An aperture-adjustable sensor connector housing opening device
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BENGBU XINGCHUANG ELECTRONICS TECH CO LTD
- Filing Date
- 2025-07-31
- Publication Date
- 2026-06-26
AI Technical Summary
[0003]目前传感器连接器外壳加工时需要进行开孔,在对传感器连接器外壳进行开孔时,由于不同作用的孔洞大小也不同,开设相应大小的孔洞就需要与其适配的钻头,使用者频繁对钻孔装置钻头进行调节更换较为麻烦,因此需要一种孔径可调节式传感器连接器外壳开孔装置,可以通过换头结构对钻孔装置钻头进行更换,避免使用者需要频繁对钻孔装置的钻头进行更换,提高了传感器连接器外壳钻孔的速度
[0011]1、本实用新型通过启动调节架和钻头固定夹,使钻头固定夹向下运动将钻头插入旋转放置盘顶部后向上进行运动,再启动电机一,使旋转放置盘进行转动,使适配的钻头到达钻头固定夹的底部,再次启动调节架和钻头固定夹,使钻头固定夹向下运动对适配的钻头进行夹持,即可达到可以通过换头结构对钻孔装置钻头进行更换,避免使用者需要频繁对钻孔装置的钻头进行更换,提高了传感器连接器外壳钻孔的速度;
Smart Images

Figure CN224406485U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of sensor connector housing processing technology, and in particular relates to an adjustable aperture sensor connector housing opening device. Background Technology
[0002] The sensor connector housing is a key structural component for connecting sensors to external devices. It not only protects the internal pins and circuits but also affects the stability, protection performance, and installation compatibility of the connector. During the processing of sensor connector housings, drilling equipment is often used to create holes. The main holes on the surface of sensor connectors include: cable entry holes, mounting holes, positioning holes, and grounding holes. In some cases, heat dissipation holes are also added. A reasonable hole design can not only ensure the normal operation of the sensor but also extend its service life in harsh environments.
[0003] Currently, drilling is required during the processing of sensor connector housings. Since the hole size varies depending on the function, a suitable drill bit is needed to drill the corresponding hole. It is inconvenient for users to frequently adjust and change the drill bit of the drilling device. Therefore, there is a need for a hole-drilling device for sensor connector housings with adjustable hole diameter. The drill bit of the drilling device can be changed through a head-changing structure, avoiding the need for users to frequently change the drill bit of the drilling device and improving the drilling speed of sensor connector housings. Utility Model Content
[0004] The purpose of this invention is to provide an adjustable aperture sensor connector housing drilling device, which allows for the replacement of the drill bit via a head-changing structure, avoiding the need for frequent drill bit replacement by the user and improving the drilling speed of the sensor connector housing, thereby solving the aforementioned technical problems.
[0005] The technical solution of this utility model to solve the above-mentioned technical problems is as follows: A hole-opening device for an adjustable aperture sensor connector housing includes a fixed frame fixedly connected to the top of a processing table, a rotating frame rotatably connected to the top of the fixed frame, a rotating placement disk penetrating through the top of the rotating frame, the rotating placement disk being rotatably connected to the rotating frame, a gear ring fixedly connected to the surface of the rotating placement disk, a mounting frame fixedly connected to the top of the rotating frame, a gear rotatably connected to the top of the inner cavity of the mounting frame, the gear meshing with the mounting frame, a motor one fixedly mounted to the top of the mounting frame by bolts, the output shaft of the motor one penetrating the mounting frame and fixedly connected to the gear, a motor two fixedly mounted to the top of the inner cavity of the fixed frame by bolts, the output shaft of the motor two penetrating the fixed frame and fixedly connected to the rotating frame, an adjustment frame provided on the top of the processing table, a drilling machine fixedly connected to the front of the fixed frame, a drill bit fixing clamp provided at the bottom of the drilling machine, and a clamp provided on the top of the processing table.
[0006] Preferably, the inner cavity of the processing table is fixedly connected to a placement rack, and the top of the placement rack is provided with a collection groove.
[0007] Preferably, the top of the processing table is provided with a material discharge port, and the collection trough is located directly below the material discharge port.
[0008] Preferably, the surface of the rotating placement disk is fixedly connected to two symmetrical limiting rings, which are located at the top and bottom of the rotating frame, respectively.
[0009] Preferably, the drill bit retainer is located above the clamp.
[0010] The beneficial effects of this utility model are:
[0011] 1. This utility model starts the adjusting frame and the drill bit fixing clamp, causing the drill bit fixing clamp to move downwards and insert the drill bit into the top of the rotating placement plate, and then moves upwards. Then, the motor is started to make the rotating placement plate rotate, so that the matching drill bit reaches the bottom of the drill bit fixing clamp. The adjusting frame and the drill bit fixing clamp are started again, causing the drill bit fixing clamp to move downwards and clamp the matching drill bit. This allows the drill bit of the drilling device to be replaced through the head changing structure, avoiding the need for users to frequently replace the drill bit of the drilling device, and improving the drilling speed of the sensor connector housing.
[0012] 2. By setting up a collection trough, this utility model places the collection trough on top of the placement frame. When the drill bit fixing clamp is processing the sensor connector housing, the waste material during processing will fall into the inner cavity of the collection trough through the material drop port on the top of the processing table, avoiding the waste material from scattering randomly and ensuring the speed of waste material collection. Attached Figure Description
[0013] in:
[0014] Figure 1 This is a perspective view of one embodiment of the present utility model;
[0015] Figure 2 This is a front view schematic diagram of one embodiment of the present utility model;
[0016] Figure 3 This is a left-side view of one embodiment of the present invention;
[0017] Figure 4 This is a three-dimensional exploded view of the feeding structure of one embodiment of the present invention.
[0018] The attached diagram lists the components represented by each number as follows:
[0019] 1. Processing table, 2. Fixed frame, 3. Rotating frame, 4. Rotating placement plate, 5. Gear ring, 6. Mounting frame, 7. Gear, 8. Motor 1, 9. Motor 2, 10. Adjusting frame, 11. Drilling machine, 12. Drill bit fixing clamp, 13. Fixture, 14. Placement frame, 15. Collection tank. Detailed Implementation
[0020] In the following description, embodiments of the aperture-adjustable sensor connector housing opening device of the present invention will be described with reference to the accompanying drawings. Example 1
[0021] Figure 1-4This invention illustrates an embodiment of an adjustable aperture sensor connector housing opening device, comprising a fixed frame 2 fixedly connected to the top of a processing table 1, a placement frame 14 fixedly connected to the inner cavity of the processing table 1, a collection groove 15 provided on the top of the placement frame 14, a material discharge port on the top of the processing table 1, and the collection groove 15 located directly below the material discharge port. By placing the collection groove 15 on top of the placement frame 14, when the drill bit clamp 12 processes the sensor connector housing, the processing waste will fall into the inner cavity of the collection groove 15 through the material discharge port on the top of the processing table 1, preventing waste from scattering randomly and ensuring the speed of waste collection. A rotating frame 3 is rotatably connected to the top of the fixed frame 2, and a rotating mechanism is provided through the top of the rotating frame 3. A rotating placement tray 4 is rotatably connected to a rotating frame 3. A gear ring 5 is fixedly connected to the surface of the rotating placement tray 4. A mounting frame 6 is fixedly connected to the top of the rotating frame 3. A gear 7 is rotatably connected to the top of the inner cavity of the mounting frame 6. The gear 7 meshes with the mounting frame 6. A motor 8 is fixedly mounted to the top of the mounting frame 6 by bolts. The output shaft of the motor 8 passes through the mounting frame 6 and is fixedly connected to the gear 7. A motor 9 is fixedly mounted to the top of the inner cavity of the fixed frame 2 by bolts. The output shaft of the motor 9 passes through the fixed frame 2 and is fixedly connected to the rotating frame 3. An adjustment frame 10 is provided on the top of the processing table 1. A drilling machine 11 is fixedly connected to the front of the fixed frame 2. A drill bit fixing clamp 12 is provided at the bottom of the drilling machine 11. A clamp 13 is provided on the top of the processing table 1. Example 2
[0022] Figure 1-4This invention illustrates an embodiment of an adjustable aperture sensor connector housing opening device, comprising a fixed frame 2 fixedly connected to the top of a processing table 1, a rotating frame 3 rotatably connected to the top of the fixed frame 2, a rotating placement disk 4 penetrating the top of the rotating frame 3, two symmetrical limiting rings fixedly connected to the surface of the rotating placement disk 4, the limiting rings being located at the top and bottom of the rotating frame 3 respectively, the rotating placement disk 4 being rotatably connected to the rotating frame 3, a gear ring 5 fixedly connected to the surface of the rotating placement disk 4, a mounting frame 6 fixedly connected to the top of the rotating frame 3, a gear 7 rotatably connected to the top of the inner cavity of the mounting frame 6, the gear 7 meshing with the mounting frame 6, a motor 8 fixedly mounted to the top of the mounting frame 6 by bolts, the output shaft of the motor 8 penetrating the mounting frame 6 and fixedly connected to the gear 7, and so on. Motor 2 9 is fixedly installed on the top of the inner cavity of the fixed frame 2 by bolts. The output shaft of motor 2 9 passes through the fixed frame 2 and is fixedly connected to the rotating frame 3. An adjustment frame 10 is set on the top of the processing table 1. A drilling machine 11 is fixedly connected to the front of the fixed frame 2. A drill bit fixing clamp 12 is set at the bottom of the drilling machine 11. The drill bit fixing clamp 12 is located above the clamp 13. It should be noted that the drill bit fixing clamp 12 is a pneumatic chuck. The core function of the pneumatic chuck is to clamp and release tools such as drill bits, taps, and tool holders through air pressure. Its working principle is similar to that of an electric chuck, except that the power source is compressed air. It is an existing technology product, such as the GAL-15 and DAS-15SS models produced by Dongguan Derui Precision Machinery Co., Ltd. The clamp 13 is set on the top of the processing table 1.
[0023] Working Principle: In use, the user starts motor 29, causing the rotating frame 3 to rotate 90 degrees clockwise. This causes the rotating frame 3 to move the rotating placement disk 4 to below the drill bit clamping 12. Then, the user starts the adjusting frame 10, causing it to move the drill bit clamping 12 downwards, inserting the drill bit into the top of the rotating placement disk 4. The user then starts the drill bit clamping 12 again, causing it to release the drill bit. The user then starts the adjusting frame 10 again, causing the drill bit clamping 12 to move upwards, detaching from the drill bit's surface. Finally, the user starts motor 18, which, through gear 7 and gear ring 5, drives the rotating placement disk 4 to rotate, causing the drill bit to... The rotating placement tray 4 delivers the compatible drill bit to the underside of the drill bit clamping clamp 12. The adjusting frame 10 and the drill bit clamping clamp 12 are then activated, causing the drill bit clamping clamp 12 to move downwards and fit onto the surface of the compatible drill bit, thus clamping the compatible drill bit. Finally, the adjusting frame 10 is activated, causing the drill bit clamping clamp 12 to move upwards and disengage from the rotating placement tray 4. The motor 29 is then activated again, causing the rotating frame 3 to rotate counterclockwise by 90 degrees, causing the rotating placement tray 4 to disengage from below the drill bit clamping clamp 12. This completes the adjustment and replacement of the drill bit, avoiding the need for frequent drill bit replacement by the user and improving the drilling speed of the sensor connector housing.
[0024] In summary, this adjustable aperture sensor connector housing drilling device, by activating the adjusting frame 10 and the drill bit fixing clamp 12, causes the drill bit fixing clamp 12 to move downwards, inserting the drill bit into the top of the rotating placement disk 4 and then moving upwards. Then, the motor 8 is activated, causing the rotating placement disk 4 to rotate, bringing the suitable drill bit to the bottom of the drill bit fixing clamp 12. Activating the adjusting frame 10 and the drill bit fixing clamp 12 again causes the drill bit fixing clamp 12 to move downwards and clamp the suitable drill bit. This allows for easy replacement of the drill bit through a head-changing structure, avoiding the need for frequent drill bit replacement by the user and improving the drilling speed of the sensor connector housing.
Claims
1. A hole-opening device for a sensor connector housing with adjustable aperture, characterized in that, The system includes a fixed frame (2) fixedly connected to the top of the processing table (1), a rotating frame (3) rotatably connected to the top of the fixed frame (2), a rotating placement disk (4) penetrating the top of the rotating frame (3), the rotating placement disk (4) rotatably connected to the rotating frame (3), a gear ring (5) fixedly connected to the surface of the rotating placement disk (4), a mounting frame (6) fixedly connected to the top of the rotating frame (3), a gear (7) rotatably connected to the top of the inner cavity of the mounting frame (6), the gear (7) meshing with the mounting frame (6), and the top of the mounting frame (6) connected by a screw. A motor (8) is fixedly installed on the mounting bracket (6) and is fixedly connected to the gear (7). A motor (9) is fixedly installed on the top of the inner cavity of the mounting bracket (2) by bolts. The output shaft of the motor (9) passes through the mounting bracket (2) and is fixedly connected to the rotating bracket (3). An adjustment bracket (10) is provided on the top of the processing table (1). A drilling machine (11) is fixedly connected to the front of the mounting bracket (2). A drill bit fixing clamp (12) is provided at the bottom of the drilling machine (11). A clamp (13) is provided on the top of the processing table (1).
2. The aperture adjustable sensor connector housing opening device according to claim 1, characterized in that, The inner cavity of the processing table (1) is fixedly connected to a placement rack (14), and a collection trough (15) is provided on the top of the placement rack (14).
3. The aperture adjustable sensor connector housing opening device according to claim 2, characterized in that, The top of the processing table (1) is provided with a material discharge port, and the collection trough (15) is located directly below the material discharge port.
4. The aperture adjustable sensor connector housing opening device according to claim 3, characterized in that, The surface of the rotating placement disk (4) is fixedly connected to two symmetrical limiting rings, which are located at the top and bottom of the rotating frame (3), respectively.
5. The aperture adjustable sensor connector housing opening device according to claim 4, characterized in that, The drill bit retainer (12) is located above the clamp (13).