CN204294506U - Powder treatment device - Google Patents

Abstract

The utility model proposes a kind of powder treatment device, comprise support, this support is provided with agitator, agitator top is provided with material bin, agitator is also connected with airduct, airduct end is provided with air-introduced machine, discharge duct is provided with bottom agitator, support is also provided with sieves, discharge duct end has guiding gutter, guiding gutter stretches in sieves, flue-dust retainer is provided with below sieves, stent outer is provided with vertical feed cylinder, charging aperture is provided with bottom vertical feed cylinder, the outlet of sieves is provided with stock guide, stock guide stretches in charging aperture, bucket lifting mechanism is provided with in vertical feed cylinder, detection mouth is also provided with bottom vertical feed cylinder, detection mouth and charging aperture are respectively in vertical feed cylinder both sides, vertical feed cylinder top is provided with erecting bed, this erecting bed is provided with drive motors, drive motors is connected with bucket lifting mechanism, vertical feed cylinder top is also provided with feed back pipe, this feed back pipe is communicated with material bin, powder in bucket lifting mechanism is back in material bin through feed back pipe.

Description

Powder treatment device

Technical field

The utility model relates to a kind of powder treatment device.

Background technology

In a kind of production process of product, thinner impurity dust is mixed with in its powder raw material adopted, easily adverse effect is caused to follow-up producing process, generally need to adopt powder treatment device to carry out filtration treatment to powder, conventional powder treatment device also has the space promoted in ease of use and treatment effect, be necessary to carry out structure optimization to it, to promote treatment effeciency, improve the quality of products.

Utility model content

The purpose of this utility model is to provide a kind of powder treatment device, is convenient to process powder.

The technical scheme that the utility model adopts for its technical problem of solution is,

Powder treatment device, comprise support, this support is provided with agitator, agitator top is provided with material bin, material bin top has connection end, material bin is communicated with feed mechanism by this connection end, one group of transfer tube is provided with bottom material bin, transfer tube is communicated with agitator, powder in material bin enters in agitator through transfer tube, agitator is also connected with airduct, airduct end is provided with air-introduced machine, by air-introduced machine to blow air in agitator, discharge duct is provided with bottom agitator, powder in agitator is discharged through discharge duct, in discharge duct, there is control valve, regulated and controled by the discharge rate of control valve to discharge duct, support is also provided with sieves, the entrance of this sieves is positioned at below discharge duct, discharge duct end has guiding gutter, guiding gutter stretches in sieves, the powder that discharge duct is discharged enters in sieves through guiding gutter, by sieves, filtration treatment is carried out to powder, flue-dust retainer is provided with below sieves, sieves filters the powder ash formed and enters storage in flue-dust retainer, stent outer is provided with vertical feed cylinder, vertical feed cylinder extends upward, charging aperture is provided with bottom vertical feed cylinder, this charging aperture is positioned at below sieves, the outlet of sieves is provided with stock guide, stock guide stretches in charging aperture, powder in sieves sends into charging aperture through stock guide, bucket lifting mechanism is provided with in vertical feed cylinder, powder is carried to vertical feed cylinder top through bucket lifting mechanism, detection mouth is also provided with bottom vertical feed cylinder, detection mouth and charging aperture are respectively in vertical feed cylinder both sides, by detecting mouth, the powder in vertical feed cylinder is detected, vertical feed cylinder top is provided with erecting bed, this erecting bed is provided with drive motors, drive motors is connected with bucket lifting mechanism, bucket lifting mechanism is driven to run by drive motors, vertical feed cylinder top is also provided with feed back pipe, this feed back pipe is communicated with material bin, powder in bucket lifting mechanism is back in material bin through feed back pipe and again processes.

The utility model has the advantage of, powder is sent in agitator and is stirred by this point of material processing device, in agitator, send into air simultaneously, powder is fully separated with powder ash, powder after stirring enters sieves and carries out filtration treatment, according to the requirement of production technology, powder after filtration can the bucket lifting mechanism in vertical feed cylinder promote upward, and be back in material bin by feed back pipe and again process, so move in circles, until the state of powder reaches requirement, be conducive to promoting operating efficiency, improve the quality of products.

Accompanying drawing explanation

Fig. 1 is the structural representation of the powder treatment device that the utility model proposes.

Detailed description of the invention

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, below in conjunction with diagram and specific embodiment, setting forth the utility model further.

As shown in Figure 1, the powder treatment device that the utility model proposes comprises support 1, this support is provided with agitator 2, agitator top is provided with material bin 3, material bin top has connection end 4, material bin is communicated with feed mechanism by this connection end, one group of transfer tube 5 is provided with bottom material bin, transfer tube is communicated with agitator, powder in material bin enters in agitator through transfer tube, agitator is also connected with airduct 6, airduct end is provided with air-introduced machine 7, by air-introduced machine to blow air in agitator, discharge duct 8 is provided with bottom agitator, powder in agitator is discharged through discharge duct, in discharge duct, there is control valve, regulated and controled by the discharge rate of control valve to discharge duct, support is also provided with sieves 9, the entrance of this sieves is positioned at below discharge duct, discharge duct end has guiding gutter 10, guiding gutter stretches in sieves, the powder that discharge duct is discharged enters in sieves through guiding gutter, by sieves, filtration treatment is carried out to powder, flue-dust retainer 11 is provided with below sieves, sieves filters the powder ash formed and enters storage in flue-dust retainer, stent outer is provided with vertical feed cylinder 12, vertical feed cylinder extends upward, charging aperture 13 is provided with bottom vertical feed cylinder, this charging aperture is positioned at below sieves, the outlet of sieves is provided with stock guide 14, stock guide stretches in charging aperture, powder in sieves sends into charging aperture through stock guide, bucket lifting mechanism is provided with in vertical feed cylinder, powder is carried to vertical feed cylinder top through bucket lifting mechanism, also be provided with bottom vertical feed cylinder and detect mouth 15, detection mouth and charging aperture are respectively in vertical feed cylinder both sides, by detecting mouth, the powder in vertical feed cylinder is detected, vertical feed cylinder top is provided with erecting bed 16, this erecting bed is provided with drive motors 17, drive motors is connected with bucket lifting mechanism, bucket lifting mechanism is driven to run by drive motors, vertical feed cylinder top is also provided with feed back pipe 18, this feed back pipe is communicated with material bin, powder in bucket lifting mechanism is back in material bin through feed back pipe and again processes.

Powder is sent in agitator and is stirred by this point of material processing device, in agitator, send into air simultaneously, powder is fully separated with powder ash, and the powder after stirring enters sieves and carries out filtration treatment, according to the requirement of production technology, powder after filtration can the bucket lifting mechanism in vertical feed cylinder promote upward, and be back in material bin by feed back pipe and again process, so move in circles, until the state of powder reaches requirement, be conducive to promoting operating efficiency, improve the quality of products.

More than show and describe general principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (1)

1. powder treatment device, it is characterized in that, comprise support, this support is provided with agitator, agitator top is provided with material bin, material bin top has connection end, material bin is communicated with feed mechanism by this connection end, one group of transfer tube is provided with bottom material bin, transfer tube is communicated with agitator, powder in material bin enters in agitator through transfer tube, agitator is also connected with airduct, airduct end is provided with air-introduced machine, by air-introduced machine to blow air in agitator, discharge duct is provided with bottom agitator, powder in agitator is discharged through discharge duct, in discharge duct, there is control valve, regulated and controled by the discharge rate of control valve to discharge duct, support is also provided with sieves, the entrance of this sieves is positioned at below discharge duct, discharge duct end has guiding gutter, guiding gutter stretches in sieves, the powder that discharge duct is discharged enters in sieves through guiding gutter, by sieves, filtration treatment is carried out to powder, flue-dust retainer is provided with below sieves, sieves filters the powder ash formed and enters storage in flue-dust retainer, stent outer is provided with vertical feed cylinder, vertical feed cylinder extends upward, charging aperture is provided with bottom vertical feed cylinder, this charging aperture is positioned at below sieves, the outlet of sieves is provided with stock guide, stock guide stretches in charging aperture, powder in sieves sends into charging aperture through stock guide, bucket lifting mechanism is provided with in vertical feed cylinder, powder is carried to vertical feed cylinder top through bucket lifting mechanism, detection mouth is also provided with bottom vertical feed cylinder, detection mouth and charging aperture are respectively in vertical feed cylinder both sides, by detecting mouth, the powder in vertical feed cylinder is detected, vertical feed cylinder top is provided with erecting bed, this erecting bed is provided with drive motors, drive motors is connected with bucket lifting mechanism, bucket lifting mechanism is driven to run by drive motors, vertical feed cylinder top is also provided with feed back pipe, this feed back pipe is communicated with material bin, powder in bucket lifting mechanism is back in material bin through feed back pipe and again processes.