CN205690781U - A kind of double mode cooling system - Google Patents

Abstract

This utility model discloses a kind of double mode cooling system, including: cooling tower, its outlet is provided with cooling hydraulic pipeline, cooling water hydraulic pipeline is provided with the first water pump；Freezing unit, its entrance and the first exit of pump are communicated by the first water circulation branch road, and freezing machine set outlet is provided with the first backwater branch road, the second backwater branch road and freezing hydraulic pipeline, being provided with the second water pump on institute's hydraulic pipeline, the first backwater branch road communicates with cooling tower outlet；Component cooling water tower, its entrance and the first exit of pump are communicated by the second water circulation branch road, and communicate with freezing hydraulic pipeline, and institute's equipment cooling tower outlet communicates with the second backwater branch road.The beneficial effects of the utility model are, this utility model multiple loops and Valve controlling, use the cooling water of cooling tower directly to lower the temperature when low temperature environment, use fridge cooling when hot environment is, the bimodulus type of cooling saves the energy, reduces production cost.

Description

A kind of double mode cooling system

Technical field

This utility model relates to cooling technology field, is specifically related to a kind of double mode cooling system.

Background technology

The general type of cooling be the most all by cooling tower (or other air-cooled, underground heat isotype) provide low-temperature receiver to Fridge, the cold water after fridge refrigeration enters work equipment cooling.In the winter time when ambient temperature is less than equipment work temperature When spending, it is not necessary to when fridge refrigeration just can meet equipment cooling needs, energy waste and equipment loss can be caused.

Utility model content

This utility model, in order to overcome above deficiency, devises a kind of double mode cooling system, uses multiple loop and valve Gate control, uses the cooling water of cooling tower directly to lower the temperature when low temperature environment, uses fridge cooling when hot environment is, double The mould type of cooling saves the energy, reduces production cost.

The technical scheme that this utility model provides is:

A kind of double mode cooling system, including:

Cooling tower, its outlet is provided with cooling hydraulic pipeline, described cooling water hydraulic pipeline is provided with the first water pump；

Freezing unit, its entrance is communicated by the first water circulation branch road with described first exit of pump, described freezing unit Outlet is provided with the first backwater branch road, the second backwater branch road and freezing hydraulic pipeline, and described hydraulic pipeline is provided with the second water Pump, described first backwater branch road communicates with the outlet of described cooling tower；

Component cooling water tower, its entrance is communicated by the second water circulation branch road with described first exit of pump, and with described Freezing hydraulic pipeline communicates, and the outlet of described equipment cooling tower communicates with described second backwater branch road.

Preferably, in described double mode cooling system, the between described first water pump and described freezing unit It is provided with the first electrodynamic valve on one water circulation branch road.

Preferably, in described double mode cooling system, between described first water pump and described component cooling water tower Second water circulation branch road on be provided with the second electrodynamic valve.

Preferably, in described double mode cooling system, between described second water pump and described equipment cooling tower The 3rd electrodynamic valve it is provided with on chilled water hydraulic pipeline.

Preferably, in described double mode cooling system, the outlet of described equipment cooling tower is propped up with described second backwater The 4th electrodynamic valve it is provided with between road.

Preferably, in described double mode cooling system, between described freezing machine set outlet and described cooling tower It is provided with the 5th electrodynamic valve on first backwater branch road.

The beneficial effects of the utility model are, this utility model multiple loops and Valve controlling, make when low temperature environment Directly lowering the temperature with the cooling water of cooling tower, use fridge cooling when hot environment is, the bimodulus type of cooling saves the energy, Reduce production cost.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings this utility model is described in further detail, to make those skilled in the art with reference to explanation Book word can be implemented according to this.

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

Below with reference to the accompanying drawings and in conjunction with the embodiments, this utility model is described in detail.

The double mode cooling system of one as shown in Figure 1, including:

Cooling tower 1, its outlet is provided with cooling hydraulic pipeline 2, cooling water hydraulic pipeline 2 is provided with the first water pump 3；Cold Freezing unit 4, its entrance and the first water pump 3 are exported and are communicated by the first water circulation branch road 5, and freezing unit 4 outlet is provided with first Backwater branch road 6, the second backwater branch road 7 and freezing hydraulic pipeline 14, freezing hydraulic pipeline 14 is provided with the second water pump 9, and first Backwater branch road 6 communicates with cooling tower 1 outlet；Component cooling water tower 10, its entrance and the first water pump 3 are exported and are circulated by the second water Branch road 11 communicates, and communicates with freezing water-supply-pipe 14 tunnel, and equipment cooling tower 10 outlet communicates with the second backwater branch road 7.Wherein, Being provided with the first electrodynamic valve 12 on the first water circulation branch road 5 between one water pump 3 and freezing unit 4, the first water pump 3 and equipment are cold But be provided with the second electrodynamic valve 13 on the second water circulation branch road 11 between water tower 10, the second water pump 9 and equipment cooling tower 10 it Between chilled water hydraulic pipeline 14 on be provided with the 3rd electrodynamic valve 15, equipment cooling tower 10 exports between the second backwater branch road 7 Being provided with the 4th electrodynamic valve 16, freezing unit 4 exports that to be provided with the 5th on the first backwater branch road 6 between cooling tower 1 electronic Valve 17.

When using this utility model, when summer temp height, close the second electrodynamic valve 13 and the 4th electrodynamic valve 16, cool down water Out circulate through chilled unit and component cooling water tower from cooling tower, when winter temperature is low, close the first electrodynamic valve 12, 3rd electrodynamic valve 15 and the 5th electrodynamic valve 17, cooling water out directly entered component cooling water without freezing unit from cooling tower Tower is circulated, and saves the energy, reduces production cost.

Although embodiment of the present utility model is disclosed as above, but it is not restricted in description and embodiment Listed utilization, it can be applied to various applicable field of the present utility model completely, for those skilled in the art, It is easily achieved other amendment, therefore under the general concept limited without departing substantially from claim and equivalency range, this reality It is not limited to specific details and shown here as the legend with description with novel.

Claims (6)

1. a double mode cooling system, it is characterised in that including:

Cooling tower, its outlet is provided with cooling hydraulic pipeline, described cooling water hydraulic pipeline is provided with the first water pump；

Freezing unit, its entrance is communicated by the first water circulation branch road with described first exit of pump, described freezing machine set outlet It is provided with the first backwater branch road, the second backwater branch road and freezing hydraulic pipeline, described hydraulic pipeline is provided with the second water pump, institute State the first backwater branch road to communicate with the outlet of described cooling tower；

Component cooling water tower, its entrance and described first exit of pump communicated by the second water circulation branch road, and with described freezing Hydraulic pipeline communicates, and the outlet of described equipment cooling tower communicates with described second backwater branch road.

Double mode cooling system the most as claimed in claim 1, it is characterised in that described first water pump and described freezing unit it Between first water circulation branch road on be provided with the first electrodynamic valve.

Double mode cooling system the most as claimed in claim 1, it is characterised in that described first water pump and described component cooling water It is provided with the second electrodynamic valve on the second water circulation branch road between tower.

Double mode cooling system the most as claimed in claim 1, it is characterised in that described second water pump and described equipment cooling tower Between chilled water hydraulic pipeline on be provided with the 3rd electrodynamic valve.

Double mode cooling system the most as claimed in claim 1, it is characterised in that the outlet of described equipment cooling tower is with described second The 4th electrodynamic valve it is provided with between backwater branch road.

Double mode cooling system the most as claimed in claim 1, it is characterised in that described freezing machine set outlet and described cooling tower Between the first backwater branch road on be provided with the 5th electrodynamic valve.