CN218129078U - Isolation device capable of being deployed rapidly - Google Patents

Abstract

The utility model relates to an isolation equipment that can deploy fast, including the support arm, establish gripper jaw on the support arm, establish the telescopic bracket on the support arm and establish the flexible isolation barrier on telescopic bracket, when telescopic bracket expandes, drive flexible isolation barrier and expand and form the isolation space. The utility model discloses an isolation equipment that can deploy fast can use the mode of direct centre gripping to install fast and establish the isolation space, and this isolation space can also freely remove, can satisfy the user demand under the different scenes.

Description

Isolation device capable of being deployed rapidly

Technical Field

The application relates to the technical field of medical equipment, in particular to isolation equipment capable of being deployed quickly.

Background

The patient of hospital probably meets the condition that needs keep apart when transporting or treating, and the solution that currently commonly uses has electronic isolation equipment and installs modes such as track (window) curtain additional on the roof, and electronic isolation equipment's is bulky, moves inconveniently to need supporting sick bed. The installation position of the track curtain is fixed and cannot be moved, so that the temporary use requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems of large volume, inconvenience in movement and independent installation of the existing isolation equipment, the isolation equipment capable of being deployed rapidly can be rapidly installed and an isolation space can be established by using a direct clamping mode, and the isolation space can also be moved freely, so that the use requirements under different scenes can be met.

The above object of the present application is achieved by the following technical solutions:

the application provides an isolation device that can deploy fast, includes:

a support arm;

the clamping claw is arranged on the supporting arm;

the telescopic bracket is arranged on the supporting arm; and

the flexible isolation barrier is arranged on the telescopic support, and when the telescopic support is unfolded, the flexible isolation barrier is driven to be unfolded to form an isolation space.

In one possible implementation of the present application, the clamping jaw comprises:

the claw body is arranged on the supporting arm; and

the spiral nail is arranged on the claw body.

In one possible implementation of the present application, the clamping jaw comprises:

the fixed claw body is arranged on the supporting arm;

the swing claw body is hinged on the fixed claw body; and

and the adjusting rod is connected with the fixed claw body and the swinging claw body and is used for adjusting the included angle between the fixed claw body and the swinging claw body.

In one possible implementation of the present application, the telescopic bracket includes:

a telescoping support body; and

the two ends of the connecting rod are respectively hinged on the telescopic bracket body and the supporting arm.

In one possible implementation of the present application, the number of links is two.

In one possible implementation manner of the present application, the method further includes:

an access hole provided on the flexible isolation barrier: and

and the covering film is arranged on the flexible isolation barrier and is used for closing the operation hole.

In one possible implementation manner of the present application, at least one group of operation holes are formed on the flexible isolation barrier;

the number of the operation holes in each group is one or more.

In one possible implementation of the present application, the operation hole is provided with an elastic retraction opening.

The application provides an isolation device that can deploy fast, can be quick install on current sick bed and establish a temporary isolation space based on the sick bed. The mode has the advantages of low cost, short time consumption and convenient assembly and disassembly, can be deployed based on the existing sickbed, does not need additional equipment purchase, and can meet the requirement of emergency in a short time. And the folded device occupies small space and is convenient to store.

In addition, when the patient needs to be transferred (transferred to a hospital or a department), the medical staff directly pushes the sickbed, and the temporary isolation space can move along with the sickbed.

Drawings

Fig. 1 is a schematic view of an installation of an isolation device provided in the present application.

FIG. 2 is a schematic view of a gripper jaw as provided herein.

Fig. 3 is a schematic structural diagram of a telescopic bracket provided in the present application.

Fig. 4 is a schematic view of the distribution of the operation holes on the flexible isolation barrier provided by the present application.

Fig. 5 is a schematic view of the relative positions of a cover film and an access hole on a flexible isolation barrier as provided herein.

FIG. 6 is a schematic view of the relative positions of an access hole and an elastic retraction opening on a flexible isolation barrier as provided herein.

In the figure, 11, support arm, 12, gripper jaw, 13, telescopic support, 14, flexible isolation barrier, 15, operation hole, 16, cover film, 17, elastic retraction opening, 121, jaw body, 122, screw nail, 123, fixed jaw body, 124, swing jaw body, 131, telescopic support body, 132, connecting rod.

Detailed Description

The technical solution of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, for the isolation device capable of being deployed rapidly disclosed in the present application, the isolation device is composed of a support arm 11, a clamping jaw 12, a telescopic bracket 13, a flexible isolation barrier 14, and the like, wherein the clamping jaw 12 and the telescopic bracket 13 are both fixed on the support arm 11, and the flexible isolation barrier 14 is installed on the telescopic bracket 13, which will be further described below with reference to a specific installation and use process.

During installation, the supporting arm 11 is vertically arranged, the clamping claws 12 are positioned at the lower end of the supporting arm 11 and clamped and fixed on the legs of a sickbed, and the telescopic bracket 13 is positioned above the sickbed. When the telescopic bracket 13 is pulled open, the flexible isolation barrier 14 is unfolded along with the telescopic bracket 13, and the side surface of the flexible isolation barrier 14 falls down from the telescopic bracket 13 to cover the sickbed, the telescopic bracket 13, the clamping claw 12 and the supporting arm 11.

More specifically, the flexible isolation barrier 14 is composed of a top surface and side barriers (i.e. the above mentioned side surfaces), when the telescopic bracket 13 is unfolded, the top surface of the flexible isolation barrier 14 is unfolded together, and in the process, the side barriers of the flexible isolation barrier 14 fall down to cover the hospital bed, the telescopic bracket 13, the clamping claws 12 and the supporting arms 11 together. The flexible isolation barrier 14 can now form an isolation space which can serve as an isolation space separating the patient's bed from the space outside the isolation barrier 14.

The clamping claws 12 can be directly clamped and fixed on a sickbed, and can also be fixed on temporary facilities such as a stand column, and can be quickly fixed when an isolation space is needed.

The isolation device capable of being deployed quickly disclosed by the application can meet the conditions such as sudden centralized hospitalization and the like, because in these scenes, the situations such as infection, insufficient sickbeds and the like are generally encountered, the clamping claws 12 can be fixed on the sickbed, and then a temporary isolation space is quickly created by means of the telescopic supports 13 and the flexible isolation barrier 14.

The mode has the advantages of low cost, short time consumption and convenient assembly and disassembly, can be deployed based on the existing sickbed, does not need additional equipment purchase, and can meet the requirement of emergency in a short time. And the folded device occupies small space and is convenient to store.

In addition, the disclosed isolation device that can deploy fast of this application can also move along with the sick bed, for example when the patient needs to shift (transfer or shift the department), medical personnel directly promote the sick bed, and the isolation device of installing on the sick bed just can move along with it.

Referring to fig. 2, the clamping jaw 12 is composed of a jaw body 121 and a screw 122 mounted on the jaw body 121, and a screw of the screw 122 is screwed into a threaded hole of the jaw body 121. When mounting, the claw body 121 is placed at the mounting position, and then the screw 122 is rotated so that the screw of the screw 122 abuts against the mounting position.

Referring to fig. 3, as an embodiment of the isolation device capable of being deployed rapidly, the telescopic bracket 13 is composed of a telescopic bracket body 131 and a connecting rod 132, and two ends of the connecting rod 132 are respectively hinged to the telescopic bracket body 131 and the supporting arm 11.

The link 132 functions to adjust the deployed position of the telescopic bracket 13. Assuming that the adjustable telescopic support 13 includes only the telescopic support body 131, there is only one connection point between the telescopic support body 131 and the support arm 11, and when the telescopic support body 131 is unfolded, it will move towards the direction close to the support arm 11, so that it cannot be located right above the patient's bed.

After the connecting rod 132 is added, the distance between the telescopic bracket body 131 and the supporting arm 11 is increased, the telescopic bracket body 131 is unfolded under the premise of unchanged size, and the telescopic bracket body can also be positioned right above the sickbed after being unfolded.

Further, the number of the links 132 is two, and the increase in the number of the links 132 means the increase in the number of the fixed fulcrums, so that the stability of the telescopic bracket body 131 after being unfolded can be improved,

referring to fig. 4 and 5, as a specific embodiment of the isolation device capable of being deployed quickly, an operation hole 15 and a covering film 16 are added on a flexible isolation barrier 14, the operation hole 15 is directly formed on the flexible isolation barrier 14, one edge of the covering film 16 is adhered to the flexible isolation barrier 14, and the remaining three edges are not processed or adhered to the flexible isolation barrier 14 by using a velcro tape.

The handling aperture 15 is located in the projected area of the cover film 16 on the flexible isolation barrier 14, and the cover film 16 can just close the handling aperture 15 corresponding thereto. The cover film 16 is opened again to expose the operation hole 15.

The operation hole 15 functions as follows:

first, the lines supplying the device use, such as oxygen lines and vital signs detection lines;

second, for use by a medical professional whose hands extend through access aperture 15 into the space within flexible isolation barrier 14.

One or more groups of operation holes 15 are arranged on the flexible isolation barrier 14, and the number of the operation holes 15 in each group can be one or more.

Further, referring to fig. 6, the operation hole 15 is provided with an elastic necking 17, and the elastic necking 17 is adhered to the flexible isolation barrier 14 or the inner wall of the operation hole 15. The purpose of the resilient return orifice 17 is to enable attachment to the line or arm of a medical worker when the access opening 15 is in use, in order to improve the seal.

It will be appreciated that the inner diameter of access port 15 is suitably larger than the outer diameter of the tubing or the thickness of the arm of the medical professional for ease of operation, but this results in a clearance between the inner wall of access port 15 and the tubing or arm of the medical professional.

After the elastic retraction opening 17 is used, when the pipeline or the arm of the medical staff passes through the operation hole 15, the elastic retraction opening 17 needs to be firstly opened, and when the force for opening the elastic retraction opening 17 disappears, the elastic retraction opening 17 can be retracted and attached to the pipeline or the arm of the medical staff.

In some possible implementations, the elastic neckline 17 is made of a material having elasticity, such as natural latex, and in some possible implementations, a bungee cord is installed at the neckline of the elastic neckline 17.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. An isolation device capable of rapid deployment, comprising:

a support arm (11);

a gripper jaw (12) arranged on the support arm (11);

the telescopic bracket (13) is arranged on the supporting arm (11); and

the flexible isolation barrier (14) is arranged on the telescopic bracket (13), and when the telescopic bracket (13) is unfolded, the flexible isolation barrier (14) is driven to be unfolded to form an isolation space.

2. Rapidly deployable isolation device according to claim 1, wherein the clamping jaw (12) comprises:

a claw body (121) provided on the support arm (11); and

a screw nail (122) provided on the claw body (121).

3. A rapidly deployable insulation device according to claim 1 or 2, wherein the telescopic support (13) comprises:

a telescoping support body (131); and

and two ends of the connecting rod (132) are respectively hinged on the telescopic bracket body (131) and the supporting arm (11).

4. A rapidly deployable isolation device according to claim 3, wherein the number of links (132) is two.

5. The rapidly deployable isolation device of claim 1, further comprising:

an operation hole (15) provided on the flexible isolation barrier (14): and

a covering film (16) arranged on the flexible isolation barrier (14), the covering film (16) being used for closing the operation hole (15).

6. The rapidly deployable isolation device according to claim 5, characterized in that the flexible isolation barrier (14) is provided with at least one set of handling holes (15);

the number of the operation holes (15) in each group is one or more.

7. Rapidly deployable isolation device according to claim 5 or 6, characterized in that the handling hole (15) is provided with an elastic retraction (17).

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