A wall-mounted air conditioner control panel
By using a snap-on installation structure and connecting base design for the wall-mounted air conditioner control panel, the inconvenience of fixing and hand-held operation of existing air conditioner control panels is solved, achieving a balance between stability and convenience, and improving the functional integration and user experience of the air conditioner control panel.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU LINGLANG PRECISION ELECTRONICS CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-06-30
AI Technical Summary
Existing air conditioner control panels are not easy to move flexibly when fixed in place, handheld remote controls are easy to lose and inconvenient to use, and existing detachable structures are complicated to install and lack functional integration.
It adopts a wall-mounted air conditioner control panel, which can be switched between fixed and handheld operation through a snap-on installation structure. The pin socket and charging contacts of the connecting base enable signal transmission and battery charging, and the telescopic spring provides convenient operation.
It achieves a balance between the stability of fixed installation and the flexibility of handheld use, is easy to operate, has a high degree of functional integration, and improves user convenience and applicability.
Smart Images

Figure CN224434645U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of air conditioning terminal control, and in particular to a wall-mounted air conditioning control panel. Background Technology
[0002] An air conditioning control panel is a device used to control the operation of an air conditioning system; it is the interface through which people interact with the air conditioner.
[0003] Most existing air conditioner control panels are either fixed-mounted or purely handheld remote controls. While fixed-mounted control panels can be stably placed on the wall, they cannot be moved flexibly, which is inconvenient when operating from a distance or when adjusting the angle; while purely handheld remote controls can be used remotely, they need to be stored separately, are easy to lose, and require frequent battery replacements, thus limiting the user experience.
[0004] In addition, some existing detachable control panels have complex installation structures, cumbersome disassembly and reassembly operations, and are difficult to integrate signal transmission and battery charging functions when fixed, resulting in insufficient ease of use and practicality.
[0005] Therefore, a wall-mounted air conditioner control panel is proposed. Utility Model Content
[0006] The purpose of this utility model is to solve the above problems by proposing an air conditioning control panel that can balance the stability of fixed installation with the flexibility of handheld use, and is easy to operate and highly integrated in function.
[0007] To achieve the above objectives, this utility model provides the following technical solution: a wall-mounted air conditioner control panel, including a control panel frame, a connecting base fixed to the lower surface of the control panel frame by adhesive bonding, an air conditioner control panel body assembled inside the control panel frame using a snap-fit installation structure, a battery compartment located near the upper end of the rear surface of the air conditioner control panel body, an antenna located near the upper end of one side of the air conditioner control panel body, an electrical connection between the connecting base and the air conditioner control panel body, and multiple control buttons located near the lower end of the display screen surface of the air conditioner control panel body.
[0008] Preferably, the control panel frame includes an outer frame body, a sliding frame slidably installed in the cavities at both ends of the outer frame body, a telescopic spring on the outside of a short rod fitted inside the sliding frame, a clamping frame fused to the front end of the sliding frame, and a locking block fused to the inside of the clamping frame near the upper end. The telescopic spring is located in the cavities at both ends of the outer frame body and can provide elastic force for the sliding of the sliding frame.
[0009] Preferably, the rear surface of the outer frame body is provided with mounting holes, and the part of the clip away from the clamping frame is engaged in the slot on the side of the air conditioner control panel body to achieve a snap-fit connection between the outer frame of the control panel and the air conditioner control panel body.
[0010] Preferably, the connecting base includes a base body that is bonded and fixed to the bottom surface of the outer frame body by epoxy resin adhesive, a pin socket installed on the top surface of the base body near one end, a charging contact located on the top surface of the base body near the other end, and a terminal block located on the bottom surface of the base body.
[0011] Preferably, the upper ends of the pin socket and the charging contact pass through the through hole on the bottom surface of the outer frame body. The upper end of the pin socket is inserted into the slot on the bottom surface of the air conditioner control panel body, and the upper end of the charging contact is inserted into the charging hole on the bottom surface of the air conditioner control panel body, thereby realizing the corresponding connection between the connecting base and the air conditioner control panel body.
[0012] The beneficial effects of this utility model are as follows: Through the design of this air conditioner control panel, the wall-mounted air conditioner control panel is simple to operate. When in fixed use, it is controlled directly by buttons; when handheld, it can be pulled upwards to remove. Remote control is achieved using batteries and an antenna. When placed back, it is aligned and automatically locked using the elasticity of a telescopic spring. This design balances the stability of fixed installation with the flexibility of handheld use. Specific beneficial effects are as follows:
[0013] The snap-on installation structure allows the main body of the air conditioner control panel to be easily removed from or placed back into the outer frame, enabling flexible switching between fixed use and handheld remote control to meet the operational needs of different scenarios.
[0014] The connection base connects to the main control panel via pins and charging contacts, enabling both electrical connection for signal transmission and charging of the built-in battery when stationary, ensuring power supply during handheld use. It boasts a high degree of functional integration.
[0015] The sliding frame of the control panel works in conjunction with the telescopic spring to ensure smooth unlocking and resetting of the latch connection, making operation simple and effortless and improving user convenience.
[0016] The overall structure is compact, the components are stably connected, and the outer frame is fixed to the wall through mounting holes, which saves space and ensures the stability of the device, making it suitable for a wide range of applications. Attached Figure Description
[0017] Appendix Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Appendix Figure 2 This is a schematic diagram of the control panel frame and connecting base structure of this utility model;
[0019] Appendix Figure 3 This is a partially exploded view of the outer frame of the control panel of this utility model;
[0020] Appendix Figure 4This is a schematic diagram of the main structure of the outer frame of this utility model;
[0021] Appendix Figure 5 This is a schematic diagram of the sliding frame, telescopic spring, clamping frame and locking block structure of this utility model;
[0022] Appendix Figure 6 This is a schematic diagram of the top surface structure of the connecting base of this utility model;
[0023] Appendix Figure 7 This is a schematic diagram of the bottom structure of the connecting base of this utility model;
[0024] Appendix Figure 8 This is a schematic diagram of the main body of the air conditioner control panel, the battery compartment, and the antenna structure of this utility model.
[0025] Legend: 1. Control panel frame; 101. Frame body; 102. Sliding frame; 103. Telescopic spring; 104. Clamping frame; 105. Locking block; 2. Connecting base; 201. Base body; 202. Pin socket; 203. Charging contact; 204. Terminal block; 3. Air conditioner control panel body; 4. Battery compartment; 5. Antenna. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0027] See Figure 1-8 As shown in the figure, this embodiment of a wall-mounted air conditioner control panel includes a control panel frame 1. A connecting base 2 is fixed to the lower surface of the control panel frame 1 by adhesive bonding. An air conditioner control panel body 3 is assembled inside the control panel frame 1 using a snap-fit installation structure. A battery compartment 4 is provided on the rear surface of the air conditioner control panel body 3 near the upper end. An antenna 5 is provided on one side of the air conditioner control panel body 3 near the upper end. The connecting base 2 is electrically connected to the air conditioner control panel body 3. Multiple control buttons are provided on the display screen surface of the air conditioner control panel body 3 near the lower end.
[0028] Specifically, the main body 3 of the air conditioner control panel is the core component for controlling the air conditioner. It integrates a display screen, control buttons, etc. It can be installed in the outer frame 1 of the control panel through a snap-fit structure, or it can be taken out and used by hand. It controls the air conditioner through internal components.
[0029] The battery compartment 4 is located on the rear surface of the air conditioning control panel body 3 near the top, and is used to install a rechargeable battery to provide power when the air conditioning control panel body 3 is detached from the outer frame and used by hand.
[0030] Antenna 5 is located on one side of the air conditioner control panel body 3 near the top, and is used to transmit signals to remotely control the air conditioner when the air conditioner control panel body 3 is held in hand.
[0031] See appendix Figure 1-5 As shown, the control panel outer frame 1 includes an outer frame body 101, a sliding frame 102 slidably installed in the cavities at both ends of the outer frame body 101, a telescopic spring 103 sleeved on the outside of a short rod inside the sliding frame 102, a clamping frame 104 fused to the front end of the sliding frame 102, and a locking block 105 fused to the inner side of the clamping frame 104 near the upper end. The telescopic spring 103 is located in the cavities at both ends of the outer frame body 101 and can provide elastic force for the sliding of the sliding frame 102.
[0032] The outer frame body 101 has mounting holes on its rear surface. The portion of the clip 105 away from the clamping frame 104 is engaged in the slot on the side of the air conditioner control panel body 3 to achieve a snap-fit connection between the control panel outer frame 1 and the air conditioner control panel body 3.
[0033] Specifically, the outer frame 101 serves as the basic frame of the entire device. The mounting holes on the rear surface are used to fix it to the wall with bolts. The cavities at both ends provide sliding space for the sliding frame 102. The through holes, slots and charging holes on the bottom surface are respectively connected to the air conditioner control panel 3 in conjunction with the pin socket 202 and the charging contact 203.
[0034] The sliding frame 102 can slide in the cavities at both ends of the outer frame body 101. Its front end is connected to the clamping frame 104. When the air conditioner control panel body 3 is pulled upward, the sliding frame 102 is pulled out, which drives the subsequent components to complete the unlocking action.
[0035] The telescopic spring 103 is sleeved on the outside of the short rod inside the slide frame 102 and is located in the cavities at both ends of the outer frame body 101. Its elasticity provides the reset power for the sliding of the slide frame 102. When the air conditioning control panel body 3 is put back, it can push the slide frame 102 and related components to reset and achieve the snap-lock fixation.
[0036] The clamping frame 104 is fused to the front end of the sliding frame 102. The inner locking block 105 is the key to realizing the snap-fit connection. The movement of the clamping frame 104 drives the locking block 105 to engage or disengage from the slot.
[0037] The locking block 105 is fused to the inner side of the clamping frame 104 near the upper end. During normal use, it is locked in the slot on the side of the air conditioner control panel body 3, realizing the snap-fit connection between the outer frame 1 of the control panel and the air conditioner control panel body 3. When removed, it is disengaged from the slot, thus unlocking.
[0038] See appendix Figure 1-7 As shown, the connecting base 2 includes a base body 201 that is bonded and fixed to the bottom surface of the outer frame body 101 by epoxy resin adhesive, a pin socket 202 installed on the top surface of the base body 201 near one end, a charging contact 203 located on the top surface of the base body 201 near the other end, and a terminal block 204 located on the bottom surface of the base body 201.
[0039] The upper ends of the pin socket 202 and the charging contact 203 pass through the through hole on the bottom surface of the outer frame body 101. The upper end of the pin socket 202 is inserted into the slot on the bottom surface of the air conditioner control panel body 3, and the upper end of the charging contact 203 is inserted into the charging hole on the bottom surface of the air conditioner control panel body 3, thereby realizing the corresponding connection between the connecting base 2 and the air conditioner control panel body 3.
[0040] Specifically, the base body 201 is fixed to the bottom surface of the outer frame body 101 with epoxy resin adhesive. It serves as the mounting base for connecting other components of the base 2, providing support and fixation.
[0041] The pin socket 202 is installed on the top surface of the base body 201 near one end. Its upper end passes through the through hole on the bottom surface of the outer frame body 101 and is inserted into the slot on the bottom surface of the air conditioner control panel body 3 to realize the electrical connection between the base 2 and the air conditioner control panel body 3 and transmit control signals.
[0042] The charging contact 203 is located on the top surface of the base body 201 near the other end. Its upper end passes through the through hole on the bottom surface of the outer frame body 101 and is inserted into the charging hole on the bottom surface of the air conditioner control panel body 3. It is used to charge the internal battery of the air conditioner control panel body 3 when it is installed in the frame.
[0043] Terminal 204 is located on the bottom surface of the base body 201 and is used to connect external lines, provide power or signal input to the base 2, and is the interface for connecting the entire device to external circuits.
[0044] The operation process of this utility model is as follows: During daily fixed use, confirm that the air conditioner control panel body 3 has been installed in the control panel outer frame 1 through the buckle structure, the buckle 105 is in the buckle groove on the side of the control panel body 3, the pin socket 202 and the charging contact 203 are respectively connected to the slot and charging hole of the control panel body 3, and the control is operated directly through the control button below the display screen of the control panel body 3. At this time, the connecting base 2 transmits the control signal through the pin socket 202, and the charging contact 203 charges the battery in the battery compartment 4.
[0045] When taking it out for handheld use, pull the air conditioner control panel body 3 upwards. At this time, the sliding frame 102 slides out of the cavities at both ends of the outer frame body 101 under the action of the pulling force, which drives the clamping frame 104 and the locking block 105 to move. The locking block 105 disengages from the locking groove on the side of the control panel body 3, and the telescopic spring 103 is stretched, taking the control panel body 3 out of the outer frame 1. The pin socket 202 and the charging contact 203 are separated from the control panel body 3. The battery in the battery compartment 4 powers the control panel body 3 and transmits signals through the antenna 5 to remotely control the air conditioner. The operation is still carried out through the control buttons on the control panel body 3.
[0046] When repositioning, align the slot and charging port on the bottom of the control panel body 3 with the pin socket 202 and charging contact 203 inside the outer frame body 101, and place the control panel outer frame 1 downwards. Release the control panel body 3, and the telescopic spring 103 returns to its original state, pushing the slide frame 102 to slide into the cavity. The clamp frame 104 drives the locking block 105 to reset, and the locking block 105 re-locks into the slot on the side of the control panel body 3, completing the fixation. At this time, the pin socket 202 and the charging contact 203 are reconnected, restoring the fixed use state.
[0047] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A wall-mounted air conditioner control panel, characterized in that: The system includes a control panel frame (1), a connecting base (2) is fixed to the lower surface of the control panel frame (1) by adhesive bonding, an air conditioning control panel body (3) is assembled inside the control panel frame (1) using a snap-fit installation structure, a battery compartment (4) is provided on the rear surface of the air conditioning control panel body (3) near the upper end, an antenna (5) is provided on one side of the air conditioning control panel body (3) near the upper end, the connecting base (2) is electrically connected to the air conditioning control panel body (3), and multiple control buttons are provided on the display screen surface of the air conditioning control panel body (3) near the lower end.
2. The wall-mounted air conditioner control panel according to claim 1, characterized in that: The control panel frame (1) includes an outer frame body (101), a sliding frame (102) slidably installed in the cavities at both ends of the outer frame body (101), a telescopic spring (103) on the outside of a short rod inside the sliding frame (102), a clamping frame (104) fused to the front end of the sliding frame (102), and a locking block (105) fused to the inner side of the clamping frame (104) near the upper end. The telescopic spring (103) is located in the cavities at both ends of the outer frame body (101) and can provide elastic force for the sliding of the sliding frame (102).
3. A wall-mounted air conditioner control panel according to claim 2, characterized in that: The outer frame body (101) has a mounting hole on its rear surface. The part of the clip (105) away from the clamping frame (104) is clipped into the slot on the side of the air conditioner control panel body (3) to achieve a snap-fit connection between the control panel outer frame (1) and the air conditioner control panel body (3).
4. A wall-mounted air conditioner control panel according to claim 3, characterized in that: The connecting base (2) includes a base body (201) that is bonded and fixed to the bottom surface of the outer frame body (101) by epoxy resin adhesive, a pin socket (202) installed on the top surface of the base body (201) near one end, a charging contact (203) located on the top surface of the base body (201) near the other end, and a terminal block (204) located on the bottom surface of the base body (201).
5. A wall-mounted air conditioner control panel according to claim 4, characterized in that: The upper ends of the pin socket (202) and the charging contact (203) pass through the through hole on the bottom surface of the outer frame body (101). The upper end of the pin socket (202) is inserted into the slot on the bottom surface of the air conditioner control panel body (3), and the upper end of the charging contact (203) is inserted into the charging hole on the bottom surface of the air conditioner control panel body (3), thereby realizing the corresponding connection between the connecting base (2) and the air conditioner control panel body (3).