A quick production device for metal counter-nut

By designing a multi-station flipping and feeding mechanism, combined with a feeding and tapping mechanism, the problem of existing equipment being unable to perform multi-station cyclic processing has been solved, and efficient production of metal reverse-threaded nuts has been achieved.

CN224390130UActive Publication Date: 2026-06-23DANGYANG JIAYONG MASCH MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DANGYANG JIAYONG MASCH MFG CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing metal reverse-thread nut production equipment can only process a small number of nuts in a single batch, which cannot meet the needs of multi-station cyclic processing, resulting in low work efficiency and difficulty in meeting actual usage requirements.

Method used

The system employs a multi-station flipping mechanism and a multi-station feeding mechanism, combined with a multi-dimensional adjustment tapping mechanism and a storage and separation mechanism, to achieve multi-station cyclic flipping and automatic feeding, thereby improving processing efficiency. It also enables rapid feeding through a feeding mechanism.

Benefits of technology

It increases the quantity and efficiency of single processing, reduces labor costs, increases production speed and processing quality, and meets the needs of high-efficiency production.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224390130U_ABST
Patent Text Reader

Abstract

The utility model provides a kind of metal reverse tooth nut rapid production device, it is related to nut production and processing technical field, including processing table, feeding mechanism, it is set in the top of processing table;Multi-station turnover mechanism is set in the top of feeding mechanism;Multi-station feeding mechanism is set in the top of processing table;Multi-dimensional adjustment tapping mechanism is set in the top of processing table;Storage separation mechanism is set in the bottom of processing table;The multi-station turnover mechanism includes two supports, two described supports are installed in the top of feeding mechanism, rotatingly installed with station table between two described supports, the four sides of station table are all installed with five triangle chuck, and one side of single described support is installed with first servo motor.The utility model is set through multi-station turnover mechanism, preset multiple stations are multiple, and station position is cyclically turned, to improve the quantity and efficiency of single processing, improve overall processing speed.
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Description

Technical Field

[0001] This utility model relates to the field of nut production and processing technology, and in particular to a rapid production device for metal reverse-thread nuts. Background Technology

[0002] Metal reverse-thread nuts, as fasteners with a reverse thread structure, play an irreplaceable role in fields such as machinery manufacturing, aerospace, and the automotive industry. Their reverse thread design effectively prevents loosening in vibration environments. For example, in the connection of high-frequency vibrating components such as automobile engine blocks and machine tool spindles, the anti-loosening properties of reverse-thread nuts can significantly improve the safety and stability of equipment operation. With the rapid development of high-end manufacturing, the market demand for reverse-thread nuts is increasing year by year, while the requirements for their dimensional accuracy, surface quality, and production efficiency are becoming increasingly stringent.

[0003] Existing metal reverse thread nut production equipment typically involves clamping and fixing the nut blank at the work station, and then using a tapping machine to tap the nut blank, thereby completing the production and processing of the metal reverse thread nut.

[0004] However, existing metal reverse-thread nut production equipment can only process a small number of nuts in a single batch, which cannot meet the needs of multi-station cyclic processing, resulting in poor work efficiency, low processing speed, and difficulty in meeting actual use requirements. Utility Model Content

[0005] This invention solves the problems mentioned in the background art by setting up a multi-station flipping mechanism, which presets multiple sets of multiple stations and cyclically flips the positions of the stations to increase the quantity and efficiency of single processing and improve the overall processing speed.

[0006] To achieve the above objectives, this utility model adopts the following technical solution: a rapid production device for metal reverse-thread nuts, including a processing table,

[0007] A feeding mechanism is located on top of the processing table;

[0008] A multi-station flipping mechanism is located on top of the feeding mechanism;

[0009] A multi-station feeding mechanism is installed on top of the processing table;

[0010] A multi-dimensional adjustable tapping mechanism is located on the top of the processing table;

[0011] A storage and separation mechanism is located at the bottom of the processing table;

[0012] The multi-station flipping mechanism includes two supports, both of which are mounted on top of the feeding mechanism. A workstation is rotatably mounted between the two supports. Five triangular chucks are mounted on each of the four sides of the workstation. A first servo motor is mounted on one side of each support. The output end of the first servo motor moves through a corresponding support and is connected to the workstation.

[0013] Preferably, the multi-station loading mechanism includes two support frames, both of which are installed on the top of the processing table. A loading rail is installed on the top of the two support frames. A U-shaped frame is installed at one end of the loading rail. A second servo electric cylinder is installed at one end of the U-shaped frame. The output end of the second servo electric cylinder movably passes through the U-shaped frame and is connected to a second sliding frame. Multiple connecting rods are installed on one side of the second sliding frame. One end of each of the multiple connecting rods movably passes through the loading rail and is connected to a magnetic chuck.

[0014] Preferably, the multi-dimensional adjustable tapping mechanism includes a fixed frame, which is fixedly installed on the top of the processing table. A third servo electric cylinder is installed on the top of the fixed frame. The output end of the third servo electric cylinder movably passes through the fixed frame and is connected to a connecting frame. A third sliding frame is installed at the bottom of the connecting frame. A fourth servo electric cylinder is installed at one end of the third sliding frame. The output end of the fourth servo electric cylinder movably passes through the third sliding frame and is connected to a sliding seat. A second servo motor is installed on the top of the sliding seat. The output end of the second servo motor movably passes through the sliding seat and is connected to a tapping tap.

[0015] Preferably, the storage and separation mechanism includes a fixed frame, which is fixedly installed at the bottom of the processing table. The top of the processing table has a through-hole, which is located directly above the fixed frame. A funnel is installed at the bottom of the fixed frame. A storage box is inserted inside the fixed frame. Multiple filter holes are through-hole on the bottom inner side of the storage box. A pull ring is installed at one end of the storage box.

[0016] Preferably, the feeding mechanism includes two guide rails, with fixed end plates installed at both ends of the two guide rails. A first servo electric cylinder is installed on one side of a single fixed end plate. The output end of the first servo electric cylinder moves through a corresponding fixed end plate and is connected to a first sliding frame. A material drop port is provided through the top of the first sliding frame.

[0017] Preferably, the processing table is equipped with support legs at all four corners of its bottom, and each support leg is fixedly fitted with an anti-slip pad.

[0018] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0019] 1. In this utility model, by setting up a multi-station flipping mechanism, it is possible to achieve multiple preset stations and cyclically flip and adjust the stations, thereby increasing the quantity and efficiency of single processing, and thus speeding up the processing and production of nuts, which can meet the actual use needs.

[0020] 2. In this utility model, by setting up a multi-station feeding mechanism, it is possible to stably feed materials to multiple stations simultaneously without manual feeding, which greatly saves labor and time costs, effectively improves overall work efficiency, and reduces the difficulty of operation. Attached Figure Description

[0021] Figure 1 This utility model provides a three-dimensional structural diagram of a rapid production device for metal reverse-thread nuts;

[0022] Figure 2 This utility model provides a side view of a rapid production device for metal reverse-thread nuts.

[0023] Figure 3 An enlarged perspective view of the multi-station flipping mechanism of a rapid production device for metal reverse-thread nuts is provided for this utility model.

[0024] Figure 4 An enlarged perspective view of the multi-station feeding mechanism of a rapid production device for metal reverse-thread nuts is provided for this utility model.

[0025] Figure 5 An enlarged perspective view of the multi-dimensional adjustment tapping mechanism of a rapid production device for metal reverse-threaded nuts is provided for this utility model.

[0026] Figure 6 An enlarged perspective view of the storage and separation mechanism of a rapid production device for metal reverse-threaded nuts is presented for this utility model.

[0027] Legend: 1. Processing table; 2. Feeding mechanism; 201. Guide rail; 202. Fixed end plate; 203. First servo electric cylinder; 204. First sliding frame; 205. Discharge port; 3. Multi-station flipping mechanism; 301. Support frame; 302. Workstation; 303. Triangular chuck; 304. First servo motor; 4. Multi-station loading mechanism; 401. Support frame; 402. Loading rail; 403. U-shaped frame; 404. Second servo electric cylinder; 405. Second sliding frame 406. Frame; 407. Connecting rod; 5. Magnetic chuck; 6. Multi-dimensional adjustable tapping mechanism; 501. Fixed frame; 502. Third servo electric cylinder; 503. Connecting frame; 504. Third sliding frame; 505. Fourth servo electric cylinder; 506. Sliding seat; 507. Second servo motor; 508. Tapping tap; 6. Storage and separation mechanism; 601. Fixed frame; 602. Funnel; 603. Storage box; 604. Filter hole; 605. Pull ring; 7. Support leg; 8. Anti-slip pad. Detailed Implementation

[0028] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0029] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.

[0030] Please see Figures 1-6 This utility model provides a technical solution: a rapid production device for metal reverse thread nuts, including a processing table 1.

[0031] The feeding mechanism 2 is located on top of the processing table 1;

[0032] The multi-station flipping mechanism 3 is located on top of the feeding mechanism 2;

[0033] A multi-station feeding mechanism 4 is installed on top of the processing table 1;

[0034] A multi-dimensional adjustable tapping mechanism 5 is installed on top of the processing table 1;

[0035] The storage and separation mechanism 6 is located at the bottom of the processing table 1;

[0036] The multi-station flipping mechanism 3 includes two supports 301, both of which are mounted on top of the feeding mechanism 2. A worktable 302 is rotatably mounted between the two supports 301. Five triangular chucks 303 are mounted on each of the four sides of the worktable 302. A first servo motor 304 is mounted on one side of each support 301. The output end of the first servo motor 304 passes through a corresponding support 301 and is connected to the worktable 302. By setting up the multi-station flipping mechanism 3, multiple sets of worktables can be preset and the worktables can be cyclically flipped and adjusted to increase the quantity and efficiency of single processing, thereby speeding up the processing and production of nuts and meeting the actual use requirements.

[0037] like Figure 1 , Figure 2 and Figure 4 As shown, the multi-station loading mechanism 4 includes two support frames 401, both of which are mounted on the top of the processing table 1. A loading track 402 is mounted on the top of each support frame 401. A U-shaped frame 403 is mounted at one end of the loading track 402, and a second servo electric cylinder 404 is mounted at one end of the U-shaped frame 403. The output end of the second servo electric cylinder 404 passes through the U-shaped frame 403 and is connected to a second sliding frame 405. Multiple connecting rods 406 are mounted on one side of the second sliding frame 405. One end of each connecting rod 406 passes through the loading track 402 and is connected to a magnetic chuck 407. Through the multi-station loading mechanism 4, stable loading of materials to multiple stations can be achieved simultaneously without manual loading, greatly saving labor and time costs, effectively improving overall work efficiency, and reducing operational difficulty.

[0038] like Figure 1 , Figure 2 and Figure 5 As shown, the multi-dimensional adjustable tapping mechanism 5 includes a fixed frame 501, which is fixedly installed on the top of the processing table 1. A third servo electric cylinder 502 is installed on the top of the fixed frame 501. The output end of the third servo electric cylinder 502 movably passes through the fixed frame 501 and is connected to a connecting frame 503. A third sliding frame 504 is installed at the bottom of the connecting frame 503. A fourth servo electric cylinder 505 is installed at one end of the third sliding frame 504. The output end of the fourth servo electric cylinder 505 movably passes through the third sliding frame 504 and is connected to a sliding seat 506. A second servo motor 507 is installed on the top of the sliding seat 506. The output end of the second servo motor 507 movably passes through the sliding seat 506 and is connected to a tapping tap 508. By setting up the multi-dimensional adjustable tapping mechanism 5, the position of the tapping equipment can be flexibly adjusted to meet the processing needs of different jobs. It has high flexibility, further reduces the difficulty of operation, and improves the overall work efficiency.

[0039] like Figure 1 , Figure 2 and Figure 6 As shown, the collection and separation mechanism 6 includes a fixed frame 601, which is fixedly installed at the bottom of the processing table 1. A discharge port is provided through the top of the processing table 1 and is located directly above the fixed frame 601. A funnel 602 is installed at the bottom of the fixed frame 601. A collection box 603 is inserted inside the fixed frame 601. Multiple filter holes 604 are provided through the bottom inner side of the collection box 603. A pull ring 605 is installed at one end of the collection box 603. Through the setting of the collection and separation mechanism 6, the finished products can be collected and separated from the debris, making it convenient for operators to collect the whole product.

[0040] like Figure 1 , Figure 2 and Figure 3 As shown, the feeding mechanism 2 includes two guide rails 201, with fixed end plates 202 installed at both ends of the two guide rails 201. A first servo electric cylinder 203 is installed on one side of each fixed end plate 202. The output end of the first servo electric cylinder 203 passes through a corresponding fixed end plate 202 and is connected to a first sliding frame 204. A material drop port 205 is provided through the top of the first sliding frame 204. Through the setting of the feeding mechanism 2, the multi-station flipping mechanism 3 can be driven to perform rapid feeding, so that the nut blank to be processed can quickly reach the processing position, thereby improving work efficiency and the stability of the device during use.

[0041] like Figure 1 and Figure 2 As shown, each of the four corners of the bottom of the processing table 1 is equipped with a support leg 7, and an anti-slip pad 8 is fixedly installed on the bottom of each support leg 7. The support leg 7 and the anti-slip pad 8 can provide stable support for the device. At the same time, the anti-slip pad 8 increases the friction with the ground to prevent the device from shaking or shifting, thereby improving the processing quality and reducing the defective product output rate.

[0042] The usage and working principle of this device are as follows: First, move the device to the designated position and connect the external power supply to the internal electrical equipment to provide a stable power supply and ensure the normal operation of the device. Next, place the nut blank to be processed in the loading track 402. The second servo electric cylinder 404 pushes the second sliding frame 405, and then the connecting rod 406 and magnetic chuck 407 push the nut blank arranged in the loading track 402 forward until the front end of the nut blank abuts against the triangular chuck 303 and is clamped and fixed by the triangular chuck 303. After the triangular chuck 303 on one side completes the loading, start the first servo motor 304 to drive the worktable 302 to rotate and perform the loading work on the next side. Then, after all loading is completed, start the first servo electric cylinder 203 to push the first sliding frame 204 to slide on the guide rail 201, so that the first sliding frame 204 moves to the processing position. At this time, start the third servo electric cylinder 204 to move the first sliding frame 204 to the processing position. Servo electric cylinder 502 pushes the third sliding frame 504 to slide down, while simultaneously starting the second servo motor 507 to drive the tapping tap 508 to rotate for tapping. When the nut on a single triangular chuck 303 is finished, the fourth servo electric cylinder 505 is started to push the sliding seat 506 to slide on the third sliding frame 504, so that the tapping tap 508 moves to the next station. When all the nuts on a single station are finished, the first servo motor 304 is started to drive the station table 302 to flip, so that the nut blank on the next side reaches the processing position. Finally, when the processed station surface flips to the bottom, the triangular chuck 303 releases the clamp on the finished nut, allowing the finished nut to fall and enter the storage box 603 through the drop port 205 and the discharge port. When all the nuts are finished, the pull ring 605 is pulled to remove the storage box 603 from the fixed frame 601, so that the finished nuts can be collected and sorted.

[0043] By following the instructions above, you can complete the use of the rapid production device for metal reverse-threaded nuts.

[0044] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A rapid production device for metal reverse-threaded nuts, characterized in that: Including the processing table (1), A feeding mechanism (2) is provided on top of the processing table (1); A multi-station flipping mechanism (3) is disposed on top of the feeding mechanism (2); A multi-station loading mechanism (4) is installed on top of the processing table (1); A multi-dimensional adjustable tapping mechanism (5) is installed on the top of the processing table (1); A storage and separation mechanism (6) is provided at the bottom of the processing table (1); The multi-station flipping mechanism (3) includes two supports (301), both of which are mounted on the top of the feeding mechanism (2). A work platform (302) is rotatably mounted between the two supports (301). Five triangular chucks (303) are mounted on all four sides of the work platform (302). A first servo motor (304) is mounted on one side of each support (301). The output end of the first servo motor (304) passes through a corresponding support (301) and is connected to the work platform (302).

2. The rapid production device for metal reverse-threaded nuts according to claim 1, characterized in that: The multi-station loading mechanism (4) includes two support frames (401), both of which are installed on the top of the processing table (1). A loading track (402) is installed on the top of the two support frames (401). A U-shaped frame (403) is installed at one end of the loading track (402). A second servo electric cylinder (404) is installed at one end of the U-shaped frame (403). The output end of the second servo electric cylinder (404) passes through the U-shaped frame (403) and is connected to a second sliding frame (405). Multiple connecting rods (406) are installed on one side of the second sliding frame (405). One end of each of the multiple connecting rods (406) passes through the loading track (402) and is connected to a magnetic chuck (407).

3. The rapid production device for metal reverse-threaded nuts according to claim 2, characterized in that: The multi-dimensional adjustable tapping mechanism (5) includes a fixed frame (501), which is fixedly installed on the top of the processing table (1). A third servo electric cylinder (502) is installed on the top of the fixed frame (501). The output end of the third servo electric cylinder (502) passes through the fixed frame (501) and is connected to a connecting frame (503). A third sliding frame (504) is installed at the bottom of the connecting frame (503). A fourth servo electric cylinder (505) is installed at one end of the third sliding frame (504). The output end of the fourth servo electric cylinder (505) passes through the third sliding frame (504) and is connected to a sliding seat (506). A second servo motor (507) is installed on the top of the sliding seat (506). The output end of the second servo motor (507) passes through the sliding seat (506) and is connected to a tap (508).

4. The rapid production device for metal reverse-threaded nuts according to claim 3, characterized in that: The storage and separation mechanism (6) includes a fixed frame (601), which is fixedly installed at the bottom of the processing table (1). The top of the processing table (1) has a through-hole, which is located directly above the fixed frame (601). A funnel (602) is installed at the bottom of the fixed frame (601). A storage box (603) is inserted inside the fixed frame (601). Multiple filter holes (604) are through-hole on the bottom inner side of the storage box (603). A pull ring (605) is installed at one end of the storage box (603).

5. The rapid production device for metal reverse-threaded nuts according to claim 4, characterized in that: The feeding mechanism (2) includes two guide rails (201), and fixed end plates (202) are installed at both ends of the two guide rails (201). A first servo electric cylinder (203) is installed on one side of a single fixed end plate (202). The output end of the first servo electric cylinder (203) moves through a corresponding fixed end plate (202) and is connected to a first sliding frame (204). A material drop port (205) is opened through the top of the first sliding frame (204).

6. The rapid production device for metal reverse-threaded nuts according to claim 5, characterized in that: The processing table (1) is equipped with four support legs (7) at the bottom corners, and each support leg (7) is fixedly equipped with an anti-slip pad (8) at the bottom.