remover chimney, an electronic control device connected with a dust remover power circuit in parallel, and a power supply circuit of the wind driven generator; the utility model relates to a dust remover energy compensation device, which utilizes the wind power of a dust removal system to generate electricity by a wind power generator and then supplements the electric energy consumption of the dust removal system, thus greatly reducing the use cost of the dust removal system; meanwhile, an electronic element integrating the negative temperature coefficient thermistor and the air circuit breaker is connected in parallel in the circuit, when the temperature of the generator rises gradually, the resistance value of the thermistor of the negative temperature coefficient thermistor is reduced gradually, the current in the circuit is increased gradually, and the air circuit breaker can be automatically disconnected when the current in the circuit exceeds the rated current, so that the generator is prevented from being overheated.

Description

Energy compensation device of dust remover

Technical Field

The utility model belongs to the technical field of the dust shaker energy recycling device, concretely relates to dust shaker energy compensation arrangement.

Background

Along with the upgrading of industrial structure and the transformation of production mode, the resource utilization efficiency becomes one of the most important factors to be considered for the upgrading of factory production process. The fan power of a large dedusting fresh air system used in most factories is large, and the generated wind power is sufficient and stable, which is the ideal wind power condition for wind power generation. If the wind power generated by the fan of the dust removal system is used for generating power and then used for supplementing the power consumption of the dust removal system on the premise of not influencing the dust removal effect, the use cost of the dust removal system can be greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dust shaker energy compensation arrangement can utilize the dust pelletizing system complementary energy electricity generation and carry out electric power compensation to dust pelletizing system.

The utility model discloses the technical scheme who adopts is, a dust shaker energy compensation arrangement, including setting up the aerogenerator in the dust shaker chimney, aerogenerator passes through dc-to-ac converter and dust shaker power circuit and is connected, still includes the parallelly connected electronic control device with aerogenerator power circuit.

The utility model is also characterized in that,

the electronic control device comprises a negative temperature coefficient thermistor and an air circuit breaker which are connected in series.

A motor support is arranged on the inner wall of the dust remover chimney, and the wind driven generator is fixed on the motor support.

The wind driven generator is a horizontal shaft wind driven generator.

The utility model has the advantages that:

the utility model relates to a dust remover energy compensation device, on the premise of not influencing the dust removal effect, the wind power generated by the fan of the dust removal system is used for generating electricity, and then is used for supplementing the electric energy consumption of the dust removal system, thus greatly reducing the use cost of the dust removal system; meanwhile, an electronic element integrating the negative temperature coefficient thermistor and the air circuit breaker is connected in parallel in the circuit, when the temperature of the generator rises gradually, the resistance value of the thermistor of the negative temperature coefficient thermistor is reduced gradually, the current in the circuit is increased gradually, and the air circuit breaker can be automatically disconnected when the current in the circuit exceeds the rated current, so that the generator is prevented from being overheated.

Drawings

Fig. 1 is a circuit diagram of a dust collector energy compensation device of the present invention;

fig. 2 the utility model relates to a dust shaker energy compensation arrangement's schematic structure.

In the figure, 1, a wind driven generator, 2, an inverter, 3, a negative temperature coefficient thermistor, 4, an air circuit breaker and 5, a motor support.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The utility model relates to a dust shaker energy compensation arrangement, as shown in figure 1, figure 2, including setting up aerogenerator 1 in the dust shaker chimney, aerogenerator 1 passes through dc-to-ac converter 2 and dust shaker power circuit connection, still includes the parallelly connected electronic control device with aerogenerator 1 power circuit.

The electronic control device includes a negative temperature coefficient thermistor 3 and an air circuit breaker 4 connected in series with each other.

A motor support 5 is arranged on the inner wall of the dust remover chimney, and the wind driven generator 1 is fixed on the motor support 5.

The wind power generator 1 is a horizontal axis wind power generator.

The utility model relates to a dust shaker energy compensation arrangement is when using, and dust shaker inlet fan, clean room, dust shaker chimney link to each other through the pipeline of supplying air, and under inlet fan's effect, dusty air current is inhaled the clean room through the supply-air duct, and when dusty air current passed through the clean room, a large amount of dusts were held back in the clean room, and then reached dust removal effect. The purified air flow enters a dust remover chimney through an air supply pipeline, and drives blades of the wind driven generator to rotate when flowing through the dust remover chimney, so that the wind driven generator generates alternating current and is converted into 220v standard alternating current through a converter arranged in the chimney, and the alternating current flows into a power grid and supplements the electric energy consumption required by a dust removal system. The electronic control device is an electronic component which is connected in parallel with a power circuit of the generator and integrates a negative temperature coefficient thermistor 3 and an air circuit breaker 4, when the temperature of the generator gradually rises, the resistance value of the thermistor of the negative temperature coefficient thermistor 3 gradually decreases, the current in the circuit gradually increases, and when the current in the circuit exceeds the rated current, the air circuit breaker 4 can be automatically disconnected, so that the overheating of the generator is prevented.

In this way, the utility model relates to a dust shaker energy compensation arrangement utilizes aerogenerator to be used for the electricity generation with dust pelletizing system's wind-force, and the reuse supplements dust pelletizing system's power consumption, but greatly reduced dust pelletizing system's use cost.

Claims (4)

1. The energy compensation device for the dust remover is characterized by comprising a wind driven generator (1) arranged in a dust remover chimney, wherein the wind driven generator (1) is connected with a dust remover power circuit through an inverter (2), and the energy compensation device further comprises an electronic control device connected with the wind driven generator (1) power circuit in parallel.

2. A dust collector energy compensation arrangement according to claim 1, wherein the electronic control means comprises a ntc thermistor (3) and an air circuit breaker (4) connected in series.

3. The energy compensation device for the dust remover according to claim 1, wherein a motor support (5) is arranged on the inner wall of the dust remover chimney, and the wind driven generator (1) is fixed on the motor support (5).

4. A dust collector energy compensating device according to claim 1, characterized in that the wind power generator (1) is a horizontal axis wind power generator.