CN214318815U

CN214318815U - Swelling anesthesia diverging device

Info

Publication number: CN214318815U
Application number: CN202022515751.0U
Authority: CN
Inventors: 邹锐
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-10-01
Anticipated expiration: 2030-11-04

Abstract

The utility model provides a swelling anesthesia diverging device, which comprises a main body part, a liquid inlet component used for connecting a first infusion pipeline and a plurality of liquid outlet components respectively used for connecting a plurality of second infusion pipelines, wherein the liquid inlet component and the liquid outlet components are respectively arranged on the outer surface of the main body part, and at least part of the liquid outlet components are in different directions; the liquid inlet member is internally provided with a liquid inlet channel, each liquid outlet member is internally provided with a liquid outlet channel, the main body part is internally provided with a liquid flow channel, and the liquid inlet channel and each liquid outlet channel are respectively communicated with the liquid flow channel. The utility model discloses an income liquid component introduces liquid infusion passageway to liquid in with the infusion passageway is exported respectively through a plurality of play liquid components, thereby only need insert subcutaneous depth fat layer with a plurality of syringe needles respectively with the mode of perpendicular to epidermis in local anesthesia and can pour into swelling liquid into the predetermined range, reach painless swelling's purpose.

Description

Swelling anesthesia diverging device

Technical Field

The embodiment of the utility model provides a relate to the medical instrument field, more specifically say, relate to a swelling anesthesia diverging device, can be used to realize the swelling anesthesia under the painless awake state.

Background

The current anesthesia methods mainly comprise: surface anesthesia, local anesthesia, lumbar anesthesia, epidural anesthesia, general anesthesia, and acupuncture pain relieving anesthesia. The general anesthesia is divided into vein general anesthesia and oral trachea cannula general anesthesia, which makes patients completely have no pain, no consciousness and no touch under the anesthesia state.

In conventional liposuction surgery, general anesthesia is generally used. However, in the process of liposuction, general anesthesia can cause the patient in an unconscious state to have complex overload of body circulation, which causes overhigh left atrial pressure, high central venous pressure (the body fluid is too much to reach more than 36 cc), pulmonary hydrops, pulmonary edema MODS, progressive ARDS (acute respiratory distress syndrome) and further pulmonary edema, cerebral edema and brain death, and any stimulation including unconsciousness and no feedback under pain stimulation, damage and rupture of neurovascular muscles under a non-stress state, so that major hemorrhage, fat particle pulmonary cerebrovascular embolism and other acute complications occur.

To avoid this, local anesthesia may be used instead of general anesthesia in liposuction hands. Local anesthesia uses local anesthetic drugs to temporarily block the conduction of painful nerve impulses in the operation area, so that the patient does not feel pain, but also feels and feels, and the patient is in a waking state and can be matched with a doctor if necessary. Compared with a general anesthesia mode, the local anesthesia mode can repeatedly administer drugs under a safe dose, prolongs the anesthesia time, and achieves the advantages of quick effect, quick metabolism, small toxic and side effects and the like.

In the existing local anesthesia of liposuction operation, a porous water injection needle is adopted to be inserted and injected in a reciprocating manner in a subcutaneous deep and shallow fat layer, namely, the water injection needle is inserted and injected in the subcutaneous deep and shallow fat layer in a mode of being basically parallel to the epidermis under the condition of blind operation. In the inserting process, the needle position of the water injection needle cannot be directly observed, so that the needle of the water injection needle touches the nervous tissue to cause pain and discomfort of an operator.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a to the injection complex operation complicacy of the anesthesia of swelling in the above-mentioned current liposuction operation, need longer operating time, operating efficiency low and increased the problem of operation risk, provide a swelling anesthesia diverging device.

The embodiment of the present invention provides a diversion device for anesthesia of swelling, which comprises a main body, a liquid inlet member for connecting a first infusion pipeline and a plurality of liquid outlet members for connecting a plurality of second infusion pipelines, wherein the liquid inlet member and the liquid outlet members are respectively disposed on the outer surface of the main body, and at least some of the liquid outlet members have different orientations;

a liquid inlet channel is formed in the liquid inlet component and communicated with a first transfusion pipeline connected to the liquid inlet component; each liquid outlet component is internally provided with a liquid outlet channel which is communicated with a second liquid conveying pipeline connected to the liquid outlet component; the main body part is internally provided with a liquid flow channel, and the liquid inlet channel and each liquid outlet channel are respectively communicated with the liquid flow channel.

Preferably, the outer surface of the main body portion includes a first end surface and a second end surface respectively located at two ends of the main body portion, and the liquid inlet member is located at the first end surface.

Preferably, the outer surface of the main body portion includes a plurality of side surfaces respectively located between the first end surface and the second end surface, and the liquid outlet member is provided on at least two side surfaces.

Preferably, the outer surface of the main body portion comprises four side surfaces respectively located between the first end surface and the second end surface, the four side surfaces are sequentially and vertically connected, and at least three side surfaces are respectively provided with the liquid outlet member.

Preferably, the liquid outlet members are respectively arranged on three side surfaces of the main body part, and three liquid outlet members are arranged on each of the three side surfaces.

Preferably, the second end face of the main body part is provided with one liquid outlet member.

Preferably, the second end face of the main body is formed by a plug-in unit detachably mounted to the main body, and the liquid outlet member of the second end face is located on the plug-in unit.

Preferably, the liquid outlet members are respectively formed by luer fittings.

Preferably, the cross-sectional areas of the liquid flow channels are respectively larger than the cross-sectional areas of the liquid outlet channels.

Preferably, a plurality of water blocking components are arranged in the liquid flow channel and are respectively used for adjusting the pressure of the liquid entering the liquid outlet channels.

The utility model discloses swelling anesthesia diverging device has following beneficial effect: introduce liquid to the infusion passageway through going into the liquid component, and export the liquid in the infusion passageway respectively through a plurality of play liquid components, thereby only need insert the subcutaneous depth fat layer with the mode of perpendicular to epidermis respectively with a plurality of syringe needles in local anesthesia and can inject the swelling liquid into the predetermined range, neither need reciprocate to twitch the syringe needle, also need not plug the syringe needle repeatedly, thereby can not touch nervous tissue, cause art person's pain and discomfort, reach painless bloated purpose.

Drawings

Fig. 1 is a schematic structural view of a tumescent anesthesia shunt device provided by an embodiment of the present invention;

fig. 2 is a schematic view of an exploded structure of a tumescent anesthesia shunt device provided by the embodiment of the present invention;

fig. 3 is a schematic view of the tumescent anesthesia shunt device provided by the embodiment of the present invention applied to liposuction tumescent anesthesia.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It is shown in combination with fig. 1 and 2 that the utility model provides a tumescence anesthesia diverging device's schematic structure diagram, this tumescence anesthesia diverging device can be applied to local anesthesia operation. The tumescent anesthesia shunt device 5 of the present embodiment includes a main body 51, a liquid inlet member 53, and a plurality of liquid outlet members 52, wherein the main body 51, the liquid inlet member 53, and the plurality of liquid outlet members 52 may be made of a metal material (e.g., medical stainless steel), the liquid inlet member 53 and the plurality of liquid outlet members 52 are respectively disposed on an outer surface of the main body 51, and at least a portion of the liquid outlet members 52 are oriented differently, so that a larger number of liquid outlet members 52 may be disposed on the main body 51.

The tumescent anesthesia shunt device 5 is connected to a first infusion line through a fluid inlet member 53 to introduce an external fluid (e.g., tumescent fluid for local anesthesia) into the tumescent anesthesia shunt device 5; and the tumescence anesthesia shunt device 5 is respectively connected with a plurality of second infusion pipelines through a plurality of liquid outlet components 52 so as to inject the liquid in the tumescence anesthesia shunt device 5 into the subcutaneous fat layer of the human body.

To facilitate connection to other equipment used in local anesthesia procedures, the plurality of tapping members 52 may each be formed of luer fittings. Of course, in practical application, the liquid outlet member 52 may also adopt other forms of joints.

The liquid inlet member 53 is internally provided with a liquid inlet channel, and the liquid inlet channel is communicated with a first liquid conveying pipeline connected to the liquid inlet member 53; each liquid outlet member 52 is internally provided with a liquid outlet channel which is communicated with a second liquid conveying pipeline connected to the liquid outlet member 52; the main body part 51 is provided with a liquid flow channel therein, and the liquid inlet channel and each liquid outlet channel are respectively communicated with the liquid flow channel, namely, external liquid (such as tumescent liquid for local anesthesia) introduced by the first infusion pipeline flows into the infusion channel through the liquid inlet channel and flows out to the second infusion pipeline through the liquid outlet channel, so that the external liquid can be injected into a plurality of parts of a human body.

Above-mentioned swelling anesthesia diverging device 5 introduces liquid to the infusion passageway through going into liquid component 53, and export the liquid in the infusion passageway respectively through a plurality of play liquid components 52, thereby only need insert subcutaneous depth fat layer with the mode of perpendicular to epidermis respectively with a plurality of syringe needles in local anesthesia and can inject the swelling liquid into the predetermined range, neither need reciprocate to twitch the syringe needle, also need not plug the syringe needle repeatedly, thereby can not touch nervous tissue, cause art person's pain and discomfort, reach painless swelling purpose.

In an embodiment of the present invention, the main body 51 of the edema anesthetic shunt device 5 is columnar, and the outer surface of the main body 51 includes a first end surface and a second end surface 512 respectively located at two ends of the main body 51 (for example, the first end surface and the second end surface 512 are respectively perpendicular to the central axis of the main body 51), and the liquid inlet member 53 is located at the first end surface. The outer surface of the main body 51 further includes a plurality of side surfaces respectively located between the first end surface and the second end surface 512 (for example, the side surfaces are respectively parallel to the central axis of the main body 51), and at least two side surfaces are provided with liquid outlet members 52.

Specifically, the cross section of the main body portion 51 may be rectangular (including rectangular with chamfer), that is, the outer surface of the main body portion 51 includes four side surfaces respectively located between the first end surface and the second end surface 512, the four side surfaces are sequentially and vertically connected, and at least three side surfaces are respectively provided with the liquid outlet members 52. In this way, it is ensured that as many liquid discharge members 52 as possible are provided on the main body portion 51.

In particular, in order to facilitate stable placement of the main body portion 51, one side surface of the main body portion 51 is a flat surface, that is, the side surface is not provided with a liquid outlet member; the other three sides of the main body 51 are respectively provided with liquid outlet members 52, and each of the three sides is provided with three liquid outlet members 52.

In addition, one liquid outlet member 52 may be provided on the second end surface 512 of the main body portion 51. Further, in order to facilitate cleaning of the main body portion 51 and also to facilitate production and processing of the main body portion 51, the liquid outlet member 52 at the second end face of the main body portion 51 is detachably fitted to the fitting opening 55 at the end portion of the main body portion 51. Specifically, the liquid outlet member 52 can be located on a plug-in member 54, the shape and size of the plug-in member 54 are matched with those of the assembling opening 55 on the main body part 51, and the plug-in member 54 is provided with a through hole matched with the liquid outlet member 52, and the through hole is used for communicating the liquid feeding channel in the main body part 51 with the liquid outlet channel of the liquid outlet member 52 on the plug-in member 54. To avoid leakage, a resilient pad may be added to the end face of the plug 54 that is plugged into the body 51.

In order to ensure that the liquid in the liquid conveying channel can relatively uniformly enter each liquid outlet channel and the liquid entering each liquid outlet channel can be output under larger pressure, the area of the cross section of the liquid outlet channel is smaller than that of the cross section of the liquid conveying channel. Furthermore, a plurality of water blocking components for adjusting the pressure of the liquid entering the plurality of liquid outlet channels may be disposed in the main body 51, and the liquid outlet pressure of the plurality of liquid outlet components may be the same through the water blocking components.

As shown in fig. 3, it is a schematic view of the anesthesia shunt device for fat absorption and edema anesthesia provided by the embodiment of the present invention. Wherein, the 1 accessible infusion pipeline 2 of collection liquid device is connected with

drive arrangement

3, and 3 rethread first infusion pipelines 4 of drive arrangement are connected with tumescence anesthesia diverging device 5, and tumescence anesthesia diverging device 5 then is connected with a plurality of syringe needles 7 respectively through many second infusion pipelines 6 (for example hose), and above-mentioned infusion pipeline 2, first infusion pipeline 4 are used for realizing the transport of tumescence liquid between collection liquid device 1, drive arrangement 3, tumescence anesthesia diverging device 5. When the driving device adopts a peristaltic pump, the infusion pipeline 2 and the first infusion pipeline 4 can be composed of a silicone tube arranged on the peristaltic pump.

The tumescent liquid in the liquid collecting device 1 is fed into the tumescent anesthesia shunt device 5 through the infusion pipeline, the driving device 3 and the first infusion pipeline 4, the number of the second infusion pipelines 6 and the number of the needles 7 can be respectively the same as the number of the liquid outlet members 52 of the tumescent anesthesia shunt device 5, so that each needle 7 is connected with one liquid outlet member 52 of the tumescent anesthesia shunt device 5 through one second infusion pipeline 6, and the tumescent liquid from the liquid collecting device 1 in the tumescent anesthesia shunt device 5 is injected into the subcutaneous fat layer through the needle 7 under the pressure effect generated by the driving device 3 (at the moment, the needle 7 is inserted into the subcutaneous fat layer).

When local anesthesia is carried out to the operator, can be in the good swelling anesthesia diverging device 5 of sterilization, second infusion pipeline 6, syringe needle 7, first infusion pipeline prepare the back, be connected to second infusion pipeline 6 with syringe needle 7 earlier, then will connect the other one end of the second infusion pipeline 6 of syringe needle 7 well and correspond respectively and connect on the play liquid component 52 of swelling anesthesia diverging device 5. The liquid inlet component of the tumescence anesthesia shunt device 5 connected with the second infusion pipeline 6 is connected with one end of a silicone tube (namely, the first infusion pipeline) of the peristaltic pump, the other end of the silicone tube is connected with the liquid collecting device 1, and then the silicone tube is arranged on the peristaltic pump. Injecting opening anesthesia and laceration into the prepared liposuction part, uniformly inserting a plurality of needles 7 into the lacerated liquid injection part, opening the peristaltic pump, adjusting the speed of the peristaltic pump, and uniformly infiltrating and injecting swelling liquid into the body through the swelling anesthesia shunt device 5 to achieve the purpose of synchronous swelling anesthesia of the deep and shallow layers.

In addition, because the water flow of the device is not directly injected, but is in a flexible infiltration mode, through more than 120 clinical cases, no case reflects pain and discomfort, and even a patient can make and receive calls, brush commander, watch movies, drink water and the like in the operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The shunt device for tumescence anesthesia is characterized by comprising a main body part, a liquid inlet component and a plurality of liquid outlet components, wherein the liquid inlet component is used for being connected with a first infusion pipeline, the liquid outlet components are respectively used for being connected with a plurality of second infusion pipelines, the liquid inlet component and the liquid outlet components are respectively arranged on the outer surface of the main body part, and at least part of the liquid outlet components are different in orientation;

2. The tumescent anesthetic shunt device according to claim 1, wherein the outer surface of the body portion includes a first end surface and a second end surface located at both ends of the body portion, respectively, and the fluid inlet member is located at the first end surface.

3. The tumescent anesthetic shunt device according to claim 2, wherein the outer surface of the main body portion includes a plurality of side surfaces respectively located between the first end surface and the second end surface, and the tapping member is provided on at least two of the side surfaces.

4. The tumescent anesthesia shunt device of claim 3, wherein the outer surface of the body portion comprises four sides respectively located between the first end surface and the second end surface, the four sides are vertically connected in sequence, and at least three sides are respectively provided with the drainage member.

5. The tumescent anesthesia shunt device of claim 4, wherein said tapping member is provided on each of three sides of said body portion, and three tapping members are provided on each of said three sides.

6. A tumescent anesthetic shunt device according to claim 2, wherein the second end surface of the body portion is provided with one of the drainage members.

7. The tumescent anesthesia shunt device of claim 6, wherein the second end face of the main body section is comprised of a socket that is removably attached to the main body section, and the tapping member of the second end face is located on the socket.

8. The tumescent anesthetic shunt device according to any one of claims 1-7, wherein a plurality of the outflow members are each constituted by a luer fitting.

9. The tumescent anesthetic shunt device according to any of the claims 1-7, characterized in that the cross-sectional area of the flow channel is larger than the cross-sectional area of a plurality of said exit channels, respectively.

10. The tumescent anesthetic shunt device according to any of the claims 1-7, wherein a plurality of water blocking members are provided in the flow channel for adjusting the pressure of the liquid entering the plurality of outlet channels, respectively.