An easy-to-dissipate electric window controller
By employing a two-way control structure and a multi-hole inspection cover design, the problems of inaccurate window control, low heat dissipation efficiency, and inconvenient maintenance in electric window controllers have been solved. This has enabled precise window control, automatic reset, and efficient heat dissipation, thereby improving the ease of operation and structural reliability of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUIYU DIGITAL TECHNOLOGY (XIAMEN) CO LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-30
AI Technical Summary
Existing electric window controllers that are easy to dissipate heat suffer from problems such as inaccurate window control, low heat dissipation efficiency, inconvenient maintenance, and unstable circuit connections, which affect the service life and safety of the equipment.
It adopts a two-way control structure, a multi-hole inspection cover and a snap-fit structure design, combined with the mounting shell and control base, to achieve precise control of window opening and closing, automatic reset, enhance heat dissipation channels and circuit stability, and ensure sealing and ease of maintenance.
It enables precise control and automatic reset of window opening and closing, improves operational convenience and circuit safety, enhances heat dissipation efficiency, ensures circuit stability and ease of maintenance, and strengthens the overall structural reliability and durability.
Smart Images

Figure CN224439361U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building door and window automation technology, and in particular to an electric window controller that is easy to dissipate heat. Background Technology
[0002] Driven by the continuous development of the construction industry and the wave of intelligentization, building door and window automation has become an important direction for modern buildings to improve the living experience and achieve energy conservation and consumption reduction. As people's requirements for the comfort, safety and convenience of the living environment increase, traditional manually operated doors and windows are gradually unable to meet the needs. Therefore, there is a particular need for an electric window controller that is easy to dissipate heat.
[0003] However, existing electric window controllers that are easy to dissipate heat may experience inaccurate window opening and closing control and failure of the circuit to automatically reset and cut off power during use, posing operational safety hazards. They may also face problems such as poor heat dissipation channels leading to high-temperature aging of internal components, affecting the service life of the equipment. Furthermore, the inspection cover may be cumbersome to disassemble and assemble and have insufficient sealing, failing to meet the needs for convenient maintenance. Utility Model Content
[0004] The purpose of this invention is to provide an electric window controller that is easy to dissipate heat, in order to solve the problems mentioned in the background art, such as inaccurate window control, low heat dissipation efficiency, inconvenient maintenance, and unstable circuit connection that may result in an existing electric window controller that is easy to dissipate heat.
[0005] To achieve the above objectives, the present invention provides the following technical solution: an electric window controller that is easy to dissipate heat, including a switch assembly, wherein a window is provided on the inner wall surface of the switch assembly, and a control assembly is provided on one side surface of the switch assembly;
[0006] The control component includes a mounting housing, a control base fixedly connected to the top of the mounting housing, a limiting shaft fixedly connected to the inner wall surface of the control base, a drive switch rotatably connected to the outer surface of the limiting shaft, an upper access plate fixedly connected to the inner wall surface of the control base and fitting against the top of the drive switch, a memory spring fixedly connected to the bottom end of the drive switch, a lower access plate fitting against the bottom end of the drive switch, an inspection cover rotatably connected to one side surface of the mounting housing, a locking male component fixedly connected to one side surface of the inspection cover, a locking female component fitting against one side surface of the locking male component, a limit spring fitting against the side surface away from the locking male component, a release pull plate fixedly connected to one side surface of the locking female component, and a release groove formed on the side surface of the mounting housing near the release pull plate.
[0007] Preferably, the inner wall surface of the control base is provided with an installation groove, and two sets of installation grooves are provided on the inner wall surface of the control base, and the lower passage plate is fixedly connected to one side surface of the control base through the installation groove.
[0008] Preferably, the control base, limiting shaft, drive switch, upper passage plate, memory spring and lower passage plate constitute a bidirectional control structure, and the control base is symmetrically arranged in two sets around the central axis of the mounting shell.
[0009] Preferably, one side surface of the inspection cover is porous, and two sets of the locking fittings are arranged around the central axis of the inspection cover.
[0010] Preferably, a limiting groove is formed on one side surface of the engaging female component, and three sets of limiting springs are equidistantly arranged on one side surface of the engaging female component, and the engaging female component is slidably connected to the inner wall surface of the release groove through the limiting springs.
[0011] Preferably, the release plate has an "L"-shaped cross-section along the horizontal direction, and the release plate is slidably connected to one side surface of the release groove through a locking female component.
[0012] Preferably, the male and female locking components, the limiting spring, the release pull plate, and the release slide groove constitute a locking structure. Two sets of the male and female locking components, the limiting spring, the release pull plate, and the release slide groove are symmetrically arranged around the central axis of the housing. The inspection cover is fixedly connected to one side surface of the housing through the male and female locking components.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: This easy-to-dissipate electric window controller, through the setting of control components, realizes bidirectional control and automatic reset of window opening and closing, improving operational convenience and circuit safety. Through the setting of the inspection cover and the locking structure, an efficient heat dissipation channel is formed and rapid maintenance is achieved, solving the problems of poor heat dissipation and difficult maintenance of traditional controllers. Through the setting of the mounting shell and the control base, a stable circuit support and heat conduction structure is constructed, ensuring the reliability of signal transmission. Through the setting of the symmetrical locking structure, the sealing performance and force uniformity when the inspection cover is closed are enhanced, improving the reliability and durability of the overall structure. Attached Figure Description
[0014] Figure 1 This is a side view of the appearance structure of this utility model;
[0015] Figure 2 This is a schematic diagram of the interaction between the drive switch and the control base of this utility model;
[0016] Figure 3 This is a schematic diagram of the interaction between the inspection cover and the mounting shell when the cover is opened, according to the present invention.
[0017] Figure 4 This is a cross-sectional view of the male and female locking parts of this utility model.
[0018] In the diagram: 1. Switch assembly; 2. Window; 3. Control assembly; 301. Mounting housing; 302. Control base; 303. Restricting pivot; 304. Drive switch; 305. Upper passage plate; 306. Memory spring; 307. Lower passage plate; 308. Inspection cover; 309. Engaging male component; 310. Engaging female component; 311. Limit spring; 312. Release pull plate; 313. Release slide. Detailed Implementation
[0019] 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.
[0020] Please see Figure 1-4 The present invention provides a technical solution: an electric window controller that is easy to dissipate heat, including a switch assembly 1, a window 2 provided on the inner wall surface of the switch assembly 1, and a control assembly 3 provided on one side surface of the switch assembly 1;
[0021] The control component 3 includes a mounting housing 301. A control base 302 is fixedly connected to the top of the mounting housing 301. A limiting shaft 303 is fixedly connected to the inner wall surface of the control base 302. A drive switch 304 is rotatably connected to the outer surface of the limiting shaft 303. An upper passage plate 305, which is attached to the top of the drive switch 304, is fixedly connected to the inner wall surface of the control base 302. A memory spring 306 is fixedly connected to the bottom of the drive switch 304. A lower passage plate 307 is attached to the bottom of the drive switch 304. A maintenance cover 308 is rotatably connected to one side surface of the mounting housing 301. A locking male component 309 is fixedly connected to one side surface of the maintenance cover 308. A locking female component 310 is attached to one side surface of the locking male component 309. A limit spring 311 is attached to the side surface away from the locking male component 309. A release plate 31 is fixedly connected to one side surface of the locking female component 310. 2. A release groove 313 is provided on the surface of the mounting housing 301 near the release plate 312. Through the setting of the control component 3, when in use, the control component 3 is turned on, and the user turns on the drive switch 304 to rotate around the limiting shaft 303, which contacts the upper passage plate 305 or the lower passage plate 307 to drive the window 2. The memory spring 306 resets and disconnects the power. During operation, the control base 302 conducts heat to the mounting housing 301, and the multi-hole structure of the inspection cover 308 dissipates heat. During maintenance, pulling the release plate 312 drives the locking female part 310 to compress the limiting spring 311 to separate the locking male part 309. After being released, the spring resets and re-engages. The drive switch 304 works in coordination with the limiting shaft 303, the upper passage plate 305, and the lower passage plate 307 to achieve bidirectional precise control of the window opening and closing. The memory spring 306 automatically resets the drive switch 304 to ensure that the circuit is disconnected in time, improving the safety and stability of operation.
[0022] Furthermore, the inner wall surface of the control base 302 is provided with a mounting groove. There are two sets of mounting grooves on the inner wall surface of the control base 302. The lower passage plate 307 is fixedly connected to one side surface of the control base 302 through the mounting groove. With the setting of the control base 302, during use, the lower passage plate 307 is firmly connected to the control base 302 through the mounting groove, ensuring the stability and accuracy of the circuit connection and avoiding poor contact due to vibration or loosening.
[0023] Furthermore, the control base 302, the limiting shaft 303, the drive switch 304, the upper passage plate 305, the memory spring 306, and the lower passage plate 307 constitute a bidirectional control structure. The control base 302 is symmetrically arranged in two sets around the central axis of the mounting housing 301. Through the arrangement of the control base 302, the limiting shaft 303, the drive switch 304, the upper passage plate 305, the memory spring 306, and the lower passage plate 307, independent bidirectional control of the window opening and closing action can be realized during use, improving operational flexibility, and the redundant design enhances system reliability.
[0024] Furthermore, one side surface of the inspection cover 308 is porous, and two sets of locking male parts 309 are arranged around the central axis of the inspection cover 308. Through the arrangement of the inspection cover 308 and the locking male parts 309, the porous structure increases the heat dissipation area and improves the heat exchange efficiency during use. The two sets of locking male parts 309 cooperate with the corresponding female parts to ensure the sealing and stability of the inspection cover 308 when it is closed.
[0025] Furthermore, a limiting groove is formed on one side surface of the engaging female part 310, and three sets of limiting springs 311 are equidistantly arranged on one side surface of the engaging female part 310. The engaging female part 310 is slidably connected to the inner wall surface of the release groove 313 through the limiting springs 311. With the engaging female part 310 and the limiting springs 311, the limiting springs 311 provide uniform elastic support for the engaging female part 310 during use, and the limiting groove ensures accurate sliding trajectory, so that the engaging and disengaging actions are smooth and accurate in positioning.
[0026] Furthermore, the release pull plate 312 has an "L" shaped cross section along the horizontal direction. The release pull plate 312 is slidably connected to one side surface of the release groove 313 through the engaging female part 310. With the setting of the release pull plate 312, the "L" shaped structure forms a force-saving lever during use, requiring only a small pulling force to drive the engaging female part 310 to separate, reducing the difficulty of operation and improving maintenance efficiency.
[0027] Furthermore, the engaging male component 309, engaging female component 310, limiting spring 311, release pull plate 312, and release slide groove 313 constitute an engaging structure. Two sets of these components are symmetrically arranged around the central axis of the mounting housing 301. The inspection cover 308 is fixedly connected to one side surface of the mounting housing 301 via the engaging male component 309 and engaging female component 310. Through this engaging structure, the two sets of engaging structures work together to provide double the fastening force for the inspection cover 308 during use, evenly distributing external forces and preventing unilateral force from causing seal failure or loosening. The symmetrical layout ensures balanced force when pulling the release pull plate 312, making operation easier. Moreover, if one set fails, the other set can still maintain its fixed function, improving the overall reliability and fault tolerance of the structure.
[0028] Working Principle: When the equipment starts running, an external power supply powers the entire system. During the power-on startup phase, the external power supply establishes a stable power supply system, enabling the circuit within the control component 3 to conduct. The user applies external force to activate the drive switch 304, causing it to rotate around the limiting shaft 303. When the top of the drive switch 304 contacts the upper passage plate 305, the internal rising circuit is activated, driving the window 2 to close. Conversely, when the bottom of the drive switch 304 contacts the lower passage plate 307, the falling circuit is activated, and the window 2 opens. After the operation is completed, the memory spring 306, with its unique elastic reset physical characteristics, returns the drive switch 304 to its initial position, achieving circuit disconnection and terminating the lifting action. Based on this bidirectional control mechanism, signal transmission and power delivery within the control base 302 are precisely transmitted through the upper passage plate 305 or the lower passage plate 307, providing a reliable guarantee for the stable operation of the window 2. During the process, the switching on and off of the circuit generates heat. This heat is conducted through the control base 302 to the mounting housing 301. Due to the porous structure design on one side of the inspection cover 308, the heat accumulated inside the mounting housing 301 can achieve efficient heat exchange with the outside air under the principle of heat convection, thereby achieving the heat dissipation function. In equipment maintenance scenarios, the operator pulls the release plate 312, which causes the locking female part 310 to compress the limit spring 311 and cause it to move along the release groove 313. The sliding displacement causes the locking female part 310 and the locking male part 309 to separate, ultimately enabling the inspection cover 308 to rotate and open for maintenance of internal components. After the maintenance is completed, the operator releases the release plate 312, and the limit spring 311 automatically resets under the drive of elastic potential energy, pushing the locking female part 310 and the locking male part 309 to re-enter the locking state, thereby completing the stable closure of the inspection cover 308 and ensuring that the equipment returns to the protective state of normal operation. This completes the use process of an electric window controller that is easy to dissipate heat.
[0029] 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. An electric window controller easy to dissipate heat, comprising a switch assembly (1), the inner wall surface of the switch assembly (1) is provided with a window body (2), characterized in that: A control component (3) is provided on one side surface of the switch assembly (1); The control component (3) includes a mounting housing (301), a control base (302) fixedly connected to the top of the mounting housing (301), a limiting shaft (303) fixedly connected to the inner wall surface of the control base (302), a drive switch (304) rotatably connected to the outer surface of the limiting shaft (303), a passage plate (305) fixedly connected to the inner wall surface of the control base (302) and conforming to the top of the drive switch (304), and a memory spring (306) fixedly connected to the bottom end of the drive switch (304). The bottom end is attached to a lower passage plate (307). A maintenance cover (308) is rotatably connected to one side surface of the mounting housing (301). A locking male component (309) is fixedly connected to one side surface of the maintenance cover (308). A locking female component (310) is attached to one side surface of the locking male component (309). A limit spring (311) is attached to the side surface away from the locking male component (309). A release pull plate (312) is fixedly connected to one side surface of the locking female component (310). A release groove (313) is opened on the side surface of the mounting housing (301) near the release pull plate (312).
2. The electric window controller of claim 1, wherein: The inner wall surface of the control base (302) is provided with an installation groove. Two sets of installation grooves are provided on the inner wall surface of the control base (302), and the lower passage plate (307) is fixedly connected to one side surface of the control base (302) through the installation groove.
3. The electric window controller with easy heat dissipation according to claim 1, characterized in that: The control base (302), the limiting shaft (303), the drive switch (304), the upper passage plate (305), the memory spring (306), and the lower passage plate (307) constitute a bidirectional control structure. The control base (302) is symmetrically arranged with two sets of components on the central axis of the mounting housing (301).
4. The electric window controller with easy heat dissipation according to claim 1, characterized in that: One side surface of the inspection cover (308) is porous, and two sets of the locking male parts (309) are arranged around the central axis of the inspection cover (308).
5. The electric window controller with easy heat dissipation according to claim 1, characterized in that: A limiting groove is provided on one side surface of the engaging female part (310), and three sets of limiting springs (311) are equidistantly arranged on one side surface of the engaging female part (310). The engaging female part (310) is slidably connected to the inner wall surface of the release groove (313) through the limiting springs (311).
6. The electric window controller with easy heat dissipation according to claim 1, characterized in that: The release plate (312) has an "L" shaped cross section along the horizontal direction, and the release plate (312) is slidably connected to one side surface of the release groove (313) through the engaging female part (310).
7. The electric window controller with easy heat dissipation according to claim 1, characterized in that: The engaging male component (309), engaging female component (310), limiting spring (311), release pull plate (312), and release slide (313) constitute an engaging structure. The engaging male component (309), engaging female component (310), limiting spring (311), release pull plate (312), and release slide (313) are symmetrically arranged in two sets around the central axis of the mounting shell (301). The inspection cover (308) is fixedly connected to one side surface of the mounting shell (301) through the engaging male component (309) and engaging female component (310).