SUMMERY OF THE UTILITY MODEL
A primary object of the utility model is to provide a red wine cabinet power module controller and terminal equipment aims at covering the power module controller of all functions through standardized fixed one kind to, improve red wine cabinet production efficiency, and reduce the code administrative cost of red wine cabinet circuit.
In order to achieve the above object, the utility model provides a red wine cabinet power module controller, red wine cabinet power module controller includes: the system comprises a power module controller, a compressor interface, a heater interface, an electromagnetic valve interface, an indoor and outdoor fan interface, a door control detection interface, a temperature detection interface, a display touch controller device communication interface, a background light interface, a frequency conversion interface, a dial-up interface and a humidity detection interface;
the power module controller is respectively connected with the compressor interface, the heater interface, the electromagnetic valve interface, the indoor and outdoor fan interface, the door control detection interface, the temperature detection interface, the display touch controller device communication interface, the background light interface, the frequency conversion interface, the dial-up interface and the humidity detection interface.
Optionally, the red wine cabinet power module controller further comprises: a switching power supply circuit module;
the switch power supply circuit module is respectively connected with the power supply module controller, the compressor interface, the heater interface, the electromagnetic valve interface, the indoor and outdoor fan interface, the door control detection interface, the temperature detection interface, the display touch control controller device communication interface, the background light interface, the frequency conversion interface, the dial-up interface and the humidity detection interface.
Optionally, the red wine cabinet power module controller further comprises: a power interface;
a first end of the switching power supply circuit module is respectively connected with the power supply module controller, the compressor interface, the heater interface, the electromagnetic valve interface, the indoor and outdoor fan interface, the door control detection interface, the temperature detection interface, the display touch controller device communication interface, the backlight interface, the frequency conversion interface, the dial-up interface and the humidity detection interface;
and the second end of the switching power supply circuit module is connected with the power supply interface.
Optionally, the heater interface comprises: a first heater interface and a second heater interface;
and the first end of the switching power supply circuit module is respectively connected with the first heater interface and the second heater interface.
Optionally, the power module controller is connected to the first heater interface and the second heater interface respectively.
Optionally, the humidity detection interface comprises: the humidity detection device comprises a first humidity detection interface and a second humidity detection interface;
and the first end of the switching power supply circuit module is respectively connected with the first humidity detection interface and the second humidity detection interface.
Optionally, the power module controller is connected to the first humidity detection interface and the second humidity detection interface respectively.
Optionally, the display touch controller device communication interface includes: a first display touch controller device communication interface and a second display touch controller device communication interface;
and the first end of the switching power supply circuit module is respectively connected with the first display touch controller device communication interface and the second display touch controller device communication interface.
Optionally, the power module controller is connected to the first display touch controller device communication interface and the second display touch controller device communication interface respectively.
Furthermore, in order to realize the above object, the utility model also provides a terminal equipment, terminal equipment includes as above-mentioned arbitrary the red wine cabinet power module control ware.
The utility model discloses a red wine cabinet power module controller includes power module controller, compressor interface, heater interface, solenoid valve interface, indoor outer fan interface, gate control detection interface, temperature detection interface, display touch control controller device communication interface, background light interface, frequency conversion interface, dial-up interface and humidity detection interface; the power module controller is respectively connected with the compressor interface, the heater interface, the electromagnetic valve interface, the indoor and outdoor fan interface, the door control detection interface, the temperature detection interface, the display touch controller device communication interface, the background light interface, the frequency conversion interface, the dial-up interface and the humidity detection interface.
Be different from the controller that current different kinds of red wine cabinet used separately, the utility model discloses an at the integrated multiple function interface of red wine cabinet power module, constituted a general red wine cabinet power module controller, promptly, the utility model discloses a standardized fixed one kind covers the power module controller of all functions, and then reduces and shows the touch controller design degree of difficulty to, improved production efficiency in the very big degree, and reduced the code administrative cost of red wine cabinet circuit in the very big degree.
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.
It should be noted that all directional indicators (such as up, down, left, right, front, and back \8230;) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicators are correspondingly changed.
In this application, unless expressly stated or limited otherwise, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.
In addition, descriptions in this application as to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.
The utility model provides a red wine cabinet power module controller.
In an embodiment of the present invention, referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a red wine cabinet power module controller of the present invention, which includes a power module controller 401, a compressor interface 404, a heater interface, a solenoid valve interface 407, an indoor and outdoor fan interface 408, a gate control detection interface 409, a temperature detection interface 410, a display touch controller device communication interface, a background light interface 413, a frequency conversion interface 414, a dial-up interface 415 and a humidity detection interface;
the power module controller 401 is connected to the compressor interface 404, the heater interface, the solenoid valve interface 407, the indoor and outdoor fan interface 408, the door control detection interface 409, the temperature detection interface 410, the display touch controller device communication interface, the backlight interface 413, the frequency conversion interface 414, the dial-up interface 415, and the humidity detection interface, respectively.
It should be noted that, in this embodiment, as shown in the schematic diagram of the conventional optimized separation control shown in fig. 2, the red wine cabinet power module controller 400 is a circuit board, the red wine cabinet power module controller 400 is connected to the red wine cabinet display touch controller device 200 for use, and is connected to the red wine cabinet display touch controller device 200 through the display touch controller device communication interface, the red wine cabinet display touch controller device 200 may specifically include a controller 201, a communication interface 202, a display portion 203 and a touch portion 204, and the red wine cabinet power module controller 400 may be adapted to various red wine cabinet display touch controller devices.
For example, in this embodiment, as shown in the schematic structural diagram of the power module controller of the wine cabinet in fig. 1, the ac compressor is connected to the compressor interface 404, and if the set temperature is higher than the temperature in the cavity, the power module controller 401 controls the ac compressor to refrigerate the cavity through the compressor interface 404.
For example, in this embodiment, the electromagnetic valve is connected to the electromagnetic valve interface 407, if the red wine cabinet has two chambers, the electromagnetic valve is respectively inverted once in the two chambers according to a preset time interval, specifically, once for 4 minutes, and the power module controller 401 controls the electromagnetic valve through the electromagnetic valve interface 407 to make the condensation respectively flow to the two chambers, so as to switch to select the refrigeration chamber.
Illustratively, in this embodiment, the fans are connected to the indoor and outdoor fan interfaces 408 to uniformly circulate the temperatures in the cavities, and if the wine cabinet has two chambers, one fan is provided for each chamber, the power module controller 401 controls the two fans through the indoor and outdoor fan interfaces 408 to uniformly circulate the temperatures in the two chambers, that is, to make the temperature difference at each position of the air flow cavity in the wine cabinet cavity small.
Illustratively, in this embodiment, the door switch is connected to the door control detection interface 409, and the power module controller 401 controls the door switch to be short-circuited when the door is opened and to be open when the door is closed through the door control detection interface 409, so as to detect whether each door of the red wine cabinet is opened.
In this embodiment, for example, the temperature sensor is connected to the temperature detection interface 410, and the power module controller 401 controls the temperature sensor to detect the temperature inside the cavity through the temperature detection interface 410, and performs temperature control according to the comparison between the temperature inside the cavity and the temperature set by the user.
Exemplarily, in the present embodiment, the backlight is connected to the backlight interface 413, the backlight may specifically be a single white backlight and three switchable backlights of orange, blue and white, and the power module controller 401 controls the backlight through the backlight interface 413.
Illustratively, in this embodiment, the dc compressor is connected to the variable frequency interface 414, and the power supply sends PWM pulse width to the dc compressor through the variable frequency interface 414 to control the operating frequency of the dc variable frequency compressor.
Illustratively, in this embodiment, the dial switch is connected to the dial interface 415, specifically, 16 different types of wine cabinets can be identified by setting 4 dials, dial combination level information is sent to the display controller 200, the display controller 200 receives the state of the dial sent by the power module controller 401 through the dial interface 415, so as to determine a set temperature range and a power-on set temperature value, it should be understood that different types of wine cabinets can be adapted to different types of wine cabinets,
optionally, in some possible embodiments, the power module controller of the wine cabinet of the present invention further comprises: a switching power supply circuit module 403;
the switching power supply circuit module 403 is connected to the power supply module controller 401, the compressor interface 404, the heater interface, the solenoid valve interface 407, the indoor and outdoor fan interface 408, the door control detection interface 409, the temperature detection interface 410, the display touch controller device communication interface, the backlight interface 413, the frequency conversion interface 414, the dial-up interface 415, and the humidity detection interface, respectively.
It should be noted that, in this embodiment, the switching power supply circuit module 403 is respectively connected to the power supply module controller 401, the compressor interface 404, the heater interface, the solenoid valve interface 407, the indoor and outdoor fan interface 408, the door control detection interface 409, the temperature detection interface 410, the display touch controller device communication interface, the backlight interface 413, the frequency conversion interface 414, the dial interface 415, and the humidity detection interface to provide power.
Optionally, in some possible embodiments, the power module controller of the wine cabinet of the present invention further comprises: a power interface 402;
a first end of the switching power supply circuit module 403 is connected to the power supply module controller 401, the compressor interface 404, the heater interface, the solenoid valve interface 407, the indoor and outdoor fan interface 408, the door control detection interface 409, the temperature detection interface 410, the display touch controller device communication interface, the backlight interface 413, the frequency conversion interface 414, the dial-up interface 415, and the humidity detection interface, respectively;
a second terminal of the switching power supply circuit module 403 is connected to the power supply interface 402.
It should be noted that, in this embodiment, the power interface 402 is connected to a power line to receive an ac power, the ac power is converted into dc power 12V and 5V by the switching power circuit module 403, the dc power 12V at the first end of the switching power circuit module 403 is connected to the compressor interface 404, the heater interface, the solenoid valve interface 407, the indoor and outdoor fan interface 408 and the backlight interface 413 to provide a dc 12V power, and the dc power 5V at the first end of the switching power circuit module 403 is connected to the temperature detection interface 410, the frequency conversion interface 414, the dial-up interface 415, the gate control detection interface 409, the display touch controller device communication interface and the humidity detection interface to provide a dc 5V power.
Optionally, in some possible embodiments, the heater interface of the power module controller of the wine cabinet of the present invention includes: a first heater interface 405 and a second heater interface 406;
a first end of the switching power supply circuit module 403 is connected to the first heater interface 405 and the second heater interface 406, respectively.
In this embodiment, the dc power supply 12V at the first end of the switching power supply circuit module 403 is respectively connected to the first heater interface 405 and the second heater interface 406 to provide a dc power supply of 12V.
Optionally, in some possible embodiments, the power module controller 401 of the power module controller of the wine cabinet of the present invention is connected to the first heater interface 405 and the second heater interface 406 respectively.
Illustratively, in this embodiment, if the wine cabinet has two chambers, the first heater is connected to the first heater interface 405, the second heater is connected to the second heater interface 406, and if the set temperature of the wine cabinet is lower than the temperature of the chambers of the wine cabinet, the power module controller 401 controls the first heater and the second heater through the first heater interface 405 and the second heater interface 406 to heat the two chambers of the wine cabinet respectively.
For example, in this embodiment, if the wine cabinet has only one cavity, the heater is connected to the first heater interface 405 or the second heater interface 406, and if the set temperature of the wine cabinet is lower than the temperature of the cavity of the wine cabinet, the power module controller 401 controls the heater to heat the cavity of the wine cabinet through the first heater interface 405 or the second heater interface 406.
Optionally, in some possible embodiments, the humidity detection interface of the power module controller of the wine cabinet of the present invention includes: a first humidity sensing interface 416 and a second humidity sensing interface 417;
a first end of the switching power supply circuit module 403 is connected to the first humidity detection interface 416 and the second humidity detection interface 417, respectively.
In this embodiment, the dc power supply 5V at the first end of the switching power supply circuit module 403 is respectively connected to the first humidity detection interface 416 and the second humidity detection interface 417, so as to provide a dc power supply of 5V.
Optionally, in some possible embodiments, the power module controller 401 of the power module controller of the wine cabinet of the present invention is connected to the first humidity detection interface 416 and the second humidity detection interface 417 respectively.
For example, in this embodiment, if the red wine cabinet has two chambers, the first humidity sensor is connected to the first humidity detection interface 416, the second humidity sensor is connected to the second humidity detection interface 417, and the power module controller 401 controls the first humidity sensor and the second humidity sensor to detect the humidity of the two chambers through the first humidity detection interface 416 and the second humidity detection interface 417 respectively.
For example, in this embodiment, if the wine cabinet has only one chamber, the humidity sensor is connected to the first humidity detection interface 416 or the second humidity detection interface 417, and the power module controller 401 controls the humidity sensor to detect the humidity of the one chamber of the wine cabinet through the first humidity detection interface 416 or the second humidity detection interface 417.
Optionally, in some possible embodiments, the display touch controller device communication interface of the red wine cabinet power module controller of the present invention comprises: a first display touch controller device communication interface 411 and a second display touch controller device communication interface 412;
a first end of the switching power supply circuit module 403 is connected to the first display touch controller device communication interface 411 and the second display touch controller device communication interface 412, respectively.
In this embodiment, the dc power supply 5V at the first end of the switching power supply circuit module 403 is respectively connected to the first display touch controller device communication interface 411 and the second display touch controller device communication interface 412 to provide a dc power supply of 5V.
Optionally, in some possible embodiments, the power module controller 401 of the red wine cabinet power module controller of the present invention is connected to the first display touch controller device communication interface 411 and the second display touch controller device communication interface 412 respectively.
For example, in this embodiment, if the red wine cabinet has two chambers, the first display touch controller device is connected to the first display touch controller device communication interface 411, the second display touch controller device is connected to the second display touch controller device communication interface 412, and the power module controller 401 respectively controls the first display touch controller device and the second display touch controller device to display and receive touch data through the first display touch controller device communication interface 411 and the second display touch controller device communication interface 412.
For example, in this embodiment, if the red wine cabinet has a cavity, the display touch controller device is connected to the first display touch controller device communication interface 411 or the second display touch controller device communication interface 412, and the power module controller 401 controls the display touch controller device to display and receive touch data through the first display touch controller device communication interface 411 or the second display touch controller device communication interface 412.
It should be noted that, in this embodiment, if the first display touch controller device communication interface 411 is connected to a double-chamber red wine cabinet, and the second display touch controller device communication interface 412 is connected to a single-chamber red wine cabinet, the red wine cabinets connected to the first display touch controller device communication interface 411 are an upper-chamber red wine cabinet and a lower-chamber red wine cabinet, and the red wine cabinet connected to the second display touch controller device communication interface 412 is a lower-chamber red wine cabinet, so that temperature control of single chamber, double chambers, and multiple chambers is realized through the first display touch controller device communication interface 411 and the second display touch controller device communication interface 412.
In this embodiment, as shown in the schematic diagram of the conventional red wine cabinet controller device in fig. 3, the conventional red wine cabinet is a conventional red wine cabinet controller which is respectively connected with the source part and the display part, and the conventional red wine cabinet controller is respectively connected with the compressor interface, the heater interface, the temperature sensor interface and the gate control switch interface, and the controller of the conventional red wine cabinet cannot be used universally, as shown in the schematic diagram of the optimized separation of the power module controller of the red wine cabinet in fig. 2, the red wine cabinet is divided into the power module controller device and the red wine display touch controller device, but the interfaces of the conventional power module controller device are very few, and therefore, the conventional red wine cabinet controller device cannot be used universally for different red wine cabinet models.
The utility model discloses a red wine cabinet power module controller includes power module controller, compressor interface, heater interface, solenoid valve interface, indoor outer fan interface, gate control detection interface, temperature detection interface, display touch control controller device communication interface, background light interface, frequency conversion interface, dial-up interface and humidity detection interface; the power module controller is respectively connected with the compressor interface, the heater interface, the solenoid valve interface, the indoor and outdoor fan interface, the door control detection interface, the temperature detection interface, the display touch controller device communication interface, the background light interface, the frequency conversion interface, the dial-up interface and the humidity detection interface.
Be different from the red wine cabinet controller that current different kinds used separately, through at the integrated multiple function interface of red wine cabinet power module, realize general red wine cabinet power module device, the utility model discloses a standardized fixed one kind covers the power module controller of all functions, and then reduces and show the touch controller design degree of difficulty to, improved production efficiency in the very big degree, and reduced the coding administrative cost of red wine cabinet circuit in the very big degree.
Further, in addition, the utility model also provides a terminal equipment. The embodiment of the utility model provides a terminal equipment specifically can be the red wine cabinet of integrated red wine cabinet power module controller.
The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications and equivalents of the technical solutions that can be directly or indirectly applied to other related technical fields within the spirit of the present application are included in the scope of the present application.