Cover arrangement for a neonatal jaundice treatment bed
By designing a cover structure adapted to the treatment bed, the problems of blue light leakage and light pollution in neonatal jaundice treatment beds have been solved, improving the ease of operation and safety, and ensuring the visibility and heat dissipation efficiency of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO MINGZHOU HOSPITAL CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-07-03
AI Technical Summary
The existing design of the cover for neonatal jaundice treatment beds has problems with blue light leakage and light pollution, and is inconvenient to operate, affecting the treatment effect and safety.
A cover structure was designed that includes a accommodating space, mating components, multiple windows and curtains. The mating components match the treatment bed, the windows precisely expose key areas, the curtains are independently designed to support rapid operation, flexible and opaque materials are used, and the connectors ensure airtightness.
It achieves full-coverage blue light blocking, eliminates light leakage through gaps, ensures equipment visibility and heat dissipation, improves operational convenience and safety, and reduces blue light leakage and time costs.
Smart Images

Figure CN224441643U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cover technology, and more specifically, to a cover structure for a neonatal jaundice treatment bed. Background Technology
[0002] Neonatal jaundice is a common condition in newborns, and phototherapy is a safe and effective treatment. Currently, open-style neonatal jaundice treatment beds are widely used, typically consisting of a crib for the infant and an integrated or separate control unit. This open design results in a significant amount of high-intensity blue light scattering into the surrounding environment. Existing simple blackout cloths or monolithic covers either fail to completely block blue light, leaving gaps that allow leakage, or the materials themselves are ineffective at blocking blue light, or are simply a single piece of cloth that easily slips off. Utility Model Content
[0003] Therefore, this utility model embodiment provides a cover structure for a neonatal jaundice treatment bed, making the cover structure more suitable for the neonatal jaundice treatment bed.
[0004] To address the aforementioned problems, this utility model provides a cover structure for a neonatal jaundice treatment bed. The cover structure is used to cover the neonatal jaundice treatment bed, which has a control unit and a bed unit. The cover structure includes: a receiving space for accommodating the neonatal jaundice treatment bed; a mating component for mating with the control unit, the shape of which is adapted to the shape of the control unit; multiple windows disposed on the mating component and corresponding to the control unit, allowing a portion of the control unit to communicate with the outside; and multiple curtains disposed on the mating component, covering the bed unit and fitting together but not connected to each other.
[0005] Compared with existing technologies, the technical effects achieved by this solution are as follows: By setting up an accommodating space that matches the contours of the treatment bed, a fully enclosed blue light blocking system is achieved, completely eliminating the light pollution problem of traditional open treatment beds; with precise adaptation of components and irregular control parts, light leakage caused by gaps is eliminated at the source; multiple windows are used to expose key areas such as the control panel and heat dissipation vents, ensuring the visibility of equipment operation and heat dissipation efficiency, and avoiding accidental touches or overheating malfunctions; the independent curtain design allows medical staff to quickly open a local area with one hand to perform nursing operations (such as checking vital signs or feeding), while the remaining curtains remain closed, significantly reducing the amount of blue light leakage and time costs during operation, and improving treatment safety and efficiency.
[0006] In one embodiment of this utility model, the control unit is provided with a control panel, and the multiple windows include: a first window, which is set close to the control panel so that the control panel is not obscured, and the first window is raised relative to the surface of the mating component to fit the control panel.
[0007] Compared with existing technologies, the technical effects achieved by this solution are as follows: The first window adopts a raised structure that closely fits the three-dimensional contour of the control panel. The window position precisely corresponds to the functional area of the panel, ensuring that all operation buttons, displays, and alarm indicator lights are fully exposed. Medical staff can complete parameter adjustments and status monitoring without moving the cover, avoiding the risk of misoperation and reducing the frequency of opening the cover, thus improving the ease of use of medical equipment from the hardware interaction level.
[0008] In one embodiment of this utility model, the control unit is provided with a heat dissipation vent, and the multiple window units further include multiple second windows, which are configured to correspond to the heat dissipation vent.
[0009] Compared with existing technologies, the technical effects achieved by adopting this technical solution are as follows: the positions of multiple second windows and heat dissipation vents are precisely aligned, maintaining the original airflow of the control unit and ensuring the heat dissipation efficiency of the equipment during long-term operation; the distance between the window edges and the heat dissipation vents is designed to prevent the covering material from blocking the air inlet / outlet, avoiding equipment shutdown or component damage caused by overheating, extending the service life of the treatment bed from the perspective of thermal management, and ensuring the continuity of the light-blocking function.
[0010] In one embodiment of this utility model, the control unit is further provided with a placement platform, and the multiple windows also include a third window, which is provided corresponding to the placement platform, and the placement platform extends out of the third window.
[0011] Compared with existing technologies, the technical effects achieved by adopting this technical solution are as follows: the third window is directly aligned with the placement table, retaining the tabletop's storage function; the exposed design of the placement table avoids the risk of contamination caused by items accumulating inside the covering structure, while reducing the operational burden of repeatedly opening and closing the overall cover, especially suitable for the need for quick access to items in emergency care scenarios.
[0012] In one embodiment of this utility model, the cover structure further includes: an opening and closing seam, which connects to a third window and separates the third window into a first side and a second side; each of the first side and the second side is connected to a curtain, and the first side and the second side are connected in a cooperative manner; wherein, in the use state, the first side and the second side at least partially overlap.
[0013] Compared with existing technologies, the technical effects achieved by adopting this technical solution are as follows: the third window is separated into two openable and closable side structures by opening and closing seams, which supports the temporary placement of large items; the overlapping design of the two side curtains still forms a physical light-blocking barrier when the windows are open or closed, eliminating blue light leakage during operation.
[0014] In one embodiment of this utility model, the covering structure further includes: a plurality of first connectors, which are disposed on the curtain portion corresponding to the first side; and a plurality of second connectors, which are disposed on the curtain portion corresponding to the second side, wherein the plurality of first connectors and the plurality of second connectors are disposed in a one-to-one correspondence.
[0015] Compared with existing technologies, the technical effects achieved by this solution are as follows: the distributed connectors enable the curtain edges to be quickly locked and separated, ensuring that the light-blocking seal is restored immediately after care, and preventing accidental opening due to infant activity or airflow disturbance, thereby improving system reliability.
[0016] In one embodiment of this utility model, the covering structure further includes: a first covering member, which is disposed on the side of the mating component near the first window, and the first covering member is a folding configuration fixed on one side.
[0017] Compared with existing technologies, the technical effects achieved by this solution are as follows: the folding first cover can cover the control panel window during non-operational periods (such as at night) to reduce screen glare, avoid disturbing infants' sleep or medical staff's vision, and the fixed end design prevents the cover from falling off or being lost. At the same time, it also serves as a cover and dustproof when not in use, improving the overall cleanliness of the equipment.
[0018] In one embodiment of this utility model, the covering structure further includes a second covering member, which is disposed in each second window and one end of the second covering member is fixed to the edge of the second window.
[0019] Compared with existing technologies, the technical effects achieved by this technical solution are as follows: the second cover can be fixedly covered on one side to cover the heat dissipation window. When the equipment is stopped, it can be manually closed to prevent dust from entering. During operation, it will swing naturally with the airflow without affecting heat dissipation, thus achieving a dynamic balance between dust prevention and heat dissipation.
[0020] In one embodiment of this utility model, the material of the cover structure is a soft, opaque material that can block blue light.
[0021] Compared with existing technologies, the technical effects achieved by this solution are as follows: the use of a soft, opaque material that blocks blue light fundamentally blocks the penetration of the treatment spectrum, protecting the eye health of medical staff; the material's flexibility allows it to closely fit the curved surface and corners of the treatment bed, eliminating the structural light leakage defects of rigid covers; the lightweight characteristics reduce the effort required to lift the curtain, improve nursing efficiency, and the easy-to-clean surface coating meets the disinfection requirements of the medical environment, extending the product's service life.
[0022] By adopting the technical solution of this utility model, the following technical effects can be achieved:
[0023] (1) By setting up an accommodating space that matches the contour of the treatment bed, a fully enclosed blue light blocking system is achieved, completely eliminating the light pollution problem of traditional open treatment beds; with the precise matching of components and irregular control parts, light leakage caused by gaps is eliminated from the source; multiple windows are specifically designed to expose key areas such as control panels and heat dissipation vents, ensuring the visibility of equipment operation and heat dissipation efficiency, and avoiding accidental touch or overheating failures; the independent curtain design allows medical staff to quickly open a local area with one hand to perform nursing operations (such as checking vital signs and feeding), while the remaining curtains remain closed, greatly reducing the amount of blue light leakage and time cost during operation, and improving treatment safety and efficiency;
[0024] (2) The third window is separated into two openable sides by the opening and closing seam, which supports the temporary placement of large items; the overlapping design of the two side curtains still forms a physical light-blocking barrier in the open and closed state, eliminating blue light leakage at the moment of operation; the distributed connectors realize the quick locking and separation of the curtain edge, ensuring that the light-blocking and sealing are restored immediately after care, and preventing accidental opening caused by the baby's activities or airflow disturbance, thus improving the reliability of the system. Attached Figure Description
[0025] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings to be used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0026] Figure 1 This is one of the structural schematic diagrams of a cover structure for a neonatal jaundice treatment bed provided by an embodiment of the present utility model;
[0027] Figure 2 A second schematic diagram of the cover structure for a neonatal jaundice treatment bed provided in an embodiment of this utility model;
[0028] Figure 3 A third schematic diagram of the structure of a cover for a neonatal jaundice treatment bed provided in this embodiment of the present invention;
[0029] Figure 4 This is the fourth schematic diagram of the cover structure for a neonatal jaundice treatment bed provided in this embodiment of the utility model.
[0030] Explanation of reference numerals in the attached figures:
[0031] 100. Cover structure for a neonatal jaundice treatment bed; 110. Matching components; 120. Window; 121. First window; 122. Second window; 123. Third window; 130. Curtain; 140. Opening and closing seam; 150. First side; 160. Second side; 170. First connector; 180. Second connector. Detailed Implementation
[0032] To make the above-mentioned objectives, features, and advantages of this utility model more apparent and understandable, the technical solutions in the embodiments of this utility model are clearly and completely described. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. 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.
[0033] [First Embodiment]
[0034] See Figures 1-4 This utility model provides a cover structure 100 for a neonatal jaundice treatment bed. The cover structure is used to cover the neonatal jaundice treatment bed, which has a control part and a bed part. The cover structure includes: a receiving space for accommodating the neonatal jaundice treatment bed; a mating component 110 for mating with the control part, and the shape of the mating component 110 is adapted to the shape of the control part; multiple windows 120 distributed on the mating component 110, and the multiple windows 120 are corresponding to the control part, so that part of the control part can communicate with the outside; and multiple curtains 130 disposed on the mating component 110, and the multiple curtains 130 are used to cover the bed part, and are attached to each other but not connected.
[0035] Specifically, in actual use, the first cover and the second cover are opened first. The first cover and the second cover can be fixed to the surface of the mating component 110 by Velcro. Specifically, the first cover and the second cover can be fixed by a one-end connected, openable, foldable design, or a zipper design.
[0036] Furthermore, after opening the first and second cover pieces, align the placement platform corresponding to the neonatal jaundice treatment bed through the opening and closing seam 140, align the placement platform with the third window 123, and then cover the entire covering assembly onto the control unit. After covering, check whether the heat dissipation vent is aligned with the second window 122 and whether the control panel is aligned with the first window 121. If not, pull the covering assembly for fine adjustment. After adjustment, connect the curtains 130 on both sides of the opening and closing seam 140 through the first connector 170 and the second connector 180. The first connector 170 and the second connector 180 can be Velcro or buttons. After connection, lower each curtain 130 to cover the entire treatment bed. Each curtain 130 is a single-end fixed folding setting, and the curtains 130 are not connected to each other. However, after lowering the curtains 130, there are no gaps between the curtains 130, and they are all fitted together.
[0037] Preferably, by setting up an accommodating space that matches the contour of the treatment bed, a fully enclosed blue light blocking system is achieved, completely eliminating the light pollution problem of traditional open treatment beds; with the precise adaptation of component 110 and irregular control section, light leakage caused by gaps is eliminated at the source; multiple windows 120 are specifically designed to expose key areas such as the control panel and heat dissipation vents, ensuring the visibility of equipment operation and heat dissipation efficiency, and avoiding accidental touches or overheating malfunctions; the independent curtain 130 design allows medical staff to quickly open a local area with one hand to perform nursing operations (such as checking vital signs or feeding), while the other curtains 130 remain closed, significantly reducing the amount of blue light leakage and time costs during operation, and improving treatment safety and efficiency.
[0038] Specifically, the control unit is equipped with a control panel, and multiple windows 120 include: a first window 121, which is positioned close to the control panel so that the control panel is not obscured, and the first window 121 is raised relative to the surface of the mating component 110 to fit the control panel.
[0039] Preferably, the first window 121 adopts a raised structure that closely fits the three-dimensional contour of the control panel. The window position precisely corresponds to the functional area of the panel, ensuring that all operation buttons, displays, and alarm indicator lights are fully exposed. Medical staff can complete parameter adjustments and status monitoring without moving the cover, which avoids the risk of misoperation and reduces the frequency of opening the cover, thus improving the ease of use of medical equipment from the hardware interaction level.
[0040] Specifically, the control unit is equipped with a heat dissipation vent, and the multiple windows 120 also include multiple second windows 122, with the multiple second windows 122 corresponding to the heat dissipation vent.
[0041] Preferably, the positions of multiple second windows 122 are precisely aligned with the heat dissipation vents to maintain the original airflow of the control unit and ensure the heat dissipation efficiency of the equipment during long-term operation. The distance between the window edge and the heat dissipation vent is designed to prevent the covering material from blocking the air inlet / outlet, avoid equipment shutdown or component damage caused by overheating, extend the service life of the treatment bed from the perspective of thermal management, and at the same time ensure the continuity of the light-blocking function.
[0042] Specifically, the control unit is also equipped with a placement platform, and the multiple windows 120 also include a third window 123, which is set corresponding to the placement platform, and the placement platform extends out of the third window 123.
[0043] Preferably, the third window 123 is directly aligned with the placement table, retaining the tabletop storage function; the exposed design of the placement table avoids the risk of contamination caused by items accumulating inside the covering structure, while reducing the operational burden of repeatedly opening and closing the overall cover, especially suitable for the need for quick access to items in emergency care scenarios.
[0044] Specifically, the cover structure also includes: an opening and closing seam 140, which connects to the third window 123 and separates the third window 123 into a first side 150 and a second side 160; each of the first side 150 and the second side 160 is connected to a curtain 130, and the first side 150 and the second side 160 are connected to each other; wherein, in the use state, the first side 150 and the second side 160 at least partially overlap.
[0045] Preferably, the third window 123 is separated into two openable sides by the opening and closing seam 140, which supports the temporary placement of large items; the overlapping design of the two side curtains 130 still forms a physical light-blocking barrier in the open and closed state, preventing blue light leakage during operation.
[0046] Specifically, the cover structure also includes: a plurality of first connectors 170, which are disposed on the curtain 130 corresponding to the first side 150; a plurality of second connectors 180, which are disposed on the curtain 130 corresponding to the second side 160, and the plurality of first connectors 170 and the plurality of second connectors 180 are disposed in a one-to-one correspondence.
[0047] Preferably, the distributed connectors enable quick locking and unlocking of the curtain 130 edges, ensuring immediate restoration of light-blocking sealing after care and preventing accidental opening due to infant movement or airflow disturbances, thus improving system reliability.
[0048] Specifically, the covering structure also includes: a first covering member, which is located on the side of the mating component 110 near the first window 121, and the first covering member is a folding configuration fixed on one side.
[0049] Preferably, the folding first cover can cover the control panel window during non-operational periods (such as at night) to reduce screen glare, avoid disturbing infants' sleep or medical staff's vision, and the fixed end design prevents the cover from falling off or being lost. At the same time, it also serves as a cover and dustproof when not in use, improving the overall cleanliness of the equipment.
[0050] Specifically, the covering structure also includes a second covering member, which is disposed in each second window 122, and one end of the second covering member is fixed to the edge of the second window 122.
[0051] Preferably, the second cover covers the heat dissipation window by fixing it on one side. When the equipment is stopped, it can be manually closed to prevent dust from entering. During operation, it swings naturally with the airflow without affecting heat dissipation, thus achieving a dynamic balance between dust prevention and heat dissipation.
[0052] Specifically, the cover structure is made of a soft, opaque material that can block blue light.
[0053] Preferably, it uses a soft, opaque material that blocks blue light, fundamentally blocking the penetration of the treatment spectrum and protecting the eye health of medical staff; the material's flexibility allows it to closely fit the curved surface and corners of the treatment bed, eliminating the structural light leakage defects of rigid covers; its lightweight characteristics reduce the effort required to lift the curtain, improve nursing efficiency, and the easy-to-clean coating meets the disinfection requirements of the medical environment, extending the product's service life.
[0054] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.
Claims
1. A cover structure for a neonatal jaundice treatment bed, the cover structure being for covering a neonatal jaundice treatment bed provided with a control part and a bed part, characterized in that, The cover structure includes: The cover structure is provided with a receiving space for accommodating the neonatal jaundice treatment bed; A mating component (110) is used to mate with the control unit, and the shape of the mating component (110) is adapted to the shape of the control unit; Multiple windows (120) are distributed on the mating assembly (110), and the multiple windows (120) are provided corresponding to the control unit, so that a part of the control unit is connected to the outside; Multiple curtains (130) are provided on the mating assembly (110) and are used to cover the bed section, and are fitted together but not connected to each other.
2. The cover arrangement for a phototherapy bed for neonates according to claim 1, characterized in that, The control unit is equipped with a control panel, and the plurality of windows (120) include: A first window (121) is positioned close to the control panel so that the control panel is not obscured, and the first window (121) is protruding from the surface of the mating component (110) to fit the control panel.
3. The cover arrangement for a phototherapy bed for neonates according to claim 1, wherein The control unit is provided with a heat dissipation vent, and the plurality of windows (120) further include: Multiple second windows (122) are provided, which are configured to correspond to the heat dissipation vents.
4. The cover arrangement for a phototherapy bed for neonates according to claim 1, characterized in that, The control unit is also provided with a placement platform, and the plurality of windows (120) further include: A third window (123) is provided corresponding to the placement platform, and the placement platform extends out of the third window (123).
5. The cover arrangement for a phototherapy bed for neonates according to claim 4, characterized in that, The cover structure also includes: A slit (140) is provided, which connects the third window (123) and separates the third window (123) into a first side (150) and a second side (160). Each of the first side (150) and the second side (160) is connected to a curtain (130), and the first side (150) and the second side (160) are connected in a cooperative manner; In the usage state, the first side (150) and the second side (160) at least partially overlap.
6. The cover arrangement for a phototherapy bed for neonates according to claim 5, characterized in that, The cover structure also includes: A plurality of first connectors (170) are provided on the curtain (130) corresponding to the first side (150); A plurality of second connectors (180) are provided on the curtain (130) corresponding to the second side (160), and the plurality of first connectors (170) and the plurality of second connectors (180) are provided in a one-to-one correspondence.
7. The cover structure for a neonatal jaundice treatment bed according to claim 2, characterized in that, The cover structure also includes: The first cover is located on the side of the mating assembly (110) near the first window (121), and the first cover is a folding configuration fixed on one side.
8. The cover arrangement for a phototherapy bed for neonates according to claim 3, wherein The cover structure also includes: A second cover is provided in each second window (122), and one end of the second cover is fixed to the edge of the second window (122).
9. The cover structure for a neonatal jaundice treatment bed according to claim 1, characterized in that, The material of the cover structure is a soft light-blocking material.