A device for field personnel health monitoring in a network-free passive operation environment
By designing a slider and buckle structure and an authentication module for equipment in a field environment without network or power, the problem of unverified wearing requirements in existing equipment has been solved, enabling effective health monitoring and safety management of workers.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 陕西大秦电能集团有限公司
- Filing Date
- 2025-01-09
- Publication Date
- 2026-06-05
AI Technical Summary
The existing equipment does not verify whether each worker is aware of the wearing requirements, resulting in insufficient effectiveness of health monitoring equipment in field work environments.
A device was designed that includes an openable shell, a wearable device, a slider, a linear drive unit, and a fingerprint recognition module. The wearable device is fixed by the slider and a buckle structure. The awareness of the operator is confirmed through question and answer. The identity verification and information matching are performed by the voice interaction module and the fingerprint recognition module.
Ensuring that each worker is aware of the wearing requirements before using the equipment improves the efficiency and safety of equipment use and meets the health monitoring needs of field operations without network or power supply.
Smart Images

Figure CN224320761U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of monitoring equipment technology, and in particular to a device for monitoring the health of personnel in field environments without network or power supply. Background Technology
[0002] When conducting fieldwork, there are problems such as harsh working environment, poor communication signals, and wide area with poor visibility, which pose a variety of unpredictable risks. It is necessary to conduct real-time health monitoring of fieldwork personnel to ensure their safety.
[0003] Among existing patent technologies, patent document CN217740184U discloses "a personnel health monitoring device for field work environments." This device houses multiple wearable devices within its casing. These devices monitor personnel health information and display the monitoring data in real-time on a display device for centralized monitoring by medical personnel. Since each wearable device needs to be associated with a specific worker, and each worker must be aware of the wearing requirements during field work, our company has made a preliminary upgrade to the existing equipment to address the issue of not confirming that each worker is aware of the wearing requirements in the current device. Utility Model Content
[0004] The technical problem to be solved by this utility model is to provide a device for monitoring the health of personnel in field operations without network or power source, which addresses the above-mentioned technical deficiencies. It solves the problem in existing devices that do not confirm with each worker that they are aware of the wearing requirements.
[0005] The technical solution adopted by this utility model is as follows: A device for monitoring the health of personnel in remote, unconnected work environments is provided, comprising an openable outer shell, inside which are a control device and several wearable devices. Each wearable device has a raised edge along its lower ring, and its lower end has an electrical connector and two sockets. A screen bracket is provided inside the outer shell, and a display screen is mounted on the screen bracket. The device also includes:
[0006] Mounting base;
[0007] The first buckle has two parts, which are disposed opposite to each other on the mounting base. The two first buckles are respectively used to engage with both sides of the protrusion, and the wearable device is slidably disposed relative to the mounting base.
[0008] A slider is slidably disposed on the mounting base. The slider has contacts that are electrically connected to the electrical connector. The slider also has two pins, which are respectively used to insert into the two sockets. When the wearable device is inserted into the slider through the pins, the wearable device slides closer to the first buckle along with the slider, and the protrusion engages with the inside of the first buckle.
[0009] A linear drive unit is mounted on the mounting base and is used to drive the slider to slide.
[0010] The control terminal and the contact of the linear drive unit are both electrically connected to the control device.
[0011] To further optimize this technical solution, the linear drive unit includes:
[0012] A drive motor is disposed within the mounting base;
[0013] The threaded rod is connected to the power output end of the drive motor, and the threaded rod is threadedly connected to the slider to drive the slider to slide.
[0014] To further optimize this technical solution, the mounting base has a mounting groove, and the slider slides within the mounting groove.
[0015] Further optimization of this technical solution also includes:
[0016] A voice interaction module is disposed inside the housing and is electrically connected to the control device.
[0017] Further optimization of this technical solution also includes:
[0018] A fingerprint recognition module is mounted on the mounting base and is used to identify operators. The fingerprint recognition module is electrically connected to the control device.
[0019] Further optimization of this technical solution also includes:
[0020] The second buckle is provided on the mounting base. After the two sides of the protruding edge are respectively engaged with the inner sides of the first buckles on both sides, the end of the protruding edge is engaged with the inner side of the second buckle.
[0021] To further optimize this technical solution, the screen bracket has a snap-fit groove located next to the display screen, and the mounting base snaps into the snap-fit groove.
[0022] The beneficial effects of this utility model are as follows:
[0023] 1. After the mounting base is inserted into the slider and snapped into the first buckle, it matches the information with the wearer to facilitate the display of the corresponding information on the screen. At the same time, the wearer needs to answer several test questions. After answering correctly, the wearer can remove the device and put it on to confirm that each operator is aware of the relevant content.
[0024] 2. The mounting base can be an independent module. The linear drive unit and the contacts and control devices can be electrically connected via a wiring harness, which facilitates the modification of existing equipment. Attached Figure Description
[0025] Figure 1 This is a schematic diagram of the structure of this utility model;
[0026] Figure 2 This is a schematic diagram of the screen bracket structure of this utility model;
[0027] Figure 3 This is a schematic diagram of the structure of the present invention in use on a screen bracket;
[0028] Figure 4 This is a schematic diagram of the wearable device structure of this utility model;
[0029] Figure 5 This is a schematic diagram of the bottom structure of the wearable device of this utility model;
[0030] Figure 6 This is a schematic diagram of the structure of the present invention in use.
[0031] Figure 7 For the present utility model Figure 6 Schematic diagram of the top-view structure;
[0032] Figure 8 For the present utility model Figure 7 Schematic diagram of the cross-sectional structure at position AA;
[0033] Figure 9 This is a front view structural diagram of the present utility model;
[0034] Figure 10 For the present utility model Figure 8 Schematic diagram of the cross-sectional structure at the middle BB position;
[0035] Figure 11 This is a schematic diagram of the slider structure of this utility model;
[0036] Figure 12 This is a schematic diagram of the mounting base structure of this utility model;
[0037] The markings in the diagram are as follows: 1. Outer shell; 101. Screen bracket; 1011. Snap-fit slot; 102. Display screen; 2. Wearable device; 201. Protruding edge; 202. Electrical connector; 203. Socket; 3. Mounting base; 301. Mounting slot; 401. First snap-fit; 402. Second snap-fit; 5. Slider; 501. Contact point; 502. Insert post; 6. Drive motor; 601. Threaded rod; 7. Fingerprint recognition module. Detailed Implementation
[0038] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0039] To keep the drawings concise, only the parts relevant to the utility model are shown schematically in each figure, and they do not represent the actual structure of the product. Furthermore, for ease of understanding, in some figures, only one of the components with the same structure or function is schematically shown, or only one is labeled. In this document, "one" not only means "only one," but can also mean "more than one," and "several" includes "two" and "more than two."
[0040] In this document, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0041] Furthermore, in the description of this application, the terms "first," "second," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance.
[0042] like Figure 1-12As shown, a device for monitoring the health of personnel in remote, unconnected work environments includes an openable housing 1. Inside the housing 1 are control devices and several wearable devices 2. Each wearable device 2 has a raised edge 201 along its lower part, and an electrical connector 202 and two sockets 203 at its lower end. A screen bracket 101 is installed inside the housing 1, and a display screen 102 is mounted on the screen bracket 101. The device also includes a mounting base 3; two first buckles 401, which are arranged opposite each other on the mounting base 3 and respectively engage with the raised edge 201 on both sides. The wearable device 2 is slidably mounted on the mounting base 3. The wearable device 2 slides onto the mounting base 3 and has contacts 501 that are electrically connected to the electrical connector 202. The wearable device 2 also has two insertion posts 502, which are respectively inserted into two insertion holes 203. When the wearable device 2 is inserted into the wearable device 5 via the insertion posts 502, it slides along the slider 5 closer to the first latch 401, whereupon the protrusion 201 engages with the inner side of the first latch 401. A linear drive unit is mounted on the mounting base 3 and is used to drive the slider 5 to slide. The control terminal and contacts 501 of the linear drive unit are electrically connected to the control device.
[0043] In use, the mounting base 3 can be stored inside the outer casing 1 or placed outside the outer casing 1 as a post-installed module connected to the control equipment. After the wearable device 2 is removed from the outer casing 1, it is inserted into the slider 5 through the insertion of the pin 502 and the socket 203. At the same time, the contact 501 contacts the electrical connector 202 to achieve communication. Then, the linear drive unit drives the slider 5 to slide, causing the wearable device to slide closer to the first buckle 401. Finally, the left and right sides of the protrusion 201 are engaged with the inner sides of the first buckles 401 on both sides. At this time, the slider 5 is fixed in position, and the wearable device 2 is fixed and cannot be removed from the mounting base 3. At this time, a question and answer can be performed on the display screen 102. The operator can answer by clicking on the screen. After the correct answer, the control equipment controls the linear drive unit to drive the slider 5 away from the first buckle 401. After the protrusion 201 is disengaged from the first buckle 401, the wearable device 2 can be removed from the slider 5. The operator can then put it on and begin field operations.
[0044] The plugs 502 and sockets 203 are connected one-to-one, establishing an electrical connection between the connector 202 and the contact 501. When the connector 202 contacts the contact 501, the control device receives a signal and controls the linear drive unit to slide the slider 5. After a correct answer to a question, the control device controls the linear drive unit to slide the slider 5. When the connector 202 contacts the contact 501, the wearable device 2 can be identified and tagged through communication with the control device, and then individually paired with the operator performing the question and answer.
[0045] Furthermore, the linear drive unit includes: a drive motor 6, disposed within the mounting base 3; and a threaded rod 601, which is connected to the power output end of the drive motor 6 and threadedly connected to the slider 5 for driving the slider 5 to slide. The mounting base 3 has a mounting groove 301, within which the slider 5 slides.
[0046] In use, the linear drive unit can be driven linearly by the drive motor 6 to drive the threaded rod 601. The lower part of the slider 5 is provided with a threaded hole that is threadedly connected to the threaded rod 601. The forward and reverse rotation of the threaded rod 601 can drive the slider 5 to slide.
[0047] When in use, a mounting groove 301 can be set in the mounting base 3, and the slider 5 slides in the groove to control the overall thickness.
[0048] Furthermore, it also includes: a voice interaction module, which is installed inside the housing 1 and is electrically connected to the control device.
[0049] In use, the voice interaction module can play voice messages and collect and recognize the voices of workers. By playing back questions and answers via voice, communication can be more effective. The voice interaction module is existing technology and can be installed in a suitable location within the casing 1. It can be implemented by those skilled in the art and is not shown in the accompanying drawings.
[0050] Furthermore, it also includes: a fingerprint recognition module 7, which is mounted on the mounting base 3 and used to identify operators. The fingerprint recognition module 7 is electrically connected to the control equipment.
[0051] In use, the fingerprint recognition module 7 can identify and record the identity of the operator, and compare information when the wearable module is matched with the operator to avoid mismatch. It can be set up so that when the wearable module is plugged into the slider 5 and the connector 202 contacts the contact 501, the fingerprint recognition module 7 collects and identifies the operator's fingerprint, and then matches the wearable device 2 with the operator. In this way, matching is achieved while avoiding the operator directly taking the wearable device 2 and skipping the question-and-answer stage.
[0052] Furthermore, it also includes: a second buckle 402, which is disposed on the mounting base 3. When the two sides of the protrusion 201 are respectively engaged with the inner side of the first buckle 401 on both sides, the end of the protrusion 201 is engaged with the inner side of the second buckle 402.
[0053] In use, a second latch 402 is provided to engage and position the protruding edge 201 from three points: the left and right sides and the end, providing greater stability. The second latch 402 and the first latch 401 can have the same structure, such as a "7" shaped structure, to engage the protruding edge 201.
[0054] Furthermore, the screen bracket 101 has a snap-fit slot 1011, which is located next to the display screen 102, and the mounting base 3 is snapped into the snap-fit slot 1011.
[0055] In use, a slot 1011 is provided next to the display screen 102 to accommodate the mounting bracket 3, making storage and use convenient. When the outer casing 1 is opened and the display screen 102 is in a vertical position, a wearable device 2 is taken out from the outer casing 1, inserted into the slider 5, and then slid down into the first buckle 401 and the second buckle 402 for positioning. The left and right sides of the protruding edge 201 are located inside the first buckle 401 on both sides, and the lower side of the protruding edge 201 is located inside the second buckle 402, and then a question and answer process is initiated.
[0056] It is understood that this utility model has been described through some embodiments, and those skilled in the art will know that various changes or equivalent substitutions can be made to these features and embodiments without departing from the spirit and scope of this utility model. Furthermore, under the teachings of this utility model, these features and embodiments can be modified to adapt to specific situations and materials without departing from the spirit and scope of this utility model. Therefore, this utility model is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of this application are within the protection scope of this utility model.
Claims
1. A device for monitoring the health of personnel in remote, unconnected work environments, comprising an openable housing (1), wherein the housing (1) contains a control device and several wearable devices (2), wherein the lower part of each wearable device (2) has a circumferential flange (201), and the lower end of each wearable device (2) has an electrical connector (202) and two jacks (203); a screen bracket (101) is provided inside the housing (1), and a display screen (102) is provided on the screen bracket (101); characterized in that, Also includes: Mounting base (3); Two first buckles (401) are provided, and the two first buckles (401) are disposed opposite to each other on the mounting base (3). The two first buckles (401) are respectively used to engage with the two sides of the protrusion (201). The wearable device (2) is slidably disposed relative to the mounting base (3). The slider (5) is slidably disposed on the mounting base (3). The slider (5) has a contact (501) that is electrically connected to the electrical connector (202). The slider (5) also has two pins (502). The two pins (502) are respectively used to insert into the two holes (203). When the wearable device (2) is inserted into the slider (5) through the pins (502), the wearable device (2) slides close to the first buckle (401) along with the slider (5), and the protrusion (201) is engaged inside the first buckle (401). A linear drive unit is disposed on the mounting base (3) for driving the slider (5) to slide; The control terminal of the linear drive unit and the contact (501) are both electrically connected to the control device.
2. The device for monitoring the health of personnel in field, unconnected, and passive working environments according to claim 1, characterized in that, The linear drive unit includes: A drive motor (6) is disposed within the mounting base (3); The threaded rod (601) is connected to the power output end of the drive motor (6) and is threaded to the slider (5) to drive the slider (5) to slide.
3. The device for monitoring the health of personnel in field, unconnected, and passive working environments according to claim 2, characterized in that, The mounting base (3) has a mounting groove (301), and the slider (5) slides within the mounting groove (301).
4. The device for monitoring the health of personnel in field, unconnected, and passive working environments according to claim 1, characterized in that, Also includes: A voice interaction module is disposed inside the housing (1), and the voice interaction module is electrically connected to the control device.
5. The device for monitoring the health of personnel in field, unconnected, and passive working environments according to claim 1, characterized in that, Also includes: A fingerprint recognition module (7) is mounted on the mounting base (3) and is used to identify the operator. The fingerprint recognition module (7) is electrically connected to the control device.
6. The device for monitoring the health of personnel in field, unconnected, and passive working environments according to claim 1, characterized in that, Also includes: The second buckle (402) is provided on the mounting base (3). When the two sides of the protrusion (201) are respectively engaged with the inner sides of the first buckle (401) on both sides, the end of the protrusion (201) is engaged with the inner side of the second buckle (402).
7. A device for monitoring the health of personnel in a field without network or power source, as described in any one of claims 1-6, characterized in that, The screen bracket (101) has a snap-fit groove (1011) located next to the display screen (102), and the mounting base (3) snaps into the snap-fit groove (1011).