An exercise recovery structure for use after neurosurgical anesthesia procedures
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHANGDE FIRST PEOPLES HOSPITAL
- Filing Date
- 2025-04-27
- Publication Date
- 2026-06-23
Smart Images

Figure CN224387984U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, and in particular to a rehabilitation structure for use after neurosurgical anesthesia. Background Technology
[0002] Anesthesiology is a specialized and independent discipline within clinical medicine, encompassing multiple fields such as clinical anesthesiology and emergency resuscitation medicine. During the recovery phase of anesthetized patients, most existing recovery devices are single-function; for example, hand recovery devices are only for the hand, and leg recovery devices are only for the leg. Patients who have undergone general anesthesia need to use different devices for hand and leg recovery training separately, which is inconvenient and inefficient. Therefore, it is essential to design a multi-functional recovery device that allows anesthetized patients to perform recovery procedures on both their hands and legs. Summary of the Invention
[0003] This utility model provides a rehabilitation structure for use after neurosurgical anesthesia to solve the problems in the prior art.
[0004] This utility model embodiment adopts the following technical solution: a rehabilitation structure for post-anesthesia neurosurgical procedures, comprising a fixed main frame, the fixed main frame having two hollow holes inside, each hole housing a rotating rod rotatably; symmetrical arc-shaped holes on both sides of the fixed main frame, each rotating rod symmetrically equipped with a rotating connecting frame, and the connecting end of each rotating connecting frame located within a corresponding arc-shaped hole; two sets of pressing components are connected to the fixed main frame, these two sets of pressing components being symmetrically distributed on both sides of the fixed main frame. Each set of pressing components is connected to two rotating connecting frames on the same rotating rod; two sets of elastic connecting components are provided between the two sets of pressing components, the two sets of elastic connecting components being located at the upper and lower ends of the two sets of pressing components respectively, and both connected to the fixed main frame.
[0005] Furthermore, each pressing assembly consists of a sliding plate, a moving plate, and a pressing block. There are two sliding plates, symmetrically mounted on one side of the fixed main frame, each corresponding to an arc-shaped hole. Each sliding plate is connected to a rotating connecting frame. There are also two moving plates and two pressing blocks. One end of each moving plate is connected to a sliding plate, and the two moving plates are fan-shaped. Each pressing block is located at the other end of a moving plate.
[0006] Furthermore, the outer surface of the pressing block is designed as an arc surface, and a rubber connecting pad is attached to its outer surface. The rubber connecting pads on every two pressing blocks on the same side are connected to each other, and every two connected rubber connecting pads are in a taut state on the two pressing blocks.
[0007] Furthermore, each set of the elastic connection components is equipped with a support connecting rod, and each set of the elastic connection components is securely connected to the fixed main frame through the support connecting rod.
[0008] Furthermore, each set of elastic connection components includes a fixed block and an arc-shaped frame. The fixed block is connected to the supporting connecting rod. There are two arc-shaped frames, which are symmetrically distributed on both sides of the fixed block. Each arc-shaped frame has a hollow internal structure, and a buffer spring is installed inside each arc-shaped frame. One end of the buffer spring is connected inside the arc-shaped frame, and the other end is connected to a connecting block. The connecting block can slide inside the arc-shaped frame and is connected to a movable plate.
[0009] The above-mentioned technical solutions adopted in the embodiments of this utility model can achieve the following beneficial effects:
[0010] In this utility model, the anesthesia patient recovery device designed in this application can be used by hand. When used by hand, the patient can press with one hand or both hands, or it can be placed on the patient's legs or feet for stepping. It is simple to operate and has a wide range of applications. Compared with the recovery devices in the prior art, this application is more suitable for use by general anesthesia patients in the postoperative recovery process. Attached Figure Description
[0011] The accompanying drawings, which are included to provide a further understanding of the present invention and constitute a part of this invention, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:
[0012] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0013] Figure 2 This is a schematic diagram of the structure of the fixed main frame in this utility model;
[0014] Figure 3 This is a schematic diagram of the internal structure of the fixed main frame in this utility model;
[0015] Figure 4 This is a three-dimensional schematic diagram of the pressing component in this utility model;
[0016] Figure 5 This is a schematic diagram showing the connection between the pressing component and the elastic connecting component in this utility model.
[0017] Reference numerals: 1. Fixed main frame; 2. Rotating rod; 3. Rotating connecting frame; 11. Hole; 12. Arc-shaped hole.
[0018] Pressing assembly 4, sliding plate 41, moving plate 42, pressing block 43, elastic connecting assembly 5, fixing block 51, arc frame 52, buffer spring 53, connecting block 54, support connecting rod 6, rubber connecting pad 7. Detailed Implementation
[0019] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of this utility model will be clearly and completely described below in conjunction with specific embodiments and corresponding drawings. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0020] The technical solutions provided by the various embodiments of this utility model are described in detail below with reference to the accompanying drawings.
[0021] Reference Figures 1-5 This utility model provides a rehabilitation structure for use after neurosurgical anesthesia, including a fixed main frame 1. The fixed main frame 1 has two hollow holes 11 inside, each with a rotating rod 2 rotatably mounted therein. Symmetrical arc-shaped holes 12 are opened on both sides of the fixed main frame 1. A rotating connecting frame 3 is symmetrically mounted on each rotating rod 2, with the connecting end of the rotating connecting frame 3 located within the corresponding arc-shaped hole 12. Two sets of pressing components 4 are connected to the fixed main frame 1, symmetrically distributed on both sides of the fixed main frame 1, and each set of pressing components 4 is connected to two rotating connecting frames 3 on the same rotating rod 2. Two sets of elastic connecting components 5 are provided between the two sets of pressing components 4, located at the upper and lower ends of the two sets of pressing components 4 respectively, and both connected to the fixed main frame 1.
[0022] In practical use, each set of pressing components 4 is located on one side of the fixed main frame 1 and is connected to the rotating connecting frame 3, allowing relative movement on one side of the fixed main frame 1. The two sets of pressing components 4 can move simultaneously or individually. The two sets of elastic connecting components 5 provide the reset force for the two sets of pressing components 4 after being pressed. This device is ingeniously designed; patients can hold the device for single-hand or double-hand pressing training, or place the device on their legs or feet for stepping training. It is simple and convenient to operate, widely applicable, and better suited to the actual needs of postoperative recovery for patients under general anesthesia compared to traditional recovery devices.
[0023] The design is further optimized as follows: Each pressing assembly 4 includes a sliding plate 41, a moving plate 42, and a pressing block 43. There are two sliding plates 41, symmetrically arranged on one side of the fixed main frame 1, each corresponding to the arc-shaped hole 12. Each sliding plate 41 is connected to a rotating connecting frame 3. There are also two moving plates 42 and two pressing blocks 43. One end of each moving plate 42 is connected to a sliding plate 41, and the two moving plates 42 are fan-shaped apart. Each pressing block 43 is located at the other end of a moving plate 42. This design allows the two sliding plates 41 to slide on the outer wall of the fixed main frame 1. The cooperation between the rotating connecting frame 3 and the rotating rod 2 ensures that the sliding plates 41 are stably attached to the fixed frame, thereby driving the moving plates 42 to move synchronously. The two sets of pressing components 4 contain four symmetrically arranged movable plates 42. The two movable plates 42 at the top and the two movable plates 42 at the bottom are connected by elastic connecting components 5, ensuring that the movable plates 42 can be reset by the elastic connecting components 5 after movement. Moreover, each movable plate 42 can be used independently. Patients can choose to press one movable plate 42 alone, or press two or even four movable plates 42 simultaneously, according to their own situation, to gradually adapt to different training intensities.
[0024] To improve patient experience and safety, the outer surface of the pressure block 43 is designed to be curved, and a rubber connecting pad 7 is attached to its outer surface. The rubber connecting pads 7 on every two pressure blocks 43 on the same side are interconnected and in a taut state. The rubber connecting pads 7 play a crucial role when patients perform rehabilitation training by pressing the pressure assembly. On one hand, because they are in a taut state and possess a certain degree of resilience (less than the resilience of the buffer spring 53), the rubber connecting pads 7 provide assistance when the patient presses the moving plate 42, while simultaneously reducing the impact of the buffer spring 53's rebound on the patient, lowering the resilience of the buffer spring 53, reducing discomfort caused by the rebound, and improving safety. For example, for patients with weak hand strength, the assistance of the rubber connecting pads 7 allows them to perform pressure training more easily without worrying about excessive rebound force causing hand injury. On the other hand, the rubber material of the rubber connecting pad 7 has anti-slip properties. When the patient's hands or legs come into contact with the rubber connecting pad 7 and press the pressing component, it can effectively prevent slippage during the pressing process. For example, during leg pedaling training, even if the patient's feet are prone to slipping due to sweating, the anti-slip function of the rubber connecting pad 7 can ensure the stability of the patient's feet, avoid injury due to slipping, and improve stability during use.
[0025] In addition, each set of elastic connecting components 5 is equipped with a support connecting rod 6, and each set of elastic connecting components 5 is fixedly connected to the fixed main frame 1 through the support connecting rod 6. The role of the support connecting rod 6 is crucial. It can fix the position of the elastic connecting components 5 and prevent the moving plate 42 from causing the elastic connecting components 5 to shift during the movement. If the position of the elastic connecting components 5 shifts, it will cause the four symmetrical moving plates 42 to deviate in position after the movement. After the support connecting rod 6 fixes the elastic connecting components 5, no matter how the moving plate 42 moves, the initial position of the elastic connecting components 5 will not change, thus ensuring that the moving plate 42 can accurately return to the initial position after the movement.
[0026] Each set of elastic connecting components 5 also includes a fixed block 51 and an arc-shaped frame 52. The fixed block 51 is connected to the supporting connecting rod 6. There are two arc-shaped frames 52, symmetrically arranged on both sides of the fixed block 51. Each arc-shaped frame 52 has a hollow internal structure and is equipped with a buffer spring 53. One end of the buffer spring 53 is connected inside the arc-shaped frame 52, and the other end is connected to a connecting block 54. The connecting block 54 slides inside the arc-shaped frame 52 and is connected to a movable plate 42. When the movable plate 42 moves, it will drive the connecting block 54 to slide inside the arc-shaped frame 52. During the sliding process, the connecting block 54 stretches the buffer spring 53. When the movable plate 42 loses pressure, the buffer spring 53 generates a restoring force to drive the connecting block 54 to reset, which in turn pulls the movable plate 42 to reset. It is worth mentioning that compared with ordinary springs, the buffer spring 53 has better buffering performance. When the moving plate 42 moves under force, the buffer spring 53 can more effectively absorb and disperse energy, further reducing the impact on the patient when the device rebounds. Together with the newly added rubber connecting pad 7, the two form a double protection, greatly reducing the impact of rebound on the patient and significantly improving the safety of use.
[0027] In practical application, the fixed main frame 1 is first placed in a suitable position. The patient chooses the training method according to their needs. For hand training, the patient can hold the device and move the moving plate 42 by pressing the pressing block 43, thereby causing the sliding plate 41 to slide along the outer wall of the fixed main frame 1 to achieve hand rehabilitation training. For leg training, the device is placed in a suitable position on the leg or foot, and training is performed by stepping on the pressing block 43.
[0028] During training, the rubber connecting pad 7 and the cushioning spring 53 work together. The rubber connecting pad 7 provides assistance to the patient and reduces the rebound force of the cushioning spring 53, while its anti-slip properties ensure stability for the patient's hands or feet. The cushioning spring 53, with its excellent cushioning performance, absorbs and disperses energy, reducing the impact of the device's rebound on the patient.
[0029] After a period of use, the device needs to be inspected and maintained. Check if the rubber connecting pad 7 is loose or worn, and replace or adjust it in time if so. Check the elasticity of the buffer spring 53 and whether the connection is normal. If there are problems such as weakened elasticity or loose connection, the buffer spring 53 should be replaced in time. At the same time, check whether the connection between the support connecting rod 6 and the fixed main frame 1 and the elastic connecting assembly 5 is secure to ensure that the device is always in good working condition.
[0030] The above description is merely an embodiment of this utility model and is not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principle of this utility model should be included within the scope of the claims of this utility model.
Claims
1. A rehabilitation structure for use after neurosurgical anesthesia, characterized in that, The system includes a fixed main frame (1), which has two hollow holes (11) inside. A rotating rod (2) is installed in each hole (11) in a rotatable manner. Arc-shaped holes (12) are symmetrically opened on both sides of the fixed main frame (1). A rotating connecting frame (3) is symmetrically arranged on each rotating rod (2), and the connecting end of each rotating connecting frame (3) is located in the corresponding arc-shaped hole (12). Two sets of pressing components (4) are connected to the fixed main frame (1). The two sets of pressing components (4) are symmetrically distributed on both sides of the fixed main frame (1). Each set of pressing components (4) is connected to two rotating connecting frames (3) on the same rotating rod (2). Two sets of elastic connecting components (5) are provided between the two sets of pressing components (4). The two sets of elastic connecting components (5) are located at the upper and lower ends of the two sets of pressing components (4) respectively, and are both connected to the fixed main frame (1).
2. The rehabilitation structure for post-anesthesia exercise according to claim 1, characterized in that, Each pressing assembly (4) consists of a sliding plate (41), a moving plate (42), and a pressing block (43). There are two sliding plates (41), which are symmetrically installed on one side of the fixed main frame (1) and correspond to the arc-shaped hole (12). Each sliding plate (41) is connected to a rotating connecting frame (3). There are also two moving plates (42) and two pressing blocks (43). One end of each moving plate (42) is connected to a sliding plate (41). The two moving plates (42) are fan-shaped. Each pressing block (43) is located at the other end of a moving plate (42).
3. The rehabilitation structure for post-anesthesia exercise according to claim 2, characterized in that, The outer surface of the pressing block (43) is designed as an arc surface, and a rubber connecting pad (7) is attached to its outer surface. The rubber connecting pads (7) on each pair of pressing blocks (43) on the same side are connected to each other, and each pair of connected rubber connecting pads (7) are in a taut state on the two pressing blocks (43).
4. The rehabilitation structure for post-anesthesia exercise according to claim 1, characterized in that, Each set of elastic connection components (5) is equipped with a support connection rod (6), and each set of elastic connection components (5) is securely connected to the fixed main frame (1) through the support connection rod (6).
5. The rehabilitation structure for post-anesthesia exercise according to claim 4, characterized in that, Each set of elastic connection components (5) includes a fixed block (51) and an arc frame (52). The fixed block (51) is connected to the support connecting rod (6). There are two arc frames (52), which are symmetrically distributed on both sides of the fixed block (51). Each arc frame (52) has a hollow structure inside. Each arc frame (52) is equipped with a buffer spring (53). One end of the buffer spring (53) is connected inside the arc frame (52), and the other end is connected to a connecting block (54). The connecting block (54) can slide inside the arc frame (52) and is connected to a moving plate (42).