A dual hall elevator motor connector
By using high-strength insulating materials and an anti-oxidation metal pin plug-in design, the connection stability and installation complexity of Hall motor connectors are solved, enabling stable operation and easy installation in window lifters.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- RUIAN YUHANG VEHICLE FITTINGS CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-06-26
AI Technical Summary
Existing Hall motor connectors in window regulators suffer from poor connection stability, complex installation, and high cost.
The main structure is made of high-strength, high-temperature resistant, and corrosion-resistant insulating materials, combined with anti-oxidation and wear-resistant metal pins and a plug-in design, along with the matching of positioning posts and positioning holes, to ensure connection stability and easy installation.
It improves the mechanical strength and electrical performance of the connector, ensures stable operation in vibration and shock environments, reduces contact resistance, simplifies the installation process, and reduces the failure rate.
Smart Images

Figure CN224418579U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an improved invention of a lifting motor, and more particularly to an improved invention of a dual Hall effect lifting motor connector module. Background Technology
[0002] In window regulator control systems, Hall effect motors offer advantages such as high efficiency and precise control. However, existing Hall effect motors have some shortcomings that significantly impact their performance and application range. For example: 1. Poor connection stability: Traditional connectors are susceptible to environmental factors such as vibration, temperature changes, and humidity during long-term use, leading to loose connections, poor contact, and ultimately motor failure, reducing system reliability; 2. Complex installation of Hall effect circuit boards and connectors, resulting in high costs. Utility Model Content
[0003] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide a dual Hall effect lift motor connector.
[0004] To solve the above-mentioned technical problems, this utility model adopts the following technical solution: The dual Hall effect lift motor connector includes a main structure, characterized in that: the main structure is made of high-strength, high-temperature resistant, and corrosion-resistant insulating material; the main structure integrally forms an external insertion part, an internal insertion part, and a Hall effect circuit board mounting position; the internal insertion part and the external insertion part are arranged opposite to each other; electrical connectors pass through the slots of the internal and external insertion parts; the Hall effect circuit board mounting position is located at the upper end of the internal insertion part; the corresponding Hall effect circuit board mounting position includes a mounting groove for matching and accommodating the Hall effect circuit board; the electrical connector passes through the mounting groove and is soldered to the Hall effect circuit board; a positioning post is provided in the center of the bottom of the mounting groove; a positioning hole is provided on the corresponding Hall effect circuit board, and the positioning hole cooperates with the positioning post; and buckles are provided on the outer sides of both the internal and external insertion parts.
[0005] The electrical connector includes a plurality of metal pins, the surface of which is provided with an anti-oxidation and wear-resistant metal plating.
[0006] The metal plating layer is a tin plating layer.
[0007] The insulating material is a glass fiber reinforced PBT composite material.
[0008] The outer side of the external connector is also provided with several connector positioning strips.
[0009] The beneficial effect of this utility model is the improved dual Hall effect lifter motor connector.
[0010] The main structure is made of high-strength, high-temperature resistant, and corrosion-resistant insulating materials, possessing good mechanical strength and electrical performance, effectively resisting the influence of the external environment, and ensuring the stable operation of the connector module;
[0011] The electrical connector is composed of high-precision metal pins. The surface of the pins is specially treated to form an anti-oxidation and wear-resistant metal plating layer, ensuring reliable electrical connection, reducing contact resistance, and improving signal transmission stability and efficiency. At the same time, the connection component adopts a unique plug-in design, which is easy to operate, has a firm connection, and can withstand a certain number of plug-in and plug-out cycles without damage.
[0012] The Hall element is soldered and combined with positioning posts and positioning holes, making installation simple, quick, stable and reliable, and ensuring the installation accuracy of the Hall element.
[0013] The connector is securely installed on the elevator motor using a plug-in and snap-fit mechanism, ensuring that the connector will not loosen or fall off due to vibration, impact, or other reasons during elevator operation. Attached Figure Description
[0014] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings.
[0015] Figure 1 This is a schematic diagram of the structure of this utility model.
[0016] Figure 2 This is an inward structural view of the present invention.
[0017] Figure 3 This is an external view of the structure of this utility model. Detailed Implementation
[0018] The accompanying drawings illustrate the structure of this utility model, and further details will be described below with reference to the drawings. In this embodiment, see the attached drawings. Figure 1-3The dual Hall effect lifter motor connector includes a main structure 1, which is made of high-strength, high-temperature resistant, and corrosion-resistant insulating material, preferably glass fiber reinforced PBT composite material. The main structure 1 has an integrally formed outer plug-in portion 2, an inner plug-in portion 3, and a Hall effect circuit board mounting position 4. The inner plug-in portion 3 and the outer plug-in portion 2 are arranged opposite each other. An electrical connector 5 passes through the slots of the inner plug-in portion 3 and the outer plug-in portion 2. The Hall effect circuit board mounting position 4 is located at the upper end of the inner plug-in portion 3 and includes a mounting groove for accommodating a Hall effect circuit board 6. The electrical connector 5 passes through the mounting groove and connects with the Hall effect circuit board 6. The circuit board 6 is soldered together. A positioning post 7 is located in the center of the bottom of the mounting groove. A positioning hole 8 is provided on the corresponding Hall circuit board 6. The positioning hole 8 mates with the positioning post 7, and the positioning hole 8 fits onto the positioning post 7 to position the Hall circuit board 6. This allows the Hall circuit board 6 to be quickly and easily installed thanks to the soldering and the aforementioned positioning structure. Both the inner insertion part 3 and the outer insertion part 2 have a buckle 9 on their outer sides. The buckle 9 has a wedge-shaped structure and a locking function, improving the connection stability between the inner insertion part 3 and the lifting motor interface, and between the outer insertion part 2 and the external power connector. The corresponding lifting motor interface and external power connector have locking slots that mate with the buckles. The electrical connector 5 is integrally injection molded within the main structure 1, making processing convenient and ensuring stable connection.
[0019] As a further improved specific implementation, the electrical connector 5 includes a plurality of metal pins, the surface of which is provided with an anti-oxidation and wear-resistant metal plating layer; preferably, the metal plating layer is a tin plating layer to ensure reliable electrical connection, reduce contact resistance, and improve signal transmission stability and efficiency. At the same time, the connection component adopts a unique plug-in design, which is easy to operate, has a firm connection, and can withstand a certain number of plug-in and plug-out cycles without damage.
[0020] As a further improved implementation, the outer side of the external insertion part 2 is also provided with several insertion positioning strips 10, which work in conjunction with the buckle 9 to improve insertion stability.
[0021] In summary, the above are merely preferred embodiments of this utility model and are not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the scope of protection of this utility model.
Claims
1. A dual Hall effect lifter motor connector, comprising a main body structure, characterized in that: The main structure is made of high-strength, high-temperature resistant, and corrosion-resistant insulating material. The main structure integrally forms an external connector, an internal connector, and a Hall effect circuit board mounting position. The internal connector and external connector are arranged opposite each other. Electrical connectors pass through the slots in the internal and external connectors. The Hall effect circuit board mounting position is located at the upper end of the internal connector and includes a mounting groove for accommodating the Hall effect circuit board. Electrical connectors pass through the mounting groove and are soldered to the Hall effect circuit board. A positioning post is provided in the center of the bottom of the mounting groove, and a positioning hole is provided on the corresponding Hall effect circuit board, which mates with the positioning post. Buckles are provided on the outer sides of both the internal and external connectors.
2. The dual Hall effect lifter motor connector as described in claim 1, characterized in that: The electrical connector includes a plurality of metal pins, the surface of which is provided with an anti-oxidation and wear-resistant metal plating.
3. The dual Hall effect lifter motor connector as described in claim 2, characterized in that: The metal plating layer is a tin plating layer.
4. The dual Hall effect lifter motor connector as described in claim 1, characterized in that: The insulating material is a glass fiber reinforced PBT composite material.
5. The dual Hall effect lifter motor connector as described in claim 1, characterized in that: The outer side of the external connector is also provided with several connector positioning strips.