CN210035809U - Multi-channel air conditioner controller - Google Patents

Abstract

The utility model provides a multichannel air conditioner controller, include: a wireless learning module for learning instructions of a plurality of air conditioners; the environment temperature acquisition module is used for acquiring environment temperature data of a machine room where the air conditioner is located; the air outlet temperature acquisition module is used for acquiring the temperature of the air outlet of each air conditioner; the wireless communication module is used for realizing wireless data communication; and the processor is used for acquiring the data of the wireless learning module, the ambient temperature acquisition module and the air outlet temperature acquisition module, processing the data, judging the running condition of each air conditioner and triggering the corresponding air conditioner to be turned on or turned off through the corresponding wireless communication module. The utility model also provides a multichannel air conditioner controller's application method. For a machine room with a plurality of air conditioners, only one multi-path air conditioner controller provided by the utility model can realize the control of all the air conditioners, thus reducing the cost; the energy-saving effect of the product can be accurately judged through accurate electric quantity data; the running state of the air conditioner can be judged in an auxiliary mode through the change of the electric quantity data.

Description

Multi-channel air conditioner controller

Technical Field

The utility model relates to an air conditioner controller especially relates to a can control the multichannel air conditioner controller of two or more than two air conditioners.

Background

In an unattended machine room, two air conditioners are usually configured to control the temperature, and an air conditioner controller is configured to automatically control the on/off of the air conditioners, so that the effect of reducing the electric quantity of the air conditioners is achieved. However, the conventional air conditioner controller controls a single air conditioner and does not have a function of measuring the power consumption of the air conditioner. The conventional air conditioner controller described above has the following drawbacks:

1. the deployment cost is high, and two air conditioners need to be deployed and two controllers are used for adjustment.

2. When the air conditioner controller has a problem and cannot timely control the air conditioner to be turned off, the background is relatively difficult to perceive.

3. The power saving effect cannot be accurately measured, and the balance between the increase of deployment cost and the reduction of operation cost is difficult.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an air conditioner that can control two or more than two, and have the electric power metering function to reduce the deployment cost, accurately ground weighing apparatus power saving effect.

In order to solve the technical problem, the utility model provides a multi-path air conditioner controller which characterized in that includes:

a wireless learning module for learning instructions of a plurality of air conditioners;

the environment temperature acquisition module is used for acquiring environment temperature data of a machine room where the air conditioner is located;

the air outlet temperature acquisition module is used for acquiring the temperature of the air outlet of each air conditioner;

the wireless communication module is used for realizing wireless data communication;

and the processor is used for acquiring the data of the wireless learning module, the ambient temperature acquisition module and the air outlet temperature acquisition module, processing the data, judging the running condition of each air conditioner and triggering the corresponding air conditioner to be turned on or turned off through the corresponding wireless communication module.

Preferably, there is one wireless learning module.

Preferably, the number of the wireless communication modules and the number of the air outlet temperature acquisition modules are all the same as the number of the air conditioners.

More preferably, the wireless communication modules are matched with the air conditioners in a one-to-one correspondence manner, and the air outlet temperature acquisition module is arranged at the outlet of each air conditioner.

Preferably, the wireless communication module comprises a wireless transmitting module connected with the processor and a wireless receiving module connected with the air conditioner.

Preferably, still include the electric quantity metering module that is used for gathering the power consumption of air conditioner, the electric quantity metering module is connected the power cord of air conditioner reaches the treater.

More preferably, the number of the electric quantity metering modules is consistent with that of the air conditioners, and the electric quantity metering modules are connected with power lines of the air conditioners in a one-to-one correspondence mode.

More preferably, the electricity quantity metering module meters the electricity consumption data of the corresponding air conditioner and sends the electricity consumption data to the processor.

Further, the wireless power consumption monitoring system further comprises a storage module used for storing the instruction learned by the wireless learning module and the power consumption data collected by the power metering module.

The utility model also provides an application method of foretell multichannel air conditioner controller, its characterized in that:

learning control instructions of each air conditioner through the wireless learning module and sending the control instructions to the processor;

collecting the environmental temperature data of the machine room where the air conditioner is located through the environmental temperature collecting module, and sending the environmental temperature data to the processor;

the air outlet temperature acquisition module is used for acquiring the temperature of the air outlet of each air conditioner and sending the temperature to the processor;

the processor is respectively communicated with the corresponding air conditioners through the wireless communication modules, so that the automatic control of the on-off of the plurality of air conditioners is realized; when the environmental temperature data reaches a set threshold, triggering the air conditioner to be turned on or off; and meanwhile, judging the running condition of the air conditioner according to the temperature of the air outlet of the air conditioner.

Compared with the prior art, the utility model provides a multichannel air conditioner controller has following beneficial effect:

1. for a machine room with a plurality of air conditioners, all the air conditioners can be controlled by only arranging one multi-path air conditioner controller, so that the cost is reduced;

2. the accurate electric quantity data can help the customer accurately judge the energy-saving effect of the product;

3. the running conditions of the air conditioner and the multi-path air conditioner controller can be judged in an auxiliary mode through the change of the electric quantity data.

Drawings

The drawings illustrate, by way of example, the invention and do not limit the invention. Like reference numerals refer to like elements.

Fig. 1 is a block diagram of a multi-air conditioner controller according to the present embodiment;

fig. 2 is a schematic diagram of the multi-air conditioner controller according to this embodiment.

Detailed Description

The disclosure may best be understood by reference to the detailed drawings and description set forth herein.

Fig. 1 is a block diagram of a multi-air conditioner controller provided in this embodiment, two air conditioners are configured in an unattended machine room, and one multi-air conditioner controller controls two air conditioners, where the multi-air conditioner controller includes five parts:

the first part is an ARM processor. The resources used by the ARM processor comprise an SPI interface, IO input capture and IO resources of GPIO level output.

The second part is two electricity metering modules. In this embodiment, the electric quantity metering module adopts HT7038 electric energy metering chips, and each HT7038 electric energy metering chip can simultaneously meter single-path three-phase electric energy, and is low in price. The high-speed SPI interface is used for data acquisition, and the ARM processor can simultaneously communicate with two pieces of HT7038 by using one path of SPI resource through the CS pin.

The third part is an environment temperature acquisition module and an air outlet temperature acquisition module which are respectively used for triggering the on-off of the air conditioner and judging the running condition of the air conditioner. When the environmental temperature data acquired by the environmental temperature acquisition module reaches a set threshold, the air conditioner is triggered to be turned on or turned off. And judging the running condition of the air conditioner according to the air outlet temperature of the air conditioner collected by the air outlet temperature collection module.

The fourth part is a wireless learning module and a wireless transmitting module. Wherein, the wireless learning module only needs to be configured with one to learn the instructions of the two air conditioners. And the wireless sending module is provided with two wireless sending modules which are respectively butted with two different air conditioners and can respectively carry out independent control on the two air conditioners.

The fifth part is a storage module used for storing the instruction learned by the wireless learning module and the electric quantity data collected by the electric quantity metering module.

The ARM processor is connected with the two electric quantity metering modules, the environment temperature acquisition module, the air outlet temperature acquisition module, the wireless learning module, the two wireless sending modules and the storage module, and the two electric quantity metering modules are respectively connected with power lines of the two air conditioners.

Referring to fig. 2, when the multi-air conditioner controller provided in this embodiment is used, a wireless receiving module is respectively installed in two air conditioners. Learning control instructions of the two air conditioners through the wireless learning module and sending the control instructions to the ARM processor; the method comprises the steps that environmental temperature data are collected through an environmental temperature collection module deployed in an unattended machine room and sent to an ARM processor; the temperature of the air outlet of the air conditioner is collected through an air outlet temperature collecting module arranged at the air outlet of the air conditioner and is sent to an ARM processor; the ARM processor is in wireless communication with the wireless receiving modules on the two air conditioners through the two wireless sending modules respectively, and automatic control over on-off of the air conditioners is achieved. When the environmental temperature data acquired by the environmental temperature acquisition module reaches a set threshold, triggering the air conditioner to be turned on and off; and meanwhile, the running condition of the air conditioner is judged according to the air outlet temperature of the air conditioner collected by the air outlet temperature collecting module. And the two electric quantity metering modules respectively meter the single-path three-phase electric energy of the two air conditioners and send the electric energy to the ARM processor. The storage module stores the instruction learned by the wireless learning module and the electric quantity data collected by the electric quantity metering module in real time.

The foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the present invention in any way and in any way, and it should be understood that modifications and additions may be made by those skilled in the art without departing from the method of the present invention, and such modifications and additions are also considered to be within the scope of the present invention. Those skilled in the art can make various changes, modifications and evolutions equivalent to those made by the above-disclosed technical content without departing from the spirit and scope of the present invention, and all such changes, modifications and evolutions are equivalent embodiments of the present invention; meanwhile, any changes, modifications and evolutions of equivalent changes to the above embodiments according to the actual technology of the present invention are also within the scope of the technical solution of the present invention.

Claims (9)

1. A multi-air conditioner controller, comprising:

a wireless learning module for learning instructions of a plurality of air conditioners;

the environment temperature acquisition module is used for acquiring environment temperature data of a machine room where the air conditioner is located;

the air outlet temperature acquisition module is used for acquiring the temperature of the air outlet of each air conditioner;

the wireless communication module is used for realizing wireless data communication;

and the processor is used for acquiring the data of the wireless learning module, the ambient temperature acquisition module and the air outlet temperature acquisition module, processing the data, judging the running condition of each air conditioner and triggering the corresponding air conditioner to be turned on or turned off through the corresponding wireless communication module.

2. The multi-air conditioner controller as claimed in claim 1, wherein: the wireless learning module is provided with one.

3. The multi-air conditioner controller as claimed in claim 1, wherein: the number of the wireless communication modules and the number of the air outlet temperature acquisition modules are consistent with the number of the air conditioners.

4. The multi-air conditioner controller as claimed in claim 3, wherein: the wireless communication module and the air conditioner are arranged in a one-to-one matching mode, and each air conditioner is provided with the air outlet temperature acquisition module at the outlet.

5. The multi-air conditioner controller as claimed in claim 1, wherein: the wireless communication module comprises a wireless sending module connected with the processor and a wireless receiving module connected with the air conditioner.

6. The multi-air conditioner controller as claimed in claim 1, wherein: still including being used for gathering the electric quantity metering module of the power consumption of air conditioner, electric quantity metering module connects the power cord of air conditioner reaches the treater.

7. The multi-air conditioner controller as claimed in claim 6, wherein: the quantity of the electric quantity metering modules is consistent with that of the air conditioners, and the electric quantity metering modules are connected with power lines of the air conditioners in a one-to-one correspondence mode.

8. The multi-air conditioner controller according to claim 6 or 7, wherein: and the electric quantity metering module meters the corresponding electric consumption data of the air conditioner and sends the electric consumption data to the processor.

9. The multi-air conditioner controller of claim 8, wherein: the wireless learning module is used for learning the power consumption data acquired by the power consumption metering module.

Images