DESC:AUTOMATIC SENSOR DRAINAGE DEVICE FOR POST-OPERATIVE SURGICAL NURSING

Technical field

This invention model falls within the realm of medical equipment, specifically focusing on an Automatic Sensor postoperative drainage device for surgical nursing.
Background technique

Clinical practice dictates that drainage devices be applied to wounds in the majority of postoperative patients in order to expedite the removal of blood leaking fluid, hence reducing the risk of postoperative infection and postoperative wound healing delays. Among the current options for drainage systems, the negative pressure bag design predominates. In order to drain the patient's wound, it is necessary to push the bag in order to release the air inside. The bag is used to collect liquids that have been emptied from tubes or blood. There is a risk of wound infection and other complications while using this drainage device since it is simple to compress the pouch, which reduces the negative pressure within. As a consequence, fluid flows back to the wound entrance. Some patients who are immobile find it difficult to use alternative drainage devices because of their bulk and complexity.

Content from the Newel Invention

In an effort to address the issues with the backdrop art that have already been noted. The model innovation offers a surgical nursing postoperative drainage device that eliminates the technical issues of accidents, complicated construction, and trouble to carry due to its Automatic Sensor.

The current innovation offers Automatic Sensor the following technological approach to accomplish the aforementioned goal: surgical nursing equipment for postoperative drainage that has a container with a hinged front that can be moved to connect with a locking door. There is a storage battery arranged on the side, a sewage disposal container attached to the top of the container, a pressure resistor on one side of the container, a pipe exhaust connected to the top of the resistor, and one end of the pipe exhaust that goes through It moves through the sewage disposal container and establishes communication with the inside wall of the container. The sewage disposal container has a drainage pipe attached to the underside of one of its sides. The drainage pipe has a sealing cap screwed onto one end. On one side of the container's inside wall, there is a liquid level for sewage disposal. Below one end of the suction pipe is where you'll find the automatic liquid level sensor. On top of the sewage disposal container is a pipe connection, which is clamped with a drainage pipe. Along one side of the pipe connection is an opening groove, and there are multiple of them. The opening grooves are evenly distributed on the outside of the pipe connection. One side of the opening grooves is connected to the inner wall of the pipe connection, and the pipe connection is arranged outside. The drainage tube connects to the outside world through an external thread, which is threadedly connected to a threaded cap. One end of the tube goes through the threaded cap to communicate with the outside world. This process will automatically activate the drainage device.

An additional solution to the current invention is a container for sewage disposal that has a transparent window fixed to its front side. On the same side, there is a remote controller and a player, which will automatically operate the drainage device based on the information given by the controller.

A further solution of the present invention is to permanently attach a door knob to the locking container door and an upper handle to the top of the container for sewage disposal. This will allow all processes to communicate with the drainage device, which will then operate automatically.

Another method of implementing the current invention involves threading the outer thread of the drain tube onto the inner thread of the sealing cover, and vice versa. This is done by providing an outer thread on the outside of the drain tube and an inner thread on the inside of the sealing cover.

Addition to the list of solutions provided by the current invention is the placement of the threaded cap at the clamping junction of the connecting tube and the drainage tube.

An additional aspect of the current invention is a container for sewage disposal that has an inclined bottom inner wall.

Adding to the list of solutions provided by the current invention, the remote controller can be wired to the battery, the pressure resistor, the automatic liquid level sensor, and the player. This allows the drainage device to receive information from all of these sources and operate automatically.

Advantages of the utility model over the state of the art include:

The surgical nursing postoperative drainage device can continuously maintain a negative pressure in the container for sewage disposal, which is necessary for patient protection, by combining the functions of the pressure resistor, suction tube, connecting tube, and drainage tube. The traumatised mouth has continuous leakage.

The surgical nursing postoperative drainage device allows for the easy placement of auxiliary drainage medical equipment inside the container structure by means of the locking container door and the door knob. It is programmed to empty the contents of the container into the sewage disposal system after the drainage process is finished.

Using the screw cap, opening groove, and connecting tube, the surgical nursing postoperative drainage device may make it easier to change the drainage tube after draining is finished. By adjusting the player's settings and the automatic liquid level sensor, it is possible to set the liquid level to a certain level. At a certain height, the player will play a prompt sound to alert the medical personnel to the need of promptly discharging the liquid into the sewage disposal container.
Description of the drawings

The included illustrations serve to enhance comprehension of the utility model and form an integral part of the specification. In addition to the embodiments of the utility model, they are employed to clarify and do not impose any restrictions on the utility model. Within the image provided:

In the figure: 306. Container Structure; 308. Locking Container Door; 310. Door Knob; 312. Container For Sewage Disposal; 314 Transparent Window; 316. Remote Controller; 318. Upper Handle; 320 Resistor Of Pressure; 322. Pipe Exhaust; 324. Drain Tube; 326. Secure The Cover; 328. Pipe Connection; 330. Screw Cap; 332. Drainage Tube; 334. Open Slot; 336. Battery; 338. Automatic Liquid Level Sensor; 340. Player. 342 Charging Wire, Plug Point 344

Detailed ways

With reference to the accompanying drawings in the current utility model, the following will provide a clear and comprehensive description of the technological solutions in the embodiments of the model. Clearly, the disclosed embodiments do not represent every implementation of the current utility model; rather, they are only a subset of it. Example. All other embodiments that can be made by someone with average artistic talent without engaging in any creative effort are also covered by this utility model's protections, according to its current implementations.

Example

Please refer to Figures 1-4, here are some technological solutions provided by the above model: An apparatus for surgical nursing postoperative drainage that consists of a container with a locking door attached to its front side via a hinge. Box 1's layout with the locking container door and knob makes it ideal for storing and retrieving supplementary medical equipment for drainage. Along one edge of box 1 you can see a spare battery. At its highest point, the sewage disposal container is permanently attached to itself. On one side of the container, there is a pressure resistor, and at its highest point, there is a pipe exhaust. One end of the pipe exhaust goes through the container, and at its lowest point, it is also connected to the container. The sewage disposal container's inner wall is linked to a drain tube at the bottom of one side. A sealing cover is screwed onto one end of the drain tube, and the arrangement of the two allows for drainage to be The contents of the tank are released. Sewage disposal containers have an inside wall mounted automatic liquid level sensor. At the base of the suction pipe is the Automatic Liquid level sensor. A player and an automatic liquid level sensor are both customisable. At a specific height, the player will play a prompt sound to remind the medical staff to promptly empty the liquid from the sewage disposal container. The container has a connecting tube at the top and drainage clamps the inner wall of the tube. An opening groove is provided outside one end of the connecting tube of the tube. There are multiple opening grooves, and they are evenly distributed on the outside of one end of the connecting tube. One side of the connecting tube has all of the opening grooves. The inner wall of the pipe connection is threaded, and a threaded cap is attached to the outer thread of the pipe connection. The outer thread of the pipe connection is furnished with an external thread. Changing the drainage tube later on is a handy option. The drainage tube connects to the outside world via the common connection of the sewage disposal container, pressure resistor, suction tube, connecting tube, and drainage tube, with one end of the tube passing through the threaded cap. As a result, the patient's traumatised mouth may be continually drained by maintaining a negative pressure condition in the sewage disposal container.

The front of the sewage disposal container is permanently attached to a transparent window; on the same side, you'll find a player and a remote controller, the former of which can be used to control the device from a computer, as shown in Figures 1 and 2. An upper handle is permanently attached to the top of the sewage disposal container, and a door knob is permanently attached to the locking container door in traditional recognised equipment. It is easier to manoeuvre the gadget thanks to the design of the upper handle. A drain tube's distal end The drain tube's exterior thread is threadedly attached to the sealing cap's internal thread, which is located on the inner wall. The sealing cap also has an internal thread that is accessible from the outside.

This sewage disposal container features an inclined bottom wall design and a threaded cover at the point where the connection tube and drainage tube are clamped (Figures 1 and 2). The slanted shape of the sewage disposal container allows the liquid within to drain more quickly. The player, automatic liquid level sensor, and pressure resistor are all wired into the remote controller, which is also linked to the battery.

The working principle of the utility model is:

To open the Locking container door, pull the door knob. Then, install medical equipment that aid drainage inside the container. After placing them, shut the door. Raise the top handle, roll the equipment over to the patient's side and set it on a level surface;

S2. After that, the pressure resistor is set to operate by means of the remote controller. So that the sewage disposal container may enter a negative pressure transition state and remain in that condition, the pressure resistor drives the suction pipe to remove air from the container. Once the negative pressure condition is established, the patient's traumatised portion may be pre-treated by opening the Locking container door and removing the drainage-assisting device from box 1. Gather the drainage when the therapy is finished. The patient's wound should be the starting point for inserting the tube. Due to the difference between the internal and exterior pressures, liquids are compelled to enter the sewage disposal container via the drainage tube. As soon as the moving liquid makes touch with With the help of the Remote Controller, the player can be instructed to broadcast reminders to the medical staff to check the liquid level in the container for sewage disposal as soon as it is sensed by the Automatic Liquid level sensor. Once drainage is complete, the Resistor of pressure 8 is turned off by the remote controller. One end of the drainage tube is removed from the patient's wound hole, and the other end is treated using medical equipment. Upon finishing the course of therapy, Close the door, remove the upper handle, place the medical equipment in box 1, and then move the device to the discharge position;
S3. To empty the container for sewage disposal, unscrew the sealing cover from the drain tube and screw on the screw cap. This will separate the cap from the pipe connection and drain the liquid from the container. Once the task is finished, disconnect the drainage tube from its connecting tube and dispose of it in the specified trash container. At last, after each usage, the medical equipment may be sterilised and cleaned.

You should know that the words "first" and "second" are purely descriptive and have no bearing on the relative significance of the technical characteristics mentioned or the quantity of them in the current utility model. Features denoted by "first" and "second" may therefore include at least one of these characteristics, either directly or indirectly. "Multiple" is defined as two or more than two throughout the description of the present invention unless otherwise stated.

All phrases used in this utility model, unless as specifically stated, should be used in a wide meaning. For instance, a "fixed" or "detachable" connection may be "installed" or "connected" It may be mechanically or electrically linked, directly or indirectly via an intermediate, integrated or connected, communicating internally or interacting with other parts, or none of the above. In this utility model, the meaning of the aforementioned words may be understood by persons with average proficiency in the art depending on the context.

In this innovation, unless explicitly stated otherwise, the first feature is either "on" or "under" the second feature; the two features may be in close proximity to one another, or they can pass through a middle ground. Media contact that is not directly conveyed. In addition, the first feature is "above" the second feature three times. This might suggest that the first feature is directly above the second feature, that it is obliquely above the second feature, or that it simply implies that the first feature is higher in level. "Below," "Below," and "Below" are the first three features. The first feature may be at a lower level than the second, or it may be positioned directly or obliquely below the second feature.

All references to "one embodiment," "some embodiments," "embodiments," "examples," "specific examples," "some examples," etc., in this specification's description are to the combination of this embodiment or example. Many examples or embodiments of the current invention include the detailed descriptions of structures, features, materials, and qualities. The above-mentioned terminology may or may not in this specification relate to the same example or embodiment as shown in the schematics. Furthermore, the detailed features, structures, materials, or attributes may be appropriately mixed in any number of instances or embodiments. Furthermore, individuals competent in the field may mix and match the various examples and embodiments mentioned in this specification, as well as their respective characteristics, without incongruously contradicting one another.

The above description and examples of the current utility model are for illustration purposes only and in no way constitute a limitation of the model. The current utility model encompasses those with average artistic ability. The aforementioned embodiments are open to changes, adjustments, replacements, and additions.
,CLAIMS:Claim

1.Automatic Sensor drainage device for surgical nursing, comprising an arrangement of interconnected containers, wherein the front portion of the container is hinged to allow for movable connection to a locking container, and Is equipped with a battery (334), a sewage disposal container (312) with a permanent connection at its top, and a pressure resistor (320) on one side of the container, thus The upper part of the pressure resistor (320) is linked to a suction pipe (322), with one end of the pipe communicating with the inside wall of the sewage disposal container (312) via the container (312). A Drain Tube (324), a sealing cover (326), and an Automatic Liquid Level Sensor (346) are all parts of the drainage system. The drain tube is attached to the bottom of one side of the system. Below one end of the suction pipe (322), you'll find the Automatic Liquid Level Sensor (336). On top of the Container For Sewage Disposal (312), you'll find a Pipe Connection (328). One end of the connecting tube (328) has an opening slot (332), and there are multiple of them evenly distributed. A drainage tube (330) clamps the inner wall of the pipe connection. On the outside of a single end of the Pipe Connection (328), an external thread is provided, and one side of a plurality of opening grooves (332) communicates with the inner wall of the Pipe Connection (328). One end of the drainage tube (330) communicates with the outside by passing through one end of the threaded cap (328), which is put onto the external thread of the tube (328).

2.The postoperative drainage device for surgical nursing according to claim 1described as having a fixed connection between the front side of the sewage disposal container (312) and a transparent window (316), and further described as having this front side fixedly linked to an additional transparent window (316). You will get a player (340) and a remote controller (318).

3.The postoperative drainage device for surgical nursing according to claim 1, described as follows: a door (308) is permanently attached to a door knob (310), and the second handle (7) is mounted to the top of the sewage disposal container (312).

4.The postoperative drainage device for surgical nursing according to claim 1, description: a drainage tube (324), having an external thread on one end, and an interior thread on the other, on the wall of the sealing cover (326). Thread, the sealing cap's (326) internal thread is threadedly attached to the exterior thread (324) of the drain tube.
5.The postoperative drainage device for surgical nursing according to claim 1, has a threaded cap (328) fastened to the connection (328) between the connecting tube and the drainage tube (330).

6.The postoperative drainage device for surgical nursing according to claim 1, The Container For Sewage Disposal (312) is defined by its sloping bottom inner wall.

7.The postoperative drainage device for surgical nursing according to claim 2, characterised by having cables connecting the storage battery (334), which is electrically coupled to the Remote Controller (318), and the battery itself. The player (340), the automatic liquid level sensor (336), and the resistor of pressure (320) are all electrically linked.