A control system for producing magnetic powder

By using a buffer design with hydraulic rods and clamps, combined with infrared remote control and voice recognition modules, the stability problem caused by vibration in the magnetic powder production device is solved, achieving higher connection stability and ease of operation, while ensuring the stability of power supply.

CN224343566UActive Publication Date: 2026-06-09WUXUE ZHANGBANG DECHENG ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXUE ZHANGBANG DECHENG ELECTRONICS CO LTD
Filing Date
2025-02-14
Publication Date
2026-06-09

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Abstract

The utility model discloses a kind of control systems for producing magnetic powder, it is related to magnetic powder production technical field, including device main body, recess is set in the side of device main body, control panel is arranged in the inside of recess, the side fixedly connected with controller of control panel, the other side fixedly connected with mounting plate of device main body, the side of mounting plate is provided with connecting buffer mechanism, connecting buffer mechanism includes fixed plate, the side fixedly connected with mounting plate of fixed plate, the side fixedly connected with guide rod of fixed plate, the outside of guide rod is sleeved with fixed block, the side fixedly connected with hydraulic rod of fixed block, the outside of hydraulic rod is sleeved with damping spring, by the cooperation of hydraulic rod and clamping block, external equipment or component can be firmly connected with device main body, while the combination design of damping spring and hydraulic rod provides effective buffer for connection process, improves the versatility and adaptability of device.
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Description

Technical Field

[0001] This utility model relates to the field of magnetic powder production technology, specifically a control system for producing magnetic powder. Background Technology

[0002] Magnetic powder is a type of hard magnetic single-domain particle, a core component of magnetic coatings, and a major factor determining the magnetic properties of magnetic recording media. Magnetic powder is primarily used to coat various audio tapes, video tapes, measuring tapes, instrument tapes, and storage components such as magnetic drums and hard disks.

[0003] In the process of using existing control devices for producing magnetic powder, the device is usually directly fixed to the magnetic powder production equipment. Since the production of magnetic powder involves the use of motors and other components, vibrations are easily generated during production, which can cause the control device to shake, thus affecting its stability.

[0004] Therefore, those skilled in the art have provided a control system for producing magnetic powder to solve the problems mentioned in the background art. Utility Model Content

[0005] The purpose of this invention is to provide a control system for producing magnetic powder, so as to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A control system for producing magnetic powder includes a main body. A groove is formed on one side of the main body, and a control panel is disposed inside the groove. A controller is fixedly connected to one side of the control panel. A mounting plate is fixedly connected to the other side of the main body. A connection buffer mechanism is provided on one side of the mounting plate. The connection buffer mechanism includes a fixing plate, which is fixedly connected to one side of the mounting plate. A guide rod is fixedly connected to one side of the fixing plate. A fixing block is sleeved on the outside of the guide rod. A hydraulic rod is fixedly connected to one side of the fixing block. A shock-absorbing spring is sleeved on the outside of the hydraulic rod. A locking block is fixedly connected to one end of the hydraulic rod. Through the cooperation of the hydraulic rod and the locking block, external equipment or components can be securely connected to the main body. This device can adapt to external equipment of different sizes and weights. Furthermore, the combined design of the shock-absorbing spring and the hydraulic rod provides effective buffering during the connection process, improving the versatility and adaptability of the device.

[0008] As a further embodiment of this utility model: the main body of the device is fixedly connected to a mounting base, one side of the mounting base has a hole, and one side of the main body of the device has a slot. The slot is movably connected inside the hole. The fixed connection between the mounting base and the main body of the device, and the movable connection of the slot inside the hole, together constitute a stable mechanical structure, which enables external equipment or components to be more firmly connected to the main body of the device, reduces the risk of loosening or falling off due to unstable connection, and enhances the stability of the connection.

[0009] As a further improvement of this utility model: multiple connection ports are provided on one side of the mounting plate, and each of the multiple connection ports is provided with a connector. The connector usually has a locking or fixing function, which can ensure a firm connection between the external equipment and the mounting plate, reduce the risk of loosening or falling off due to unstable connection, and improve the stability and reliability of the device.

[0010] As a further improvement of this utility model: multiple connection interfaces are provided on one side of the main body of the device, and support blocks are fixedly connected to one side of each of the multiple connection interfaces. Heat dissipation holes are provided on the top of the connection interfaces. The design of multiple connection interfaces enables the main body of the device to be connected to various external devices or components, increasing the compatibility and expandability of the device. In addition, the presence of support blocks provides additional support for the connection interfaces, reducing the risk of loosening or falling off due to unstable connections, and improving the overall reliability and stability of the device.

[0011] As a further improvement of this utility model: an infrared remote control module is fixedly connected to one side of the main body of the device, and a voice recognition module is provided on one side of the infrared remote control module. The infrared remote control module is electrically connected to the controller, and the voice recognition module is electrically connected to the controller. The infrared remote control module allows users to operate the main body of the device from a distance using a remote control without direct contact with the device. The voice recognition module further simplifies the operation process. Users can control the device simply by using voice commands, without having to manually operate the remote control or other input devices, thus improving the convenience and flexibility of operation.

[0012] As a further improvement of this utility model: a storage battery is installed inside the main body of the device, and multiple converters are fixedly connected to both sides of the storage battery. A connecting wire is fixedly connected to one side of the storage battery, and the storage battery is connected to the controller through the connecting wire. A charging interface is provided on one side of the main body of the device. The design of multiple converters allows the storage battery to convert the stored electrical energy into different voltages and currents required by the device, thereby improving the energy utilization rate. At the same time, the connection between the storage battery and the controller through the connecting wire ensures the stability of the device in terms of power supply. Even in the event of a sudden interruption of external power, the storage battery can provide sufficient power to the controller to ensure the normal operation of the device.

[0013] As a further improvement of this utility model: an operation label is provided on one side of the main body of the device, and a warning label is fixedly connected to one side of the operation label. The operation label and the warning label provide users with clear operation guidelines and instructions, enabling users to quickly understand the functions and operation methods of the device and improving the intuitiveness of operation.

[0014] As a further improvement of this utility model: an alarm is fixedly connected to one side of the main body of the device. The alarm is electrically connected to the controller. When a fault or abnormal situation occurs inside the main body of the device, the controller can quickly identify and trigger the alarm. The alarm will emit sound or light signals to remind the user to pay attention and take corresponding measures, thereby improving the safety of the device.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] The combination of hydraulic rods and locking blocks can securely connect external equipment or components to the main body of the device. The device can adapt to external equipment of different sizes and weights. At the same time, the combination design of shock-absorbing springs and hydraulic rods provides effective buffering for the connection process, improving the versatility and adaptability of the device.

[0017] The infrared remote control module allows users to operate the device remotely from a distance without direct contact. The voice recognition module further simplifies the operation process, allowing users to control the device simply by using voice commands, eliminating the need to manually operate the remote control or other input devices, thus improving the convenience and flexibility of operation. Attached Figure Description

[0018] Figure 1 A schematic diagram of a three-dimensional structure for a control system used in the production of magnetic powder. Figure 1 .

[0019] Figure 2 A schematic diagram of a three-dimensional structure in a control system for producing magnetic powder. Figure 2 .

[0020] Figure 3 This is a partial, enlarged three-dimensional structural diagram of a control system for producing magnetic powder.

[0021] Figure 4 This is a partial enlarged cross-sectional schematic diagram of a control system for producing magnetic powder.

[0022] In the diagram: 1. Main body of the device; 2. Groove; 3. Control panel; 4. Controller; 5. Mounting plate; 6. Connecting buffer mechanism; 7. Mounting base; 8. Hole; 9. Slot; 10. Connection port; 11. Connector; 12. Connection interface; 13. Support block; 14. Heat dissipation hole; 15. Infrared remote control module; 16. Voice recognition module; 17. Battery; 18. Converter; 19. Connecting wire; 20. Charging interface; 21. Operation label; 22. Warning label; 23. Alarm; 601. Fixing plate; 602. Guide rod; 603. Fixing block; 604. Hydraulic rod; 605. Shock-absorbing spring; 606. Locking block. Detailed Implementation

[0023] 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. Example

[0024] Reference Figure 1-4This embodiment provides a control system for producing magnetic powder, including a device body 1. A groove 2 is formed on one side of the device body 1, and a control panel 3 is disposed inside the groove 2. A controller 4 is fixedly connected to one side of the control panel 3. A mounting plate 5 is fixedly connected to the other side of the device body 1. A connecting buffer mechanism 6 is provided on one side of the mounting plate 5. The connecting buffer mechanism 6 includes a fixing plate 601, which is fixedly connected to one side of the mounting plate 5. A guide rod 602 is fixedly connected to one side of the fixing plate 601, and a fixing block 603 is sleeved on the outside of the guide rod 602. A fixing block 603 is located on one side of the fixing block 603. A hydraulic rod 604 is fixedly connected, and a shock-absorbing spring 605 is sleeved on the outside of the hydraulic rod 604. A locking block 606 is fixedly connected to one end of the hydraulic rod 604. A mounting base 7 is fixedly connected to the main body 1. A hole 8 is opened on one side of the mounting base 7, and a slot 9 is opened on one side of the main body 1. The locking block 606 is movably connected inside the hole 8. Multiple connection ports 10 are opened on one side of the mounting plate 5. Each of the multiple connection ports 10 is provided with a connector 11. Multiple connection interfaces 12 are opened on one side of the main body 1. Support blocks 13 are fixedly connected to one side of each of the multiple connection interfaces 12. A heat dissipation hole 14 is provided on the top of the interface 12. An infrared remote control module 15 is fixedly connected to one side of the main body 1 of the device. A voice recognition module 16 is provided on one side of the infrared remote control module 15. The infrared remote control module 15 is electrically connected to the controller 4, and the voice recognition module 16 is electrically connected to the controller 4. In use, the main body 1 of the device is first placed inside the hole 8, and then the extension and retraction of the hydraulic rod 604 drives the locking block 606 to engage in the locking groove 9 at the bottom of the main body 1 of the device to fix the device. At the same time, the hydraulic rod 604 and the shock-absorbing spring 605 work together to provide buffering for the connection process. This reduces the impact and vibration caused by the connection. The device is fixed by the cooperation of the connection port 10 and the connector 11. The device is mainly operated and controlled by the controller 4 on the control panel 3. The controller 4 receives instructions from the infrared remote control module 15 and the voice recognition module 16 to achieve precise control of the internal components of the device body 1. The controller 4 can precisely adjust the magnitude of the input current to control the state of the magnetic powder. The heat dissipation holes 14 on the device body 1 can dissipate the heat generated by the internal components of the device body 1 to ensure the device operates stably for a long time. Example

[0025] Reference Figure 1-4This embodiment is based on the previous embodiment, but differs in that a storage battery 17 is installed inside the main body 1 of the device. Multiple converters 18 are fixedly connected to both sides of the storage battery 17. A connecting wire 19 is fixedly connected to one side of the storage battery 17, and the storage battery 17 is connected to the controller 4 via the connecting wire 19. A charging interface 20 is provided on one side of the main body 1, an operation indicator 21 is provided on one side of the main body 1, a warning label 22 is fixedly connected to one side of the operation indicator 21, and an alarm 23 is fixedly connected to one side of the main body 1. The alarm 23 is electrically connected to the controller 4. The storage battery 17 serves as the main power source, providing power to the entire device. It can be charged by connecting to an external power source through the charging interface 20, ensuring continuous operation of the device when needed. The multiple converters 18 charge the storage battery... The DC power from battery 17 is converted into AC power or DC power of different voltage levels required by various components inside the device to meet the power needs of different components. Controller 4 receives instructions from infrared remote control module 15 and voice recognition module 16, and is connected to battery 17 via connection line 19 to ensure sufficient power to support its operation. Controller 4 precisely adjusts the working status of various components inside the device according to the received instructions, including the control of magnetic powder and the action of connection buffer mechanism 6. Operation label 21 provides clear operation guidelines to help users use the device correctly and safely. Warning label 22 is used to remind users of potential safety risks or operation precautions. When the device malfunctions or reaches a preset safety threshold, alarm 23 will sound an alarm under the control of controller 4 to remind users to take appropriate measures.

[0026] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0027] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A production magnetic powder control system comprising a device main body (1), characterized by, A groove (2) is provided on one side of the main body (1) of the device. A control panel (3) is provided inside the groove (2). A controller (4) is fixedly connected to one side of the control panel (3). A mounting plate (5) is fixedly connected to the other side of the main body (1). A connecting buffer mechanism (6) is provided on one side of the mounting plate (5). The connecting buffer mechanism (6) includes a fixing plate (601). The fixing plate (601) is fixedly connected to one side of the mounting plate (5). A guide rod (602) is fixedly connected to one side of the fixing plate (601). A fixing block (603) is sleeved on the outside of the guide rod (602). A hydraulic rod (604) is fixedly connected to one side of the fixing block (603). A shock-absorbing spring (605) is sleeved on the outside of the hydraulic rod (604). A locking block (606) is fixedly connected to one end of the hydraulic rod (604).

2. The control system for producing magnetic powder according to claim 1, wherein The main body (1) of the device is fixedly connected to a mounting base (7), and a hole (8) is provided on one side of the mounting base (7). A slot (9) is provided on one side of the main body (1), and the card block (606) is movably connected inside the hole (8).

3. The control system for producing magnetic powder according to claim 1, wherein The mounting plate (5) has multiple connection ports (10) on one side, and each of the multiple connection ports (10) is provided with a connector (11).

4. The control system for producing magnetic powder according to claim 1, wherein The main body (1) of the device has multiple connection interfaces (12) on one side, and a support block (13) is fixedly connected to one side of each of the multiple connection interfaces (12). A heat dissipation hole (14) is provided on the top of the connection interface (12).

5. The control system for producing magnetic powder according to claim 1, wherein An infrared remote control module (15) is fixedly connected to one side of the main body (1) of the device. A voice recognition module (16) is provided on one side of the infrared remote control module (15). The infrared remote control module (15) is electrically connected to the controller (4), and the voice recognition module (16) is electrically connected to the controller (4).

6. The control system for producing magnetic powder according to claim 1, wherein The device body (1) is equipped with a storage battery (17) inside. Multiple converters (18) are fixedly connected to both sides of the storage battery (17). A connecting line (19) is fixedly connected to one side of the storage battery (17). The storage battery (17) is connected to the controller (4) through the connecting line (19). A charging interface (20) is provided on one side of the device body (1).

7. The control system for producing magnetic powder according to claim 1, wherein An operation sign (21) is provided on one side of the main body (1) of the device, and a warning sign (22) is fixedly connected to one side of the operation sign (21).

8. The control system for producing magnetic powder according to claim 1, wherein An alarm (23) is fixedly connected to one side of the main body (1) of the device, and the alarm (23) is electrically connected to the controller (4).