CN204987606U - Little temperature becomes combination formula refrigeration cycle water system - Google Patents

Abstract

The utility model relates to a little temperature becomes combination formula refrigeration cycle water system, this system includes basic refrigeration cycle water system and water charging system, still including adjusting the refrigeration cycle water system, water charging system gives basic refrigeration cycle water system and adjusts the refrigeration cycle water system and carries out the moisturizing operation, it connects in parallel on the return water water pipe way of I cooling tower in basic refrigeration cycle water system to adjust the refrigeration cycle water system, utilize the temperature of plate heat exchanger's effect control return water, adjust the temperature of intaking that II cooling towers and cooling water set in the refrigeration cycle water system are used for adjusting plate heat exchanger, strengthen plate heat exchanger's refrigerating output, entire system adopts frequency conversion pump water supply, the utility model discloses can accurate control return water temperature to can also reduce system energy consumption.

Description

A kind of little temperature becomes combined type cooling circulating water system

Technical field

The utility model relates to a kind of circulation, is specifically related to a kind of little temperature and becomes combined type cooling circulating water system.

Background technology

In the cooling circulating water system that conventional temperature becomes larger, Inlet and outlet water temperature controls inaccuracy, and energy consumption is higher, and the cooling backwater temperature in system can not accurately control; Whether a conventional chilling circulation control system leaving water temperature reaches cooling water requirement, low-temperature receiver side output is in steady state, when extraneous variations in temperature, cold needed for system return side is also in real-time change, due to cannot accurate Calculation and adjustment, system be caused to there is a large amount of unnecessary energy consumptions.

Utility model content

The purpose of this utility model is for the problems referred to above, proposes can accurately control Inlet and outlet water temperature in a kind of cooling circulating water system larger in temperature change, and the little temperature that especially cooling backwater temperature accurately controls becomes combined type cooling circulating water system; System energy consumption can be reduced, energy-saving and emission-reduction.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of little temperature becomes combined type cooling circulating water system, and comprise basic cooling circulating water system and water charging system, described basic cooling circulating water system comprises I stop valve, I cooling tower, II stop valve, I storage tank, I variable frequency pump group and outside water system and connect to form closed loop base water closed circuit by water lines successively, the delivery port of described I variable frequency pump group is connected with the feed water inlet of outside water system, the water inlet of I stop valve is connected with the water return outlet of outside water system, also comprise adjustment cooling circulating water system, described adjustment cooling circulating water system comprises II storage tank, III variable frequency pump group, plate type heat exchanger, handpiece Water Chilling Units, III storage tank, IV variable frequency pump group and II cooling tower, described II storage tank, III variable frequency pump group, plate type heat exchanger, handpiece Water Chilling Units, III storage tank, IV variable frequency pump group, II cooling tower is connected to II storage tank composition closed-loop adjustment water-flow circuit through handpiece Water Chilling Units after being connected by water lines successively again, one group of intake-outlet of described plate type heat exchanger is connected in the water lines at II stop valve two ends, described water charging system respectively with basic cooling circulating water system and regulate cooling circulating water system to be connected,

Further, described water charging system comprises running water water source, reverse osmosis unit, IV storage tank is with V variable frequency pump group and be connected by water lines successively, described V variable frequency pump group is provided with two water supplement ports, a water supplement port of described V variable frequency pump group is connected with II storage tank and III storage tank respectively through I triple valve, and another water supplement port of described V variable frequency pump group is connected by water lines with I storage tank;

Further, also comprise II variable frequency pump, motor-driven valve, butterfly filter and VI variable frequency pump, the water inlet of described II variable frequency pump is connected with I storage tank, the delivery port of II variable frequency pump is connected in the water lines between the water return outlet of outside water system and I stop valve through II triple valve, described motor-driven valve one end is connected with I storage tank by water lines, the motor-driven valve other end is connected in the water lines between the water return outlet of outside water system and described II triple valve, described I storage tank, VI variable frequency pump, butterfly filter connects to form closed loop filtered water closed circuit by water lines successively,

Further, described handpiece Water Chilling Units comprises compressor, condenser, expansion valve, evaporimeter connect to form refrigeration cycle by refrigeration working medium successively.

The beneficial effects of the utility model are:

The utility model mainly utilizes natural cooling source to cool, and when natural cooling source can meet return water temperature requirement, only run closed loop base water closed circuit, energy consumption is low; When return water temperature can not meet the demands, II stop valve blocks water route, start closed-loop adjustment water-flow circuit, now handpiece Water Chilling Units does not start the conducting in only responsible water route, the backwater of external equipment is through twice heat exchange of I cooling tower and plate type heat exchanger, reach the requirement of return water temperature, when III variable frequency pump group supplies water to plate type heat exchanger, discharge controlling capacity of refrigeration easy to adjust, required is flexible, accurately can control return water temperature as required; When return water temperature can not be satisfied the demand after twice heat exchange, start handpiece Water Chilling Units, make the water temperature flowing through plate type heat exchanger in closed-loop adjustment water-flow circuit lower, and then strengthen the refrigerating capacity of plate type heat exchanger, thus reduce the backwater water temperature flowing back to I cooling tower; Be provided with II variable frequency pump in this system, II variable frequency pump, I cooling tower and I storage tank etc. can form I storage tank from cooling water circulation loop, natural cooling source can be made full use of; The motor-driven valve arranged in this system can make the backwater of external equipment flow directly in I storage tank; Under the effect of VI variable frequency pump and butterfly filter, can filter the water of I storage tank, increase the service life of whole system.

Accompanying drawing explanation

Accompanying drawing is used to provide further understanding of the present utility model, and forms a part for description, is used from explanation utility model, does not form restriction of the present utility model with embodiment one of the present utility model.In the accompanying drawings:

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

By reference to the accompanying drawings, in the utility model embodiment, Reference numeral is as follows:

1-basis cooling circulating water system; 2-water charging system; 3-regulates cooling circulating water system; 4-I stop valve; 5-I cooling tower; 6-II stop valve; 7-I storage tank; 8-I variable frequency pump group; The outside water system of 9-; 10-II storage tank; 11-III variable frequency pump group; 12-plate type heat exchanger; 13-handpiece Water Chilling Units; 14-III storage tank; 15-IV variable frequency pump group; 16-II cooling tower; 17-running water water source; 18-reverse osmosis unit; 19-IV storage tank; 20-V variable frequency pump group; 21-I triple valve; 22-II variable frequency pump; 23-motor-driven valve; 24-butterfly filter; 25-VI variable frequency pump; 26-II triple valve.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model preferred embodiment is described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of utility model, and be not used in restriction utility model.

As shown in Figure 1, a kind of little temperature becomes combined type cooling circulating water system, and comprise basic cooling circulating water system 1 and water charging system 2, described basic cooling circulating water system 1 comprises I stop valve 4, I cooling tower 5, II stop valve 6, I storage tank 7, I variable frequency pump group 8 and outside water system 9 and connect to form closed loop base water closed circuit by water lines successively, the delivery port of described I variable frequency pump group 8 is connected with the feed water inlet of outside water system 9, the water inlet of I stop valve 4 is connected with the water return outlet of outside water system 9, also comprise and regulate cooling circulating water system 3, described adjustment cooling circulating water system 3 comprises II storage tank 10, III variable frequency pump group 11, plate type heat exchanger 12, handpiece Water Chilling Units 13, III storage tank 14, IV variable frequency pump group 15 and II cooling tower 16, described II storage tank 10, III variable frequency pump group 11, plate type heat exchanger 12, handpiece Water Chilling Units 13, III storage tank 14, IV variable frequency pump group 15, be connected to II storage tank 10 through handpiece Water Chilling Units 13 again after II cooling tower 16 is connected by water lines successively and form closed-loop adjustment water-flow circuit, one group of intake-outlet of described plate type heat exchanger 13 is connected in the water lines at II stop valve 6 two ends, and described water charging system 2 is respectively with basic cooling circulating water system 1 with regulate cooling circulating water system 3 to be connected, described water charging system 2 comprises running water water source 17, reverse osmosis unit 18, IV storage tank 19 is with V variable frequency pump group 20 and be connected by water lines successively, described V variable frequency pump group 20 is provided with two water supplement ports, a water supplement port of described V variable frequency pump group 20 is connected with II storage tank 10 and III storage tank 14 respectively through I triple valve 21, and another water supplement port of described V variable frequency pump group 20 is connected by water lines with I storage tank 7, also comprise II variable frequency pump 22, motor-driven valve 23, butterfly filter 24 and VI variable frequency pump 25, the water inlet of described II variable frequency pump 22 is connected with I storage tank 7, the delivery port of II variable frequency pump 22 is connected in the water lines between the water return outlet of outside water system 9 and I stop valve 4 through II triple valve 26, described motor-driven valve 23 one end is connected with I storage tank 7 by water lines, motor-driven valve 23 other end is connected in the water lines between the water return outlet of outside water system 9 and described II triple valve 26, described I storage tank 7, VI variable frequency pump 25, butterfly filter 24 connects to form closed loop filtered water closed circuit by water lines successively, described handpiece Water Chilling Units 13 comprises compressor, condenser, expansion valve, evaporimeter connect to form refrigeration cycle by refrigeration working medium successively.

Running water water source 17 enters IV storage tank 19 after reverse osmosis unit 18, measured value according to the backwater side temperature sensor at I storage tank 7 place calculates refrigeration requirement, be delivered to V variable frequency pump group 20, simultaneously calculate the required water yield according to the cooling capacity of II cooling tower 16 and outdoor temperature, thus reasonable distribution enters the water yield of II storage tank 10 and III storage tank 14, and supply water can at any time I storage tank 7.

In normal use, run closed loop base water closed circuit, mainly utilize the backwater of natural cooling source to outside water system 9 to cool back use, now II stop valve 6 is openings; When I cooling tower 5 cannot meet cooling require time, automatic startup plate type heat exchanger 12 carries out heat exchange, closed-loop adjustment water-flow circuit runs, now II stop valve 6 is closed conditions, but handpiece Water Chilling Units 13 is not run, only play the effect in conducting water route, moisturizing from the water outlet of the reverse osmosis unit 18 in water charging system 2, through V variable frequency pump group 20 moisturizing; When II cooling tower 16 in closed-loop adjustment water-flow circuit cannot meet cooling require time, automatically open handpiece Water Chilling Units, utilize handpiece Water Chilling Units to cool the under-supply problem of solution II cooling tower 16 cold; According to sensor real-time watch device return water temperature and outdoor temperature in water charging system 2, calculate refrigeration requirement, under satisfied cooling requires, the size of reasonable each several part output, reduce the output of reverse osmosis unit 18 and each water pump assembly as far as possible, thus reduce system energy consumption; This system is also provided with closed loop filtered water closed circuit, can impurity in the backwater of filter out extraneous water system 9, increases the service life of whole system; II variable frequency pump 22 added and I cooling tower 5 etc. with the use of rear, can realize the water stored in I storage tank 7 from cool cycles, and then ensure the required water temperature requirement of outside water system 9.

Native system have employed plate type heat exchanger 12 and handpiece Water Chilling Units 13, therefore certain requirement is had to the water quality of recirculated water, simultaneously for ensureing the life-span that whole system is run and reducing maintenance maintenance number of times, reverse osmosis unit 18 is applied in water charging system 2, not only effectively can improve the operational efficiency that water quality improves plate type heat exchanger 12 and handpiece Water Chilling Units 13, can also ensure to provide excellent water quality to outside water system 9; Draw after having carried out numerical simulation to the flow of this system and conventional chilling circulation and temperature: becoming 15 DEG C for backwater, outdoor temperature is higher than water temperature 5 DEG C after cooling and when keeping constant, this system can save energy consumption more than 20% compared with conventional system.

Last it is noted that the foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, although be described in detail the utility model with reference to previous embodiment, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. one kind little temperature becomes combined type cooling circulating water system, comprise basic cooling circulating water system (1) and water charging system (2), described basic cooling circulating water system (1) comprises I stop valve (4), I cooling tower (5), II stop valve (6), I storage tank (7), I variable frequency pump group (8) and outside water system (9) and connect to form closed loop base water closed circuit by water lines successively, the delivery port of described I variable frequency pump group (8) is connected with the feed water inlet of outside water system (9), (water return outlet of 9 is connected for water inlet and the outside water system of I stop valve (4), it is characterized in that: also comprise and regulate cooling circulating water system (3), described adjustment cooling circulating water system (3) comprises II storage tank (10), III variable frequency pump group (11), plate type heat exchanger (12), handpiece Water Chilling Units (13), III storage tank (14), IV variable frequency pump group (15) and II cooling tower (16), described II storage tank (10), III variable frequency pump group (11), plate type heat exchanger (12), handpiece Water Chilling Units (13), III storage tank (14), IV variable frequency pump group (15), II storage tank (10) composition closed-loop adjustment water-flow circuit is connected to through handpiece Water Chilling Units (13) again after II cooling tower (16) is connected by water lines successively, one group of intake-outlet of described plate type heat exchanger (13) is connected in the water lines at II stop valve (6) two ends, described water charging system (2) is respectively with basic cooling circulating water system (1) with regulate cooling circulating water system (3) to be connected.

2. a kind of little temperature as claimed in claim 1 becomes combined type cooling circulating water system, it is characterized in that: described water charging system (2) comprises running water water source (17), reverse osmosis unit (18), IV storage tank (19) is with V variable frequency pump group (20) and be connected by water lines successively, described V variable frequency pump group (20) is provided with two water supplement ports, a water supplement port of described V variable frequency pump group (20) is connected with II storage tank (10) and III storage tank (14) respectively through I triple valve (21), another water supplement port of described V variable frequency pump group (20) is connected by water lines with I storage tank (7).

3. a kind of little temperature as claimed in claim 1 or 2 becomes combined type cooling circulating water system, it is characterized in that: also comprise II variable frequency pump (22), motor-driven valve (23), butterfly filter (24) and VI variable frequency pump (25), the water inlet of described II variable frequency pump (22) is connected with I storage tank (7), the delivery port of II variable frequency pump (22) is connected in the water lines between the water return outlet of outside water system (9) and I stop valve (4) through II triple valve (26), described motor-driven valve (23) one end is connected with I storage tank (7) by water lines, motor-driven valve (23) other end is connected in the water lines between the water return outlet of outside water system (9) and described II triple valve (26), described I storage tank (7), VI variable frequency pump (25), butterfly filter (24) connects to form closed loop filtered water closed circuit by water lines successively.

4. little temperature as claimed in claim 3 a kind of becomes combined type cooling circulating water system, it is characterized in that: described handpiece Water Chilling Units (13) comprises compressor, condenser, expansion valve, evaporimeter also connect to form refrigeration cycle by refrigeration working medium successively.