CN204240537U

CN204240537U - Central air conditioning system energy saver

Info

Publication number: CN204240537U
Application number: CN201420692378.8U
Authority: CN
Inventors: 吴彬; 吴润萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-11-18
Filing date: 2014-11-18
Publication date: 2015-04-01
Anticipated expiration: 2024-11-18

Abstract

The utility model relates to technical field of central air, particularly central air conditioning system energy saver, comprises compressor body and cooling tower, and compressor body is provided with water inlet, freezing water outlet, freeze that water is answered back, cooling water inlet and coolant outlet; Cooling tower is provided with tower water inlet, tower discharge outlet one and tower discharge outlet two, it also includes storage tank, drip tray and electric control gear, storage tank inner chamber is provided with water level controller, and the first electrically operated valve, the second electrically operated valve, the 3rd electrically operated valve, the 4th electrically operated valve, the 5th electrically operated valve, the 6th electrically operated valve are all connected with electric control gear by wire or data wire with water level controller.When using the utility model, various selection can be realized and recycle, greatly having saved the water yield, various energy being obtained rationally control freely; Save a large amount of energy consumptions simultaneously.It is simple that the utility model has structure, arranges rationally, the advantages such as cost of manufacture is low.

Description

Central air conditioning system energy saver

Technical field

The utility model relates to technical field of central air, particularly central air conditioning system energy saver.

Background technology

Along with developing rapidly of urbanization process, the central air-conditioning used in building gets more and more.At present, the energy consumption of central air-conditioning accounts for more than 40% of whole building.When central air-conditioning designs, for ensureing can to meet consumers' demand when weather temperature is the highest, usually design according to peak load and exist about 15% affluence amount.In addition, a large amount of energy need be consumed when every day use, often cause the great wasting of resources.Therefore, how to take effective measures, Energy Saving Control is carried out to central air-conditioning or utilizes effective energy, reduce the much-talked-about topic that energy loss has become research in industry further.

Summary of the invention

The purpose of this utility model is defect for prior art and deficiency, provides a kind of structure simple, central air conditioning system energy saver reasonable in design, easy to use.

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

Central air conditioning system energy saver described in the utility model, comprise compressor body and cooling tower, described compressor body is provided with water inlet, freezing water outlet, freeze that water is answered back, cooling water inlet and coolant outlet, freezing water outlet is connected with and freezes water water main, freezes water and answers back to be connected with and freeze water return pipe; Described cooling tower is provided with tower water inlet, tower discharge outlet one and tower discharge outlet two, it also includes storage tank, drip tray and electric control gear, described storage tank is provided with storage water inlet, and the mouth of a river that picks out of described drip tray to be connected with tower water inlet by the 6th tube connector and to communicate; Water storage block is located at the centre place of drip tray; Described water inlet is connected with water supply pipe by the first three-way connection, and the first three-way connection to be also connected with tower discharge outlet one by the first tube connector and to communicate; This water supply pipe is provided with the first electrically operated valve, the first tube connector is provided with the 5th electrically operated valve, and the 5th electrically operated valve is between water inlet and tower discharge outlet one; Cooling water inlet is connected with the second tube connector by the second three-way connection, and the second tube connector is connected with tower discharge outlet two and communicates, the second three-way connection also by the 3rd tube connector with freeze water return pipe and be connected and communicate; Second tube connector is provided with the 6th electrically operated valve, the 3rd tube connector is provided with the second electrically operated valve; Described coolant outlet is connected with the 4th tube connector by the 3rd three-way connection, and the 4th tube connector one end is provided with trumpet-shaped shower nozzle, and this shower nozzle is positioned at directly over storage tank, the 4th tube connector is provided with the 3rd electrically operated valve; 3rd three-way connection is also connected by the 5th tube connector communicates with storage water inlet, and the 5th tube connector is provided with the 4th electrically operated valve; Described storage tank inner chamber is provided with water level controller, and described first electrically operated valve, the second electrically operated valve, the 3rd electrically operated valve, the 4th electrically operated valve, the 5th electrically operated valve, the 6th electrically operated valve are all connected with electric control gear by wire or data wire with water level controller.

Further, described first tube connector is provided with flowmeter, flowmeter is between water inlet and the 4th electrically operated valve.

Further, described first tube connector is also provided with check valve, and check valve is between water inlet and flowmeter.

After adopting said structure, the utility model beneficial effect is: central air conditioning system energy saver described in the utility model, comprise compressor body and cooling tower, described compressor body is provided with water inlet, freezing water outlet, freeze that water is answered back, cooling water inlet and coolant outlet, freezing water outlet is connected with and freezes water water main, freezes water and answers back to be connected with and freeze water return pipe; Described cooling tower is provided with tower water inlet, tower discharge outlet one and tower discharge outlet two, it also includes storage tank, drip tray and electric control gear, described storage tank is provided with storage water inlet, and the mouth of a river that picks out of described drip tray to be connected with tower water inlet by the 6th tube connector and to communicate; Water storage block is located at the centre place of drip tray; Described water inlet is connected with water supply pipe by the first three-way connection, and the first three-way connection to be also connected with tower discharge outlet one by the first tube connector and to communicate; This water supply pipe is provided with the first electrically operated valve, the first tube connector is provided with the 5th electrically operated valve, and the 5th electrically operated valve is between water inlet and tower discharge outlet one; Cooling water inlet is connected with the second tube connector by the second three-way connection, and the second tube connector is connected with tower discharge outlet two and communicates, the second three-way connection also by the 3rd tube connector with freeze water return pipe and be connected and communicate; Second tube connector is provided with the 6th electrically operated valve, the 3rd tube connector is provided with the second electrically operated valve; Described coolant outlet is connected with the 4th tube connector by the 3rd three-way connection, and the 4th tube connector one end is provided with trumpet-shaped shower nozzle, and this shower nozzle is positioned at directly over storage tank, the 4th tube connector is provided with the 3rd electrically operated valve; 3rd three-way connection is also connected by the 5th tube connector communicates with storage water inlet, and the 5th tube connector is provided with the 4th electrically operated valve; Described storage tank inner chamber is provided with water level controller, and described first electrically operated valve, the second electrically operated valve, the 3rd electrically operated valve, the 4th electrically operated valve, the 5th electrically operated valve, the 6th electrically operated valve are all connected with electric control gear by wire or data wire with water level controller.

When using the utility model, controlling the first electrically operated valve by electric control gear and closing and the unlatching of the 5th electrically operated valve, the water of cooling tower can be allowed directly to enter compressor body, saved water source; Control the 3rd electrically operated valve by water level controller and electric control gear to close and the unlatching of the 4th electrically operated valve, realize carrying out moisturizing to storage tank, hot water savings are got up; Control the 3rd electrically operated valve by water level controller and electric control gear to open and the closedown of the 4th electrically operated valve, realize carrying out water spray insulation to storage tank; Control the second electrically operated valve by electric control gear to open, the water freezing water return pipe can be allowed to enter cooling system, control the 6th electrically operated valve by electric control gear to open, the cold water of cooling tower can be allowed to enter cooling system, various selection can be realized like this and recycle, greatly save the water yield, various energy has been obtained rationally control freely; Save a large amount of energy consumptions simultaneously.It is simple that the utility model has structure, arranges rationally, the advantages such as cost of manufacture is low.

Accompanying drawing explanation

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

Description of reference numerals:

1, compressor body; 1-1, water inlet; 1-2, freezing water outlet; 1-3, freeze water and answer back;

1-4, cooling water inlet; 1-5, coolant outlet; 2, storage tank; 2-1, storage water inlet;

3, drip tray; 3-1, pick out the mouth of a river; 4, cooling tower; 4-1, tower water inlet;

4-2, tower discharge outlet one; 4-3, tower discharge outlet two; 51, the first electrically operated valve;

52, the second electrically operated valve; 53, the 3rd electrically operated valve; 54, the 4th electrically operated valve;

55, the 5th electrically operated valve; 56, the 6th electrically operated valve; 6, water level controller; 7, flowmeter;

8, check valve; 9, water water main is frozen; 10, water return pipe is frozen.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figure 1, central air conditioning system energy saver described in the utility model, comprise compressor body 1 and cooling tower 4, described compressor body 1 is provided with water inlet 1-1, freezing water outlet 1-2, freeze water answers back 1-3, cooling water inlet 1-4 and coolant outlet 1-5, freezing water outlet 1-2 is connected with and freezes water water main 9, freezes the water 1-3 that answers back and is connected with and freezes water return pipe 10.

Described cooling tower 4 is provided with tower water inlet 4-1, tower discharge outlet one 4-2 and tower discharge outlet two 4-3, it also includes storage tank 2, drip tray 3 and electric control gear, described storage tank 2 is provided with storage water inlet 2-1, and the mouth of a river 3-1 that picks out of described drip tray 3 to be connected with tower water inlet 4-1 by the 6th tube connector and to communicate; Storage tank 2 is located at the centre place of drip tray 3; The storage delivery port of storage tank 2 is connected with outside.

Described water inlet 1-1 is connected with water supply pipe by the first three-way connection, and the first three-way connection to be also connected with tower discharge outlet one 4-2 by the first tube connector and to communicate; This water supply pipe is provided with on the first electrically operated valve 51, first tube connector and is provided with the 5th electrically operated valve the 55, five electrically operated valve 55 between water inlet 1-1 and tower discharge outlet one 4-2.

Cooling water inlet 1-4 is connected with the second tube connector by the second three-way connection, and the second tube connector is connected with tower discharge outlet two 4-3 and communicates, the second three-way connection also by the 3rd tube connector with freeze water return pipe 10 and be connected and communicate; Second tube connector is provided with on the 6th electrically operated valve the 56, three tube connector and is provided with the second electrically operated valve 52.

Described coolant outlet 1-5 is connected with the 4th tube connector by the 3rd three-way connection, and the 4th tube connector one end is provided with trumpet-shaped shower nozzle, and this shower nozzle is positioned at directly over storage tank 2, the 4th tube connector is provided with the 3rd electrically operated valve 53; 3rd three-way connection to be also connected with storage water inlet 2-1 by the 5th tube connector and to communicate, and the 5th tube connector is provided with the 4th electrically operated valve 54; Described storage tank 2 inner chamber is provided with water level controller 6, and described first electrically operated valve 51, second electrically operated valve 52, the 3rd electrically operated valve 53, the 4th electrically operated valve 54, the 5th electrically operated valve 55, the 6th electrically operated valve 56 are all connected with electric control gear by wire or data wire with water level controller 6.When water level controller 6 detects that water is full, electric control gear controls the 3rd electrically operated valve and opens and the cut out of the 4th electrically operated valve, realizes carrying out water spray insulation to storage tank; When water level controller 6 detects water lower than water designated water level, electric control gear controls the 3rd electrically operated valve and cuts out and the unlatching of the 4th electrically operated valve, realizes carrying out moisturizing to storage tank, hot water savings is got up.

Further, described first tube connector is provided with flowmeter 7, flowmeter 7 is between water inlet 1-1 and the 4th electrically operated valve 55; Can be known by flowmeter 7 and know that cooling tower 4 has how many past water inlet 1-1 to supply, be convenient to management.

Further, described first tube connector is also provided with check valve 8, check valve 8 is between water inlet 1-1 and flowmeter 7, and check valve 8 can prevent the water of water supply pipe from entering cooling tower 4.

When using the utility model, controlling the first electrically operated valve by electric control gear and closing and the unlatching of the 5th electrically operated valve, the water of cooling tower can be allowed directly to enter compressor body, saved water source; Control the 3rd electrically operated valve by water level controller and electric control gear to close and the unlatching of the 4th electrically operated valve, realize carrying out moisturizing to storage tank, hot water savings are got up; Control the 3rd electrically operated valve by water level controller and electric control gear to open and the closedown of the 4th electrically operated valve, realize carrying out water spray insulation to storage tank; Control the second electrically operated valve by electric control gear to open, the water freezing water return pipe can be allowed to enter cooling system, control the 6th electrically operated valve by electric control gear to open, the cold water of cooling tower can be allowed to enter cooling system, various selection can be realized like this and recycle, greatly save the water yield, various energy has been obtained rationally control freely; Save a large amount of energy consumptions simultaneously.In addition, this structure is simple, reasonable in design, low cost of manufacture.

The above is only better embodiment of the present utility model, therefore all equivalences done according to structure, feature and the principle described in the utility model patent claim change or modify, and are included in the utility model patent claim.

Claims

1. central air conditioning system energy saver, comprise compressor body (1) and cooling tower (4), it is characterized in that: described compressor body (1) is provided with water inlet (1-1), freezing water outlet (1-2), freeze that water is answered back (1-3), cooling water inlet (1-4) and coolant outlet (1-5), freezing water outlet (1-2) is connected with and freezes water water main (9), freeze water answer back (1-3) be connected with and freeze water return pipe (10);

Described cooling tower (4) is provided with tower water inlet (4-1), tower discharge outlet one (4-2) and tower discharge outlet two (4-3), it also includes storage tank (2), drip tray (3) and electric control gear, described storage tank (2) is provided with storage water inlet (2-1), and the mouth of a river (3-1) that picks out of described drip tray (3) to be connected with tower water inlet (4-1) by the 6th tube connector and to communicate; Storage tank (2) seat is located at the centre place of drip tray (3);

Described water inlet (1-1) is connected with water supply pipe by the first three-way connection, and the first three-way connection is also connected with tower discharge outlet one (4-2) by the first tube connector and communicates; This water supply pipe is provided with the first electrically operated valve (51), first tube connector is provided with the 5th electrically operated valve (55), the 5th electrically operated valve (55) is positioned between water inlet (1-1) and tower discharge outlet one (4-2);

Cooling water inlet (1-4) is connected with the second tube connector by the second three-way connection, second tube connector is connected with tower discharge outlet two (4-3) and communicates, the second three-way connection also by the 3rd tube connector with freeze water return pipe (10) and be connected and communicate; Second tube connector is provided with the 6th electrically operated valve (56), the 3rd tube connector is provided with the second electrically operated valve (52);

Described coolant outlet (1-5) is connected with the 4th tube connector by the 3rd three-way connection, 4th tube connector one end is provided with trumpet-shaped shower nozzle, this shower nozzle is positioned at directly over storage tank (2), the 4th tube connector is provided with the 3rd electrically operated valve (53); 3rd three-way connection also by the 5th tube connector with store up water inlet (2-1) and be connected and communicate, the 5th tube connector is provided with the 4th electrically operated valve (54); Described storage tank (2) inner chamber is provided with water level controller (6), and described first electrically operated valve (51), the second electrically operated valve (52), the 3rd electrically operated valve (53), the 4th electrically operated valve (54), the 5th electrically operated valve (55), the 6th electrically operated valve (56) are all connected with electric control gear by wire or data wire with water level controller (6).

2. central air conditioning system energy saver according to claim 1, it is characterized in that: described first tube connector is provided with flowmeter (7), flowmeter (7) is positioned between water inlet (1-1) and the 4th electrically operated valve (55).

3. central air conditioning system energy saver according to claim 1, it is characterized in that: described first tube connector is also provided with check valve (8), check valve (8) is positioned between water inlet (1-1) and flowmeter (7).