CN209751533U - Multifunctional air bag type operation mattress and operation bed - Google Patents

Abstract

The utility model relates to a multifunctional air bag type operation mattress and an operation bed, wherein the operation mattress comprises three air bags, a support plate and a booster pump, one side of the support plate is connected with a first air bag, the other side of the support plate is connected with a second air bag, the upper surfaces of the first air bag and the second air bag are both wave-shaped structures, a third air bag is arranged on the upper surface of the second air bag, and the booster pump is respectively connected with the three air bags through an air inlet pipeline; the first air bag is used for supporting the head of a patient, the second air bag is used for supporting the buttocks and/or the waist of the patient, the supporting plate is used for supporting the back of the patient, the third air bag is accommodated in a groove formed on the upper surface of the wave-shaped structure of the second air bag when being in a deflation state, and the third air bag is used for forming arch support for the buttocks and/or the waist of the patient when being in an inflation state; the utility model provides an operation mattress, compact structure can not only alleviate or prevent that operation in-process patient from producing pressure damage, can assist the patient to realize and keep a sword position moreover.

Description

Multifunctional air bag type operation mattress and operation bed

Technical Field

The utility model relates to a surgical medical instrument technical field, concretely relates to multi-functional gasbag formula operation mattress and operation table.

Background

With the progress of medical technology, large-scale operations, such as thoracotomy and craniotomy, are performed more frequently, and the success rate of the operations is gradually increased.

During operation, a patient usually needs to lie on an operation bed (or called an operation table) provided with a mattress, however, the mattress commonly used in the prior art usually has some defects, for example, the existing mattress is usually a sponge cushion and is hard in texture, and the patient is easy to have pressure sores (or called bedsores) during the operation process, especially for large-scale operation, the operation time is usually long, generally 7 hours or 8 hours or even more than 10 hours, and the pressure sores are more easily caused when the patient lies on the mattress without movement; for another example, the body position of a patient in an operation is very critical, and for some special operations, the patient is required to keep a special body position, while the existing mattress has a single function, and can only play a role in supporting the patient after being arranged on an operation bed, and cannot assist the patient in realizing or keeping the special body position.

SUMMERY OF THE UTILITY MODEL

For improving the deficiencies existing in the prior art, the utility model provides an operation mattress which can relieve or prevent the pressure damage of the patient in the operation process and can assist the patient to realize and keep the position of the folding knife.

the utility model adopts the technical proposal that:

A multifunctional air bag type operation mattress comprises a first air bag, a second air bag, a third air bag, a supporting plate and a booster pump, wherein,

The support plate is of a flat plate structure, one side of the support plate is connected with the first air bag, the other side of the support plate is connected with the second air bag, the upper surfaces of the first air bag and the second air bag are both of a wave-shaped structure, the third air bag is arranged on the upper surface of the second air bag, and the booster pump is respectively connected with the first air bag, the second air bag and the third air bag through air inlet pipelines;

The booster pump is used for respectively inflating the first air bag, the second air bag and the third air bag, the first air bag is used for supporting the head of a patient, the second air bag is used for supporting the hip and/or the waist of the patient, the supporting plate is used for corresponding to the chest of the patient and supporting the back of the patient, the third air bag is accommodated in a groove formed in the upper surface of the wavy structure of the second air bag when being in a deflation state, and the third air bag is used for forming arch support for the hip and/or the waist of the patient when being in an inflation state.

preferably, the supporting plate is made of latex materials, or a layer of latex pad is arranged on the upper surface of the supporting plate.

In a preferred embodiment, the third airbag includes three or more transverse airbags and two longitudinal airbags, the transverse airbags are parallel to each other, two ends of each transverse airbag are respectively connected to the two longitudinal airbags, the two longitudinal airbags are respectively disposed at two sides of the second airbag, each transverse airbag is respectively disposed in a groove formed on an upper surface of the second airbag, and in an inflated state, the height of the transverse airbag is gradually reduced from the middle of the third airbag to the two sides of the third airbag.

Furthermore, the air bag type air bag device further comprises a fourth air bag, the upper surface of the fourth air bag is of a wave-shaped structure, the fourth air bag is connected with the booster pump through an air inlet pipeline and is detachably connected with the second air bag, and the fourth air bag is used for supporting legs and/or feet of a patient.

Preferably, the third air bag and/or the fourth air bag are connected with the second air bag into a whole through hook and loop fasteners or snap fasteners respectively.

Preferably, the first airbag, the second airbag, the third airbag or the fourth airbag respectively comprise an inner layer and an outer layer, wherein the inner layer is made of rubber materials or flexible plastics, and the outer layer is made of pure cotton or 100% polyester fibers or waterproof breathable fabric or heat-insulating materials.

preferably, a plurality of vertically arranged separation strips are respectively arranged in the first air bag, the second air bag and the fourth air bag, each separation strip is respectively positioned between two adjacent wave-shaped structures, a plurality of communicating holes are respectively arranged on the separation strips, and the material of the separation strips is the same as that of the inner layer.

further, the heating device comprises a heating part which is used for increasing the temperature of the upper surface of the first air bag, and/or the second air bag, and/or the third air bag, and/or the fourth air bag.

In a preferred embodiment, the heating part is a heating layer disposed between the inner layer and the outer layer, and an electric heating element is disposed in the heating layer and is configured to generate heat when energized.

In another preferred scheme, the heating part comprises a cylindrical heater and a motor, one end of the heater is provided with five inlets, the other end of the heater is provided with five outlets, a fan and an electric heating wire are arranged between the inlets and the outlets, an output shaft of the motor extends into the heater and is connected with the fan, the motor and the electric heating wire are respectively connected with a processor, and the processor is used for controlling whether power is supplied to the motor and the electric heating wire;

The booster pump is communicated with one inlet of the heater through a pipeline, a main valve is arranged on the pipeline, the first air bag, the second air bag, the third air bag and the fourth air bag are respectively provided with an air inlet and an air outlet, wherein the four inlets are respectively communicated with the air outlets through exhaust pipelines, the four outlets are respectively communicated with the air inlets through air inlet pipelines, and the air inlet pipeline and the exhaust pipeline are respectively provided with an air inlet valve and an exhaust valve; the other outlet is provided with an emptying valve for discharging air; the main valve, the emptying valve, the air inlet valves and the air outlet valves are respectively communicated with a processor, and the processor is used for controlling the on/off of the valves.

Furthermore, the lower surfaces of the first air bag, the second air bag and the supporting plate are respectively provided with an anti-skid layer, and the anti-skid layers are used for increasing friction force.

Preferably, the booster pump is an electric inflator pump.

an operation table comprises a bed board and the operation mattress, wherein the operation mattress is fixed on the bed board.

Preferably, the bed further comprises a support, the support is used for supporting the bed board, the lower surfaces of the first air bag, the second air bag and the fourth air bag are respectively provided with an air inlet and an air outlet, and the lower surfaces of the two longitudinal air bags are respectively provided with an air inlet and an air outlet;

The upper surface of bed board is provided with the notch, the notch is used for holding the operation mattress, is provided with a plurality of through-holes in the notch, the through-hole be used for respectively pass with air inlet and the pipeline of giving vent to anger that air inlet and gas vent link to each other.

Preferably, a box body is arranged below the bed board, and the booster pump is arranged in the box body.

Compared with the prior art, use the utility model provides a pair of multi-functional gasbag formula operation mattress and operation table has following beneficial effect:

1. This operation mattress, compact structure can not only alleviate or prevent that the operation in-process patient from producing pressure damage, can assist the patient to realize and keep book sword position (position) moreover.

2. The operation mattress is comfortable to use, can meet the requirements of different operation positions, and has good universality.

3. The operation mattress has the heating function, can keep the temperature of a patient, and avoids the problem of low body temperature in the operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a left side view of an operation mattress provided in embodiment 1 of the present invention, wherein the third air cell is not inflated.

fig. 2 is a left side view of the surgical mattress provided in embodiment 1 of the present invention, wherein the third air cell is filled with air.

Fig. 3 is a schematic structural view of an operation mattress provided in embodiment 1 of the present invention, wherein a third air bag is not provided.

Fig. 4 is a schematic structural view of an operation mattress provided in embodiment 1 of the present invention, wherein a third air cell is provided and the third air cell is filled with air.

Fig. 5 is a schematic bottom view of an operation mattress according to embodiment 1 of the present invention.

Fig. 6 is a view from a-a of fig. 4.

fig. 7 is a view from the direction B-B of fig. 4.

Fig. 8 is a schematic system structural diagram of an operation mattress provided in embodiment 2 of the present invention.

Fig. 9 is a schematic structural view of a bed plate and a bracket in an operating table provided in embodiment 3 of the present invention.

Fig. 10 is a schematic structural view of an operating table provided in embodiment 3 of the present invention.

description of the drawings

A first airbag 101, a second airbag 102, a third airbag 103, a support plate 104, an air inlet 106, an air outlet 107, a fourth airbag 108, a dividing strip 109, a communication hole 110,

The cross air cells 201, the longitudinal air cells 202,

A bed plate 301, a bracket 302, a notch 303, a through hole 304, a box body 305,

Booster pump 401, motor 402, main valve 403, evacuation valve 404, intake valve 405, exhaust valve 406, intake conduit 407, exhaust conduit 408, heater 409, fan 410, electric heater wire 411.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-5, the present embodiment provides a multifunctional air bag type operation mattress, which comprises a first air bag 101, a second air bag 102, a third air bag 103, a support plate 104 and a pressurizing pump, wherein,

The supporting plate 104 is a flat plate structure and is used for corresponding to the chest of a patient and supporting the back of the patient, so that the chest cardiac compression can be conveniently carried out during emergent rescue in the operation; in the solution provided in this embodiment, the supporting plate 104 may be made of latex material, or a layer of latex pad is disposed on the upper surface of the supporting plate 104, so that the supporting plate 104 has certain strength and rigidity, and also has certain buffering and shock-absorbing effects, which is beneficial for the patient to feel more comfortable;

One side of the supporting plate 104 is connected with the first air bag 101, and the other side is connected with the second air bag 102, and the upper surfaces of the first air bag 101 and the second air bag 102 are both in a wave-shaped structure, as shown in fig. 1 and 3;

A third airbag 103 is disposed on the upper surface of the second airbag 102, as shown in fig. 2 and 4;

the booster pump is respectively connected with the first air bag 101, the second air bag 102 and the third air bag 103 through air inlet pipes, in this embodiment, the air inlet pipes may preferably adopt flexible pipes;

the booster pump is used for respectively inflating the first air bag 101, the second air bag 102 and the third air bag 103, the first air bag 101 is used for supporting the head of a patient, the second air bag 102 is used for supporting the hip and/or waist of the patient, when the first air bag 101 and the second air bag 102 are filled with gas and the gas reaches a certain pressure, the highest point positions of the first air bag 101 and the second air bag 102 along the vertical direction are flush or approximately flush with the upper surface of the supporting plate 104, so that the patient can lie on the operating mattress flatly for performing an operation; when a general operation is carried out, and a patient does not need to keep a special body position, such as a folding knife position and the like, the third air bag 103 is not inflated, at the moment, the third air bag 103 is in a deflation state, and the third air bag 103 can be accommodated in a groove formed on the upper surface of the wave-shaped structure of the second air bag 102, as shown in fig. 1, as the upper surface of the second air bag 102 is in the wave-shaped structure, the upper surface of the wave-shaped structure is inevitably and alternately provided with grooves which can be just used for accommodating the third air bag 103 when the patient is not inflated, and meanwhile, the normal work of the upper surface of the second air bag 102 cannot be interfered; when the third bladder 103 is inflated, the third bladder 103 may form an arch-shaped protrusion above the second bladder 102 for forming an arch-shaped support for the buttocks and/or waist of the patient to assist the patient in achieving and maintaining the plication position, facilitating the performance of the associated procedure, such as a nephrectomy procedure.

in this embodiment, the upper surface of gasbag is the wave structure (including first gasbag 101, second gasbag 102, third gasbag 103) for the upper surface of gasbag is represented unevenness, and after the patient lies on the gasbag, unevenness's upper surface and patient's health laminating get better, and area of contact is bigger, pressure more disperse evenly, and partial pressure can not be too big, thereby can effectively alleviate or prevent that the operation in-process patient from producing the partial pressure damage.

in the preferred embodiment, the third airbag 103 may include three or more transverse airbags 201 and two longitudinal airbags 202, as shown in fig. 2 or 4, the transverse airbags 201 are parallel to each other, the two longitudinal airbags 202 are connected to two ends of each transverse airbag 201, the two longitudinal airbags 202 are respectively disposed on two sides of the second airbag 102, each transverse airbag 201 is respectively disposed in a groove formed on the upper surface of the second airbag 102, and in an inflated state, the height of the transverse airbag 201 is gradually reduced from the middle to two sides of the third airbag 103, as shown in fig. 2 or 4, for example, in this embodiment, the third airbag 103 includes five transverse airbags 201, and after being inflated, the height of the transverse airbag 201 in the middle is the highest, and the five transverse airbags 201 may form an arch support along the length direction of the surgical mattress, as shown in fig. 6, can assist the patient to achieve and maintain the position of the folding knife, as shown in figure 4.

For example, in the present embodiment, the third airbag 103 may be connected to and integrated with the second airbag 102 by a hook and loop fastener or a snap fastener.

In a further scheme, the operating table cushion provided by the embodiment further includes a fourth air bag 108, as shown in fig. 1 or fig. 2 or fig. 3 or fig. 4, an upper surface of the fourth air bag 108 is a wave-shaped structure, the fourth air bag 108 is connected to the pressurizing pump through an air inlet pipeline and is detachably connected to the third air bag 103, and the fourth air bag 108 is used for supporting the legs and/or feet of the patient; when the operation mattress is actually used, the length of the operation mattress can be increased properly by arranging the fourth air bag 108, so that the operation mattress is suitable for patients with different heights.

By way of example, the fourth balloon 108 may be integrally connected to the second balloon 102 by a hook and loop fastener or snap fastener.

in a preferred embodiment provided by this embodiment, the first airbag 101, the second airbag 102, the third airbag 103, or the fourth airbag 108 respectively include an inner layer and an outer layer, where the inner layer may be made of a rubber material or a flexible plastic, on one hand, the air inside the airbags can be conveniently sealed to avoid air leakage, and on the other hand, each airbag is ensured not to deform under the effect of the internal air pressure; the outer layer can be made of pure cotton or 100% polyester fiber or waterproof breathable fabric or heat-insulating material; when the outer layer adopts pure cotton material, can make the patient feel more comfortable, when the outer layer adopts 100% polyester fiber, be favorable to realizing the rapid-curing cutback function, no longer give unnecessary details here.

Preferably, a plurality of vertically arranged separation strips 109 are respectively arranged in the first air bag 101, the second air bag 102 and the fourth air bag 108, and each separation strip 109 is respectively positioned between two adjacent wave-shaped structures on the upper surface, as shown in fig. 6 and 7, a plurality of communication holes 110 are respectively arranged on the separation strips 109, as shown in the figure, the material of the separation strips 109 can be the same as that of the inner layer of the air bag, and the arrangement of the separation strips 109 is not only beneficial to preventing the unrestrained expansion deformation of each air bag in an inflated state, but also beneficial to the stability of the structure of the air bag.

in a further aspect provided in this embodiment, the present surgical mattress further includes a heating portion for increasing the temperature of the upper surface of the first balloon 101, and/or the second balloon 102, and/or the third balloon 103, and/or the fourth balloon 108, so as to indirectly keep the temperature of the patient warm;

By way of example, the heating part may be a heating layer disposed between the inner layer and the outer layer, an electric heating element, such as a soft cable electric heating element commonly used in an electric blanket, is disposed in the heating layer, and is used for generating heat when the electric blanket is powered on, and the heat is dissipated through the outer layer, so as to keep the temperature of the patient and prevent the cold of the patient caused by the low temperature in the operating room.

In a further scheme, anti-slip layers are respectively arranged on the lower surfaces of the first air bag 101, the second air bag 102 and the support plate 104 and are used for increasing friction force, so that the surgical mattress can be tightly attached to an operating bed after being arranged on the operating bed, and the position of the operating mattress is prevented from being changed in the using process; for example, the anti-slip layer may be made of anti-slip cloth.

In this embodiment, the booster pump preferentially adopts the electric inflator pump, the booster pump can be respectively connected with the first air bag 101, the second air bag 102, the third air bag 103 and the fourth air bag 108 through four air inlet pipes, the four air inlet pipes are respectively provided with an air inlet valve, so as to control the on/off of each air inlet pipe, when the air pressure in the air bags reaches the set pressure, the corresponding air inlet valves can be closed, so that the pressure air in the air bags can be completely sealed, and the defect of air bag pressure loss caused by accidental power failure in the using process can be effectively avoided.

The first airbag 101, the second airbag 102, the third airbag 103 and the fourth airbag 108 are respectively provided with an exhaust port 107, and an exhaust valve is also arranged at the exhaust port 107 so as to control whether to exhaust gas through the exhaust valve, as shown in fig. 5;

in a more perfect scheme, the system further comprises a processor and a plurality of pressure sensors, wherein the booster pump, the air inlet valves, the air outlet valves and the pressure sensors are respectively connected with the processor, the pressure sensors are respectively used for measuring the air pressures in the first air bag 101, the second air bag 102, the third air bag 103 and the fourth air bag 108 and transmitting the air pressures to the processor, and the processor is used for controlling the start/stop of the booster pump and the start/stop of the corresponding air inlet valves according to the pressure data detected by the pressure sensors and controlling the start/stop of the air outlet valves so as to respectively adjust the air pressures in the first air bag 101, the second air bag 102, the third air bag 103 and the fourth air bag 108, or specifically adjust the air pressures in the first air bag 101, the second air bag 102, the third air bag 103 and the fourth air bag 108 according to different weights of patients.

for example, the processor may be a chip such as a single chip microcomputer, an ARM, an STM32, or the like.

Further, the temperature sensor is arranged on the heating part and connected with the processor, and the temperature sensor is used for detecting the temperature of the heating part and sending the temperature to the processor, so that the processor can reasonably and automatically control the temperature, and in a preferred scheme, the temperature of the heating part is preferably 39-42 ℃.

Example 2

The main difference between this embodiment 2 and the above embodiment 1 is that in the multifunctional air bag type operation mattress provided by this embodiment, the heating portion includes a cylindrical heater 409 and a cylindrical motor 402, one end of the heater 409 is provided with five inlets, the other end is provided with five outlets, a fan 410 and an electric heating wire 411 are arranged between the inlets and the outlets, an output shaft of the motor 402 extends into the heater 409 and is connected with the fan 410, the motor 402 and the electric heating wire 411 are respectively connected with a processor, and the processor is used for controlling whether power is supplied to the motor 402 and the electric heating wire 411 or not.

For example, as shown in fig. 8, the booster pump 401 is connected to an inlet of the heater 409 through a pipeline, the pipeline is provided with a main valve 403, the first airbag, the second airbag, the third airbag and the fourth airbag are respectively provided with an air inlet and an air outlet, four inlets of the four airbags are respectively connected to the air outlets through exhaust pipes 408, four outlets of the four airbags are respectively connected to the air inlets through an air inlet pipe 407, and the air inlet pipe 407 and the exhaust pipe 408 are respectively provided with an air inlet valve 405 and an exhaust valve 406; the other outlet is provided with an emptying valve 404 for discharging air, and the air in each air bag can be discharged through the emptying valve 404;

The main valve 403, the purge valve 404, the intake valves 405, and the exhaust valves 406 are each in communication with a processor for controlling the on/off of the valves.

When the multifunctional air bag type operation mattress is used, the processor can control the booster pump 401 to independently inflate or exhaust each air bag, and can also control the electric heating wire 411 to independently heat each air bag, when the air pressure in the air bags meets the requirement, the main valve 403, the emptying valve 404, each air inlet valve 405 and each exhaust valve 406 are all closed, and the fan and the electric heating wire are used for circularly heating the air in each air bag; for example, if the first air bag needs to be heated, the air inlet valve 405 and the air outlet valve 406 of the first air bag are opened, and the electric heating wire 411 is powered, so that the electric heating wire 411 generates heat, the motor 402 is controlled to be started at the same time, and the fan 410 is driven to rotate, so that air sealed inside the first air bag can circulate through the electric heating wire 411, the purpose of heating air is achieved, the heat of the air can be dissipated sequentially through the inner layer and the outer layer of the first air bag, and the purpose of keeping the temperature of a patient is achieved.

Example 3

embodiment 3 provides an operating table on the basis of embodiment 1, which includes a bed board 301 and the operating mattress described in the embodiment, wherein the operating mattress is fixed on the bed board 301.

In one solution provided by this embodiment, the operating table further includes a support 302, the support 302 is used for supporting the bed plate 301, in the operating mattress, the air inlet 106 and the air outlet 107 which are arranged on the first air bag 101, the second air bag 102 and the fourth air bag 108 are respectively arranged on the lower surfaces (or bottom surfaces) of the first air bag 101, the second air bag 102 and the fourth air bag 108, and the air inlet 106 and the air outlet 107 which are arranged on the third air bag 103 are respectively arranged on the lower surfaces of the two longitudinal air bags 202; preferably, the top surface of the bed plate 301 is provided with a notch 303, the notch 303 is used for accommodating the operation mattress, as shown in fig. 9 and 10, a plurality of through holes 304 are arranged in the notch 303, and the through holes 304 are respectively used for passing through an air inlet pipeline and an air outlet pipeline connected with the air inlet 106 and the air outlet 107.

for example, a box 305 is disposed below the bed plate 301, as shown in fig. 9 or fig. 10, the booster pump, the intake valve, the exhaust valve, the intake pipe, and the exhaust pipe are disposed or housed in the box 305, and the box 305 is provided with a door for maintenance, which is not described herein again.

Example 4

The main difference between this embodiment 4 and the above embodiment 3 is that, in this embodiment, the upper surface of the bed plate 301 is horizontal, and the notch 303 is not provided, that is, the bed plate 301 may be a common bed plate 301 in the prior art, the edge of the lower surface of the bed plate 301 is provided with a hanging lug respectively, two sides of the first air bag 101, the second air bag 102, the third air bag 103, and the support plate 104 are provided with retractable fastening belts respectively, the fastening belts are provided with tightening buckles (such as a tightening buckle commonly used on a backpack), one end of the fastening belt is provided with a hanging hole, after the surgical mattress is placed on the bed plate 301, the hanging hole at one end of the fastening belt can be hung on the corresponding hanging lug respectively, and the surgical mattress can be firmly fixed on the bed plate 301 by tightening the tightening buckles, so as to perform the surgery.

It can be understood that, in this embodiment, the hanging lug and the hanging hole may be respectively a common hanging lug and hanging hole in the prior art, which are not described herein again.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (10)

1. A multifunctional air bag type operation mattress is characterized by comprising a first air bag, a second air bag, a third air bag, a support plate and a booster pump, wherein,

the support plate is of a flat plate structure, one side of the support plate is connected with the first air bag, the other side of the support plate is connected with the second air bag, the upper surfaces of the first air bag and the second air bag are both of a wave-shaped structure, the third air bag is arranged on the upper surface of the second air bag, and the booster pump is respectively connected with the first air bag, the second air bag and the third air bag through air inlet pipelines;

The booster pump is used for respectively inflating the first air bag, the second air bag and the third air bag, the first air bag is used for supporting the head of a patient, the second air bag is used for supporting the hip and/or the waist of the patient, the supporting plate is used for corresponding to the chest of the patient and supporting the back of the patient, the third air bag is accommodated in a groove formed in the upper surface of the wavy structure of the second air bag when being in a deflation state, and the third air bag is used for forming arch support for the hip and/or the waist of the patient when being in an inflation state.

2. a multi-functional air bag type surgical mattress according to claim 1, wherein the third air bag includes three or more than three lateral air bags, two longitudinal air bags, the lateral air bags are parallel to each other, both ends of each lateral air bag are connected with the two longitudinal air bags, the two longitudinal air bags are disposed on both sides of the second air bag, each lateral air bag is disposed in a groove formed on the upper surface of the second air bag, and the height of the lateral air bags is gradually reduced from the middle to both sides of the third air bag in an inflated state.

3. The multi-functional air bag type surgical mattress according to claim 2, wherein the supporting plate is made of latex material, or a layer of latex pad is arranged on the upper surface of the supporting plate.

4. The multifunctional air bag type operation mattress according to claim 2, further comprising a fourth air bag, wherein the upper surface of the fourth air bag is in a wave-shaped structure, the fourth air bag is connected with the booster pump through an air inlet pipeline and is detachably connected with the second air bag, and the fourth air bag is used for supporting the legs and/or feet of the patient.

5. A multi-functional air-bag type surgical mattress according to claim 4, characterized in that the third air-bag and/or the fourth air-bag are connected with the second air-bag into a whole by means of hook and loop fasteners or snap fasteners, respectively.

6. A multi-functional air-bag type surgical mattress according to claim 4, wherein said first, second, third or fourth air-bag comprises an inner layer and an outer layer, respectively, wherein the inner layer is made of rubber material or flexible plastic, and the outer layer is made of pure cotton or 100% polyester fiber or waterproof breathable fabric.

7. The multifunctional air bag type operation mattress according to claim 4, wherein a plurality of vertically arranged separation strips are respectively arranged in the first air bag, the second air bag and the fourth air bag, each separation strip is respectively positioned between two adjacent wave-shaped structures, a plurality of communication holes are respectively arranged on the separation strips, and the material of the separation strips is the same as that of the inner layer.

8. A multi-functional bladder-type surgical mattress according to claim 4, further comprising a heating section for increasing the temperature of the upper surface of the first bladder, and/or the second bladder, and/or the third bladder, and/or the fourth bladder; the heating part comprises a cylindrical heater and a motor, one end of the heater is provided with five inlets, the other end of the heater is provided with five outlets, a fan and an electric heating wire are arranged between the inlets and the outlets, an output shaft of the motor extends into the heater and is connected with the fan, the motor and the electric heating wire are respectively connected with a processor, and the processor is used for controlling whether the power is supplied to the motor and the electric heating wire;

The booster pump is communicated with one inlet of the heater through a pipeline, a main valve is arranged on the pipeline, the first air bag, the second air bag, the third air bag and the fourth air bag are respectively provided with an air inlet and an air outlet, wherein the four inlets are respectively communicated with the air outlets through exhaust pipelines, the four outlets are respectively communicated with the air inlets through air inlet pipelines, and the air inlet pipeline and the exhaust pipeline are respectively provided with an air inlet valve and an exhaust valve; the other outlet is provided with an emptying valve for discharging air; the main valve, the emptying valve, the air inlet valves and the air outlet valves are respectively communicated with a processor, and the processor is used for controlling the on/off of the valves.

9. An operating bed comprising a bed plate and an operating mattress according to any one of claims 4 to 8, wherein said operating mattress is secured to said bed plate.

10. the operating table according to claim 9, further comprising a support and a box body, wherein the support is used for supporting the bed plate, the lower surfaces of the first air bag, the second air bag and the fourth air bag are respectively provided with an air inlet and an air outlet, and the lower surfaces of the two longitudinal air bags are respectively provided with an air inlet and an air outlet;

The upper surface of the bed plate is provided with a notch, the notch is used for accommodating the operation mattress, a plurality of through holes are arranged in the notch, and the through holes are respectively used for penetrating through an air inlet pipeline and an air outlet pipeline which are connected with the air inlet and the air outlet;

the box set up in the below of bed board, the booster pump set up in the box.