CN217285767U - Adjustable cuff type operating room cuff anti-extrusion device - Google Patents

Abstract

The utility model discloses an adjustable oversleeve formula operating room sleeve area anti-extrusion device, including the protective barrel cover, the inner wall of protective barrel cover is close to front position fixed mounting and has front end gasbag structure, the inner wall of protective barrel cover is close to rear position fixed mounting and has rear end gasbag structure, the outer fixed surface of protective barrel cover installs the water conservancy diversion pipeline, the outer fixed surface of protective barrel cover installs the silica gel piece. An adjustable oversleeve formula operating room sleeve area extrusion device can prevent to lead to sleeve area to detect inaccurately because the gravity extrusion sleeve area of arm to the setting of protection barrel casing can also prevent that the operation doctor from leaning on the operating table extrusion sleeve area and leading to measuring inaccurately when the operation, moreover, the setting of rear end gasbag structure and front end gasbag structure can also fill the use that the gassing debugging adapted to various thickness arm patients, thereby improve its adaptability.

Description

Adjustable cuff type anti-extrusion device for operating room cuff

Technical Field

The utility model relates to a medical treatment protector field, in particular to oversleeve formula operating room sleeve area anti-extrusion device with adjustable.

Background

When a doctor in some hospitals operates on a patient, the sleeve is worn on the patient to monitor the blood pressure condition of the patient in real time, so that the blood pressure condition can be known, the blood pressure is prevented from being lower than a standard value to bring life danger, the use and the operation are simple and convenient, the monitoring effect is good, the power consumption is low, and the method is widely applied to the medical field; however, the cuff is pressed by the weight of the arm of the patient during the operation, and sometimes the cuff is also pressed by the bedside during the operation of the doctor, so that the detection value of the cuff is inaccurate, and the inaccurate value causes misjudgment to bring life danger and misdiagnosis.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide an adjustable oversleeve formula operating room sleeve area prevents extrusion device can effectively solve the problem among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an adjustable oversleeve formula operating room sleeve area anti-extrusion device, includes the protective barrel cover, the inner wall of protective barrel cover is close to front end position fixed mounting has a front end gasbag structure, the inner wall of protective barrel cover is close to rear end position fixed mounting and has a rear end gasbag structure, the outer fixed surface of protective barrel cover installs the water conservancy diversion pipeline, the outer fixed surface of protective barrel cover installs the silica gel piece.

Further, the front end gasbag structure includes front end annular gasbag, front end cylinder gasbag, front end arc gasbag and inflation and deflation port, front end gasbag structure passes through front end annular gasbag fixed mounting in the inner wall of protective barrel cover, the inboard arcwall face of front end annular gasbag is connected with front end cylinder gasbag, the other end of front end cylinder gasbag is connected with front end arc gasbag, the position that the front surface of front end annular gasbag is close to the water conservancy diversion pipeline is connected with the inflation and deflation port.

Furthermore, the number of the front end cylindrical air bags and the number of the front end arc-shaped air bags are six, and the front end cylindrical air bags and the front end arc-shaped air bags are evenly distributed on the inner side arc-shaped surface of the front end annular air bag.

Further, rear end gasbag structure includes rear end annular gasbag, rear end cylinder gasbag and rear end arc gasbag, the inboard arcwall face of rear end annular gasbag is connected with rear end cylinder gasbag, the rear end cylinder gasbag other end is connected with rear end arc gasbag, the quantity of rear end cylinder gasbag and rear end arc gasbag is six, and mated even arranges the inboard arc surface that sets up at rear end annular gasbag.

Furthermore, the front end annular air bag is communicated with the front end cylindrical air bag, the front end cylindrical air bag is communicated with the front end arc-shaped air bag, the rear end annular air bag is communicated with the rear end cylindrical air bag, and the rear end cylindrical air bag is communicated with the rear end arc-shaped air bag.

Furthermore, the front end annular air bag is communicated with the rear end annular air bag through a flow guide pipeline.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses in, the position that the pressure equipment was prevented to the sleeve area set up and make to wear the sleeve area with the patient is erect, prevent to lead to the sleeve area to detect inaccurately because the gravity extrusion sleeve area of arm to the setting of protection barrel casing can also prevent that the operation doctor from leaning on in operation table extrusion sleeve area and leading to measuring inaccurately when the operation, moreover, the setting of rear end gasbag structure and front end gasbag structure can also fill out the use that the gassing was debugged and is adapted to various thickness arm patients, thereby improve its adaptability.

Drawings

Fig. 1 is a schematic view of the whole structure of the adjustable cuff type anti-squeezing device for operating room cuff of the present invention;

fig. 2 is a partial view of the cuff type adjustable anti-squeezing device for operating room.

In the figure: 1. a protective sleeve; 2. a front end airbag structure; 201. a front end annular air bag; 202. a front end cylindrical air bag; 203. a front end arc airbag; 204. an air discharge port; 3. a rear end airbag structure; 301. a rear end annular air bag; 302. a rear end cylindrical air bag; 303. a rear end arc-shaped air bag; 4. a diversion pipeline; 5. a silica gel sheet.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

The first embodiment is as follows:

as shown in fig. 1-2, an adjustable cuff type operating room cuff anti-squeezing device comprises a protective barrel sleeve 1, wherein a front end air bag structure 2 is fixedly installed on the inner wall of the protective barrel sleeve 1 close to the front end, a rear end air bag structure 3 is fixedly installed on the inner wall of the protective barrel sleeve 1 close to the rear end, a flow guide pipeline 4 is fixedly installed on the outer surface of the protective barrel sleeve 1, a silica gel sheet 5 is fixedly installed on the outer surface of the protective barrel sleeve 1, and the arrangement of the rear end air bag structure 3 and the front end air bag structure 2 can also be inflated and deflated to be adjusted to adapt to the use of various thick and thin arm patients, so that the adaptability of the cuff type operating room cuff type protecting device is improved;

the front end air bag structure 2 comprises a front end annular air bag 201, a front end cylindrical air bag 202, a front end arc-shaped air bag 203 and an inflation and deflation port 204, the front end air bag structure 2 is fixedly arranged on the inner wall of the protective sleeve 1 through the front end annular air bag 201, the inner side arc-shaped surface of the front end annular air bag 201 is connected with the front end cylindrical air bag 202, the other end of the front end cylindrical air bag 202 is connected with the front end arc-shaped air bag 203, the position, close to the diversion pipeline 4, of the front surface of the front end annular air bag 201 is connected with the inflation and deflation port 204, and the inflation and deflation port 204 can be used for exhausting and inflating air; the front end cylindrical air bags 202 and the front end arc-shaped air bags 203 are six in number and are uniformly distributed on the arc-shaped surface of the inner side of the front end annular air bag 201; the rear end air bag structure 3 comprises a rear end annular air bag 301, a rear end cylindrical air bag 302 and a rear end arc-shaped air bag 303, the inner side arc-shaped surface of the rear end annular air bag 301 is connected with the rear end cylindrical air bag 302, the other end of the rear end cylindrical air bag 302 is connected with the rear end arc-shaped air bag 303, the number of the rear end cylindrical air bags 302 and the number of the rear end arc-shaped air bags 303 are six, and the rear end cylindrical air bags 302 and the rear end arc-shaped air bags 303 are uniformly arranged in pairs on the inner side arc-shaped surface of the rear end annular air bag 301; the front end annular airbag 201 is communicated with the front end cylindrical airbag 202, the front end cylindrical airbag 202 is communicated with the front end arc-shaped airbag 203, the rear end annular airbag 301 is communicated with the rear end cylindrical airbag 302, and the rear end cylindrical airbag 302 is communicated with the rear end arc-shaped airbag 303; the front end annular air bag 201 is communicated with the rear end annular air bag 301 through a flow guide pipeline 4.

Example two:

it should be noted that the utility model is an adjustable cuff type anti-squeezing device for operating room, when in use, the medical staff can put the protective sleeve 1 on the arm of the patient from one end with the rear end air bag structure 3, so that the protective sleeve 1 completely covers the cuff, and the cuff is located between the rear end air bag structure 3 and the front end air bag structure 2, then properly adjust the position of the protective sleeve 1, so that the side with a half of the silica gel sheet 5 faces one side of the patient, after the adjustment, the pipeline of the cuff is placed between the front end cylindrical air bags 202 and extends out to be connected with the display device, then, the inflation/deflation port 204 can be connected with the air pump to support the arm towards the front end annular air bag 201, the front end cylindrical air bag 202, the front end arc air bag 203, the rear end annular air bag 301, the rear end cylindrical air bag 302 and the rear end arc air bag 303 until the front end arc air bag 203 is inflated with air pressure, the cuff anti-extrusion device is fixed close to the arm to prevent displacement, so that the position of a patient wearing the cuff can be erected, the cuff is prevented from being detected inaccurately due to the fact that the cuff is extruded by the gravity of the arm, the arrangement of the protective sleeve 1 can also prevent the measurement inaccurately due to the fact that an operating doctor extrudes the cuff by leaning against an operating table during operation, and moreover, the arrangement of the rear end air bag structure 3 and the front end air bag structure 2 can also be inflated and deflated to adjust to adapt to the use of patients with arms of various thicknesses, and therefore the adaptability of the protective sleeve is improved.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An adjustable cuff type compression-proof device for an operating room cuff, which is characterized in that: including protection barrel casing (1), the inner wall of protection barrel casing (1) is close to front position fixed mounting has front end gasbag structure (2), the inner wall of protection barrel casing (1) is close to rear position fixed mounting has rear end gasbag structure (3), the external fixed surface of protection barrel casing (1) installs diversion pipeline (4), the external fixed surface of protection barrel casing (1) installs silica gel piece (5).

2. The adjustable cuff anti-extrusion device of claim 1, wherein: the utility model discloses a protection cover, including protection cover, front end gasbag structure (2), front end gasbag (201), front end circular column gasbag (202), front end arc gasbag (203) and inflation and deflation port (204), front end gasbag structure (2) are through front end circular column gasbag (201) fixed mounting in the inner wall of protection cover (1), the inboard arcwall face of front end circular column gasbag (201) is connected with front end circular column gasbag (202), the other end of front end circular column gasbag (202) is connected with front end arc gasbag (203), the position that the front surface of front end circular column gasbag (201) is close to water conservancy diversion pipeline (4) is connected with inflation and deflation port (204).

3. The adjustable oversleeve operating room cuff anti-extrusion device of claim 2, wherein: the front end cylindrical air bag (202) and the front end arc-shaped air bag (203) are six in number and are uniformly distributed on the inner side arc-shaped surface of the front end annular air bag (201).

4. The adjustable oversleeve operating room cuff anti-extrusion device of claim 3, wherein: rear end gasbag structure (3) include rear end annular gasbag (301), rear end cylinder gasbag (302) and rear end arc gasbag (303), the inboard arcwall face of rear end annular gasbag (301) is connected with rear end cylinder gasbag (302), the rear end cylinder gasbag (302) other end is connected with rear end arc gasbag (303), the quantity of rear end cylinder gasbag (302) and rear end arc gasbag (303) is six, and mated evenly arranges the arc surface that sets up at rear end annular gasbag (301) inboard.

5. The adjustable oversleeve operating room cuff anti-extrusion device of claim 4, wherein: the front end annular air bag (201) is communicated with the front end cylindrical air bag (202), the front end cylindrical air bag (202) is communicated with the front end arc-shaped air bag (203), the rear end annular air bag (301) is communicated with the rear end cylindrical air bag (302), and the rear end cylindrical air bag (302) is communicated with the rear end arc-shaped air bag (303).

6. The adjustable oversleeve operating room cuff anti-extrusion device of claim 5, wherein: the front end annular air bag (201) is communicated with the rear end annular air bag (301) through a flow guide pipeline (4).

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