Transportable sterile bed cabin for critically ill children

By designing a transferable sterile bed for critically ill children, the inconvenience and safety risks of existing sterile beds during the transfer of children are solved, providing a stable and safe transfer solution suitable for examination and treatment of critically ill children in a sterile environment.

CN224484394UActive Publication Date: 2026-07-14THE CHILDRENS HOSPITAL ZHEJIANG UNIV SCHOOL OF MEDICINE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
THE CHILDRENS HOSPITAL ZHEJIANG UNIV SCHOOL OF MEDICINE
Filing Date
2025-07-29
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing sterile beds present inconveniences during child transport, easily leading to discomfort and safety risks for children. In particular, frequent transport of critically ill children may cause secondary injuries, and the need to transfer patients with hematologic malignancies to high-level clean rooms increases the difficulty of transport.

Method used

Design a transferable sterile bed for critically ill children, comprising a sterile chamber and a detachable transport bed, equipped with a flexible mattress, restraint straps and laminar flow clean equipment, allowing for stable monitoring and treatment within the sterile chamber, and direct transfer to the examination room or clean room, and long-distance movement via a transport vehicle.

Benefits of technology

It enables stable transport of pediatric patients in a sterile environment, reduces discomfort and fear reactions, lowers the risk of secondary injury, simplifies the transport process, and improves safety and work efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of transportable critical child sterile bed cabin, by being provided with separable transport bed in sterile cabin, to solve the problem of current critical child transport inconvenience.Its technical scheme main point is: a kind of transportable critical child sterile bed cabin, including sterile cabin and transport bed, the sterile cabin includes base, cabin lateral wall and top plate, cabin lateral wall is enclosed into bed cabin space, the bottom of cabin lateral wall is fixedly sealed with base, the top of cabin lateral wall is fixedly sealed with top plate, cabin lateral wall includes oppositely arranged side plate and oppositely arranged side plate, side plate is equipped with transparent window, at least one side plate is equipped with openable and closable cabin door, and base upper surface forms placing platform;The transport bed includes bottom plate and flexible mattress, and flexible mattress is located on the upper surface of bottom plate, and the bottom plate is separably arranged on the placing platform.
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Description

Technical Field

[0001] This utility model relates to the field of pediatric intensive care equipment technology, specifically a transportable sterile bed for critically ill children. Background Technology

[0002] In pediatric intensive care unit (PICU) medical practice, sterile beds are widely used as a key medical device, playing a vital role in the monitoring, treatment, and care of children's conditions. Sterile beds create a relatively independent and sterile space for critically ill pediatric patients, effectively reducing the risk of infection from external pathogens, facilitating various treatment procedures, and ensuring the safety and effectiveness of the treatment process.

[0003] However, existing sterile wards still present some problems in practical application. In the daily work of the PICU, in order to make a comprehensive and accurate diagnosis of pediatric patients, it is often necessary to transfer them to different departments for examinations, such as CT scans. During such transfers, the routine procedure is for medical staff to move the patient's body to a special transport bed, transfer them to the CT room, and then move the patient's body to the CT examination table. After the examination is completed, the above process is repeated to transport the patient back to the PICU ward. Due to the frequent moving movements required throughout the process, children are prone to discomfort and fear. Critically ill children are already in a vulnerable state both physically and psychologically. Sudden physical contact and movements can easily cause them to cry and resist, which not only brings inconvenience and difficulties to the work of medical staff and affects the smooth progress of transfers and examinations, but may also cause additional physical harm due to the child's struggles. From a safety perspective, critically ill children are physically vulnerable and may have underlying issues such as fractures or internal organ damage. Directly transporting them by body cannot provide stable and even support, and uneven force or shaking during movement could cause secondary injuries, increasing unnecessary safety risks. Furthermore, for some patients with hematologic malignancies, transfer to specialized high-level (100,000 or 1 million level) laminar flow cleanrooms after stem cell transplantation further complicates transport.

[0004] Therefore, how to design and optimize existing sterile bed cabins to solve the aforementioned problem of inconvenient transportation has become an important focus in this field. Utility Model Content

[0005] The purpose of this invention is to address the problems existing in the above-mentioned background technology by providing a transferable sterile bed for critically ill children. By setting a detachable transfer bed in the sterile cabin, the problem of inconvenient transfer of critically ill children can be solved.

[0006] To achieve the above-mentioned objectives, the present invention adopts the following technical solution:

[0007] A transferable sterile bed for critically ill children includes a sterile compartment and a transfer bed. The sterile compartment includes a base, compartment side walls, and a top plate. The compartment side walls enclose the bed space. The bottom of the compartment side walls is fixedly and sealed to the base, and the top of the compartment side walls is fixedly and sealed to the top plate. The compartment side walls include side plates arranged opposite each other on the left and right sides and side plates arranged opposite each other front and back. The side plates are provided with transparent windows, and at least one side plate is provided with a door that can be opened and closed. The upper surface of the base forms a placement platform. The transfer bed includes a base plate and a flexible mattress. The flexible mattress is located on the upper surface of the base plate, and the base plate can be detachably mounted on the placement platform.

[0008] Preferably, the flexible mattress is configured as an inflatable and deflated airbag cushion.

[0009] Preferably, a limiting docking structure is provided between the base plate and the placement platform.

[0010] Preferably, the limiting docking structure includes a limiting groove and a first protruding plate, wherein the limiting groove is disposed on the lower surface of the base plate, and the first protruding plate is disposed on the upper surface of the placement platform, and the first protruding plate is adapted to be fitted into the limiting groove; when the first protruding plate is fitted into the limiting groove, the bottom surface of the base plate is placed against the upper surface of the placement platform.

[0011] Preferably, a laminar flow cleanroom device is provided on the top plate, and the air outlet of the laminar flow cleanroom device is located at the top of the bed compartment space.

[0012] Preferably, the side of the base plate is provided with a bed rail handle for hand operation, and the side edge of the base plate or the bed rail handle is equipped with restraint straps for fixing the patient's body to the transport bed.

[0013] Preferably, it also includes a transfer vehicle, which includes a chassis, a body support, and a load-bearing support. The chassis is equipped with casters, and the load-bearing support is fixedly installed on the top of the body support. The base plate and the load-bearing support can be detached and connected.

[0014] Preferably, the upper surface of the bearing support is provided with a second protruding plate, which can be separated and fitted into the limiting groove; when the second protruding plate is fitted into the limiting groove, the bottom surface of the base plate is placed against the upper surface of the bearing support.

[0015] Preferably, a fence structure is provided on the outer periphery of the bearing support, the fence structure is fixedly connected to the bearing support, and the upper edge of the fence structure exceeds the upper surface of the bearing support; when the second protruding plate is fitted into the limiting groove, the bottom plate is embedded in the inner side of the fence structure.

[0016] Compared with existing technologies, the transportable sterile pediatric ward using the above-mentioned technical solution has the following beneficial effects:

[0017] In routine PICU work, the transport bed can be stably placed in the sterile compartment and used as a regular patient bed for normal monitoring, treatment and nursing care. Furthermore, by adding laminar flow clean equipment to the top of the bed compartment, a high-level sterile environment can be created in the bed compartment space. Critically ill pediatric patients (especially those with hematologic malignancies undergoing stem cell transplantation) do not need to be transferred to a dedicated high-level laminar flow clean ward, which helps to eliminate the inconvenience of back-and-forth transportation and makes routine PICU work easier.

[0018] When pediatric patients need to be transported for examinations, such as CT scans, the transport bed can be directly lifted and separated from the sterile chamber for transport. During the transport, the child remains lying on the mattress, and restraint straps can be used to secure the child and prevent them from falling. The transport process does not require direct contact with the body, effectively alleviating discomfort and fear in children and reducing the probability of crying and struggling. In the preferred option, after the transport bed is detached from the sterile chamber, it can be directly placed on a matching transport cart for longer distances, ensuring stability during transport and reducing the workload of medical staff.

[0019] The sterile chamber can be configured with fixed or movable supports according to actual needs. When configured with fixed supports, the sterile chamber can be used as a regular hospital bed, and pediatric patients can be transferred by means of a transport bed and a transport cart. When configured with movable supports, the bottom of the movable supports is equipped with casters, which can move the entire sterile chamber for patient transfer. It can be used in PICU environments as well as in non-ICU environments for isolation, playing a role in protective isolation or avoiding cross-infection. Attached Figure Description

[0020] Figure 1 This is a structural schematic diagram of an embodiment of the transferable sterile bed for critically ill children according to this utility model.

[0021] Figure 2 This is a schematic diagram of the sterile chamber in this embodiment.

[0022] Figure 3 This is a schematic diagram of the transfer bed in this embodiment (from above).

[0023] Figure 4 This is a schematic diagram of the transfer bed in this embodiment (bottom view).

[0024] Figure 5 This is a schematic diagram of the transfer vehicle in this embodiment.

[0025] Reference numerals: 1. Sterile chamber; 10. Base; 100. Placement platform; 11. Side panel; 110. Transparent window; 12. Top panel; 13. Door; 14. Bed compartment space; 2. Transfer bed; 20. Base plate; 200. Bed rail handle; 21. Flexible mattress; 3. Transfer cart; 30. Chassis; 31. Carriage support; 32. Load-bearing support; 33. Fence structure; 4. Laminar flow cleanroom equipment; 5. First protruding plate; 6. Limiting groove; 7. Second protruding plate; 8. Restraint strap; 9. Secondary window. Detailed Implementation

[0026] To further illustrate the technical means and effects of this utility model in order to achieve its intended purpose, the following detailed description of the specific implementation methods, structure, features and effects of this utility model is provided in conjunction with the accompanying drawings and preferred embodiments.

[0027] like Figures 1 to 5 The transferable sterile pediatric bed shown includes a sterile compartment 1 and a transfer bed 2, and is equipped with a transfer cart 3. The sterile compartment 1 includes a base 10, compartment side walls and a top plate 12. The compartment side walls enclose the bed space 14. The bottom of the compartment side walls is fixedly and sealed to the base 10, and the top of the compartment side walls is fixedly and sealed to the top plate 12. The compartment side walls include side plates 11 arranged opposite each other on the left and right and side plates 11 arranged opposite each other front and back. The side plates 11 are provided with transparent windows 110. The left or right side plate 11 is provided with a door 13 that can be opened and closed. The side plates 11 and / or the door 13 are provided with secondary windows 9, which are used for the passage of items such as monitor wires and infusion pump tubing.

[0028] A placement platform 100 is formed on the upper surface of the base 10. The transfer bed 2 includes a base plate 20 and a flexible mattress 21, which is configured as an inflatable and deflated airbag cushion. The flexible mattress 21 is fixedly mounted on the upper surface of the base plate 20. A bed rail handle 200 for hand operation is provided on the side of the base plate 20. The bed rail handle 200 is equipped with a restraint strap 8 for securing the patient's body to the transfer bed 2. One end of the restraint strap 8 is fixedly connected to one side of the bed rail handle 200, and the other end of the restraint strap 8 can be tightly secured to the other side of the bed rail handle 200. When transferring the patient, the restraint strap 8 is used to restrain the patient's body on the transfer bed 2 to prevent the patient from falling off the transfer bed 2. A limiting docking structure is provided between the base plate 20 and the placement platform 100, which enables the base plate 20 and the placement platform 100 to be separably docked. The limiting docking structure includes a limiting groove 6 and a first protruding plate 5. The limiting groove 6 is located on the lower surface of the base plate 20, and the first protruding plate 5 is located on the upper surface of the placement platform 100. The first protruding plate 5 is adapted to fit into the limiting groove 6. When the first protruding plate 5 is fitted into the limiting groove 6, the bottom surface of the base plate 20 is placed against the upper surface of the placement platform 100.

[0029] A laminar flow cleanroom device 4 is installed on the top plate 12, and the air supply outlet of the laminar flow cleanroom device 4 is located at the top of the bed cabin space 14. The laminar flow cleanroom device 4 adopts the 100,000-class or 1 million-class laminar flow cleanroom technology used in existing wards, and creates a sterile environment for the bed cabin space 14 through the laminar flow cleanroom device 4.

[0030] The transfer vehicle 3 includes a chassis 30, a body support 31, and a load-bearing support 32. The chassis 30 is equipped with casters. The load-bearing support 32 is fixedly mounted on top of the body support 31. The base plate 20 and the load-bearing support 32 can be detachably connected. A fence structure 33 is provided around the outer periphery of the load-bearing support 32. The fence structure 33 is fixedly connected to the load-bearing support 32, and the upper edge of the fence structure 33 extends beyond the upper surface of the load-bearing support 32. A second protruding plate 7 is provided on the upper surface of the load-bearing support 32. The second protruding plate 7 can be detachably fitted into the limiting groove 6. When the second protruding plate 7 is fitted into the limiting groove 6, the bottom surface of the base plate 20 is placed against the upper surface of the load-bearing support 32, and the base plate 20 is embedded inside the fence structure 33.

[0031] In daily PICU work, the transport bed 2 can be stably placed in the sterile compartment 1 for normal monitoring, treatment and nursing work; when it is necessary to transport pediatric patients for examination (such as CT scan), the transport bed 2 can be lifted directly from the sterile compartment 1 and then placed on the transport cart 3 for transfer to the CT room.

[0032] The above description is merely a preferred embodiment of the present invention and is not intended to limit the present invention in any way. Although the present invention has been disclosed above with reference to preferred embodiments, it is not intended to limit the present invention. Any person skilled in the art can make some modifications or alterations to the above-disclosed technical content to create equivalent embodiments without departing from the scope of the present invention. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present invention without departing from the scope of the present invention shall still fall within the scope of the present invention.

Claims

1. A transferable sterile pediatric bed, characterized in that: The equipment includes a sterile chamber (1) and a transfer bed (2). The sterile chamber (1) includes a base (10), a chamber side wall and a top plate (12). The chamber side wall encloses a bed space (14). The bottom of the chamber side wall is fixedly and sealed to the base (10), and the top of the chamber side wall is fixedly and sealed to the top plate (12). The chamber side wall includes side plates (11) arranged opposite to each other on the left and right and side plates (11) arranged opposite to each other in front and behind. The side plates (11) are provided with transparent windows (110). At least one side plate (11) is provided with a door (13) that can be opened and closed. The upper surface of the base (10) forms a placement platform (100). The transfer bed (2) includes a base plate (20) and a flexible mattress (21). The flexible mattress (21) is located on the upper surface of the base plate (20). The base plate (20) can be detachably set on the placement platform (100).

2. The transferable sterile pediatric intensive care unit according to claim 1, characterized in that: The flexible mattress (21) is configured as an inflatable and deflated airbag cushion.

3. The transferable sterile pediatric intensive care unit according to claim 1 or 2, characterized in that: A limiting docking structure is provided between the base plate (20) and the placement platform (100).

4. The transferable sterile pediatric intensive care unit according to claim 3, characterized in that: The limiting docking structure includes a limiting groove (6) and a first protruding plate (5), wherein the limiting groove (6) is located on the lower surface of the base plate (20) and the first protruding plate (5) is located on the upper surface of the placement platform (100). The first protruding plate (5) is adapted to fit into the limiting groove (6). When the first protruding plate (5) is fitted into the limiting groove (6), the bottom surface of the base plate (20) is placed against the upper surface of the placement platform (100).

5. The transferable sterile pediatric intensive care unit according to claim 1, characterized in that: The top plate (12) is equipped with a laminar flow cleanroom device (4), and the air outlet of the laminar flow cleanroom device (4) is located at the top of the bed cabin space (14).

6. The transferable sterile pediatric intensive care unit according to claim 3, characterized in that: The base plate (20) is provided with a bed rail handle (200) for hand operation on the side, and the side edge of the base plate (20) or the bed rail handle (200) is provided with restraint straps (8) for fixing the patient's body to the transport bed (2).

7. The transferable sterile pediatric intensive care unit according to claim 4, characterized in that: It also includes a transfer vehicle (3), which includes a chassis (30), a body support (31) and a load-bearing support (32). The chassis (30) is equipped with casters, and the load-bearing support (32) is fixedly installed on the top of the body support (31). The bottom plate (20) and the load-bearing support (32) can be separated and connected.

8. The transferable sterile pediatric intensive care unit according to claim 7, characterized in that: The upper surface of the bearing support (32) is provided with a second protruding plate (7), which can be separated and fitted into the limiting groove (6); when the second protruding plate (7) is fitted into the limiting groove (6), the bottom surface of the base plate (20) is placed against the upper surface of the bearing support (32).

9. The transferable sterile pediatric intensive care unit according to claim 8, characterized in that: The outer periphery of the bearing support (32) is provided with a fence structure (33), which is fixedly connected to the bearing support (32). The upper edge of the fence structure (33) is higher than the upper surface of the bearing support (32). When the second protruding plate (7) is fitted into the limiting groove (6), the bottom plate (20) is embedded in the inner side of the fence structure (33).