CN203512773U - A powder nano-zinc oxide delivery device - Google Patents

Abstract

The utility model relates to a powder nanometer zinc oxide conveyor relates to the equipment of preparation nanometer zinc oxide, provides a simple structure, convenient operation's powder nanometer zinc oxide conveyor. Conveyor comprises the pump body, blows material pipe, feed inlet, discharging pipe and intake pipe, and its main points are: the pump body is sealed cavity container, blows the material pipe setting in the bottom of the pump body, and inlet pipe, discharging pipe and intake pipe setting are at the top of the pump body, and the intake pipe setting is in the outside of discharging pipe. The conveying device adopts gas to convey the powder nano zinc oxide, and the pump body of the conveying device is a sealed container, so that the performance of the nano zinc oxide product is not influenced in the conveying process.

Description

A kind of powder nanometer zinc oxide feedway

Technical field

The utility model relates to the equipment of preparing nano zine oxide, specifically a kind of powder nanometer zinc oxide feedway.

Background technology

Traditional powder nanometer zinc oxide feedway has a variety of, comprises dilute phase conveying, machinery conveying etc., and its weak point is: in material transferring process, energy consumption is large, and product is easily sneaked into impurity; Meanwhile, unsealed conveying environment, can cause environmental pollution.

Utility model content

The technical problems to be solved in the utility model is to propose a kind of simple in structure, easy to operate powder nanometer zinc oxide feedway.This feedway does not affect nano zine oxide properties of product in transmission, has longer fed distance, and running efficiency is high, without interlock part, and the advantage that maintenance workload is little.

The technical scheme of the utility model technical solution problem is: the utility model feedway by the pump housing, blow material pipe, inlet point, discharge nozzle and air inlet pipe and form, its main points are: the pump housing is the cavity container of sealing, blow and expect that pipe is arranged on the bottom of the pump housing, feed pipe, discharge nozzle and air inlet pipe are arranged on the top of the pump housing, and air inlet pipe is arranged on the outside of discharge nozzle.

The utility model feedway, the described material pipe that blows can be set up in parallel and is at least two.

The utility model feedway is also provided with safety valve on the described pump housing, and described safety valve is arranged on the outside of feed pipe.

The utility model feedway is also provided with level-sensing device on the described pump housing, and described level-sensing device is arranged on the centre at pump housing top, and described feed pipe and discharge nozzle are arranged on the both sides of level-sensing device.

The utility model feedway is also provided with relief tube on the described pump housing, and described relief tube is arranged between level-sensing device and discharge nozzle.

The utility model feedway is when convey materials, and product enters the pump housing by feed pipe; Pressurized air passes into the pump housing from top air inlet pipe; Material is delivered to assigned address by feed pipe and packs; During feeding, when pump housing pressure is excessive, safety valve is opened pressure release automatically; Feeding is complete, opens relief pipeline valve, makes to press and recover normal in the pump housing; Level-sensing device is used for monitoring nano zine oxide amount in the pump housing; By blowing material pipe, from pump housing bottom, pass into pressurized air, make material fluffy, be convenient to carry.

The beneficial effects of the utility model are:

Due to nano zine oxide, to have particle diameter little, specific surface area is large, the feature that chemical activity is high, and the utility model feedway is to adopt gas to carry the device of powder nanometer zinc oxide, due to the pump housing of the feedway container for sealing, so do not affect nano zine oxide properties of product in transmission; And the utility model device operational throughput is large, traffic capacity is strong, and running efficiency is high, and without interlock part, maintenance load is little, effectively prevents and has solved at nano zine oxide and produce the variety of issue that may occur to finished product packing link, has following characteristics:

1, the utility model plant automation degree is high, simple to operate flexible, can utilize PLC to control whole course of conveying is realized to Automatic Control.

2, the utility model device, can strict guarantee materials quality due to convey materials in sealing cage guide, makes not make moist in course of conveying, no dust pollution, is not subject to various weather effects, is conducive to produce and protection of the environment.

3, the utility model device delivery duct flexible arrangement, can carry out easily long distance and carry, and has reduced the security risk in nano zine oxide production and packaging process.

4, the delivery duct of longer distance, temperature while reducing the packing of product, avoids packaging bag to be ruined; Save labour power, saved traffic cost.

The utility model cost of manufacture is low, simple to operate, easy to use, is easy to promote.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the structure of the utility model embodiment.

In figure: 1, the pump housing, 2, blow material pipe, 3, safety valve, 4, feed pipe, 5, level-sensing device, 6, relief tube, 7, discharge nozzle, 8, air inlet pipe.

The specific embodiment

Below in conjunction with embodiment and contrast accompanying drawing the utility model is described in further details.

With reference to Fig. 1, the pump housing 1 is the cavity container of sealing, blow and expect that pipe 2 is arranged on the bottom of the pump housing 1, safety valve 3, feed pipe 4, level-sensing device 5, relief tube 6, discharge nozzle 7 and air inlet pipe 8 are arranged on the top of the pump housing 1, level-sensing device 5 is arranged on the centre at the pump housing 1 top, and feed pipe 4 and discharge nozzle 7 are arranged on the both sides of level-sensing device, and relief tube 6 is arranged between level-sensing device 5 and discharge nozzle 7, air inlet pipe 8 is arranged on the outside of discharge nozzle 7, and safety valve 3 is arranged on the outside of feed pipe 4.

With reference to Fig. 1, the blowing material pipe 2 and can be set up in parallel and be at least two of the utility model feedway.

The using method of the utility model feedway is as follows:

1, the charging stage:

Close finished product packing bleeder valve, air inlet pipe 8 place's air inlet valves, open relief tube 6 place's blowdown valves, feed pipe 4 place's inlet valves, material freely falls in the pump housing 1; In pump housing material, rise to a certain amount of after, close inlet valve and blowdown valve.

2, delivery phase:

Close relief tube 6 place's blowdown valves, feed pipe 4 place's inlet valves, open air inlet pipe 8 place's air inlet valves and make material pass through discharge nozzle 7, arrive finished product storehouse feed bin, after material empties in the pump housing, close air inlet valve.

Too much when pump housing solid accumulation, when unlatching air inlet valve cannot complete mass transport, open bottom and blow material pipe 2 valves, auxiliary conveying.

Claims (5)

1. A powder nano-zinc oxide conveying device, which is composed of a pump body, a blowing pipe, a material inlet, a discharge pipe and an air inlet pipe. It is characterized in that: the pump body is a sealed cavity container, and the blowing pipe is set on The bottom of the pump body, the feed pipe, the discharge pipe and the air inlet pipe are arranged on the top of the pump body, and the air inlet pipe is arranged outside the outlet pipe. 2. The conveying device according to claim 1, characterized in that: said blowing pipes can be arranged side by side at least two. 3. The conveying device according to claim 1, characterized in that: a safety valve is also arranged on the pump body, and the safety valve is arranged on the outside of the feed pipe. 4. The conveying device according to claim 1, characterized in that: a level gauge is also arranged on the pump body, the level gauge is set in the middle of the top of the pump body, and the feed pipe and the The discharge pipe is arranged on both sides of the level gauge. 5. The conveying device according to claim 4, characterized in that: a pressure relief pipe is also provided on the pump body, and the pressure relief pipe is arranged between the level gauge and the discharge pipe.

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