CN212511700U - Air conditioner control device - Google Patents

Abstract

The utility model discloses an air conditioner control device, include: a shell and a box body; the shell is embedded on the box body; an air conditioner control panel is arranged on the shell; the air conditioner control panel is provided with an infrared emission lamp, a calibration key, a display panel, a timer, an on-off key and a switching key; a control circuit board is arranged in the box body, and a control chip, a correction module, a timing module, a switch module and a switching module which are connected with the control chip are arranged on the control circuit board; the calibration key is connected with the calibration module, the timer is connected with the timing module, the switch key is connected with the switch module, and the switching key is connected with the switching module; the infrared emission lamp and the display panel are both connected with the control circuit board; a hanging buckle is arranged at the back of the box body. Due to the arrangement of the timer, the opening or closing time of the air conditioner of the elevator machine room can be controlled by the timer in a timing mode, the air conditioner does not need to be manually opened or closed, and the cost is saved; the hanging buckle is arranged on the back of the box body, and the air conditioner control device can be fixed through the hanging buckle.

Description

Air conditioner control device

Technical Field

The utility model belongs to the technical field of air conditioner control, especially, relate to an air conditioner control device.

Background

With the development of society, the living standard of people is continuously improved, and the requirements of people on living environment are also improved. Elevators provide convenience to people and are often controlled through an elevator machine room. In order to prevent someone from entering the elevator machine room and prevent snakes, mice and the like from entering the elevator machine room and biting equipment to cause short circuit, the doors and the windows of the elevator machine room are usually closed, so that the temperature in the elevator machine room is very high in summer. The safety and service life of an elevator are directly affected by an excessively high temperature in an elevator machine room, and an air conditioner is generally required to be installed in the elevator machine room so as to control the temperature in the elevator machine room. The air conditioner in the traditional elevator machine room is often manually turned on, turned off or subjected to temperature regulation and the like.

However, the conventional air conditioning control in the elevator machine room has a problem of high cost.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, there is a need for an air conditioning control device that is easy to use and cost effective.

An air conditioner control device comprises a shell and a box body; the shell is embedded on the box body; an air conditioner control panel is arranged on the shell; the air conditioner control panel is provided with an infrared emission lamp, a calibration key, a display panel, a timer, an on-off key and a switching key; the box body is internally provided with a control circuit board, and the control circuit board is provided with a control chip, a correction module, a timing module, a switch module and a switching module which are connected with the control chip; the checking key is connected with the checking module, the timer is connected with the timing module, the switch key is connected with the switch module, and the switching key is connected with the switching module; the infrared emission lamp and the display panel are both connected with the control circuit board; a hanging buckle is arranged behind the box body.

In one embodiment, the switching module is used for switching the switch state and sending the switched switch state to the control chip; the control chip controls the switching state of the switch module according to the switched switch state; the switch state comprises a manual state and an automatic state.

In one embodiment, when the switched on-off state is an automatic state, the control chip controls the switch module to turn on or turn off the air conditioner according to the timing module.

In one embodiment, a temperature chip connected with the control chip is arranged on the control circuit board; the temperature chip is used for transmitting temperature data to the control chip; and the control chip controls the switch module to be switched on or switched off according to the temperature data.

In one embodiment, the temperature chip is connected with a temperature sensor; the temperature sensor is used for collecting the temperature data and transmitting the temperature data to the temperature chip.

In one embodiment, an air conditioner learning key is further arranged on the air conditioner control panel; the air conditioner learning key is connected with the control chip and used for receiving air conditioner data transmitted from an air conditioner.

In one embodiment, the control chip adjusts the emission frequency of the infrared emission lamp according to the air conditioner data.

In one embodiment, the infrared emission lamp is connected with the control chip; when the switch module is in an on state, the control chip controls the infrared emission lamp to emit infrared rays.

In one embodiment, a synchronous clock is further arranged on the air conditioner control panel; the synchronous clock is connected with the calibration key.

In one embodiment, the calibration keys comprise a time calibration key and a date calibration key; the time correction key and the date correction key are connected with the synchronous clock; and the time correction key performs time correction according to the synchronous clock, and the date correction key performs date correction according to the synchronous clock.

The air conditioner control device comprises a shell and a box body; the shell is embedded on the box body; an air conditioner control panel is arranged on the shell; the air conditioner control panel is provided with an infrared emission lamp, a calibration key, a display panel, a timer, an on-off key and a switching key; a control circuit board is arranged in the box body, and a control chip, a correction module, a timing module, a switch module and a switching module which are connected with the control chip are arranged on the control circuit board; the calibration key is connected with the calibration module, the timer is connected with the timing module, the switch key is connected with the switch module, and the switching key is connected with the switching module; the infrared emission lamp and the display panel are both connected with the control circuit board; a hanging buckle is arranged at the back of the box body. Due to the arrangement of the timer, the opening or closing time of the air conditioner in the elevator machine room can be controlled by the timer in a timing mode, the air conditioner does not need to be manually opened or closed, and the cost is saved; the hanging buckle is arranged on the back of the box body, and the air conditioner control device can be fixed through the hanging buckle.

Drawings

FIG. 1 is a block diagram of an air conditioning control apparatus according to an embodiment;

fig. 2 is a structural view of an air conditioning control apparatus in another embodiment;

fig. 3 is a structural diagram of an air conditioning control apparatus in still another embodiment.

Detailed Description

For a better understanding of the present invention, the contents of the present invention will be further clarified below with reference to the accompanying drawings and examples, but the present invention is not limited to the following examples.

In one embodiment, as shown in fig. 1, the present invention provides an air conditioner control device, which mainly includes: a housing 100, a case 200; the housing 100 is embedded in the case 200; an air conditioner control panel 110 is disposed on the housing 100; the air-conditioning control panel 110 is provided with an infrared emission lamp 120, a calibration key 130, a display panel 140, a timer 150, an on-off key 160 and a switching key 170; a control circuit board 210 is arranged in the box body 200, and a control chip 220, a calibration module 230, a switching module 240, a timing module 250 and a switch module 260 which are connected with the control chip 220 are arranged on the control circuit board 210; the calibration key 130 is connected with the calibration module 230, the timer 150 is connected with the timing module 250, the switch key 160 is connected with the switch module 260, and the switch key 170 is connected with the switch module 240; the infrared emission lamp 120 and the display panel 140 are both connected with the control circuit board 210; a hanging buckle 202 is arranged at the back of the box body 200.

In the present embodiment, the housing 100 may be embedded in the box 200, and the shape of the housing 100 may be a rectangular parallelepiped, a cube, a cylinder, etc., which is not limited herein. The shape of the case 200 is identical to the shape of the case 100, and the size of the case 200 corresponds to the size of the case 100, so that the case 100 and the case 200 can be easily fitted. The material of the housing 100 and the box 200 may be plastic, or may be aluminum alloy, and is not limited herein.

An air conditioning control panel 110 may be disposed on the housing 100, and the air conditioning control panel 110 may be used to control an air conditioner. In this embodiment, the air conditioner may be an air conditioner inside an elevator. The air conditioner control panel 110 may be provided thereon with an infrared emission lamp 120, a calibration key 130, a display panel 140, a timer 150, an on-off key 160, and a switch key 170, wherein the infrared emission lamp 120 may be used to emit infrared rays and control the air conditioner to be turned on or off by the infrared rays; the calibration key 130 may be used to calibrate data in the air conditioner control panel 110, for example, data such as display time, display date, display temperature, etc. in the air conditioner control panel 110 may be calibrated through the calibration key 130; the display panel 140 may be used to display data such as time, date, temperature, etc.; the timer 150 may be used to set an on-time, an off-time, an on-duration, an off-duration, and the like of the air conditioner; the on-off key 160 may be used to control the turning on or off of the air conditioner; the switch key 170 may be used to switch an on mode of the air conditioner, wherein the on mode of the air conditioner may include manual on, automatic on.

The box 200 may be provided therein with a control circuit board 210, and the control circuit board 210 may be a complete circuit control board for controlling the air conditioner control device provided in this embodiment. The control circuit board 210 may be provided with a control chip 220, and the control chip 220 may be a cpu (central processing unit), an mcu (micro controller unit), or a chip such as a single chip microcomputer. The control circuit board 210 may further include a calibration module 230, a switching module 240, a timing module 250, and a switch module 260 connected to the control chip 220. The calibration key 130 is connected to the calibration module 230, the timer 150 is connected to the timing module 250, the switch key 160 is connected to the switch module 260, and the switch key 170 is connected to the switch module 240, so as to implement the function of each key in the air-conditioning control panel 110.

The infrared emission lamp 120 and the display panel 140 are connected to the control circuit board 210. A hanging buckle 202 may be disposed behind the box 200, and the air conditioner control device provided in this embodiment may be fixed by the hanging buckle 202.

In the embodiment, due to the arrangement of the timer 150, the on-off time of the air conditioner in the elevator machine room can be controlled by the timer 150 at regular time, the air conditioner does not need to be manually turned on or turned off, and the cost is saved; a hanging buckle 202 is arranged at the back of the box body 200, and the air conditioner control device can be fixed through the hanging buckle 202.

In one embodiment, the switching module 240 is configured to switch the switch state and send the switched switch state to the control chip 220; the control chip 220 controls the switching state of the switch module 260 according to the switched switching state; the switch state comprises a manual state and an automatic state. Because the switching module 240 corresponds to the switching key 170, a user can switch the switching state by pressing the switching key 170, the switching key 170 is connected to the switching module 240, and after the user presses the switching key 170, the switching module 240 can transmit the switched switching state to the control chip 220, so as to transmit the switched switching state to the switching module 260 for switching the switching state.

In one embodiment, when the switched on-off state is an automatic state, the control chip controls the switch module to turn on or turn off the air conditioner according to the timing module. When the switched on-off state is an automatic state, a user can set the on-time or the off-time of the air conditioner through the timer and the timing module, so that the control chip controls the switch module to turn on or turn off the air conditioner according to the timing module.

In one embodiment, as shown in fig. 2, the control circuit board 210 is provided with a temperature chip 270 connected to the control chip 220; the temperature chip 270 is used for transmitting temperature data to the control chip 220; the control chip 220 controls the switch module 260 to be turned on or off according to the temperature data. In one embodiment, the temperature chip 270 is connected to a temperature sensor; the temperature sensor is used for collecting temperature data and transmitting the temperature data to the temperature chip 270. The temperature sensor can be arranged outside the elevator machine room and used for acquiring temperature data outside the elevator machine room and transmitting the acquired temperature data to the temperature chip 270, and the temperature chip 270 transmits the temperature data to the control chip 220; the control chip 220 controls the switch module 260 to be turned on or off according to the temperature data. Specifically, a user can set a temperature threshold value through the air conditioner control panel 110, and when the temperature data acquired by the temperature sensor reaches the set temperature threshold value, the control chip 220 can control the switch module 260 to turn on the air conditioner; when the temperature data collected by the temperature sensor does not reach the set temperature threshold, the control chip 220 may control the switch module 260 to turn off the air conditioner.

In one embodiment, the control chip may control the switch module according to timing data of the timing module and temperature data acquired by the temperature sensor, and when the current time reaches the timing data of the timing module and the temperature data acquired by the temperature sensor reaches a temperature threshold, the control chip may control the switch module to turn on the air conditioner, otherwise, the control chip controls the switch module to turn off the air conditioner.

As shown in fig. 2, in one embodiment, an air conditioner learning key 180 is further disposed on the air conditioner control panel 110; the air conditioner learning key 180 is connected to the control chip 220 for receiving air conditioner data transmitted from the air conditioner. In one embodiment, the control chip 220 may adjust the emission frequency of the ir emitting lamp 120 according to the received air conditioner data, so that the air conditioner may be turned on or off by the ir emitting lamp 120. In this embodiment, the user can also modify the operation code through the control chip 220.

In one embodiment, the infrared emission lamp is connected with the control chip; when the switch module is in an on state, the control chip controls the infrared emission lamp to emit infrared rays so as to control the air conditioner to be turned on; when the switch module is in an off state, the control chip controls the infrared emission lamp to emit infrared rays, so that the air conditioner is controlled to be turned off.

As shown in fig. 3, in one embodiment, a synchronous clock 112 is further disposed on the air conditioner control panel 110; the synchronous clock 112 is connected to the calibration key 130 for unifying clocks on the air conditioner control panel 110.

In one embodiment, the collation keys include a time collation key, a date collation key; the time correction key and the date correction key are connected with the synchronous clock; and the time correction key performs time correction according to the synchronous clock, and the date correction key performs date correction according to the synchronous clock. Wherein, the date proofreading key can be used for proofreading date and week number; the time check key may be used to check for a particular time of day.

In one embodiment, the air conditioner control panel is further provided with a working indicator light, the working indicator light is connected with the control chip, and the working indicator light is turned on when the air conditioner control device is in a working state; when the air conditioner control device is in an idle state, the work indicator lamp is turned off.

In one embodiment, the air conditioner control panel is further provided with a cancel/restore key, the cancel/restore key is connected with the control chip, and when a user presses the cancel/restore key, the control chip can cancel or restore the set calibration data, timing data, temperature data and the like.

In one embodiment, an air conditioning control apparatus is provided that may further include a power supply; the power supply may be a battery, wherein the voltage required by the display panel may be 1.5 volts; the voltage required to control the chip may be 3 volts.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An air conditioner control device is characterized by comprising a shell and a box body; the shell is embedded on the box body; an air conditioner control panel is arranged on the shell; the air conditioner control panel is provided with an infrared emission lamp, a calibration key, a display panel, a timer, an on-off key and a switching key; the box body is internally provided with a control circuit board, and the control circuit board is provided with a control chip, a correction module, a timing module, a switch module and a switching module which are connected with the control chip; the checking key is connected with the checking module, the timer is connected with the timing module, the switch key is connected with the switch module, and the switching key is connected with the switching module; the infrared emission lamp and the display panel are both connected with the control circuit board; a hanging buckle is arranged behind the box body.

2. The air conditioner control device according to claim 1, wherein the switching module is configured to switch a switching state and send the switched switching state to the control chip; the control chip controls the switching state of the switch module according to the switched switch state; the switch state comprises a manual state and an automatic state.

3. The air conditioner control device according to claim 2, wherein when the switched on/off state is an automatic state, the control chip controls the switch module to turn on or off the air conditioner according to the timing module.

4. The air conditioner control device according to claim 1, wherein a temperature chip connected with the control chip is arranged on the control circuit board; the temperature chip is used for transmitting temperature data to the control chip; and the control chip controls the switch module to be switched on or switched off according to the temperature data.

5. The air conditioner control device according to claim 4, wherein the temperature chip is connected to a temperature sensor; the temperature sensor is used for collecting the temperature data and transmitting the temperature data to the temperature chip.

6. The air conditioner control device according to claim 1, wherein an air conditioner learning key is further provided on the air conditioner control panel; the air conditioner learning key is connected with the control chip and used for receiving air conditioner data transmitted from an air conditioner.

7. The air conditioner control device as claimed in claim 6, wherein the control chip adjusts the emission frequency of the infrared emission lamp according to the air conditioner data.

8. The air conditioner control device according to claim 1, wherein the infrared emission lamp is connected with the control chip; when the switch module is in an on state, the control chip controls the infrared emission lamp to emit infrared rays.

9. The air conditioner control device according to claim 1, wherein a synchronous clock is further provided on the air conditioner control panel; the synchronous clock is connected with the calibration key.

10. The air conditioning control apparatus according to claim 9, wherein the calibration key includes a time calibration key, a date calibration key; the time correction key and the date correction key are connected with the synchronous clock; and the time correction key performs time correction according to the synchronous clock, and the date correction key performs date correction according to the synchronous clock.

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