CN212029800U - Energy-saving air conditioner - Google Patents

Abstract

The utility model relates to the technical field of air conditioners, in particular to an energy-saving air conditioner, which comprises a case, wherein a cold-heat exchanger, a water collecting device arranged below the cold-heat exchanger and an air flow generating device used for driving air flow in the case are arranged in the case, the air flow generating device is arranged on one side of the cold-heat exchanger, the water collecting device comprises a water collecting tank and a negative pressure generating device communicated with the water collecting tank, the cold-heat exchanger is provided with a water inlet pipe and a water outlet pipe, and one side of the water outlet pipe is communicated with the negative pressure generating device; the air conditioner further comprises a control panel, and the cold-heat exchanger, the negative pressure generating device and the airflow generating device are respectively electrically connected with the control panel. The utility model has the advantages of energy saving and emission reduction and waste water cyclic utilization.

Description

Energy-saving air conditioner

Technical Field

The utility model relates to an air conditioning technology field, more specifically say, it relates to an energy-saving air conditioner.

Background

Air conditioners are air conditioners. The device is used for manually regulating and controlling parameters such as temperature, humidity, flow rate and the like of ambient air in a building or a structure.

Generally comprises a cold source/heat source device, a cold and hot medium delivery and distribution system, a terminal device and other auxiliary devices. The system mainly comprises a refrigeration host, a water pump, a fan and a pipeline system. The end device is responsible for specifically processing the air state by utilizing the cold and heat quantity from the transmission and distribution so as to enable the air parameters of the target environment to meet the requirements.

Most air conditioners can be used indoors only when being in a relatively sealed environment, namely, parameters such as the temperature, the humidity and the flow rate of indoor ambient air are adjusted and controlled through the air conditioners, so that the indoor temperature is changed in a preset mode, but in general public areas, particularly large areas such as factories, relatively sealed environmental states cannot be achieved due to site limitation and consideration of potential safety hazards of the factories, therefore, cold air or hot air can be continuously and continuously manufactured only through high-power air conditioners, the air conditioners in the states are used continuously and high in power, energy consumption is extremely high, and the temperature adjusting effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving air conditioner, has energy saving and emission reduction and waste water cyclic utilization's advantage to the not enough of above-mentioned prior art.

The above technical purpose of the present invention can be achieved by the following technical solutions: an energy-saving air conditioner comprises a case, wherein a cold-heat exchanger, a water collecting device arranged below the cold-heat exchanger and an airflow generating device used for driving airflow in the case to flow are arranged in the case, the airflow generating device is arranged on one side of the cold-heat exchanger, the water collecting device comprises a water collecting tank and a negative pressure generating device communicated with the water collecting tank, the cold-heat exchanger is provided with a water inlet pipe and a water outlet pipe, and one side of the water outlet pipe is communicated with the negative pressure generating device;

the air conditioner further comprises a control panel, and the cold-heat exchanger, the negative pressure generating device and the airflow generating device are respectively electrically connected with the control panel.

Preferably, the airflow generating device comprises an electric fan arranged on the mounting frame, and the electric fan is electrically connected to the control panel.

Preferably, the negative pressure generating device comprises a water pump, the water collecting tank and the water inlet pipe are respectively communicated with the water pump, and the water pump is electrically connected to the control panel.

Preferably, the water inlet pipe is provided with a flow valve.

Preferably, a filter screen is arranged between the water outlet pipe and the cold-heat exchanger.

Preferably, an emptying valve is arranged between the water collecting tank and the water inlet pipe.

Preferably, a water level sensing device is further arranged in the water collecting tank and electrically connected with the water pump.

Preferably, the water level sensing device comprises a low water level sensor, a medium water level sensor and a high water level sensor which are arranged in the water collecting tank from low to high in sequence, and the low water level sensor, the medium water level sensor and the high water level sensor are electrically connected to the control panel respectively.

Preferably, the control panel is provided with a plurality of prompting lamps, and the prompting lamps are arranged in one-to-one correspondence with the low water level sensor, the medium water level sensor and the high water level sensor.

Preferably, a check valve is arranged between the cold-heat exchanger and the water inlet pipe.

To sum up, the utility model discloses beneficial effect who has:

1. the external refrigerating mechanism makes the medium into a refrigerant, the refrigerant flows to the cold-heat exchanger through a pipeline, when the refrigerant passes through the cold-heat exchanger, the temperature of the air in the periphery of the case is reduced, and the air in the periphery of the case is continuously subjected to cold-heat alternation by using the airflow generating device, so that the refrigerating effect is achieved;

2. cold heat exchanger is under the operating condition that lasts, need constantly consume the cold coal, and cold heat exchanger is under work, when contacting the air, moisture in the air has obtained the liquefaction and has formed the comdenstion water, and then utilize the header tank to collect the comdenstion water that the liquefaction obtained, utilize the negative pressure to produce the comdenstion water of device with the header tank and take out refrigerating mechanism, the comdenstion water through refrigerating mechanism further refrigerates and forms the refrigerant, with this operation more than the recirculatory, and then further obtain utilizing the comdenstion water that cold heat exchanger produced, with this effect that reaches energy saving and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of the entire case according to the embodiment of the present invention;

fig. 2 is a schematic partial structure diagram of the back surface in the chassis according to the embodiment of the present invention;

fig. 3 is a partial schematic structural diagram of the front surface in the case according to the embodiment of the present invention;

fig. 4 is a schematic diagram of the circuit connection in the case according to the embodiment of the present invention.

Reference numerals: 1. a chassis; 2. a cold-heat exchanger; 3. a water collection device; 31. a water collection tank; 32. a negative pressure generating device; 4. an air flow generating device; 5. a control panel; 6. a flow valve; 7. a water level sensing device; 8. and a prompt lamp.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

An energy-saving air conditioner, referring to fig. 1 to 4, comprises a cabinet 1, wherein a cold-heat exchanger 2, a water collecting device 3 disposed below the cold-heat exchanger 2, and an airflow generating device 4 for driving airflow in the cabinet 1 to flow are disposed in the cabinet 1, the airflow generating device 4 is mounted on one side of the cold-heat exchanger 2, the water collecting device 3 includes a water collecting tank 31 and a negative pressure generating device 32 communicated with the water collecting tank 31, the cold-heat exchanger 2 is provided with a water inlet pipe and a water outlet pipe, and one side of the water outlet pipe is communicated with the negative pressure generating device 32;

the air conditioner further comprises a control panel 5, and the cold-heat exchanger 2, the negative pressure generating device 32 and the airflow generating device 4 are electrically connected with the control panel 5 respectively.

An operator controls the operation of the cold heat exchanger 2, the negative pressure generating device 32 and the airflow generating device 4 through the control panel 5, the device makes media into a refrigerant through an external refrigerating mechanism, the refrigerant flows back to the cold heat exchanger 2 through a pipeline, the temperature of the air in the periphery of the case 1 is reduced when the refrigerant passes through the cold heat exchanger 2, and the air in the periphery of the case 1 is continuously subjected to cold and heat alternation by the airflow generating device 4, so that the refrigerating effect is achieved.

In addition, the cold-heat exchanger 2 needs to consume cold coal continuously in a continuous working state, and when the cold-heat exchanger 2 works, moisture in the air is liquefied to form condensed water when the cold-heat exchanger 2 contacts the air, the condensed water obtained by liquefaction is collected by the water collecting tank 31, the condensed water in the water collecting tank 31 is pumped back to the refrigerating mechanism by the negative pressure generating device 32, the condensed water passing through the refrigerating mechanism is further refrigerated to form a refrigerant, and the operation is repeatedly circulated to achieve the operation above, so that the water generated by the cold-heat exchanger 2 is further utilized, and the purposes of saving energy and reducing emission are achieved.

Specifically, the airflow generating device 4 comprises an electric fan arranged on the mounting frame, and the electric fan is electrically connected to the control panel 5.

In the embodiment, the electric fan is adopted, so that air in the case 1 flows, the electric fan is controlled by the control panel 5, the air flow is controlled by the rotation speed of the electric fan, and the effect of changing the refrigeration degree of the air conditioner is further realized.

In addition, the embodiment can also adopt an air doubling machine, and the effects can be achieved.

Specifically, the negative pressure generating device 32 includes a water pump, the water collecting tank 31 and the water inlet pipe are respectively communicated with the water pump, and the water pump is electrically connected to the control panel 5.

This water pump passes through control panel 5 and external circuit connection, and the water pump is through external electric power, takes out water from header tank 31 in 31 to reach waste water utilization's purpose. Since the water pump is electrically connected to the control panel 5, the operation state of the water pump is also controlled by the operation of the control panel 5.

Specifically, the inlet tube is provided with a flow valve 6. The flow valve 6 is arranged, so that the flow of the cold coal coming out of the refrigerating mechanism can be controlled, and the refrigerating effect of the cold-heat exchanger 2 is further controlled due to the limitation of the flow of the cold coal.

Specifically, a filter screen is arranged between the water outlet pipe and the cold-heat exchanger 2. The setting of filter screen can further protect in the water pipe, utilizes the filter screen to filter impurity in with the cold coal, prevents because impurity is too much in the water pipe, and then produces the water pipe jam.

Specifically, an emptying valve is arranged between the water collecting tank 31 and the water inlet pipe.

In this embodiment, an evacuation valve may be further employed to pump the water in the water collection tank 31 into the refrigeration mechanism through the evacuation valve disposed between the water collection tank 31 and the refrigeration mechanism.

In this embodiment, the combination of the water pump and the emptying valve is adopted, the water pump pumps away the condensed water in the water tank from the refrigerating mechanism, and the remaining condensed water in the pipeline and the water collecting tank 31 is retained by the emptying valve, so that the cold coal is prevented from being blocked in the water collecting tank 31 and the pipeline.

A water level sensing device 7 is further arranged in the water collecting tank 31, and the water level sensing device 7 is electrically connected with the water pump.

Specifically, a water level sensing device 7 is further arranged in the water collecting tank 31, and the water level sensing device 7 is electrically connected with the water pump.

The setting of water level induction system 7, the operation of the water pump of being convenient for, through the response water level of water level induction system 7, and then make the water pump can in time take out the comdenstion water in the header tank 31 and leave, be unlikely to the condition that the comdenstion water spills over.

Specifically, the water level sensing device 7 includes a low water level sensor, a medium water level sensor and a high water level sensor which are arranged in the water collecting tank 31 in sequence from low to high, and the low water level sensor, the medium water level sensor and the high water level sensor are electrically connected to the control panel 5 respectively.

When only the low water level sensor senses the water level, the control panel 5 can control the water pump to stop operating; when the middle water level sensor and the low water level sensor sense the water level, the control panel 5 can control the water pump to operate slowly to slowly pump out the water in the water collecting tank 31; when the middle and high water level sensor senses the water level, the control panel 5 can control the water pump to operate quickly, and the water in the water collecting tank 31 is quickly pumped out.

Specifically, control panel 5 is equipped with multiple warning light 8, warning light 8 with low water level inductor the well water level inductor and the high water level inductor one-to-one sets up.

Through the setting of warning light 8 for the operator can learn the condition of water level in the header tank 31 through warning light 8.

Specifically, a one-way valve is arranged between the cold-heat exchanger 2 and the water inlet pipe. Since the water pump pumps the condensed water in the water collection tank 31 into the refrigeration mechanism, in order to prevent the pumped condensed water from flowing back into the cold-heat exchanger 2, the condensed water can only flow in one direction by providing a check valve between the cold-heat exchanger 2 and the water inlet pipe.

The refrigeration mechanism in the embodiment adopts the condenser, the cold coal manufactured by the refrigeration mechanism can be supplied to a plurality of air conditioners, and the effects of energy conservation and emission reduction are achieved by utilizing the effect of waste water collection. In addition, the heat exchanger 2 in the present embodiment uses an evaporator, and the air conditioner is low in manufacturing cost, does not need to cool the room in a large range in a relatively sealed condition, and thus has low power consumption, and is convenient for cooling and removing summer heat for the operating personnel.

In this embodiment, the control panel 5 is a key-type control panel 5, and certainly, the control panel 5 may also be electrically connected to other mechanisms through a touch screen by installing the touch screen.

The above embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the present invention.

Claims (10)

1. An energy-saving air conditioner is characterized in that: the air flow generating device is arranged on one side of the cold-heat exchanger, the water collecting device comprises a water collecting tank and a negative pressure generating device communicated with the water collecting tank, the cold-heat exchanger is provided with a water inlet pipe and a water outlet pipe, and one side of the water outlet pipe is communicated with the negative pressure generating device;

the air conditioner further comprises a control panel, and the cold-heat exchanger, the negative pressure generating device and the airflow generating device are respectively electrically connected with the control panel.

2. An energy saving type air conditioner according to claim 1, wherein: the airflow generating device comprises an electric fan arranged on the mounting frame, and the electric fan is electrically connected to the control panel.

3. An energy saving type air conditioner according to claim 2, wherein: the negative pressure generating device comprises a water pump, the water collecting tank and the water inlet pipe are respectively communicated with the water pump, and the water pump is electrically connected to the control panel.

4. An energy saving type air conditioner according to claim 3, wherein: the inlet tube is provided with a flow valve.

5. An energy saving type air conditioner according to claim 4, wherein: and a filter screen is arranged between the water outlet pipe and the cold-heat exchanger.

6. An energy saving type air conditioner according to claim 5, wherein: an exhaust valve is arranged between the water collecting tank and the water inlet pipe.

7. An energy saving air conditioner according to claim 6, wherein: and a water level sensing device is also arranged in the water collecting tank and is electrically connected with the water pump.

8. An energy saving type air conditioner according to claim 7, wherein: the water level sensing device comprises a low water level sensor, a middle water level sensor and a high water level sensor which are arranged in the water collecting tank from low to high in sequence, wherein the low water level sensor, the middle water level sensor and the high water level sensor are electrically connected to the control panel respectively.

9. An energy saving type air conditioner according to claim 8, wherein: the control panel is provided with a plurality of prompting lamps, and the prompting lamps are arranged in one-to-one correspondence with the low water level sensor, the medium water level sensor and the high water level sensor.

10. An energy saving type air conditioner according to claim 9, wherein: a one-way valve is arranged between the cold-heat exchanger and the water inlet pipe.

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