CN219415051U - Indoor air conditioning system - Google Patents

Abstract

The utility model discloses an indoor air conditioning system, which comprises an indoor temperature and humidity regulating system, a fresh air system, a hot water system and an environment monitoring control system, wherein the environment monitoring control system is electrically connected with the indoor temperature and humidity regulating system, the fresh air system and the hot water system respectively; the indoor temperature and humidity regulation system consists of cold and heat source equipment, a buffer water tank, a heating tail end, a refrigerating tail end and a heat supply circulating pump station. The beneficial effects are that: by sharing the heat and cold source equipment and matching with the buffer water tank, the heat exchange module and the energy storage water tank, waste heat in the system can be effectively utilized, so that the energy efficiency of the system is improved, and the energy is saved and the environment is protected; the number of external machines of the system can be greatly reduced by adopting shared cold and heat source equipment and auxiliary heat sources, and the installation is convenient; through the collaborative installation of indoor temperature and humidity control system, new trend system and hot water system, compare in the installation of current single independent system, the space occupation in reducible room greatly.

Description

Indoor air conditioning system

Technical Field

The utility model relates to the technical field of indoor environment control, in particular to an indoor air conditioning system.

Background

The existing indoor environment control systems, such as a central air conditioner, a floor heating system, a fresh air system and a swimming pool heat pump system, are independent control systems, are low in integration level, occupy large space of an external machine of various control devices, and are large in noise due to superposition of the noise of the systems in the use process; meanwhile, because the systems are mutually independent, more waste heat and waste cold exist among the systems in actual use, so that the energy consumption is higher; because each set of system needs to be independently opened and adjusted, the operation is complicated.

Disclosure of Invention

The present utility model has been made to solve the above problems, and an object of the present utility model is to provide an indoor air conditioning system, wherein among a plurality of technical solutions provided by the present utility model, preferred technical solutions include: the integrated level is high, the noise is low, the integrated level is high, the control operation is convenient and fast, and the like, and the technical effects are explained in detail below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides an indoor air conditioning system, which comprises an indoor temperature and humidity regulating system, a fresh air system, a hot water system and an environment monitoring control system, wherein the environment monitoring control system is electrically connected with the indoor temperature and humidity regulating system, the fresh air system and the hot water system respectively;

the indoor temperature and humidity regulation system consists of cold and heat source equipment, a buffer water tank, a heating tail end, a refrigerating tail end and a heat supply circulating pump station;

the fresh air system consists of cold and heat source equipment, an indoor air treatment integrated machine, a buffer water tank, an auxiliary heat source and a circulating pump;

the hot water system consists of cold and heat source equipment, an auxiliary heat source, a heat exchange module, an energy storage water tank and a hot water circulating pump;

the environment monitoring control system consists of a main controller, a temperature control panel, an outdoor temperature and humidity detector, an indoor air detector and an exhaust fan.

Preferably, in the indoor temperature and humidity regulation system, the buffer water tank is connected with a cold and heat source device, and is connected with a heating end and a cooling end through the heat supply circulation pump station, and the heating end and the cooling end are respectively communicated with the heat supply circulation pump station through the water separator.

Preferably, two buffer water tanks are arranged, and are respectively connected with an automatic water supplementing valve externally connected with tap water.

Preferably, the hot water circulating pump is connected with an indoor hot water pipeline.

Preferably, the heat exchange module is an electric heating water tank or a plate heat exchanger.

In summary, the utility model has the following beneficial effects: 1. by carrying out integrated control on the indoor temperature and humidity regulation system, the fresh air system and the hot water system, and by sharing the heat and cold source equipment and matching with the buffer water tank, the heat exchange module and the energy storage water tank, waste heat in the system can be effectively utilized, so that the energy efficiency of the system is improved, and the system is energy-saving and environment-friendly;

2. the number of external machines of the system can be greatly reduced by adopting shared cold and heat source equipment and auxiliary heat sources, and the installation is convenient;

3. through the collaborative installation of indoor temperature and humidity control system, new trend system and hot water system, compare in the installation of current single independent system, the space occupation in reducible room greatly.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the system architecture of the present utility model.

The reference numerals are explained as follows:

1. a cold and heat source device; 2. a circulating pump; 3. an auxiliary heat source; 4. automatic water supplementing valve; 5. a heat exchange module; 6. a booster pump; 7. an exhaust fan; 8. an outdoor temperature and humidity detector; 9. an indoor air detector; 10. a main controller; 11. a dew point detector; 12. a temperature control panel; 13. a hot water circulation pump; 14. an energy storage water tank; 15. a heat supply circulating pump station; 16. a refrigerated end; 17. heating the tail end; 18. an indoor air treatment integrated machine; 19. buffer water tank.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1, the utility model provides an indoor air conditioning system, which comprises an indoor temperature and humidity regulating system, a fresh air system, a hot water system and an environment monitoring control system, wherein the environment monitoring control system is electrically connected with the indoor temperature and humidity regulating system, the fresh air system and the hot water system respectively;

the indoor temperature and humidity regulation system consists of cold and heat source equipment 1, a buffer water tank 19, a heating tail end 17, a refrigerating tail end 16 and a heat supply circulation pump station 15; in the system, a refrigerating end 16 and a heating end 17 are both refrigerant circulation pipelines, the refrigerant circulation pipelines are paved below an indoor bottom plate, and after the refrigerant in a buffer water tank 19 is supplied to the refrigerating end 16 and the heating end 17 through a heating circulation pump station 15, the indoor temperature can be regulated in a ground radiation mode; in the indoor temperature and humidity regulation system, the buffer water tank 19 is connected with the cold and heat source equipment 1, and is connected with the heating tail end 17 and the refrigerating tail end 16 through the heat supply circulation pump station 15, and the heating tail end 17 and the refrigerating tail end 16 are respectively communicated with the heat supply circulation pump station 15 through a water separator;

the fresh air system consists of cold and heat source equipment 1, an indoor air treatment integrated machine 18, a buffer water tank 19, an auxiliary heat source 3 and a circulating pump 2; one end of an air supply pipeline is connected with an air outlet of the indoor air treatment integrated machine 18, the other end of the air supply pipeline is communicated to each room after being externally connected with an air pipe, the indoor air is replaced by multiple filtration of the indoor air treatment integrated machine 18, the indoor air path is circulated in a mode of downward feeding and upward returning, a fresh air lake is formed, PM2.5 in the air can be filtered, and the indoor air is ensured to be clean; in the presence of the auxiliary heat source 3, the indoor air can be subjected to isothermal or isenthalpic dehumidification through the indoor air treatment integrated machine 18 so as to regulate the indoor air humidity and avoid indoor mildew; simultaneously, the air temperature and humidity, the air quality and the air flow organization of the room where the indoor swimming pool is located can be adjusted, so that the temperature and humidity in the indoor swimming pool environment are balanced, and the comfort level is further improved;

the hot water system consists of cold and heat source equipment 1, an auxiliary heat source 3, a heat exchange module 5, an energy storage water tank 14 and a hot water circulating pump 13; the cold and heat source equipment 1 provides a heat source, stores hot water in the energy storage water tank 14 after being heated by the heat exchange module 5, and then sends the hot water to a domestic water pipeline or a heating pipeline of the indoor swimming pool through the hot water circulating pump 13; the hot water circulating pump 13 is connected with an indoor hot water pipeline, and the hot water pipeline can be connected with a domestic hot water pipeline and also can be connected with a water temperature adjusting pipeline of an indoor swimming pool to supply hot water and adjust the water temperature of the swimming pool; the heat exchange module 5 is an electric heating water tank or a plate heat exchanger, when domestic hot water in a room is supplied, the electric heating water tank with smaller power can be adopted, and when the water temperature of the swimming pool in the room needs to be regulated, the plate heat exchanger can be adopted as heat exchange equipment because the required heat exchange power is larger;

the environment monitoring control system consists of a main controller 10, a temperature control panel 12, an outdoor temperature and humidity detector 8, an indoor air detector 9, a dew point detector 11 and an exhaust fan 7, wherein the indoor air detector 9 is used for detecting the content of carbon dioxide and PM2.5 in an indoor environment, the exhaust fan 7 is used for indoor ventilation, the main controller 10 is respectively and electrically connected with a cold and heat source device 1 and an indoor air treatment integrated machine 18, and the main controller 10 is in bidirectional communication with the temperature control panel 12, the outdoor temperature and humidity detector 8, the indoor air detector 9, the exhaust fan 7, the cold and heat source device 1 and the indoor air treatment integrated machine 18 by adopting an RS485 communication protocol so as to realize temperature and humidity detection, indoor carbon dioxide concentration detection, indoor air quality detection and indoor air regulation control;

the system is also provided with a booster pump 6 for supplying water to the buffer water tank 19 and the energy storage water tank 14.

As another implementation mode of the buffer water tank 19, two buffer water tanks 19 are provided, and are respectively connected with an automatic water supplementing valve 4 externally connected with tap water, the automatic water supplementing valve 4 can automatically supplement water to the buffer water tanks 19, two buffer water tanks 19 are provided, and two paths of coolant supply are matched, so that the adaptability of the system to different building areas can be further improved, and the maintenance of single coolant management is facilitated;

by carrying out integrated control on the indoor temperature and humidity regulation system, the fresh air system and the hot water system, and by sharing the heat and cold source equipment and matching with the buffer water tank 19, the heat exchange module 5 and the energy storage water tank 14, waste heat in the system can be effectively utilized, so that the energy efficiency of the system is improved, and the system is energy-saving and environment-friendly; the number of external machines of the system can be greatly reduced by adopting the shared cold and heat source equipment 1 and the auxiliary heat source 3, and the installation is convenient; through the collaborative installation of indoor temperature and humidity control system, new trend system and hot water system, compare in the installation of current single independent system, the space occupation in reducible room greatly.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (5)

1. The indoor air conditioning system is characterized by comprising an indoor temperature and humidity adjusting system, a fresh air system, a hot water system and an environment monitoring control system, wherein the environment monitoring control system is electrically connected with the indoor temperature and humidity adjusting system, the fresh air system and the hot water system respectively;

the indoor temperature and humidity regulation system consists of cold and heat source equipment (1), a buffer water tank (19), a heating tail end (17), a refrigerating tail end (16) and a heat supply circulating pump station (15);

the fresh air system consists of cold and heat source equipment (1), an indoor air treatment integrated machine (18), a buffer water tank (19), an auxiliary heat source (3) and a circulating pump machine (2);

the hot water system consists of cold and heat source equipment (1), an auxiliary heat source (3), a heat exchange module (5), an energy storage water tank (14) and a hot water circulating pump (13);

the environment monitoring control system consists of a main controller (10), a temperature control panel (12), an outdoor temperature and humidity detector (8), an indoor air detector (9) and an exhaust fan (7).

2. An indoor air conditioning system according to claim 1, wherein: in the indoor temperature and humidity regulation system, a buffer water tank (19) is connected with cold and heat source equipment (1), and is connected with a heating tail end (17) and a refrigerating tail end (16) through a heat supply circulating pump station (15), and the heating tail end (17) and the refrigerating tail end (16) are respectively communicated with the heat supply circulating pump station (15) through a water separator.

3. An indoor air conditioning system according to claim 2, wherein: the two buffer water tanks (19) are respectively connected with an automatic water supplementing valve (4) externally connected with tap water.

4. An indoor air conditioning system according to claim 1, wherein: the hot water circulating pump (13) is connected with an indoor hot water pipeline.

5. An indoor air conditioning system according to claim 1, wherein: the heat exchange module (5) is an electric heating water tank or a plate heat exchanger.