ICU defibrillator hanger

By designing an adjustable-height defibrillator mount, the problem of defibrillators occupying a large amount of space in the ICU ward was solved, improving the utilization rate of the passage and the efficiency of rescue, and adapting to the needs of medical staff of different heights.

CN224331037UActive Publication Date: 2026-06-09仇晓文

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
仇晓文
Filing Date
2025-04-11
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The defibrillator racks in existing ICU wards take up a lot of space, affecting passage and rescue efficiency.

Method used

A defibrillator hanger including a support frame and a quadrilateral scissor bracket was designed. It uses a lead screw and motor drive to realize the height adjustment of the placement plate and the automatic opening and closing of the side plates, making reasonable use of vertical space, reducing ground occupation, and adapting to the needs of medical staff of different heights.

Benefits of technology

It effectively reduces the ground space occupied by defibrillators, improves the utilization rate of passageways, reduces travel time, facilitates the temporary placement of medical supplies, and improves the convenience and efficiency of emergency treatment.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224331037U_ABST
    Figure CN224331037U_ABST
Patent Text Reader

Abstract

The utility model provides a defibrillation appearance hanger for ICU relates to defibrillation appearance field, this defibrillation appearance hanger for ICU, including support and having the scissors holder of quadrilateral structure, two moving pieces are slidably installed on the support, be provided with the elastic connecting piece between two moving pieces, two rotary joints in the up and down direction of scissors holder are connected with two moving pieces respectively, two rotary joints in the horizontal direction of scissors holder are connected with two side plates respectively, and the placing plate for supporting defibrillation appearance is slidably connected between two side plates, this defibrillation appearance hanger for ICU, bottom plate can be placed below the bedside table, and the defibrillation appearance is placed on the upper portion of the hanger, and the vertical space is reasonably utilized, and the ground is occupied, and after using, the defibrillation appearance can be removed to the upper portion of the support, avoid obstructing the passage, and the side plate can be automatically opened and closed by the scissors holder, and the defibrillation appearance is convenient to take out and place, and the side plate stretches out and can temporarily place the medical supplies for rescue, need not to move and use the medical vehicle, improve the utilization of the passageway, reduce the time of passing through.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of defibrillators, specifically a defibrillator hanger for ICU use. Background Technology

[0002] In the ICU (Intensive Care Unit), defibrillators are key equipment used to resuscitate patients with cardiac arrest or arrhythmia. The ease of access to these devices directly affects the efficiency of resuscitation. Defibrillator racks provide a fixed storage location for defibrillators, ensuring they are properly stored when not in use and preventing loss, damage, or obstruction of emergency procedures due to careless placement. With a rack, defibrillators can be securely fixed in a specific location.

[0003] In ICU wards, floor-standing racks are often used for easy movement. The brackets on the racks are used to hold the defibrillator. However, the brackets are fixed to the racks and are difficult to adjust. This means that when the defibrillator is not in use, it takes up a lot of space, which can lead to narrow passageways, increase passage time, and may even delay precious rescue time due to collisions with the brackets on the racks. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a defibrillator hanger for ICUs, which solves the problem of large space occupation.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution: an ICU defibrillator hanger, comprising a support and a scissor bracket with a quadrilateral structure, wherein two movable parts are slidably mounted on the support, and an elastic connector is provided between the two movable parts, two rotating connection points in the vertical direction of the scissor bracket are respectively connected to the two movable parts, and two rotating connection points in the horizontal direction of the scissor bracket are respectively connected to two side plates, and a placement plate for supporting the defibrillator is slidably connected between the two side plates.

[0006] Preferably, the bracket is equipped with a lead screw for rotation, wherein one moving part is threadedly connected to the lead screw and the other moving part is slidably connected to the lead screw.

[0007] Preferably, a telescopic rod is installed between the two moving parts, which is used to limit the distance between the two moving parts when they approach each other.

[0008] Preferably, there are two scissor frames, and a connecting rod is provided between three sets of connection points in the two scissor frames. A fixing block is fixedly connected to the outer surface of each of the three connecting rods. The upper fixing block is fixed to the side plate adjacent to it, and multiple telescopic rods are provided between the lower fixing block and the placement plate.

[0009] Preferably, both side plates are L-shaped and symmetrically arranged.

[0010] Preferably, the bracket includes a fixed guide rail and a base plate. The guide rail is arranged longitudinally, the moving part is located inside the guide rail and is adapted to the guide rail, and the base plate is a planar structure.

[0011] Preferably, a groove is provided on one side of the guide rail, a positioning block is slidably connected in the groove, the lead screw is slidably connected to the positioning block, and the positioning block is slidably connected to the guide rail. Several limiting holes are provided inside the guide rail, a bolt is installed in one of the limiting holes, and the positioning block is fixed to the guide rail by the bolt.

[0012] Compared with the prior art, this utility model has the following advantages: the base plate can be placed under the bedside table, and the defibrillator is placed on the upper part of the bracket, making reasonable use of vertical space, reducing ground occupation, and after use, the defibrillator can be moved to the upper part of the bracket to avoid obstructing passage. The height of the placement plate for placing the defibrillator can be adjusted to accommodate medical staff of different heights. The scissor bracket can make the side plate open and close automatically, making it easy to take out and place the defibrillator. The side plate can be extended to temporarily place emergency medical supplies without moving the medical cart, improving the utilization rate of the passage and reducing the passage time. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0014] Figure 2 This is a structural schematic diagram of the scissor holder, the movable component, and the placement plate of this utility model;

[0015] Figure 3 This is a sectional view of the front view of the movable part, sleeve, and insertion rod of this utility model;

[0016] Figure 4 This is a schematic diagram of the structure of the scissor holder of this utility model;

[0017] Figure 5 This is a cross-sectional view of the placement plate and side plate of this utility model;

[0018] Figure 6 This is a sectional view of the top view of the guide rail and positioning block of this utility model;

[0019] Figure 7 This is a side view of the bracket of this utility model.

[0020] The components are: 1. Bracket; 101. Guide rail; 102. Base plate; 2. Scissor bracket; 3. Moving part; 4. Elastic connector; 5. Placement plate; 6. Lead screw; 7. Sleeve; 8. Insert rod; 9. Connecting rod; 10. Fixing block; 11. Multi-section telescopic rod; 12. Slide groove; 13. Positioning block; 14. Limiting hole; 15. Side plate. Detailed Implementation

[0021] like Figures 1-7As shown, an ICU defibrillator bracket includes a support 1 and a scissor bracket 2 with a quadrilateral structure. Two movable parts 3 are slidably mounted on the support 1. A rotating lead screw 6 is installed inside the support 1. One movable part 3 is threadedly connected to the lead screw 6, and the other movable part 3 is slidably connected to the lead screw 6. The lead screw 6 can be driven to rotate by a motor, causing one of the movable parts 3 to move. A telescopic rod is installed between the two movable parts 3. When the two movable parts 3 approach each other, the telescopic rod is used to limit the distance between the two movable parts 3. The telescopic rod includes a sleeve 7 and a plug 8. The sleeve 7 and the plug 8 are fixed to the two movable parts 3 respectively. One end of the plug 8 is inserted into the sleeve 7. When one of the movable parts 3 moves towards the plug 8 and abuts against the plug 8... At 8 o'clock, the movement stops. The bracket 1 includes a fixed guide rail 101 and a base plate 102. The guide rail 101 is arranged longitudinally. The moving part 3 is located inside the guide rail 101 and is adapted to the guide rail 101. The base plate 102 is a planar structure. The guide rail 101 is used to improve the stability of the moving part 3 when it moves. The base plate 102 can be used to place the bedside table of the ICU bed to save space. An elastic connector 4 is provided between the two moving parts 3. The elastic connector 4 is a spring. The two ends of the spring are fixed to the two moving parts 3 respectively. The two rotating connection points of the scissor frame 2 in the vertical direction are connected to the two moving parts 3 respectively, and the connection method can be a fixed connection. The two rotating connection points of the scissor frame 2 in the horizontal direction are connected to the two side plates 15 respectively, and the two rotating... The connection point can be fixedly connected to the two side plates 15. A placement plate 5 for supporting the defibrillator is slidably connected between the two side plates 15. Both side plates 15 are L-shaped and symmetrically arranged. When the two side plates 15 are close to each other, they can clamp the defibrillator on the placement plate 5 to prevent the defibrillator from shaking. When the two side plates 15 are far apart, the defibrillator can be released for easy removal. Alternatively, the side plates 15 can extend a certain distance from the placement plate 5 to facilitate the placement of medical supplies for easy access. There are two scissor holders 2. One scissor holder 2 is connected to the two moving parts 3, and the other scissor holder 2 does not contact the two moving parts 3 and is located on the opposite side of the two moving parts 3. Each of the three connection points is equipped with a connecting rod 9, and a fixing block 10 is fixedly connected to the outer surface of each of the three connecting rods 9. The upper fixing block 10 is fixed to its adjacent side plate 15, and the lower fixing block 10 is connected to the placement plate 5 with a multi-section telescopic rod 11. The two scissor brackets 2 can intercept and prevent the defibrillator on the placement plate 5 from falling off the sides of the placement plate 5 near the scissor brackets 2. The two ends of the multi-section telescopic rod 11 are fixed to the fixing block 10 and the placement plate 5 respectively to prevent the placement plate 5 from shaking and to improve the stability of the placement plate 5. A sliding groove 12 is opened on one side of the guide rail 101, and a positioning block 13 is slidably connected in the sliding groove 12. The lead screw 6 is slidably connected to the positioning block 13, and the positioning block 13 is slidably connected to the guide rail 101.The guide rail 101 has several limiting holes 14 inside, one of which is fitted with a bolt. The positioning block 13 is fixed to the guide rail 101 by the bolt. When the lower moving part 3 abuts against the positioning block 13, it stops moving. The moving part 3 serves to limit the movement of the guide rail 101. Furthermore, adjusting the height of the positioning block 13 can limit the descent distance of the scissor holder 2, allowing for adjustment of the defibrillator height on the placement plate 5 according to the height of medical personnel of different heights.

[0022] Working principle:

[0023] The entire unit was placed next to the ICU bed, such as Figure 1 As shown, the base plate 102 of the support 1 can be placed under the bedside table next to the hospital bed, so that the bedside table is pressed onto the base plate 102. The scissor bracket 2 and the placement plate 5 for placing the defibrillator are located on the upper part of the support 1, which can make reasonable use of space and reduce the space occupied. When the defibrillator is needed, the motor drives the lead screw 6 to rotate. The lead screw 6 drives the upper moving part 3 to descend along the guide rail 101 on the support 1. During the descent, the elastic connecting part 4 is used to maintain the distance between the two moving parts 3. When the upper moving part 3 moves, the elastic connecting part 4 drives the lower moving part 3 to move synchronously, so that the two moving parts 3 drive the scissor bracket 2 to descend. The side plate 15 and the placement plate 5 at the scissor bracket 2 also descend. When the lower moving part 3 moves to the position of abutting the positioning block 13, the positioning block 13 supports the lower moving part 3, so that the position of the lower moving part 3 remains unchanged. When the lead screw 6 continues to drive the upper moving part 3 to descend, the upper moving part 3 moves relative to the lower moving part 3, and the distance between the two moving parts 3 decreases, so that the scissor bracket 2. The two vertical connections are close to each other, while the two horizontal connections are far apart. Since the upper part of the scissor frame 2 is used to block the defibrillator and prevent it from falling, when the two vertical connections of the scissor frame 2 are close to each other, the height of the upper connection of the scissor frame 2 relative to the defibrillator decreases, making it easier to remove the defibrillator. When the two horizontal connections of the scissor frame 2 are far apart, it will drive the two horizontal connecting rods 9 to move away from each other, thereby causing the two side plates 15 to move along the placement plate 5 and move away from each other. The two side plates 15 are detached from the defibrillator and lose their clamping force, making it easier to remove the defibrillator. As the upper moving block continues to descend, the distance between the two side plates 15 increases, and the distance that can be extended from the placement plate 5 increases. At this time, the elastic connecting member 4 begins to deform. Since there are many medical supplies needed for patient resuscitation in the ICU ward, such as medical sponges, disinfectants, and tools, they can be temporarily placed on the upper surface of the extended side plate 15, without having to move the medical cart, saving floor space, improving the utilization rate of the passage, and reducing the passage time.

[0024] Next, the bolt can be unscrewed, and the height of the positioning block 13 can be adjusted. The bolt can be inserted into the limiting hole 14 at a suitable height, so that the descent height of the scissor frame 2 changes. Since different medical staff have different heights, the descent height of the scissor frame 2 can be flexibly adjusted according to the height of different medical staff, which improves the convenience of use.

[0025] Finally, after use, remove the medical supplies from the side plate 15 and place the defibrillator on the placement plate 5. The motor drives the lead screw 6 to reverse, which in turn drives the upper moving part 3 to rise. Under the elastic deformation of the elastic connector 4, the lower moving part 3 will not move immediately. First, the distance between the two moving parts 3 will increase, and the two horizontal connections of the scissor frame 2 will begin to move closer to each other, while the two vertical connecting rods 9 will move further apart. This will prevent the scissor frame 2 from falling off the defibrillator. The two side plates 15 will move closer to each other and clamp the defibrillator to improve its stability and prevent it from shaking. When the elastic connector 4 returns to a static state, it will start to pull the lower moving part 3 to rise. At this time, the two moving parts 3 will rise synchronously and move the scissor frame 2, the placement plate 5, and the defibrillator to the upper part of the support 1, saving usable space and preventing the defibrillator from obstructing passage.

[0026] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A defibrillator hanger for ICU use, characterized in that: The device includes a support (1) and a scissor frame (2) with a quadrilateral structure. Two movable parts (3) are slidably mounted on the support (1). An elastic connector (4) is provided between the two movable parts (3). Two rotating connection points of the scissor frame (2) in the vertical direction are respectively connected to the two movable parts (3). Two rotating connection points of the scissor frame (2) in the horizontal direction are respectively connected to two side plates (15). A placement plate (5) for supporting the defibrillator is slidably connected between the two side plates (15).

2. The defibrillator bracket for ICU use according to claim 1, characterized in that: The bracket (1) is equipped with a lead screw (6) for rotation, one of the moving parts (3) is threadedly connected to the lead screw (6), and the other moving part (3) is slidably connected to the lead screw (6).

3. The defibrillator bracket for ICU use according to claim 1, characterized in that: A telescopic rod is installed between the two moving parts (3). When the two moving parts (3) approach each other, the telescopic rod is used to limit the distance between the two moving parts (3).

4. The defibrillator bracket for ICU use according to claim 1, characterized in that: There are two scissor frames (2). There are connecting rods (9) between three sets of connections in the two scissor frames (2). There are fixed blocks (10) on the outer surfaces of the three connecting rods (9). The upper fixed block (10) is fixed to its adjacent side plate (15). There are multiple telescopic rods (11) between the lower fixed block (10) and the placement plate (5).

5. The defibrillator bracket for ICU use according to claim 1, characterized in that: Both side plates (15) are L-shaped and symmetrically arranged.

6. The defibrillator bracket for ICU use according to claim 1, characterized in that: The bracket (1) includes a fixed guide rail (101) and a base plate (102). The guide rail (101) is arranged longitudinally, the moving part (3) is located inside the guide rail (101) and is adapted to the guide rail (101), and the base plate (102) is a planar structure.

7. The defibrillator bracket for ICU use according to claim 6, characterized in that: A groove (12) is provided on one side of the guide rail (101), and a positioning block (13) is slidably connected in the groove (12). The lead screw (6) is slidably connected to the positioning block (13), and the positioning block (13) is slidably connected to the guide rail (101). Several limiting holes (14) are provided inside the guide rail (101), and a bolt is installed in one of the limiting holes (14). The positioning block (13) is fixed to the guide rail (101) by the bolt.