RU2001694C1 - Pneumatic internal-mixing sprayer - Google Patents

Abstract

Use in spray drying processes, in technologies for the production of chemical reagents and highly pure chemicals in chemical, microbiological and related enterprises. SUMMARY OF THE INVENTION The nozzle (P) is made of cone-shaped elements interconnected with different tapers. Parts H, l, b, r, m, t, mounted with the formation of the last outlet nozzle. The opposite part, H, protrudes beyond the outer surface of the gas nozzle; mounted on the end of the rod by means of an elastic element. On the outer surface H, annular grooves are formed, forming a gas nozzle with annular grooves onichesky canapé annular undulating inner surface with decreasing gazozhidchostnogo of flow downstream wavelength GBF 2-yl ly 1

Description

1ijjbpfiusHe refers to the technique of dissolving / processing liquids and can be used in chemical, microbiological and related enterprises, for example, spray drying processes, as well as in technologies for the production of chemical reactions and highly pure chemical substances.

A tricky internal mixing formula, including a housing, a central device for supplying fluid to the nozzle tip, a tangential hole for connecting the fluid to the fluid with its inner surface, deflector 1.

One thing, the i-Mfvr ii device under consideration is a much higher hadravel if 1 and 1 is more narrow, in addition, a twist of 1 s | u / || -, the flow also leads to the y-smaller HHHJ axial component of its speed and to some deterioration dispersion during spraying. Does not increase the efficiency of spraying and feeding into the nozzle of a known fluid arrangement with a thick cylindrical stream

And zpegten and another pneumatic internal mixing distributor, comprising a housing with a supply pipe coaxially located inside it, mounted on the inside of the pipe with the possibility of vertical movement of the rod, a nozzle in the form of a hollow body of revolution mounted on the rod at the outlet of the supply pipe and covering the gas supply pipe nozzle with annular openings 2 made by ILI of its inner surface

However, the known atomizer has: the difficulty of adjusting the spray parameters, in particular the shape of the torch, which, along with the possibility of sticking part of the solid material from the liquid onto the nozzles during spray drying, reduces the reliability of the device as a whole, and also affects the quality of the resulting spray products.

The aim of the invention is to intensify the spray ability to adjust the shape of the torch as well as improving the reliability of the spray

The goal is achieved due to the fact that the nozzle is made of cone-shaped elements connected with each other with different tapers, and the part of the nozzle facing the supply pipe is installed with the formation of the last outlet nozzle. The problem is also solved due to the fact that the feeder is equipped with an impact device mounted in the nozzle cavity, mounted on the end of the rod by means of an elastic element. On the outer surface of the nozzle, annular grooves are formed with ring

grooves of the gas nozzle of a conical annular channel with a wave-like inner surface with decreasing along the gas-liquid flow

wavelength.

The drawing shows this spray, section.

The sprayer comprises a housing 1 with a supply pipe aligned with it

2, a rod 3 mounted inside the pipe 2 with the possibility of vertical movement, fixed on the rod 3 at the outlet of the supply pipe 2, the nozzle 4 in the form of a hollow body of revolution and covering the supply

the pipe 2 has a gas nozzle 5 with annular grooves made on its inner surface 6. The nozzle 4 is made of conical elements connected with each other with different tapers. Part

nozzle A, facing the supply pipe 2, is installed with the formation of the last outlet nozzle, and the opposite part of the nozzle is made protruding beyond the outer surface of the gas nozzle 5.

The sprayer is equipped with a mounted

in the cavity of the nozzle 4 by a percussion device 7 mounted on the end of the rod 3 by means of an elastic element

On the outer surface of the nozzle 4, annular grooves 6 are made, forming, with the annular grooves of the gas nozzle 5, a conical annular channel with a wave-like inner surface with a wavelength decreasing along the gas-liquid flow.

The atomizer of internal mixing operates as follows

The sprayed liquid product enters the feed pipe 2, passes through

the gap formed between the pipe 2 and the upper part of the nozzle 4, and falls on the outer surface of the nozzle 4.

Atomizing agent - compressed air necessary for dispersion is supplied through the gas nozzle 5.,

Moving along the gap formed by the outer surface of the nozzle 4 and the inner surface of the gas nozzle 5, air captures the liquid and conveys

her to exit the device

The presence of grooves 6 on the surfaces of the nozzle 5 and nozzle 4 with decreasing depth and step towards the outlet edge causes the liquid flowing over their surfaces to change many times. Its direction will allow more turbulence of the gas-liquid flow to form internal pulsations in the film and

LuCHSHRMu Cf. D rob L R NISH N | s I vi i / ic GOING FROM

at high speed from nozzle 5, gas captures the product and atomizes it.

The fluid flow rate, as well as the modes and configuration of the spray pattern, can be achieved by moving the nozzle 4 and the rod 3 along the axis of the spray gun.

In this case, the configuration of the nozzle 4, consisting of conical elements, is determined, first of all, by its combined function, of each of the parts: the outer part of the nozzle 4 serves as a flow control of the sawing fluid, blocking the outlet section of the pipe 2, the middle part forms a channel for turbulizing and mixing a gas-liquid stream,

lower - forms a configuration of a spray torch.

Impact device 7, for example in the form of hammers, helps to increase

quality of the spray and prevents clogging of the nozzle and the formation of growth on the surfaces of the nozzle 4. In addition, the percussion device 7 imposes additional movement on the gas-liquid flow,

0 which also intensifies the process of ardor pa.

(56) 1, Pages D.G. et al. Fundamentals of liquid sawing techniques. M .: Khimi, 1984, p. 169l fig. 7, 8g.

2. Copyright certificate of the USSR No. 1395382, cl. B 05 B 15/02, 1988.

Claims (1)

1. PNEUMATIC SPRAY OF INTERNAL MIXING, comprising a housing with a coarse feed coarse located inside it, mounted externally. For pipes with the possibility of vertical movement, the rod fixed on the rod at the outlet of the supply pipe a nozzle in the form of a hollow body of revolution and surrounding the supply pipe is a gas pipe with annular grooves made on its inner surface, characterized in that the nozzle is made of interfaced cone-shaped elements with different taper, and part of the nozzle facing the feed pipe is installed with lower from the last outlet nozzle, and the opposite part of the nozzle is made protruding beyond the outer surface of the gas nozzle. 2, The atomizer according to claim 1, characterized in that it is equipped with a percussion device mounted in the nozzle cavity mounted on the end of the rod by means of an elastic element. 3, The atomizer according to claim 1, characterized in that annular grooves are made on the outer surface of the nozzle, forming a conical annular channel with a circular grooves of the gas nozzle with a wavy inner surface with a wavelength of gas-liquid flow decreasing in code of motion. at