CN220833513U - Intelligent air cushion device for operating bed - Google Patents

Abstract

The utility model provides an intelligent air cushion device for an operating table, and relates to the technical field of medical appliances. The inflatable mattress comprises a head air cushion assembly, a shoulder blade air cushion assembly, a hip air cushion assembly, a foot air cushion assembly and an air pump assembly, wherein the head air cushion assembly and the foot air cushion assembly are connected to the top of the mattress, mounting grooves are respectively formed in corresponding positions of the shoulder blade air cushion assembly and the hip air cushion assembly in order to enable the shoulder blade air cushion assembly and the hip air cushion assembly to be embedded in the corresponding mounting grooves, the head air cushion assembly, the shoulder blade air cushion assembly, the hip air cushion assembly and the foot air cushion assembly are communicated with the air pump assembly through air pipes, after the air pump assembly is started, the head air cushion assembly, the shoulder blade air cushion assembly, the hip air cushion assembly and the foot air cushion assembly can be inflated and deflated through the air pipes, the pressure of the head, the shoulder blade, the hip and the foot can be relieved respectively in the inflation and deflation process, the comfort level of a patient in an operation is improved, and the influence of pressure sore on the patient is reduced.

Description

Intelligent air cushion device for operating bed

Technical Field

The utility model relates to the technical field of medical appliances, in particular to an intelligent air cushion device for an operating table.

Background

With the improvement of the medical technology level, more and more clinical major operations are performed, the major operations also mean the extension of operation time, and the extension of operation time inevitably leads to the occurrence of pressure sores for patients.

The present inventors found that there are at least the following technical problems in the prior art: at present, the operation mattress for hospitals is harder, and the harder mattress influences comfort level of patients in operation, and once pressure sores are formed, certain influence can be caused on the patients.

Disclosure of utility model

The utility model aims to provide an intelligent air cushion device for an operating table, which aims to solve the technical problems that an operating mattress for a hospital is harder, the comfort level of a patient in operation is affected, and pressure sores are formed to cause certain influence on the patient in the prior art. The preferred technical solutions of the technical solutions provided by the present utility model can produce a plurality of technical effects described below.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides an last intelligent air cushion device that uses of operating table, includes head air cushion subassembly, shoulder blade portion air cushion subassembly, buttock air cushion subassembly, foot air cushion subassembly and air pump subassembly, head air cushion subassembly with foot air cushion subassembly all connects the top at the mattress, the mattress is in shoulder blade portion air cushion subassembly with the corresponding position of buttock air cushion subassembly is provided with the mounting groove respectively so that shoulder blade portion air cushion subassembly with buttock air cushion subassembly all inlays and establishes in corresponding the mounting groove, head air cushion subassembly shoulder blade portion air cushion subassembly buttock air cushion subassembly with foot air cushion subassembly all communicates through the trachea with air pump subassembly.

Preferably, the air pump assembly comprises a main air pipe, an air pump body and a main switch, one end of the main air pipe is connected with all the air pipes, the other end of the main air pipe is connected with the air pump body, and the main switch is arranged on the main air pipe.

Preferably, the head air cushion assembly comprises a head air cushion body and a head air cushion switch, wherein the head air cushion body is connected to the top of the mattress and is communicated with the air pump assembly through the air pipe, and the head air cushion switch is arranged on the corresponding air pipe.

Preferably, the air cushion assembly for the shoulder blade comprises an air cushion body for the shoulder blade and an air cushion switch for the shoulder blade, wherein the air cushion body for the shoulder blade is embedded in the corresponding mounting groove and is communicated with the air pump assembly through the air pipe, and the air cushion switch for the shoulder blade is arranged on the corresponding air pipe.

Preferably, the hip air cushion assembly comprises a hip air cushion body and a hip air cushion switch, wherein the hip air cushion body is embedded in the corresponding mounting groove and is communicated with the air pump assembly through the air pipe, and the hip air cushion switch is arranged on the corresponding air pipe.

Preferably, the foot air cushion assembly comprises a left foot air cushion body, a left foot air cushion switch, a right foot air cushion body and a right foot air cushion switch, wherein the left foot air cushion body and the right foot air cushion body are connected to the top of the mattress and are communicated with the air pump assembly through air pipes, and the left foot air cushion switch and the right foot air cushion switch are arranged on the corresponding air pipes.

Preferably, the intelligent monitoring system further comprises a pressure sensor, a processor and a central workstation, wherein the pressure sensor is arranged in the mattress, the processor is arranged in the mattress and is in communication connection with the pressure sensor, and the central workstation is in communication connection with the processor.

Preferably, the head cushion assembly, the scapular cushion assembly, the hip cushion assembly, and the foot cushion assembly are each provided with a manual bleed valve.

The beneficial effects of the utility model are as follows: the head air cushion assembly, the shoulder blade air cushion assembly, the hip air cushion assembly and the foot air cushion assembly are all communicated with the air pump assembly through air pipes, after the air pump assembly is started, the head air cushion assembly, the shoulder blade air cushion assembly, the hip air cushion assembly and the foot air cushion assembly can be inflated and deflated through the air pipes, the pressure of the head, the shoulder blade, the hip and the foot can be relieved respectively in the inflation and deflation process, the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a detailed block diagram of the present utility model;

FIG. 3 is a circuit diagram of the intelligent monitoring system of the present utility model;

1, a head cushion assembly; 11. a head cushion body; 12. a head air cushion switch;

2. A scapular air cushion assembly; 21. a scapular air cushion body; 22. an air cushion switch at the shoulder blade part;

3. a buttock air cushion assembly; 31. a buttock air cushion body; 32. a buttock air cushion switch;

4. A foot cushion assembly; 41. a left foot cushion body; 42. a left foot air cushion switch; 43. a right foot cushion body; 44. a right foot air cushion switch;

5. An air pump assembly; 51. a main air pipe; 52. an air pump body; 53. a main switch;

6. A mattress;

7. An air pipe;

8. An intelligent monitoring system; 81. a pressure sensor; 82. a processor; 83. a central workstation;

9. A manual air release valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

In the description of the present utility model, it should be understood that the terms "center", "side", "length", "width", "height", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "side", etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in fig. 1 are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

Referring to fig. 1 to 3, the utility model provides an intelligent air cushion device for an operation table, which comprises a head air cushion assembly 1, a shoulder air cushion assembly 2, a hip air cushion assembly 3, a foot air cushion assembly 4 and an air pump assembly 5, wherein a mattress 6 is laid on the operation table, the mattress 6 is a conventional common mattress, the head air cushion assembly 1 and the foot air cushion assembly 4 are connected to the top of the mattress 6, and the connection is preferably detachable, so that the disassembly and the assembly are more convenient and quick, the mattress 6 is respectively provided with a mounting groove at the corresponding positions of the shoulder air cushion assembly 2 and the hip air cushion assembly 3, the mounting grooves are matched with the shapes and the sizes of the shoulder air cushion assembly 2 and the hip air cushion assembly 3, so that the shoulder air cushion assembly 2 and the hip air cushion assembly 3 can be embedded in the corresponding mounting grooves, and the head air cushion assembly 1, the shoulder air cushion assembly 2, the hip air cushion assembly 3 and the foot air cushion assembly 4 are sequentially arranged along the length direction of the bed and correspond to the positions of the head, the shoulder air cushion assembly, the hip air cushion assembly and the foot air cushion assembly 3;

The head air cushion assembly 1, the shoulder blade air cushion assembly 2, the hip air cushion assembly 3 and the foot air cushion assembly 4 are all communicated with the air pump assembly 5 through air pipes 7, after the air pump assembly 5 is started, the head air cushion assembly 1, the shoulder blade air cushion assembly 2, the hip air cushion assembly 3 and the foot air cushion assembly 4 can be inflated and deflated through the air pipes 7, and in the inflation and deflation process, the pressure of the head, the shoulder blade, the hip and the foot can be relieved respectively, the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced;

The air pump assembly 5 has a periodic inflation and deflation function, which is a relatively conventional prior art, by means of which existing parts of medical equipment are already able to perform the relevant work, and therefore will not be further described.

As an alternative embodiment, the air pump assembly 5 includes a main air pipe 51, an air pump body 52, and a main switch 53, one end of the main air pipe 51 is connected to all the air pipes 7 and the other end is connected to the air pump body 52, the main switch 53 is provided on the main air pipe 51, the main switch 53 is capable of controlling all the air pipes 7, and when the main switch 53 is opened, the air pump body 52 is capable of inflating and deflating the head air cushion assembly 1, the scapular air cushion assembly 2, the hip air cushion assembly 3, and the foot air cushion assembly 4 through the air pipes 7.

As an alternative embodiment, the head air cushion assembly 1 comprises a head air cushion body 11 and a head air cushion switch 12, wherein the head air cushion body 11 is U-shaped, so that the head air cushion assembly is better matched with the head of a human body, and a patient is more comfortable;

The head air cushion body 11 is connected to the top of the mattress 6, and the connection is preferably detachable connection, such as magic tape connection or buckle connection, and the like, so that the head air cushion has good connection strength during connection, prevents shaking, is more convenient during disassembly, and enables the head air cushion body 11 to be cleaned and replaced;

The head air cushion body 11 is communicated with the air pump assembly 5 through the air pipe 7, and the air pump assembly 5 can be inflated and deflated through the air pipe 7 after being opened, so that inflation and deflation with a periodic rule are realized, the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced;

The head air cushion switch 12 is arranged on the corresponding air pipe 7, the head air cushion switch 12 can be independent of the air pump assembly 5, and the head air cushion switch 12 can independently control the inflation and deflation of the head air cushion body 11, and as the requirements of partial operations on different parts of the body are different, the head needs to be kept as stable as possible, and the shaking is reduced, so that the setting of the head air cushion switch 12 can enable medical staff to flexibly select whether the head air cushion body 11 participates in inflation and deflation according to the actual use requirements.

As an alternative embodiment, the scapular air cushion assembly 2 comprises a scapular air cushion body 21 and a scapular air cushion switch 22, and the shape of the scapular air cushion body 21 is matched with that of the scapular part of the human body, so that a patient is more comfortable;

the shoulder blade air cushion body 21 is embedded in the corresponding mounting groove, connection is preferably detachable connection, such as magic tape connection or buckle connection, good connection strength is achieved during connection, shaking is avoided, and the shoulder blade air cushion body 21 can be cleaned and replaced more conveniently during detachment;

The shoulder blade air cushion body 21 is communicated with the air pump assembly 5 through the air pipe 7, the air pump assembly 5 can be inflated and deflated into the shoulder blade air cushion body 21 through the air pipe 7 after being started, and inflation and deflation with a periodic rule are realized, so that the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced;

The shoulder blade air cushion switch 22 is arranged on the corresponding air pipe 7, the shoulder blade air cushion switch 22 can be independent of the air pump assembly 5, and the inflation and deflation of the shoulder blade air cushion body 21 can be independently controlled, and as the requirements of partial operations on different parts of the body are different, the head needs to be kept as stable as possible, and the shaking is reduced, so that the setting of the shoulder blade air cushion switch 22 can enable medical staff to flexibly select whether the shoulder blade air cushion body 21 participates in inflation and deflation according to actual use requirements.

As an alternative embodiment, the hip air cushion assembly 3 comprises a hip air cushion body 31 and a hip air cushion switch 32, and the shape of the hip air cushion body 31 is matched with the shape of the hip of a human body, so that a patient is more comfortable;

The hip air cushion body 31 is embedded in the corresponding mounting groove, and the connection is preferably detachable connection, such as magic tape connection or buckle connection, and the like, so that the hip air cushion has good connection strength during connection, prevents shaking, is more convenient during disassembly, and enables the hip air cushion body 31 to be cleaned and replaced;

The hip air cushion body 31 is communicated with the air pump assembly 5 through the air pipe 7, and the air pump assembly 5 can be inflated and deflated to the hip air cushion body 31 through the air pipe 7 after being opened, so that inflation and deflation with a periodic rule are realized, the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced;

The buttock air cushion switch 32 is arranged on the corresponding air pipe 7, the buttock air cushion switch 32 can be independent of the air pump assembly 5, and the inflation and deflation of the buttock air cushion body 31 can be independently controlled, and as the requirements of partial operations on different parts of the body are different, the head is required to be kept stable as much as possible, and the shaking is reduced, so that the setting of the buttock air cushion switch 32 can enable medical staff to flexibly select whether the buttock air cushion body 31 participates in inflation and deflation according to the actual use requirements.

As an alternative embodiment, the foot cushion assembly 4 includes a left foot cushion body 41, a left foot cushion switch 42, a right foot cushion body 43, and a right foot cushion switch 44, the left foot cushion body 41 and the right foot cushion body 43 are both connected to the top of the mattress 6 and are both in communication with the air pump assembly 5 through one air tube 7, and the left foot cushion switch 42 and the right foot cushion switch 44 are disposed on the corresponding air tubes 7.

As an alternative embodiment, the foot cushion assembly 4 includes a left foot cushion body 41, a left foot cushion switch 42, a right foot cushion body 43 and a right foot cushion switch 44, and the left foot cushion body 41 and the right foot cushion body 43 are all U-shaped, so as to better fit with the human foot and make the patient more comfortable;

The left foot air cushion body 41 and the right foot air cushion body 43 are connected to the top of the mattress 6, and the connection is preferably detachable connection, such as magic tape connection or buckle connection, and the like, so that the connection has good connection strength, shaking is avoided, the disassembly is more convenient, and the left foot air cushion body 41 and the right foot air cushion body 43 can be cleaned and replaced;

The left foot air cushion body 41 and the right foot air cushion body 43 are communicated with the air pump assembly 5 through an air pipe 7, after the air pump assembly 5 is started, the left foot air cushion body 41 and the right foot air cushion body 43 can be inflated and deflated through the air pipe 7, and inflation and deflation with a periodic rule are realized, so that the comfort level of a patient in an operation is improved, and the influence of pressure sores on the patient is reduced;

The left foot air cushion switch 42 and the right foot air cushion switch 44 are arranged on the corresponding air pipes 7, the left foot air cushion switch 42 and the right foot air cushion switch 44 can be independent of the air pump assembly 5, the inflation and deflation of the left foot air cushion body 41 and the right foot air cushion body 43 can be independently controlled, and as the requirements of partial operations on different parts of the body are different, the head needs to be kept stable as much as possible, and the shaking is reduced, so that the arrangement of the left foot air cushion switch 42 and the right foot air cushion switch 44 can enable medical staff to flexibly select whether the left foot air cushion body 41 and the right foot air cushion body 43 participate in inflation and deflation according to actual use requirements.

As an alternative embodiment, the head air cushion assembly 1, the scapular air cushion assembly 2, the hip air cushion assembly 3 and the foot air cushion assembly 4 are all provided with the manual air release valve 9, and because the air pump assembly 5 is periodically inflated and deflated, when the head air cushion assembly 1, the scapular air cushion assembly 2, the hip air cushion assembly 3 and the foot air cushion assembly 4 select to independently control whether to participate in inflation and deflation, if the independent air pipe 7 is closed in an inflated state, a state that no air release exists, therefore, by being provided with the manual air release valve 9, manual air release can be performed when needed, and the whole work is ensured not to be influenced.

As an alternative embodiment, it further comprises an intelligent monitoring system 8, the intelligent monitoring system 8 comprising a pressure sensor 81, a processor 82 and a central workstation 83;

The pressure sensor 81 is arranged in the mattress 6, and the pressure sensor 81 is preferably a high-sensitivity pressure sensor, so that vital signs of a patient in operation can be monitored in real time, and respiration, heart rate and sleep quality of the patient can be monitored;

The processor 82 is arranged in the mattress 6 and is in communication connection with the pressure sensor 81, the central workstation 83 is in communication connection with the processor 82, data collected by the pressure sensor 81 can be transmitted to the processor 82 in the mattress 6, the data are transmitted to the central workstation 83 in a remote wireless or wired mode through digital circuit processing, the central workstation 83 can also be called a nursing management center, and can carry out sound alarm when abnormal conditions occur in vital signs, and the mattress 6 can detect deep sleep, REM sleep and awake periods of a patient through the pressure sensor 81, so that real-time monitoring of anesthesia conditions in the patient is realized;

The structure of the pressure sensor 81, the processor 82 and the central workstation 83, and the data transmission and application principles thereof are all conventional prior art, and there are many application embodiments in the existing medical equipment, so that no further development description is made, and the embodiment can cooperate with the above air cushion function by being provided with the intelligent monitoring system 8, so as to combine the prevention of the pressure sore and the monitoring of vital signs and anesthesia in the operation.

The foregoing is merely illustrative embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present utility model, and the utility model should be covered. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (7)

1. The intelligent air cushion device for the operating bed is characterized by comprising a head air cushion assembly (1), a shoulder air cushion assembly (2), a hip air cushion assembly (3), a foot air cushion assembly (4) and an air pump assembly (5), wherein the head air cushion assembly (1) and the foot air cushion assembly (4) are connected to the top of a mattress (6), mounting grooves are respectively formed in corresponding positions of the shoulder air cushion assembly (2) and the hip air cushion assembly (3) in the mattress (6) so that the shoulder air cushion assembly (2) and the hip air cushion assembly (3) are embedded in the corresponding mounting grooves, and the head air cushion assembly (1), the shoulder air cushion assembly (2), the hip air cushion assembly (3) and the foot air cushion assembly (4) are communicated with the air pump assembly (5) through air pipes (7);

Still include intelligent monitoring system (8), intelligent monitoring system (8) include pressure sensor (81), treater (82) and central workstation (83), pressure sensor (81) set up in mattress (6), treater (82) set up in mattress (6) and with pressure sensor (81) communication connection, central workstation (83) with treater (82) communication connection.

2. The intelligent air cushion device for the operating table according to claim 1, wherein the air pump assembly (5) comprises a main air pipe (51), an air pump body (52) and a main switch (53), one end of the main air pipe (51) is connected with all the air pipes (7) and the other end is connected with the air pump body (52), and the main switch (53) is arranged on the main air pipe (51).

3. The intelligent air cushion device for the operating table according to claim 1, wherein the head air cushion assembly (1) comprises a head air cushion body (11) and a head air cushion switch (12), the head air cushion body (11) is connected to the top of the mattress (6) and is communicated with the air pump assembly (5) through the air pipe (7), and the head air cushion switch (12) is arranged on the corresponding air pipe (7).

4. The intelligent air cushion device for the operating table according to claim 1, wherein the scapular air cushion assembly (2) comprises a scapular air cushion body (21) and a scapular air cushion switch (22), the scapular air cushion body (21) is embedded in the corresponding mounting groove and is communicated with the air pump assembly (5) through the air pipe (7), and the scapular air cushion switch (22) is arranged on the corresponding air pipe (7).

5. The intelligent air cushion device for the operating table according to claim 1, wherein the hip air cushion assembly (3) comprises a hip air cushion body (31) and a hip air cushion switch (32), the hip air cushion body (31) is embedded in the corresponding mounting groove and is communicated with the air pump assembly (5) through the air pipe (7), and the hip air cushion switch (32) is arranged on the corresponding air pipe (7).

6. The intelligent air cushion device for the operating bed according to claim 1, wherein the foot air cushion assembly (4) comprises a left foot air cushion body (41), a left foot air cushion switch (42), a right foot air cushion body (43) and a right foot air cushion switch (44), the left foot air cushion body (41) and the right foot air cushion body (43) are both connected to the top of the mattress (6) and are both communicated with the air pump assembly (5) through one air pipe (7), and the left foot air cushion switch (42) and the right foot air cushion switch (44) are arranged on the corresponding air pipes (7).

7. Intelligent air cushion device for operating bed according to claim 1, characterized in that the head air cushion assembly (1), the shoulder air cushion assembly (2), the hip air cushion assembly (3) and the foot air cushion assembly (4) are all provided with manual air release valves (9).