CN219021358U - Double water sac for compression hemostasis after laryngeal resection - Google Patents

Abstract

The present utility model relates to the field of medical devices. The double water bags for compression hemostasis after laryngeal resection comprise water bags and are characterized in that two water bags are arranged, each water bag comprises a main bag body, and the opposite sides of the main bag bodies are respectively connected with a connecting part and a water injection joint; the two water bags are arranged left and right, and the connecting parts of the two water bags are detachably connected. According to the utility model, the structure of the water bags is optimized, and the two water bags are detachably connected through the connecting parts, so that the junction area is pressed by the connecting area of the two water bags. Meanwhile, the water bag is fixed by the gravity of the two main bag bodies. No fixing strap is needed. Through the water injection joint, be convenient for pour into and derive liquid.

Description

Double water sac for compression hemostasis after laryngeal resection

Technical Field

The utility model relates to the field of medical appliances, in particular to a compression water sac.

Background

After laryngeal resection, the surgical field needs to be compressed. Currently, an ice bag or a single water bag is usually used for pressing the postoperative operation area of laryngeal resection. However, the area of the throat knot is narrow, the neck is cylindrical and uneven, so that the ice bag and the single water bag are difficult to fix, the ice bag and the single water bag are required to be fixed by the fixing belt, the ice bag and the single water bag are required to be rebinding by the fixing belt when the operation area is observed every time, the operation is troublesome, and uncomfortable feeling of a patient is easily caused by repeated operation.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides a double water sac for compression hemostasis after laryngeal resection, which aims to solve at least one technical problem.

In order to achieve the aim, the utility model provides a double water sac for compression hemostasis after laryngeal resection, which comprises water sacs and is characterized in that two water sacs are arranged, each water sac comprises a main sac body, and the opposite sides of the main sac bodies are respectively connected with a connecting part and a water injection joint;

the two water bags are arranged left and right, and the connecting parts of the two water bags are detachably connected.

According to the utility model, the structure of the water bags is optimized, and the two water bags are detachably connected through the connecting parts, so that the junction area is pressed by the connecting area of the two water bags. Meanwhile, the water bag is fixed by the gravity of the two main bag bodies. No fixing strap is needed. Through the water injection joint, be convenient for pour into and derive liquid.

As a preferable scheme, the connecting part comprises at least three sub-water bags which are arranged from front to back, and the sub-water bags are in butt joint conduction with the main bag body;

the sub water bags of the two water bags are connected in a one-to-one correspondence through knotting and binding.

As another preferable scheme, the connecting parts of the two water bags are concave-convex buckle structures matched with each other;

the two water bags respectively comprise at least three pressing sub-water bags which are arranged from front to back, the pressing sub-water bags are in butt joint and conduction with the main bag body, and the pressing sub-water bags of the two water bags are arranged in a staggered mode.

Is convenient for realizing the compression at the laryngeal junction.

Further preferably, the outer wall of the water bag is covered with a gauze layer.

Further preferably, the sub water bags are provided with five sub water bags;

the gauze layer is a glove-shaped sleeve body.

Drawings

FIG. 1 is a schematic diagram showing an exploded structure of an embodiment 1 of the present utility model;

FIG. 2 is a schematic diagram showing an exploded structure of embodiment 2 of the present utility model;

fig. 3 is a schematic structural diagram of embodiment 3 of the present utility model.

Wherein: 1 is a water bag, 11 is a main bag body, 12 is a sub water bag, 13 is a water injection joint, 14 is a concave-convex buckle structure, 15 is a pressing sub water bag, 2 is a gauze layer, and 21 is a zipper.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1, in embodiment 1, a double water sac for compression hemostasis after laryngeal resection comprises a water sac 1, wherein two water sacs 1 are provided, each water sac comprises a main sac body 11, and opposite sides of the main sac body 11 are respectively connected with a connecting part and a water injection joint 13; the two water bags are arranged left and right, and the connecting parts of the two water bags are detachably connected. According to the utility model, the structure of the water bags is optimized, and the two water bags are detachably connected through the connecting parts, so that the junction area is pressed by the connecting area of the two water bags. Meanwhile, the water bag is fixed by the gravity of the two main bag bodies. No fixing strap is needed. Through the water injection joint, be convenient for pour into and derive liquid. The water injection joint may include a detachably connected mounting seat and a cover. The mounting seat is fixed on the main bag body. The mounting seat is provided with a water filling port. The water filling port is used for filling water into the main bag body. A rubber plug can be embedded on the water filling port. The rubber plug is detachably connected with the water filling port.

The connecting part comprises at least three sub-water bags 12 which are arranged from front to back, and the sub-water bags 12 are in butt joint conduction with the main bag body 11; the sub water bags of the two water bags are connected in a one-to-one correspondence through knotting and binding. The knotting and binding part is adjacent to the joint of the sub water bag and the main bag body. The connection portion may be a connection strap. The connecting belts of the two water bags are tied and connected.

The main capsule body is made of latex. The material of the connecting part is latex. The connecting part and the main bag body are of an integrated structure.

Referring to fig. 2, embodiment 2, on the basis of embodiment 1, the outer wall of the water bladder 1 is covered with a gauze layer 2. Five sub-water bags are arranged; the gauze layer 2 is a glove-shaped sleeve body. The end of gauze layer is equipped with the opening, installs the zip fastener 21 that sets up around on the opening, is equipped with the clearance that the water injection joint exposes between the zip fastener 21 that sets up around.

Referring to fig. 3, in embodiment 3, the double water bags for compression hemostasis after laryngeal resection include two water bags, each of which includes a main bag body 11, and opposite sides of the main bag body 11 are respectively connected with a connecting part and a water injection joint 13; the two water bags are arranged left and right, and the connecting parts of the two water bags are detachably connected. According to the utility model, the structure of the water bags is optimized, and the two water bags are detachably connected through the connecting parts, so that the junction area is pressed by the connecting area of the two water bags. Meanwhile, the water bag is fixed by the gravity of the two main bag bodies. No fixing strap is needed. Through the water injection joint, be convenient for pour into and derive liquid.

The connecting parts of the two water bags are concave-convex buckle structures 14 matched with each other; the two water bags respectively comprise at least three pressing sub water bags 15 which are arranged from front to back, and the pressing sub water bags are positioned on one side of the main bag body away from the water injection joint. And the pressing sub-water bags 15 are in butt joint and conduction with the main bag body, and the pressing sub-water bags of the two water bags are arranged in a staggered way from front to back. Is convenient for realizing the compression at the laryngeal junction. The main capsule body is made of latex. The concave-convex buckle structure is positioned above the joint of the pressing sub water bag and the main bag body. The pressing sub-water bags of the two water bags comprise staggered parts which are arranged adjacently in front and back, and extension parts which extend outwards from the staggered parts.

When the two water bags are connected through the concave-convex buckle structure, the pressing sub water bag is positioned at the lower side of the other main bag body. The intersection of the pressing sub-water bags of the two water bags is a lower area of the concave-convex structure.

Granular protrusions are arranged on the upper side of the pressing sub-water bag. When the pressing sub-water bags are arranged in a staggered mode, the granular protrusions are located between the pressing sub-water bags and the main bag body of the other water bag.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. The double water bags for compression hemostasis after laryngeal resection comprise water bags and are characterized in that two water bags are arranged, each water bag comprises a main bag body, and the opposite sides of the main bag bodies are respectively connected with a connecting part and a water injection joint;

the two water bags are arranged left and right, and the connecting parts of the two water bags are detachably connected.

2. A post-laryngeal resection hemostasis by compression double water sac according to claim 1, wherein: the connecting part comprises at least three sub-water bags which are arranged from front to back, and the sub-water bags are in butt joint conduction with the main bag body;

the sub water bags of the two water bags are connected in a one-to-one correspondence through knotting and binding.

3. A post-laryngeal resection hemostasis by compression double water sac according to claim 1, wherein: the connecting parts of the two water bags are concave-convex buckle structures matched with each other;

the two water bags respectively comprise at least three pressing sub water bags which are arranged from front to back, the pressing sub water bags are positioned on one side of the main bag body, which is far away from the water injection joint, and the pressing sub water bags are in butt joint connection with the main bag body, and the pressing sub water bags of the two water bags are arranged in a staggered mode.

4. A post-laryngeal resection hemostasis by compression double water sac according to claim 3, wherein: the concave-convex buckle structure is positioned above the joint of the pressing sub-water bag and the main bag body.

5. A post-laryngeal resection hemostasis by compression double water sac according to claim 2, wherein: the outer wall of the water bag is covered with a gauze layer.

6. A post-laryngeal resection hemostasis by compression double water sac according to claim 5, wherein: five sub-water bags are arranged;

the gauze layer is a glove-shaped sleeve body.

7. A post-laryngeal resection hemostasis by compression double water sac according to claim 5, wherein: the main bag body is made of latex.

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