CN104567479A - Gas cooling device - Google Patents

Abstract

The invention relates to a gas cooling device which comprises a cooling tower, a water tank, a water inlet electromagnetic valve, a water outlet electromagnetic valve, a water temperature sensor and a heat exchange tube, wherein the water tank is capable of injecting cold water into the cooling tower by virtue of the water inlet electromagnetic valve; the cooling tower is capable of returning the water in the cooling tower to the water tank by virtue of the water outlet electromagnetic valve; the heat exchange tube is in a spiral tube shape and is coiled in the cooling tower; the inlet and outlet of the heat exchange tube penetrate out of the cooling tower; the cooling tower is internally provided with the water temperature sensor; the water temperature sensor is capable of controlling the opening or closing of the water inlet electromagnetic valve and the water outlet electromagnetic valve by virtue of sensing the temperature of the water in the cooling tower. According to the gas cooling device provided by the invention, the heat exchange tube is completely soaked in the cooling water in the cooling tower, and replacement of the cooling water in the cooling tower is controlled by virtue of the water temperature sensor, so that the cooling efficiency is improved, and water resources are saved.

Description

A kind of gas quench system

Technical field

The present invention relates to cooling field, be specifically related to a kind of gas quench system.

Background technology

Existing gas quench system comprises the cooling tower with cavity, and shower, heat exchanger tube and water collector is disposed with from top to bottom in the cavity of cooling tower, the outer wall of cooling tower is provided with communicating pipe, one end of communicating pipe is communicated with shower, the other end of communicating pipe is communicated with water collector, and is provided with water pump on communicating pipe, and the bottom of shower is provided with multiple spray head, the entrance point of heat exchanger tube and the port of export all pass the cavity of cooling tower, and water collector outer wall is provided with water inlet pipe and water outlet pipe; When this cooling tower uses, gas to be cooled or liquid are put into from heat exchanger tube entrance point, open water pump and by spray head by Water spray on heat exchanger tube, reach the effect of gas in cooling heat transferring pipe.The type of cooling of above-mentioned spray, cooling effectiveness is low, wastes a large amount of water resources.

Summary of the invention

For solving the problem, technical problem to be solved by this invention is to provide a kind of gas quench system.

The technical scheme that the present invention solves the problems of the technologies described above is as follows: a kind of gas quench system, comprise cooling tower, water tank, entering water electromagnetic valve, go out water solenoid valve, cooling-water temperature sensor and heat exchanger tube, described water tank injects cold water by the described entering water electromagnetic valve being arranged on described cooling tower top in described cooling tower, and the water of described cooling tower inside is back to described water tank by going out water solenoid valve described in being arranged on bottom described cooling tower by described cooling tower;

Described heat exchanger tube is helix, and spirals in described cooling tower, and import and the outlet of described heat exchanger tube all pass described cooling tower;

In described cooling tower, be provided with described cooling-water temperature sensor, described cooling-water temperature sensor by the water temperature responded in described cooling tower control described entering water electromagnetic valve and described go out the unlatching of water solenoid valve or closedown.

Further, when the water temperature in the described cooling tower that described cooling-water temperature sensor senses is greater than the temperature value of setting, described cooling-water temperature sensor control described entering water electromagnetic valve and described go out water solenoid valve open, when the water temperature in the described cooling tower that described cooling-water temperature sensor senses is less than the temperature value of setting, described cooling-water temperature sensor control described entering water electromagnetic valve and described go out the closedown of water solenoid valve.

Further, described cooling tower is provided with steam vent.

Further, in described cooling tower, the below of described heat exchanger tube is provided with described filter plate.

The invention has the beneficial effects as follows: a kind of gas quench system provided by the invention, heat exchanger tube is all immersed in the cooling water of cooling tower, controls to change the cooling water in cooling tower, improve cooling effectiveness, saved water resource by cooling-water temperature sensor.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention.

In accompanying drawing, the list of parts representated by each label is as follows:

1, cooling tower, 2, water tank, 3, entering water electromagnetic valve, 4, go out water solenoid valve, 5, cooling-water temperature sensor, 6, heat exchanger tube, 7, steam vent, 8, filter plate.

Detailed description of the invention

Be described principle of the present invention and feature below in conjunction with accompanying drawing, example, only for explaining the present invention, is not intended to limit scope of the present invention.

As shown in Figure 1, a kind of gas quench system, comprise cooling tower 1, water tank 2, entering water electromagnetic valve 3, go out water solenoid valve 4, cooling-water temperature sensor 5 and heat exchanger tube 6, described water tank 2 injects cold water by the described entering water electromagnetic valve 3 being arranged on described cooling tower 1 top in described cooling tower 1, and the water of described cooling tower 1 inside is back to described water tank 2 by going out water solenoid valve 4 described in being arranged on bottom described cooling tower 1 by described cooling tower 1.Described heat exchanger tube 6 is helix, and spirals in described cooling tower 1, and import and the outlet of described heat exchanger tube 1 all pass described cooling tower.Heat exchanger tube 1 is all immersed in the cooling water of cooling tower, after gas enters heat exchanger tube 1 from the import of heat exchanger tube 1, from the outlet of heat exchanger tube 1 discharges after lowering the temperature with the cooling water heat exchange of outside.

In described cooling tower 1, be provided with described cooling-water temperature sensor 5, described cooling-water temperature sensor 5 by the water temperature responded in described cooling tower 1 control described entering water electromagnetic valve 3 and described go out the unlatching of water solenoid valve 4 or closedown.

While gas and outside cooling water heat exchange lower the temperature, the temperature of cooling water can constantly rise, when the water temperature in the described cooling tower 1 that described cooling-water temperature sensor 5 senses is greater than the temperature value of setting, described cooling-water temperature sensor 5 control described entering water electromagnetic valve and described go out water solenoid valve 3 open, water tank 2 supplements cold water to cooling tower 1, the hot water of cooling tower 1 is discharged simultaneously, water temperature in cooling tower 1 is reduced, when the water temperature in the described cooling tower 1 that described cooling-water temperature sensor 5 senses is less than the temperature value of setting, described cooling-water temperature sensor 5 control described entering water electromagnetic valve 3 and described go out water solenoid valve 4 close.By said method, make the water temperature in cooling tower 1 be in normal range (NR), ensure heat exchange efficiency.Flowing out rear cooling be back to again water tank 1 from going out water solenoid valve 3 in cooling tower 1, has saved water resource.

Described cooling tower 1 is provided with steam vent 7, and the effect of pore 7 raises for discharging water temperature in cooling tower 1 steam produced.In described cooling tower 1, the below of described heat exchanger tube 6 is provided with described filter plate 8, for impurity screening, ensures the water capacity in cooling tower 1.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (4)

1. a gas quench system, it is characterized in that, comprise cooling tower (1), water tank (2), entering water electromagnetic valve (3), go out water solenoid valve (4), cooling-water temperature sensor (5) and heat exchanger tube (6), described water tank (2) injects cold water by the described entering water electromagnetic valve (3) being arranged on described cooling tower (1) top in described cooling tower (1), described cooling tower (1) goes out water solenoid valve (4) described in described cooling tower (1) bottom by being arranged on water inner for described cooling tower (1) is back to described water tank (2),

Described heat exchanger tube (6) is helix, and spirals in described cooling tower (1), and import and the outlet of described heat exchanger tube (1) all pass described cooling tower;

In described cooling tower (1), be provided with described cooling-water temperature sensor (5), described cooling-water temperature sensor (5) by the water temperature in induction described cooling tower (1) control described entering water electromagnetic valve (3) and described go out the unlatching of water solenoid valve (4) or closedown.

2. a kind of gas quench system according to claim 1, it is characterized in that, when the water temperature in the described cooling tower (1) that described cooling-water temperature sensor (5) senses is greater than the temperature value of setting, described cooling-water temperature sensor (5) control described entering water electromagnetic valve (3) and described go out water solenoid valve (4) open, when the water temperature in the described cooling tower (1) that described cooling-water temperature sensor (5) senses is less than the temperature value of setting, described cooling-water temperature sensor (5) control described entering water electromagnetic valve (3) and described go out water solenoid valve (4) close.

3. a kind of gas quench system according to claim 1, is characterized in that, described cooling tower (1) is provided with steam vent (7).

4. according to the arbitrary described a kind of gas quench system of claims 1 to 3, it is characterized in that, in described cooling tower (1), the below of described heat exchanger tube (6) is provided with described filter plate (8).