SU1157257A1 - Mine air-cooler - Google Patents

Abstract

MINE AIR COOLER, in the case of which heat exchange sections are arranged, made in the form of two-row flat spirals, characterized in that, in order to increase the efficiency of the air cooler by uniform air supply in each heat exchange section and reduce noise, it is equipped with an ejector, dampers, and and the casing is made with openings located between adjacent heat exchanging sections, the ejector being located inside the heat exchanging sections in the casing, the dampers are placed above the sleeping holes guns of the body, and fairings installed under the holes inside the body. (L SP to SP

Description

The invention relates to the mining industry and can be used to cool and air mine workings.

A known air cooler comprising a fan, an adapter, a housing with ribbed heat exchange tubes, and an inlet and an outlet of the coolant 1.

The disadvantages of this device are the inability to control the flow and temperature of the outgoing air, depending on the temperature conditions in the mine workings and the creation of a high level of sound in the room.

The closest to the invention in technical essence and the achieved result is a saddle air cooler, in the casing of which heat exchange sections are arranged, made in the form of two-row flat spirals 2.

The disadvantages of the known device are the low efficiency of the air cooler due to the uneven air supply to each heat exchange section and an increased noise level.

The purpose of the invention is to increase the efficiency of the air cooler by uniformly supplying air to each heat exchange section and reducing noise.

This goal is achieved by the fact that the shaft air cooler, in the casing of which heat exchange sections are arranged, made in the form of two-row flat spirals, is equipped with an ejector, dampers and fairings, and the casing is made with openings located between adjacent heat exchange sections, while the ejector is located inside the heat exchanging sections in the housing, the flaps are placed above the openings outside the housing, and the fairings are installed under the openings inside the housing.

FIG. 1 shows a shaft air cooler, a general view in section; in fig. 2 is a section A-A in FIG. one; in fig. 3 shows the node I in FIG. one.

The shaft air cooler comprises a housing 1 with heat exchange sections 2 placed inside, each of which is made in the form of a two-row flat helix made of a cross-finned tube. The ends of the spirals are connected to the collectors of the inlet 3 and outlet 4 of the coolant. Holes 5 are made around the perimeter of the housing 1. To reduce the aerodynamic drag, the holes 5 in the housing 1 can be positioned between adjacent spirals of the heat exchange sections. Dampers 6 are installed outside the housing above the openings, and fairings 7 are located under the openings inside the housing. The shutters 6 can be made as freely moving

A housing shell 1, in which there are openings corresponding to openings in the housing. Inside the heat exchanger sections there is an ejector 8, consisting of a nozzle 9 and a diffuser 10.

The device works as follows.

When compressed air is supplied to the nozzle 9 of the ejector 8, a vacuum is created at the outlet of the diffuser 10, which causes air to flow from the environment through the openings 5 in the air cooler housing 1. If it is necessary to change the quantity and parameters of the air leaving the air cooler, the damper 6 blocks its supply to the heat exchange section 2.

5 The flaps can open and close the holes located under them in any sequence from a manual or automatic actuator. Installed inside the housing 1, the fairings 7 create a uniform flow of air to the flat spirals of the heat0 exchange sections 2, since in their absence it is basic. the mass of air moving along the path of least aerodynamic drag enters the diffuser 10 and, moving along it, comes out of the air cooler,

5 not having time to cool to the specified parameters.

The presence inside the section of the ejector 8 allows to reduce the noise level during operation of the air cooler, since the spirals of the transverse-finned tubes form a cellular structure and reduce the level of the shum.

In case of contamination of the heat exchange sections 2 from the dusty air flow, they can be alternately blown by closing, respectively, the flap 6 above the holes 5.

The proposed design allows to increase the efficiency of the air cooler by uniformly supplying air from the shaft through the openings 5 to each heat exchange section. The presence of openings with flaps also allows efficient cleaning of the heat exchange sections. Leaving one row of openings open, it is possible to pass through them the air intended for the entire air cooler. In this case, the speed of the air supplied to the heat exchange section increases dramatically, and it is cleaned of the deposited dirt.

The proposed design of the air cooler allows reducing its length, since, in connection with the installation of the ejector, there is no need for a fan and a transition nozzle, the length of which is 200-300 mm with the total length of the air cooler 1200-100 mm. The location of the ejector inside the heat exchange sections reduces the noise from its work, as the coils of flat spirals of cross-finned tubes, of which

heat exchange sections are in place; they play the role of a sound insulating material.

Thus, the invention makes it possible to increase the efficiency of the operation of the air cooler by uniformly supplying air to each heat exchange section and reducing noise.

Claims (1)

MINING AIR COOLER, in whose case heat-exchange sections are arranged, made in the form of double-row flat spirals, characterized in that, in order to increase the efficiency of the air cooler by uniformly supplying air in each heat-exchange section and to reduce noise, it is equipped with an ejector, dampers and fairings, and the casing made with holes located between adjacent heat-exchange sections, while the ejector is located inside the heat-exchange sections in the housing, the shutters are placed above the holes outside to rpusa and fairings are mounted at openings in the housing. SU „„ 1157257