CN211015107U - Rotary type adjusting temperature control panel based on rotary encoder - Google Patents

Abstract

The utility model discloses a control by temperature change panel is adjusted to rotation type based on rotary encoder, which comprises a pane, rotation type adjusting knob and button are installed to the positive opposite face of panel, post colorful backlight ring on the outer periphery of rotation type adjusting knob, and the panel is embedded to have ARM MCU, rotary encoder sensing detector, Zigbee wireless communication module, colorful backlight ring drive circuit, display light drive circuit, relay output drive module, RS485 communication circuit, keyboard processing detection module, temperature and humidity detection module and power supply circuit. The utility model discloses control by temperature change panel is adjusted to rotation type based on rotary encoder adopts rotatory mode, accords with ergonomic engineering and uses, adjusts comfortable and nimble of feeling, adopts colorful backlight ring to indicate current running state around the rotation type adjusting knob, realizes having different colour instructions through RGB lamp pearl, satisfies the functional demand of different intelligent scenes, can reach multi-scene coordinated control effect, convenient to use and easy operation.

Description

Rotary type adjusting temperature control panel based on rotary encoder

Technical Field

The utility model relates to a rotary encoder technical field specifically is temperature control panel is adjusted to rotation type based on rotary encoder.

Background

The photoelectric rotary encoder can convert mechanical quantities such as angular displacement and angular speed of an output shaft into corresponding electric pulses through photoelectric conversion and output the electric pulses in digital quantity (REP). The two-way rotary encoder comprises a single-way output mode and a double-way output mode, technical parameters mainly include pulse number per revolution (tens of pulses to thousands of pulses) and power supply voltage, the single-way output mode refers to that the output of the rotary encoder is a group of pulses, the rotary encoder with the double-way output mode outputs two groups of pulses with 90-degree phase difference of A/B, and the rotating speed and the rotating direction can be measured and judged through the two groups of pulses.

The current regulation temperature control panel based on rotary encoder can not satisfy the functional demand of different intelligent scenes and can not reach multi-scene coordinated control's effect, uses inconveniently, consequently, the rotary type regulation temperature control panel based on rotary encoder of urgent need solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a control by temperature change panel is adjusted to rotation type based on rotary encoder adopts rotatory mode, accords with ergonomic engineering and uses, adjusts comfortable and nimble of feeling, and the colorful backlight ring of adoption all around of rotation type adjusting knob indicates current running state, realizes having different colour through RGB lamp pearl and instructs, satisfies the functional requirement of different intelligent scenes, can reach the multi-scene coordinated control effect, and convenient to use and easy operation can solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: the rotary adjusting temperature control panel based on the rotary encoder comprises a panel, wherein a rotary adjusting button and keys are arranged right opposite to the panel, the keys are arranged below the rotary adjusting button side by side, and a colorful backlight ring is pasted on the outer circumferential surface of the rotary adjusting button;

the panel is embedded with ARM MCU, rotary coding sensing detector, Zigbee wireless communication module, colorful backlight ring drive circuit, display light drive circuit, relay output drive module, RS485 communication circuit, keyboard processing detection module, temperature and humidity detection module and power supply circuit, rotary coding sensing detector, Zigbee wireless communication module, colorful backlight ring drive circuit, display light drive circuit, relay output drive module, RS communication circuit, keyboard processing detection module, temperature and humidity detection module and power supply circuit all are connected with ARM MCU electricity, Zigbee wireless communication module and RS485 communication circuit all are connected with power supply circuit electricity.

Preferably, the colorful backlight ring is evenly provided with RGB lamp beads, and the RGB lamp beads can display three colors of red, blue and green.

Preferably, the Zigbee wireless communication module adopts an NXP JN5161, and the communication adopts a FastZigbee protocol stack developed by the peripheral industry.

Preferably, the ARM MCU adopts an STM32 series based on an ARM Cortex-M3 kernel.

Preferably, the panel is communicated with the host through a Zigbee wireless communication module, and the panel is communicated with the gateway through an RS485 communication circuit.

Preferably, a liquid crystal screen for displaying the indoor temperature is arranged on the rotary adjusting knob.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a rotary type regulation temperature control panel based on rotary encoder adopts rotatory mode to the mode of temperature regulation, accord with ergonomic engineering and use, rotary type regulating button just reverse can increase and reduce the settlement temperature, it is comfortable and nimble to adjust the feeling, use rotary encoder discernment corotation and reversal, the result is stable, the condition is triggered to the mistake, rotary type regulating button adopts colorful backlight ring to indicate current operating condition all around, realize having different colour instructions through RGB lamp pearl, Zigbee wireless communication module adopts NXP JN5161, the communication adopts the established good Zigbee protocol stack of developing week, this protocol is a set of proprietary passthrough protocol developed based on the Zigbee protocol stack, adopt the full passthrough networking communication, can construct the network topology of many types, its biggest characteristics are that the practicality is strong, transmission efficiency is high, dependable performance is stable and engineering networking is nimble, ARM MCU adopts STM32 series based on ARMCortex-M3 kernel, high performance 32-bit ARM MCU4 to satisfy the functional requirement of different intelligent scenes, the panel passes through Zigbee wireless communication module and host computer communication, and the panel passes through RS485 communication circuit and gateway communication, can reach many scenes coordinated control effect, convenient to use and easy operation.

Drawings

Fig. 1 is a schematic view of a rotary regulating temperature control panel based on a rotary encoder according to the present invention;

FIG. 2 is a schematic view of the RGB lamp beads arranged on the colorful backlight ring of the present invention;

fig. 3 is a schematic view of the RGB lamp bead of the present invention;

fig. 4 is a block diagram of the present invention.

In the figure: 1. a panel; 2. a rotary adjusting knob; 21. a colorful backlight ring; 22. a liquid crystal screen; 3. pressing a key; 4. ARM MCU; 5. a rotation encoding sensing detector; 6. a Zigbee wireless communication module; 7. a multi-color backlight ring driving circuit; 8. a display drive circuit; 9. the relay output driving module; 10. an RS485 communication circuit; 11. a keyboard processing detection module; 12. a temperature and humidity detection module; 13. a power supply circuit; 14. RGB lamp pearl.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a rotary regulating temperature control panel based on a rotary encoder comprises a panel 1, a rotary regulating button 2 and keys 3 are arranged opposite to the panel 1, the keys 3 are uniformly arranged below the rotary regulating button 2 side by side, a colorful backlight ring 21 is adhered to the outer circumferential surface of the rotary regulating button 2, a rotary mode is adopted aiming at the temperature regulating mode, the rotary regulating button 2 can increase and reduce the set temperature by positive and negative rotation, the hand feeling is comfortable and flexible to regulate, the rotary encoder is used for identifying positive rotation and negative rotation, the result is stable, no false triggering condition exists, RGB lamp beads 14 are respectively distributed on the colorful backlight ring 21, the RGB lamp beads 14 can display red, blue and green colors, the colorful backlight ring 21 is adopted around the rotary regulating button 2 for indicating the current running state, and different color indications are realized through the RGB lamp beads 14, for example, red represents heating, blue represents cooling, green represents an energy-saving mode, and the like, the rotary adjusting knob 2 is provided with the liquid crystal screen 22 for displaying indoor temperature, the current indoor temperature can be displayed in real time through the liquid crystal screen 22, a user can timely master current temperature information, and the use is convenient.

Referring to fig. 4, the panel 1 is embedded with an ARM MCU4, a rotary encoder sensing detector 5, a Zigbee wireless communication module 6, a colorful backlight ring driving circuit 7, a display light driving circuit 8, a relay output driving module 9, an RS485 communication circuit 10, a keyboard processing detection module 11, a temperature and humidity detection module 12 and a power supply circuit 13, the rotary encoder sensing detector 5, the Zigbee wireless communication module 6, the colorful backlight ring driving circuit 7, the display light driving circuit 8, the relay output driving module 9, the RS485 communication circuit 10, the keyboard processing detection module 11, the temperature and humidity detection module 12 and the power supply circuit 13 are all electrically connected with an ARM MCU4, the Zigbee wireless communication module 6 adopts a NXP JN5161, the communication adopts a FastZigbee protocol stack developed based on the Zigbee protocol, the protocol is a set of proprietary transparent transmission protocol stack developed based on the Zigbee protocol stack, and adopts a fully transparent transmission networking communication, so that various network topology structures can be constructed, the intelligent integrated intelligent electronic device has the biggest characteristics of strong practicability, high transmission efficiency, reliable and stable performance and flexible engineering network distribution, the ARMMCU4 adopts an STM32 series based on an ARM Cortex-M3 kernel and a high-performance 32-bit ARM MCU4 to meet the functional requirements of different intelligent scenes, the Zigbee wireless communication module 6 and the RS485 communication circuit 10 are both electrically connected with the power supply circuit 13, the panel 1 is communicated with a host through the Zigbee wireless communication module 6, the panel 1 is communicated with a gateway through the RS485 communication circuit 10, and the multi-scene linkage control effect can be achieved.

To sum up, the utility model discloses a rotary type regulation temperature control panel based on rotary encoder adopts the rotation mode to the mode of temperature regulation, accord with ergonomic engineering and use, rotary type regulating button 2 just reverses the increase and reduces the settlement temperature, it is comfortable and nimble to adjust and feel, use rotary encoder discernment corotation and reversal, the result is stable, no false triggering condition, rotary type regulating button 2 adopts multicolour back of the body halo 21 all around to indicate current running state, realize having different colour instructions through RGB lamp pearl 14, Zigbee wireless communication module 6 adopts NXP JN5161, the communication adopts the FastZigbee protocol stack of the development of the week standing work, this protocol is a set of proprietary transparent transmission protocol based on the development of ZigBee protocol stack, adopt the communication of the network of the full transparent transmission, can construct the network topology of multiple types, its biggest characteristics are that the practicality is strong, transmission efficiency is high, dependable performance is stable and engineering netting is nimble, ARM MCU4 adopts the STM32 series based on ARM Cortex-M3 kernel, high performance 32-bit ARM MCU4 to satisfy the functional demand of different intelligent scenes, panel 1 passes through Zigbee wireless communication module 6 and host computer communication, panel 1 passes through RS485 communication circuit 10 and gateway communication, can reach many scenes coordinated control effect, convenient to use and easy operation.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (6)

1. Temperature control panel is adjusted to rotation type based on rotary encoder, including panel (1), its characterized in that: the front face of the panel (1) is provided with a rotary adjusting button (2) and keys (3), the keys (3) are arranged below the rotary adjusting button (2) side by side, and the outer circumferential surface of the rotary adjusting button (2) is adhered with a colorful backlight ring (21);

the panel (1) is embedded with an ARM MCU (4), a rotary coding sensing detector (5), a Zigbee wireless communication module (6), a colorful backlight ring driving circuit (7), a display light driving circuit (8), a relay output driving module (9), an RS485 communication circuit (10), a keyboard processing detection module (11), a temperature and humidity detection module (12) and a power supply circuit (13), the rotary coding sensing detector (5), the Zigbee wireless communication module (6), the colorful backlight ring driving circuit (7), the display light driving circuit (8), the relay output driving module (9), the RS485 communication circuit (10), the keyboard processing and detecting module (11), the temperature and humidity detecting module (12) and the power supply circuit (13) are all electrically connected with the ARM MCU (4), the Zigbee wireless communication module (6) and the RS485 communication circuit (10) are electrically connected with the power supply circuit (13).

2. The rotary encoder based rotary adjustment thermal control panel of claim 1, wherein: RGB lamp beads (14) are uniformly distributed on the colorful backlight ring (21), and the RGB lamp beads (14) can display three colors of red, blue and green.

3. The rotary encoder based rotary adjustment thermal control panel of claim 1, wherein: the Zigbee wireless communication module (6) adopts an NXP JN5161, and a FastZigbee protocol stack developed by the peripheral work is adopted for communication.

4. The rotary encoder based rotary adjustment thermal control panel of claim 1, wherein: the ARM MCU (4) adopts an STM32 series based on an ARM Cortex-M3 kernel.

5. The rotary encoder based rotary adjustment thermal control panel of claim 1, wherein: the panel (1) is communicated with a host through a Zigbee wireless communication module (6), and the panel (1) is communicated with the gateway through an RS485 communication circuit (10).

6. The rotary encoder based rotary adjustment thermal control panel of claim 1, wherein: and a liquid crystal screen (22) for displaying the indoor temperature is arranged on the rotary adjusting button (2).

Images