A slip-resistant air mattress for hospital use

By incorporating transverse restraint straps, longitudinal traction straps, and limiting air cushions into the air mattress, the problem of air mattress slippage is solved, achieving a stable fixation effect and improving patient comfort and safety.

CN224387670UActive Publication Date: 2026-06-23ZHONGSHAN HOSPITAL FUDAN UNIV

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN HOSPITAL FUDAN UNIV
Filing Date
2025-06-12
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing air mattresses tend to slide when the head of the hospital bed is adjusted, making them difficult to secure and affecting patient comfort and safety. They also cannot accommodate patients' needs for turning over.

Method used

A restraint structure including transverse restraint straps, longitudinal traction straps, and corner elastic straps was designed. Combined with limiting air cushions and anti-slip pads, it is detachably connected by Velcro and a fixing frame to restrict the sliding of the air mattress.

Benefits of technology

It effectively prevents the air mattress from sliding and shifting, improving patient comfort and safety. It is suitable for hospital beds of different sizes, and is easy to operate and has a wide range of applications.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a kind of anti-slip air mattress beds for ward, including the air mattress (2) being set on sickbed ontology (1);The air mattress (2) one end is equipped with restraint structure (3), the other end is equipped with limit air cushion (4), air mattress (2) lower side is equipped with antiskid pad (5);The restraint structure (3) includes transverse restraint belt (31), longitudinal traction belt (32) and corner elastic belt (33);The transverse restraint belt (31) one end connects air mattress (2), the other end passes through from the lower side of sickbed ontology (1) and with the fixed frame (34) on air mattress (2) detachably connected, longitudinal traction belt (32) one end connects air mattress (2), the other end with transverse restraint belt (31) perpendicular detachably connected, corner elastic belt (33) both ends connect air mattress (2) and are sleeved in the corner of sickbed ontology (1). Compared with prior art, the utility model has the advantages that the phenomenon that air mattress can avoid sliding occurs etc.
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Description

Technical Field

[0001] This utility model relates to the field of hospital bed mattress technology, and in particular to a non-slip air mattress for hospital wards. Background Technology

[0002] Adjustable headboard is a fundamental function of hospital beds. Using a mechanical device at the foot of the bed, the headboard can be easily raised or lowered. This adjustment is particularly important for patients who need to be in a semi-recumbent or sitting position, such as those recovering from surgery, those with breathing difficulties who need improvement, and those who need to reduce back pressure.

[0003] In clinical practice, many patients are critically ill and unable to care for themselves, requiring prolonged bed rest. They may be unable to get out of bed or are prohibited from turning over due to their condition. Maintaining a passive or forced posture for extended periods can cause prolonged pressure on local skin tissues, increasing the risk of pressure injuries. Therefore, using an anti-slip air mattress can alleviate prolonged pressure on local skin tissues, reduce the risk of pressure injuries, protect the skin, increase patient comfort, and facilitate recovery.

[0004] However, existing technologies have the following problems:

[0005] 1. Existing air mattresses lack a fixing device. When the head of the hospital bed is adjusted, i.e., when the head of the hospital bed is raised, the air mattress will slide down under the action of gravity, which will affect the patient's comfort and physical sensation.

[0006] 2. When a patient needs to turn over to change position due to maintaining a fixed position for a long time, the air mattress will slide down and cannot protect the skin on the back from long-term pressure.

[0007] 3. When patients are kept still and simple morning and evening care is performed on the surface of the air mattress, the air mattress is prone to shifting position, which can cause inconvenience to patients and increase clinical nursing work. Utility Model Content

[0008] The purpose of this invention is to provide an anti-slip air mattress for hospital wards, preventing the air mattress from sliding.

[0009] The purpose of this utility model can be achieved through the following technical solution: a non-slip air mattress for wards, comprising an air mattress set on the bed body;

[0010] The air mattress has a restraint structure at one end and a limiting air cushion at the other end, and an anti-slip mat on the underside of the air mattress.

[0011] The restraint structure includes a transverse restraint strap, a longitudinal traction strap, and a corner elastic strap;

[0012] One end of the horizontal restraint band is connected to the air cushion bed, and the other end passes through the lower part of the hospital bed body and is detachably connected to the fixed frame on the air cushion bed. One end of the longitudinal traction band is connected to the air cushion bed, and the other end is detachably connected perpendicular to the horizontal restraint band. Both ends of the corner elastic band are connected to the air cushion bed and sleeved on the corners of the hospital bed body.

[0013] Preferably, one end of the horizontal restraint band is connected to the left or right side of the air cushion bed, and the other end passes through the lower part of the hospital bed body and is detachably connected to the fixed frame located on the other side of the air cushion bed.

[0014] Further preferably, the horizontal restraint band is provided with a first male magic tape and a first female magic tape;

[0015] The length L of the horizontal restraint band meets the following conditions:

[0016] L>D1 + 2×(H1 + H2);

[0017] Where, D1 is the width of the hospital bed body, H1 is the thickness of the hospital bed body, and H2 is the thickness of the air cushion bed;

[0018] The horizontal restraint band is detachably connected to the fixed frame through the first male magic tape and the first female magic tape.

[0019] Even more preferably, one end of the horizontal restraint band is connected to the air cushion bed, and the other end passes through the lower part of the hospital bed body and the fixed frame in sequence and then winds back to the lower part of the hospital bed body, and the end is fixed through the first male magic tape and the first female magic tape.

[0020] Even more preferably, when in the unfolded state, the upper side of the horizontal restraint band is provided with a first male magic tape and a first female magic tape.

[0021] Further preferably, the horizontal restraint band is provided with a second male magic tape, and the lower side of the hospital bed body is provided with a second female magic tape;

[0022] The horizontal restraint band is detachably connected to the lower side of the hospital bed body through the second male magic tape and the second female magic tape.

[0023] Even more preferably, when in the unfolded state, the lower side of the horizontal restraint band is provided with a second male magic tape.

[0024] Preferably, one end of the horizontal restraint band is connected to the air cushion bed through a connecting cloth, and the fixed frame is connected to the air cushion bed through a connecting cloth.

[0025] Further preferably, the connecting cloth is in a "匚" - shaped structure, the upper end surface is connected to the upper side surface of the air cushion bed, the side surface is located outside the air cushion bed, and the lower end surface is connected to the lower side surface of the air cushion bed.

[0026] Preferably, one end of the longitudinal traction belt is connected to the air mattress via a connecting cloth, and the other end is detachably connected to the transverse restraint belt via a hook. The transverse restraint belt is provided with a fixing buckle corresponding to the hook.

[0027] More preferably, the longitudinal traction belt has a plurality of hooks spaced apart at its ends along its length.

[0028] In this invention, hooks at different positions on the longitudinal traction belt can be selected to connect with the fixing buckles on the transverse restraint belt according to actual needs, thereby improving applicability.

[0029] Preferably, the anti-slip mat includes a plurality of parallel and spaced silicone strips arranged on the underside surface of the air mattress.

[0030] More preferably, the silicone strips are arranged along the width direction of the air mattress, and the silicone strips are spaced apart along the length direction of the air mattress.

[0031] Preferably, the air mattress has a folding groove at a position corresponding to the folding part of the hospital bed body;

[0032] The restraint structure is located at the head end of the folding groove near the bed body, and the anti-slip pad is located at the foot end of the folding groove near the bed body.

[0033] More preferably, the air mattress has downward limiting protrusions on both sides, with the inner side of the limiting protrusions fitting against the outer side of the bed body, and the limiting protrusions are located on the side of the folding groove near the foot of the bed body.

[0034] In this invention, the air mattress can be further prevented from shifting position by setting a limiting protrusion structure.

[0035] Preferably, the air mattress has a restraint structure at the head end near the bed body and a limiting air mattress at the foot end near the bed body.

[0036] More preferably, the limiting air cushion and the air mattress are separate units, each equipped with an inflation / deflation valve.

[0037] More preferably, the limiting air cushion is vertically connected to the air mattress and is equipped with an inflation / deflation valve.

[0038] More preferably, the top of the limiting air cushion is lower than the top of the air mattress, and the bottom is lower than the bottom of the air mattress.

[0039] More preferably, the thickness of the limiting air cushion does not exceed the total thickness of the air mattress and the bed body.

[0040] More preferably, the limiting air cushion is clamped between the tail end of the air mattress and the tail end of the hospital bed body.

[0041] Compared with the prior art, the present invention has the following beneficial effects:

[0042] 1. This utility model, through the combined arrangement of transverse restraint straps, longitudinal traction straps, and corner elastic straps, can restrict the air mattress from sliding on the bed body in multiple directions, thus preventing the air mattress from sliding.

[0043] 2. This utility model, through the cooperative arrangement of the first male Velcro and the first female Velcro on the horizontal restraint strap, enables the detachable connection and tension adjustment of the horizontal restraint strap and the fixing frame, resulting in a simple and compact structure;

[0044] 3. By combining the second male Velcro strap on the transverse restraint strap with the second female Velcro strap on the bed body, this utility model can further improve the binding effect of the transverse restraint strap on the bed body.

[0045] 4. This utility model, through the combination of the limiting air cushion and the air mattress, can play a limiting and blocking role, further preventing the air mattress from sliding on the hospital bed body;

[0046] 5. This utility model, through the combination of the horizontal restraint strap and the fixing frame, can be adapted to hospital beds of different sizes, and has a wide range of applications;

[0047] 6. The restraint structure of this utility model occupies less space under the bed body, and has little impact on the range of motion of the bed body after the air mattress is installed on the bed body. It is beneficial to raise or lower the head of the bed and improve the patient's comfort.

[0048] 7. This utility model can prevent the air mattress from sliding down and also prevent the air mattress from shifting in position;

[0049] 8. The binding structure of this utility model is firmly fixed and easy to operate;

[0050] 9. This utility model, by combining elastic bands, Velcro, and limiting air cushions, can be adapted to various types of hospital beds (including beds with guardrails and beds without bolted structures), and has a wide range of applications. Attached Figure Description

[0051] Figure 1 This is a schematic diagram of the overall structure of the anti-slip air mattress for hospital wards according to this utility model;

[0052] Figure 2 This is a schematic diagram illustrating the working principle of the restraint structure of this utility model;

[0053] Figure 3 This is a top view of the horizontal restraint belt and the longitudinal traction belt of this utility model in their unfolded state;

[0054] Figure 4 This is a bottom view of the horizontal restraint belt and the longitudinal traction belt of this utility model in their unfolded state;

[0055] In the diagram: 1-Bed body, 11-Second Velcro, 2-Air mattress, 3-Restraint structure, 31-Transverse restraint strap, 311-First Velcro, 312-First Velcro, 313-Second Velcro, 314-Fixing buckle, 32-Vertical traction strap, 321-Hook, 33-Corner elastic band, 34-Fixing frame, 35-Connecting fabric, 4-Limiting air cushion, 5-Anti-slip mat, 51-Silicone strip. Detailed Implementation

[0056] The present invention will now be described in detail with reference to the accompanying drawings and specific embodiments. This embodiment is based on the technical solution of the present invention and provides detailed implementation methods and specific operating procedures; however, the scope of protection of the present invention is not limited to the following embodiments.

[0057] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0058] The following detailed description of some embodiments of the present invention is provided in conjunction with the accompanying drawings. Unless otherwise specified, the following embodiments and features can be combined with each other.

[0059] Example 1

[0060] A type of anti-slip air mattress for hospital wards, such as Figure 1 As shown, it includes an air mattress 2, a restraint structure 3, a limiting air cushion 4, and an anti-slip mat 5.

[0061] Among them, the air mattress 2 is set on the bed body 1, the head end of the bed is equipped with a restraint structure 3, the foot end of the bed is equipped with a limiting air mattress 4, and the bottom is equipped with an anti-slip mat 5.

[0062] Specifically, such as Figure 2 As shown, the restraint structure 3 includes a transverse restraint strap 31, a longitudinal traction strap 32, a corner elastic strap 33, and a fixing frame 34. One end of the transverse restraint strap 31 is connected to the right side of the air mattress 2, and the other end passes under the bed body 1 and is detachably connected to the fixing frame 34 on the left side of the air mattress 2; one end of the longitudinal traction strap 32 is connected to the head of the air mattress 2, and the other end is detachably connected perpendicularly to the transverse restraint strap 31; both ends of the corner elastic strap 33 are connected to the air mattress 2, and the corner elastic strap 33 is fitted onto the corner of the head of the bed body 1.

[0063] The working principle of the anti-slip air mattress for wards in this embodiment is as follows:

[0064] After the air mattress 2 is placed on the bed body 1, the corner elastic bands 33 are first attached to the corners of the headboard on both sides of the bed body 1. Then, the bed body 1 is raised, causing the air mattress 2 to bend downwards, pass under the bed body 1, and be detachably connected to the fixing frame 34. The longitudinal traction band 32 is then detachably connected to the transverse traction band 31. The longitudinal traction band 32 pulls and limits the transverse traction band 31, further preventing the air mattress 2 from sliding when the headboard of the bed body 1 is raised. Limiting air cushions 4 are placed at the foot of the bed 2 to limit and prevent sliding of the air mattress 2 on the bed body 1.

[0065] Furthermore, in this embodiment, the anti-slip pad 5 at the bottom of the air mattress 2 can increase friction when it comes into contact with the bed body 1, thereby preventing slippage.

[0066] Example 2

[0067] A non-slip air mattress for wards, wherein a first male Velcro 311, a first female Velcro 312, and a second male Velcro 313 are provided on the transverse restraint strap 31.

[0068] Specifically, in the unfolded state, the horizontal restraint strap 31 has a first male Velcro strap 311 and a first female Velcro strap 312 on the upper side, and a second male Velcro strap 313 on the lower side.

[0069] When binding, one end of the horizontal binding strap 31 is connected to the air mattress 2, and the other end is bent downwards. It passes through the bottom of the bed body 1 and the fixing frame 34 in sequence and then wraps back to the bottom of the bed body 1. At this time, the second Velcro male 313 faces upwards and can be detachably connected to the second Velcro female 11 set on the lower side of the bed body 1. The first Velcro female 312 on the horizontal binding strap 31 faces downwards, and the first Velcro male 311 located at the end of the wrapping part faces upwards. The first Velcro male 311 and the first Velcro female 312 can be used to fix the end of the wrapping part and detachably connect the horizontal binding strap 31 to the fixing frame 34.

[0070] The rest is the same as in Example 1.

[0071] Example 3

[0072] A type of anti-slip air mattress for wards, wherein the transverse restraint straps 31, the fixing frame 34, and the longitudinal traction straps 32 are all connected to the air mattress 2 via connecting cloths 35.

[0073] The connecting cloth 35 connected to the horizontal restraint band 31 and the fixing frame 34 is in a "C" - shaped structure. The upper end surface is connected to the upper side surface of the air - cushion bed 2, the side surface is located outside the air - cushion bed 2, and the lower end surface is connected to the lower side surface of the air - cushion bed 2. The horizontal restraint band 31 and the fixing frame 34 are connected to the side surface. The connecting cloth 35 connected to the longitudinal traction band 32 includes a vertically connected upper end surface and a side surface. The upper end surface is connected to the upper side surface of the air - cushion bed 2, and the side surface is connected to the outside of the air - cushion bed 2 and is connected to the longitudinal traction band 32.

[0074] Moreover, in this embodiment, one end of the longitudinal traction band 32 is connected to the connecting cloth 35, and the other end is provided with a hook 321. The horizontal restraint band 31 is provided with a fixing buckle 314 corresponding to the hook 321. When the horizontal restraint band 31 is tied in place, the vertical detachable connection between the longitudinal traction band 32 and the horizontal restraint band 31 can be achieved through the hook 321 and the fixing buckle 314.

[0075] The rest is the same as in Embodiment 2.

[0076] Embodiment 4

[0077] An anti - slipping air - cushion bed for a ward, comprising a hospital bed body 1. An air - cushion bed 2 is arranged on the upper side of the hospital bed body 1. A restraint structure 3 is arranged on one side of the air - cushion bed 2. The restraint structure 3 includes a restraint band (horizontal restraint band 31) and a fixing frame 34. The cooperation between the restraint band and the fixing frame 34 can be tied to the hospital bed body 1.

[0078] Among them, by arranging the restraint structure 3 on the air - cushion bed 2, the restraint structure 3 plays a role in limiting and restraining the head of the air - cushion bed 2. When the head of the hospital bed body 1 is raised, the air - cushion bed 2 can be tied to the hospital bed body 1 through the cooperation of the fixing frame 34 and the restraint band in the restraint structure 3, avoiding the phenomenon of the air - cushion bed 2 sliding.

[0079] The restraint structure 3 further includes symmetric elastic bands (corner elastic bands 33), and the elastic bands are sleeved at the corners of the hospital bed body 1.

[0080] Among them, after the air - cushion bed 2 is placed on the hospital bed body 1, first, the elastic bands are sleeved at the corners on both sides of the hospital bed body 1 (the corners at the head position), which plays a role in limiting and restraining the air - cushion bed 2 and avoiding the phenomenon of the air - cushion bed 2 sliding when the head of the hospital bed body 1 is lifted.

[0081] The restraint band and the fixing frame 34 are respectively located on the left and right sides of the air - cushion bed 2. As Figures 3-4 shown, in the unfolded state (before the restraint band is tied to the hospital bed body 1), a first magic male sticker 311 and a first magic female sticker 312 are arranged on the upper side of the restraint band, a second magic male sticker 313 is arranged on the lower side of the restraint band, and a second magic female sticker 11 is arranged on the bottom side of the hospital bed body 1.

[0082] When the bed body 1 lifts the air mattress 2, the restraint strap is first moved to the bottom of the bed body 1, then passed through the fixing frame 34 and then pulled back (the restraint strap goes around the edge of the fixing frame 34). Then, the second male Velcro 313 on the lower side of the restraint strap is attached to the second female Velcro 11 on the bottom side of the bed body 1. Then, the front end of the restraint strap is attached to the rear end of the restraint strap, so that the first male Velcro 311 and the first female Velcro 312 are attached. Through the cooperation of the above Velcro straps, the bed body 1 and the air mattress 2 can be bound together, and the position of the air mattress 2 on the bed body 1 can be fixed.

[0083] The restraint straps and fixing frame 34 are both fixedly connected to the upper and lower sides of the air mattress 2 by the connecting cloth 35, and the connecting cloth 35 is not connected to the edge of the air mattress 2.

[0084] The air mattress 2 itself has an inflation / deflation valve. When the air mattress 2 is in a compressed state, the connecting cloth 35 is in a bent state, and when the air mattress 2 is in a saturated state, the connecting cloth 35 is in a taut state. This setting is to prevent the connecting cloth 35 from interfering with the air mattress 2 when it is in a saturated state.

[0085] A connecting cloth 35 is installed on the side of the air mattress 2 near the head of the bed body 1. A traction belt (longitudinal traction belt 32) is fixedly connected to the connecting cloth 35. A hook 321 is fixedly connected to one end of the traction belt. A fixing buckle 314 is fixedly connected to the restraint belt. The hook 321 and the fixing buckle 314 are mating components.

[0086] When the air mattress 2 is tied to the bottom of the bed body 1 by the restraint strap, the hook 321 on the traction strap is then attached to the fixing buckle 314. The hook 321 on the traction strap plays a role in pulling and limiting the restraint strap, which can further prevent the air mattress 2 from sliding when the head of the bed body 1 is raised.

[0087] The air mattress 2 has an anti-slip pad 5 on its bottom side, and multiple silicone strips 51 are provided on the contact surface between the anti-slip pad 5 and the bed body 1.

[0088] When the patient lies on the air mattress 2, gravity will press the silicone strip 51 on the anti-slip mat 5, causing the silicone strip 51 to deform. The deformed silicone strip 51 will become irregular in shape. When the irregular silicone strip 51 comes into contact with the bed body 1, it can increase the friction and thus prevent slipping.

[0089] A limiting air mattress 4 is installed at the foot of both the air mattress 2 and the bed body 1.

[0090] When the air mattress 2 is placed on the bed body 1, a limiting air cushion 4 can be placed between the air mattress 2 and the foot of the bed body 1. The limiting air cushion 4 is sandwiched between the air mattress 2 and the foot of the bed body 1. Then the limiting air cushion 4 is inflated (the limiting air cushion 4 is equipped with an inflation / deflation valve) so that the limiting air cushion 4 and the air mattress 2 and the foot of the bed body 1 are tightly fitted. In this way, when the head of the bed body 1 is raised, the limiting air cushion 4 acts as a limiting and blocking function for the sliding air mattress 2, thereby preventing the air mattress 2 from sliding on the bed body 1.

[0091] The working principle of the anti-slip air mattress for wards in this embodiment is as follows:

[0092] After the air mattress 2 is placed on the bed body 1, the elastic band is first attached to the corners on both sides of the bed body 1. Then, the bed body 1 is used to lift the air mattress 2, causing the restraint band to move to the bottom of the bed body 1. It then passes through the fixing frame 34 and is pulled back. Next, the second male Velcro 313 on the lower side of the restraint band is attached to the second female Velcro 11 on the bottom side of the bed body 1. Then, the front end of the restraint band is attached to the rear end of the restraint band, so that the first male Velcro 311 and the first female Velcro 312 are attached. Then, the hook 321 on the traction strap is attached to the fixing buckle 314. The hook 321 on the traction strap plays a role in pulling and limiting the restraint band, which can further prevent the air mattress 2 from sliding when the head of the bed body 1 is lifted. Through the cooperation of the above Velcro, the bed body 1 and the air mattress 2 are bound together, and the position of the air mattress 2 on the bed body 1 is fixed.

[0093] This invention features a restraint structure on the air mattress. This restraint structure limits and restrains the head of the air mattress. When the head of the bed is raised, the air mattress is secured to the bed through the fixed frame and restraint straps in the restraint structure, preventing the air mattress from sliding.

[0094] The above description of the embodiments is provided to enable those skilled in the art to understand and use the utility model. It will be apparent to those skilled in the art that various modifications can be easily made to these embodiments, and the general principles described herein can be applied to other embodiments without inventive effort. Therefore, the present utility model is not limited to the above embodiments, and any improvements and modifications made by those skilled in the art based on the disclosure of the present utility model without departing from its scope should be within the protection scope of the present utility model.

Claims

1. A slip-resistant exhalation mattress for a hospital bed, characterized by, It includes an air cushion bed (2) provided on a hospital bed body (1); One end of the air cushion bed (2) is provided with a restraint structure (3), the other end is provided with a limiting air cushion (4), and an anti-slip pad (5) is provided on the lower side of the air cushion bed (2); The restraint structure (3) includes a transverse restraint strap (31), a longitudinal traction strap (32), and corner elastic straps (33); One end of the transverse restraint strap (31) is connected to the air cushion bed (2), and the other end passes through the lower part of the hospital bed body (1) and is detachably connected to a fixing frame (34) on the air cushion bed (2). One end of the longitudinal traction strap (32) is connected to the air cushion bed (2), and the other end is detachably connected perpendicularly to the transverse restraint strap (31). Both ends of the corner elastic straps (33) are connected to the air cushion bed (2) and are sleeved at the corners of the hospital bed body (1).

2. The anti-extrusion air mattress bed for sickroom according to claim 1, characterized by One end of the transverse restraint strap (31) is connected to the left or right side of the air cushion bed (2), and the other end passes through the lower part of the hospital bed body (1) and is detachably connected to a fixing frame (34) located on the other side of the air cushion bed (2).

3. The anti-slip air mattress for wards according to claim 2, characterized in that, The transverse restraint strap (31) is provided with a first male magic tape (311) and a first female magic tape (312); The length L of the transverse restraint strap (31) meets the following conditions: L > D1 + 2×(H1 + H2); Where, D1 is the width of the hospital bed body (1), H1 is the thickness of the hospital bed body (1), and H2 is the thickness of the air cushion bed (2); The transverse restraint strap (31) is detachably connected to the fixing frame (34) through the first male magic tape (311) and the first female magic tape (312).

4. The anti-slip air mattress for wards according to claim 3, characterized in that, One end of the transverse restraint strap (31) is connected to the air cushion bed (2), and the other end passes through the lower part of the hospital bed body (1) and the fixing frame (34) in sequence and then winds back to the lower part of the hospital bed body (1), and the end is fixed through the first male magic tape (311) and the first female magic tape (312).

5. The anti-slip air mattress for wards according to claim 2, characterized in that, The transverse restraint strap (31) is provided with a second male magic tape (313), and the lower side of the hospital bed body (1) is provided with a second female magic tape (11); The transverse restraint strap (31) is detachably connected to the lower side of the hospital bed body (1) through the second male magic tape (313) and the second female magic tape (11).

6. The anti-slip air mattress for wards according to claim 1, characterized in that, One end of the transverse restraint strap (31) is connected to the air cushion bed (2) through a connecting cloth (35), and the fixing frame (34) is connected to the air cushion bed (2) through the connecting cloth (35); The connecting cloth (35) is in a "匚” shaped structure, the upper end surface is connected to the upper side surface of the air cushion bed (2), the side surface is located outside the air cushion bed (2), and the lower end surface is connected to the lower side surface of the air cushion bed (2).

7. The anti-slip air mattress for wards according to claim 1, characterized in that, One end of the longitudinal traction strap (32) is connected to the air cushion bed (2) through a connecting cloth (35), and the other end is detachably connected perpendicularly to the transverse restraint strap (31) through a hook (321), and a fixing buckle (314) corresponding to the hook (321) is provided on the transverse restraint strap (31).

8. The anti-slip air mattress for wards according to claim 1, characterized in that, The anti-slip pad (5) includes a plurality of silica gel strips (51) arranged in parallel and at intervals on the lower side surface of the air cushion bed (2); The length direction of the silica gel strip (51) is arranged along the width direction of the air cushion bed (2), and the silica gel strips (51) are arranged at intervals along the length direction of the air cushion bed (2).

9. The anti-slip air mattress for wards according to claim 1, characterized in that, The air mattress (2) has a folding groove at a position corresponding to the folding part of the bed body (1); The restraint structure (3) is located at the head end of the folding groove near the bed body (1), and the anti-slip pad (5) is located at the foot end of the folding groove near the bed body (1).

10. The anti-slip air mattress for wards according to claim 1, characterized in that, The air mattress (2) has a restraint structure (3) at the head end near the bed body (1) and a limiting air mattress (4) at the tail end near the bed body (1). The limiting air cushion (4) and the air mattress (2) are respectively equipped with inflation and deflation valves; The limiting air cushion (4) is clamped between the tail end of the air mattress (2) and the tail end of the bed body (1).