CN109224173B - Multi-functional clinical anesthesia branch of academic or vocational study is with supplementary anaesthesia device - Google Patents

Abstract

The invention discloses an auxiliary anesthesia device for a multifunctional clinical anesthesia department, which comprises a PC client and a keyboard and mouse input device electrically connected with the PC client, wherein the PC client is also electrically connected with a device main body; the device main body comprises a sliding cylinder and a vacuum pump fixedly arranged on the outer wall of the sliding cylinder, and the vacuum pump pumps air in the device main body out through an air pumping pipe; the upper end of the sliding cylinder is also hermetically buckled with a cylinder cover. Has the advantages that: the multifunctional auxiliary anesthesia device for the clinical anesthesia department is suitable for general anesthesia operation and local anesthesia, and has the advantages of rich functions and good practicability.

Description

Multi-functional clinical anesthesia branch of academic or vocational study is with supplementary anaesthesia device

Technical Field

The invention relates to the field of medical instruments, in particular to an auxiliary anesthesia device for a multifunctional clinical anesthesia department.

Background

At present, general anesthesia and local anesthesia are anesthesia modes for surgical operations, equipment in hospitals only comprises one part, when a patient needs anesthesia, a doctor selects a proper anesthesia mode and then selects equipment, the treatment of the patient can be influenced, meanwhile, in the general anesthesia process, the respirator is easy to damage due to random placement, the medical cost is greatly increased, in addition, local medicine spraying is influenced by human factors and cannot be uniformly sprayed, and therefore the operation effect is influenced. Therefore, an auxiliary anesthesia apparatus is urgently needed to solve the above problems;

the Chinese patent with the application number of 201710342490.7 in the prior art discloses an auxiliary anesthesia device for a multifunctional clinical anesthesia department, which comprises a bottom plate, wherein fixing devices are arranged at four corners of the top end of the bottom plate, an open-source single chip microcomputer is installed on the side surface of the top end of the bottom plate through an installation frame, an anesthetic storage tank is fixed in the middle of the top end of the bottom plate, an atomizer is installed at the bottom of the inner side of the anesthetic storage tank, the anesthetic storage tank is communicated with a general anesthesia device through an atomization pipe, a first booster pump is arranged at the joint of the atomization pipe and the anesthetic storage tank, and the anesthetic storage tank is communicated with a local anesthesia device through a threaded;

the multifunctional auxiliary anesthesia device for clinical anesthesia is claimed to have two functions of local anesthesia and general anesthesia, but the anesthesia method of spraying medicine on the surface of local skin is difficult to realize the effect of local anesthesia, and the effect of local anesthesia can be realized only by long-time continuous medicine spraying even if the local anesthesia can be realized, so the practicability is poor, and the multifunctional auxiliary anesthesia device is not suitable for local anesthesia.

Disclosure of Invention

The invention aims to solve the problems that the traditional auxiliary anesthesia device for the clinical anesthesia department in the prior art is not suitable for local anesthesia, and the like. The optimal technical scheme in the technical schemes provided by the invention can realize the technical effects of suitability for general anesthesia operation and local anesthesia, rich functions, good practicability and the like, and the technical effects are described in the following.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides an auxiliary anesthesia device for a multifunctional clinical anesthesia department, which comprises a PC client and a keyboard and mouse input device electrically connected with the PC client, wherein the PC client is also electrically connected with a device main body;

the device main body comprises a sliding cylinder and a vacuum pump fixedly arranged on the outer wall of the sliding cylinder, and the vacuum pump pumps air in the device main body out through an air pumping pipe; the upper end of the sliding cylinder is also hermetically buckled with a cylinder cover;

a sliding plate is vertically and slidably mounted in the sliding barrel, a sliding column is horizontally and slidably mounted at the lower end of the sliding plate, a mounting frame is horizontally and slidably mounted on the sliding column, the sliding direction of the mounting frame is perpendicular to that of the sliding column, an injection needle head for injecting anesthetic into skin and a micro camera for observing the injection needle head by a doctor are mounted at the lower end of the mounting frame, and the micro camera is electrically connected with a PC client;

the upper end of the injection needle is communicated with a transfusion bottle through a transfusion tube, anesthetic is arranged in the transfusion bottle, and the transfusion tube is also provided with a transfusion pump.

As an important design of the scheme, the PC client is also electrically connected with a head-mounted BIS detector for detecting the anesthesia state of the patient.

As the optimization design of the scheme, the lower end of the sliding cylinder is fixedly provided with a sucker ring which is tightly attached to the surface of the skin.

As the optimized design of the scheme, a mounting box is sleeved outside the vacuum pump;

wherein, the mounting box is fixedly connected with the outer wall of the sliding barrel.

As an optimized design of the scheme, a plurality of vertical sliding chutes are vertically formed in the inner wall of the sliding barrel, wherein the plurality of vertical sliding chutes are symmetrically distributed on the inner wall of the sliding barrel, and racks are mounted on the inner wall of each vertical sliding chute;

the sliding plate is characterized in that sliding blocks which are connected with the vertical sliding grooves in an up-and-down sliding mode are fixedly installed on two side faces of the sliding plate, hub motors are installed on the sliding blocks, gear rings connected with the racks in a meshed mode are sleeved outside the hub motors, and the hub motors drive the gear rings to rotate to drive the sliding blocks and the sliding plate to slide up and down along the vertical sliding grooves.

As the optimized design of the scheme, the sliding plate is a U-shaped plate;

the two inner walls of the U-shaped plate are provided with a pair of horizontal parallel transverse sliding grooves, sliding blocks are arranged in the two transverse sliding grooves in a sliding mode, and two ends of the sliding column are inserted into the two sliding blocks respectively;

the side surface of the sliding block is provided with a hub motor, and a gear ring is tightly sleeved outside the hub motor; the gear rack meshed with the gear ring is mounted at the bottom of the transverse sliding groove and parallel to the length direction of the transverse sliding groove, and the hub motor rotates to drive the gear ring to rotate to drive the sliding block and the sliding column to horizontally slide along the transverse sliding groove.

As the optimized design of the scheme, the number of the sliding columns is two;

wherein, one end of each of the two sliding columns is inserted into the same sliding block;

wherein the mounting rack is a U-shaped rack;

the upper end of the inside of the U-shaped frame is provided with a hub motor, and the outside of the hub motor is provided with a gear ring; a toothed plate in meshed connection with the gear ring is mounted on the lower surface of the sliding plate; the hub motor rotates to drive the gear ring to rotate to drive the mounting frame to slide along the sliding column.

By adopting the technical scheme, when in use, the upper end of an infusion tube connected with an injection needle is inserted into the mouth of a transfusion bottle, then an infusion pump is started to pump the anesthetic in the transfusion bottle into the injection needle through the infusion tube so as to exhaust the air in the infusion tube and the injection needle, then the infusion pump is controlled to temporarily pause, then the device body is held by hands and placed at the position to be injected on the skin surface of a patient, after the position is found, a vacuum pump is started, the air in a sliding barrel is pumped away through an exhaust tube, so that the device body is tightly adsorbed on the skin surface, then a micro camera is started, a doctor sits in front of a PC client to observe a video picture shot by the micro camera displayed on a display screen (the micro camera transmits shot video information to the PC and displays the video information on the display screen after the information is processed by the PC, so that the doctor can sit in front of the computer to watch the video), meanwhile, a doctor operates a key mouse input device to indicate (or click) the position of the anesthetic injected on the skin surface on a display screen, a PC client controls a hub motor to rotate according to an operation instruction input by the doctor to drive a gear ring to rotate, so as to drive a sliding plate, a sliding column and a mounting rack to move and adjust the position of an injection needle, the injection needle moves right above the injection position, the injection needle descends under the drive of the sliding plate to prick into the skin, the PC client controls an infusion pump to continue to work at the same time, so that the anesthetic is injected into the skin of a patient, after the injection is finished, the PC client controls the hub motor to rotate, the sliding plate is driven to ascend through the rotation of the gear ring to drive the injection needle to leave the skin, then a vacuum pump is closed, and the device body is manually pulled out of the skin surface of the patient, so that the whole anesthetic injection, the anesthesia positions are different, in addition, general anesthesia or local anesthesia can be completed through injection, so the anesthesia injection device not only can complete local anesthesia injection operation, but also can complete general anesthesia injection operation, in the whole injection process, the PC client controls the micro camera, the hub motor, the vacuum pump and the infusion pump to act, so an anesthesia doctor does not need to complete injection by hands, and only needs to sit in front of the PC client to operate the PC client through a keyboard and mouse input device to send a number instruction to the hub motor, the vacuum pump and the infusion pump, the operation is simple and convenient, the time and the labor are saved, the labor intensity of the anesthesia doctor is effectively reduced, and the practicability is good.

Has the advantages that: the multifunctional auxiliary anesthesia device for the clinical anesthesia department is suitable for general anesthesia operation and local anesthesia, and has the advantages of rich functions and good practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 of the present invention;

FIG. 3 is an internal structural view of the apparatus main body of the present invention;

FIG. 4 is a top view of the device body of the present invention with the cartridge cover removed;

FIG. 5 is a front view of the skateboard of the present invention;

FIG. 6 is a top view of the skateboard of the present invention;

FIG. 7 is a cross-sectional view of FIG. 6 of the present invention;

FIG. 8 is a left side view of the skateboard of the present invention;

fig. 9 is a partial enlarged view of fig. 8 of the present invention.

The reference numerals are explained below:

1. a PC client; 2. a keyboard and mouse input device; 3. mounting a box; 4. a head-mounted BIS detector; 5. a device main body; 6. an infusion pump; 7. a transfusion tube; 8. hanging a bottle; 9. a slide cylinder; 10. a sucker ring; 11. a cylinder cover; 12. a vertical chute; 13. a slide plate; 14. a rack; 15. a slider; 16. a ring gear; 17. a hub motor; 18. a vacuum pump; 19. an air exhaust pipe; 20. a toothed plate; 21. a traveler; 22. a mounting frame; 23. a miniature camera; 24. an injection needle; 25. a transverse chute.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1, the auxiliary anesthesia apparatus for a multifunctional clinical anesthesia department provided by the invention comprises a PC client 1 and a keyboard and mouse input device 2 electrically connected with the PC client 1, wherein the keyboard and mouse input device 2 is convenient for an anesthesiologist to operate the PC client 1 to control an injection needle 24 to be pricked into skin to inject anesthetic into muscles, blood vessels and vertebral canals, and the PC client 1 is further electrically connected with an apparatus main body 5;

referring to fig. 2-3, the device main body 5 comprises a sliding cylinder 9 and a vacuum pump 18 fixedly installed on the outer wall of the sliding cylinder 9, the sliding cylinder 9 is used for installing a sliding plate 13, so that the sliding plate 13 can drive an injection needle 24 to move up and down conveniently, the vacuum pump 18 is used for pumping the inside of the sliding cylinder 9 into negative pressure, so that the device main body 5 can be tightly sucked on the surface of the skin without falling off, and the vacuum pump 18 pumps the air in the device main body 5 through an air pumping pipe 19; the upper end of the sliding barrel 9 is also in sealing and buckling connection with a barrel cover 11, the barrel cover 11 is used for sealing the upper end of the sliding barrel 9, and after the barrel cover 11 is taken down, the sliding plate 13 is conveniently taken out of the sliding barrel 9;

referring to fig. 3-9, a slide plate 13 is vertically slidably mounted in the slide cylinder 9, the slide plate 13 is used for driving an injection needle 24 to move up and down to inject anesthetic into the skin of a patient, a slide column 21 is horizontally slidably mounted at the lower end of the slide plate 13, the slide column 21 is used for horizontally moving the injection needle 24 left and right to conveniently adjust the position of the injection needle 24, a mounting rack 22 is horizontally slidably mounted on the slide column 21, the mounting rack 22 is used for moving the injection needle 24 back and forth to conveniently adjust the position of the injection needle 24, the sliding direction of the mounting rack 22 is perpendicular to the sliding direction of the slide column 21, the injection needle 24 used for injecting anesthetic into the skin and a micro camera 23 used for a doctor to observe the injection needle 24 are mounted at the lower, thereby being convenient for the anaesthetist to judge the position and the depth of the injection needle 24 penetrating into the skin, and the micro camera 23 is electrically connected with the PC client 1;

referring to fig. 1, the upper end of the injection needle 24 is communicated with a transfusion bottle 8 through a transfusion tube 7, the transfusion bottle 8 is filled with anesthetic, the transfusion tube 7 is further provided with a transfusion pump 6, and the transfusion pump 6 is used for accelerating the anesthetic in the transfusion bottle 8 to flow through the transfusion tube 7 and enter the injection needle 24.

As an optional embodiment, the PC client 1 is further electrically connected with a head-mounted BIS detector 4 for detecting the anesthesia state of the patient, so that the anesthesia doctor can conveniently and accurately grasp the anesthesia state of the patient, and overanesthesia or overless anesthesia is avoided.

The lower end of the sliding cylinder 9 is fixedly provided with a sucking disc ring 10 which is tightly attached to the surface of the skin, so that the device main body 5 can be conveniently adsorbed on the surface of the skin and cannot slide.

The installation box 3 is sleeved outside the vacuum pump 18;

wherein, the mounting box 3 is fixedly connected with the outer wall of the sliding cylinder 9, and the mounting box 3 is used for mounting a protective vacuum pump 18.

A plurality of vertical sliding grooves 12 are vertically formed in the inner wall of the sliding barrel 9, wherein the plurality of vertical sliding grooves 12 are symmetrically distributed on the inner wall of the sliding barrel 9, and a rack 14 is mounted on the inner wall of each vertical sliding groove 12;

the two side surfaces of the sliding plate 13 are fixedly provided with sliding blocks 15 which are connected with the vertical sliding groove 12 in an up-and-down sliding mode, the sliding blocks 15 are provided with hub motors 17, gear rings 16 which are connected with the racks 14 in a meshed mode are sleeved outside the hub motors 17, the hub motors 17 drive the gear rings 16 to rotate to drive the sliding blocks 15 and the sliding plate 13 to slide up and down along the vertical sliding groove 12, and therefore the gear rings 16 can drive the sliding plate 13 to move up and down along the vertical sliding groove 12 due to the fact that the gear rings 16 are meshed with the racks 14 when the hub motors 17 drive the gear rings 16 to rotate.

The sliding plate 13 is a U-shaped plate, and the U-shaped plate is conveniently provided with a transverse sliding chute 25 for arranging a sliding column 21;

a pair of horizontal parallel transverse sliding grooves 25 are formed in the two inner walls of the U-shaped plate, sliding blocks 15 are slidably mounted in the two transverse sliding grooves 25, and two ends of a sliding column 21 are respectively inserted into the two sliding blocks 15;

wherein, the side surface of the slide block 15 is provided with a hub motor 17, and the outside of the hub motor 17 is tightly sleeved with a gear ring 16; the rack 14 meshed with the gear ring 16 is mounted on the bottom of the transverse sliding groove 25, the rack 14 is parallel to the length direction of the transverse sliding groove 25, the hub motor 17 rotates to drive the gear ring 16 to rotate to drive the sliding block 15 and the sliding column 21 to horizontally slide along the transverse sliding groove 25, and therefore, the gear ring 16 rotates along with the rotation of the hub motor 17, and the gear ring 16 is meshed with the rack 14, so that the gear ring 16 rotates to drive the sliding column 21 to move along the transverse sliding groove 25, and the left and right movement of the injection needle 24 is achieved.

The number of the sliding columns 21 is two;

one end of each of the two sliding columns 21 is inserted into the same sliding block 15, the two sliding columns 21 can ensure that the mounting rack 22 does not rotate around the sliding columns 21, and when one sliding column 21 is arranged, the mounting rack 22 can easily rotate around the sliding column 21, so that the injection needle 24 is inclined;

the mounting frame 22 is a U-shaped frame, and the hub motor 17 and the gear ring 16 are conveniently arranged on the U-shaped frame;

wherein, the upper end of the inside of the U-shaped frame is provided with a hub motor 17, and the outside of the hub motor 17 is provided with a gear ring 16; a toothed plate 20 in meshed connection with the gear ring 16 is mounted on the lower surface of the sliding plate 13; the hub motor 17 rotates to drive the gear ring 16 to rotate so as to drive the mounting frame 22 to slide along the sliding column 21, so that the injection needle 24 moves back and forth.

By adopting the technical scheme, when in use, the upper end of an infusion tube 7 connected with an injection needle 24 is inserted into the mouth of an infusion bottle 8, then an infusion pump 6 is started to pump the anesthetic in the infusion bottle 8 into the injection needle 24 through the infusion tube 7 so as to exhaust the air in the infusion tube 7 and the injection needle 24, then the infusion pump 6 is controlled to temporarily pause, then the device main body 5 is held by hands and placed at the position to be injected on the skin surface of a patient, after the position is found, a vacuum pump 18 is started, the air in a sliding barrel 9 is pumped away through an exhaust tube 19, so that the device main body 5 is tightly adsorbed on the skin surface, then a micro camera 23 is started, a doctor sits in front of a PC client 1 to observe a video picture shot by the micro camera 23 displayed on a display screen (the micro camera 23 transmits the shot video information to a PC, the video information is processed by the PC and then displayed on the display screen, so that a doctor can watch a video by sitting in front of a computer), meanwhile, the doctor operates the key mouse input device 2 to indicate (or click) the position of the anesthetic injected on the skin surface on the display screen, the PC client 1 controls the hub motor 17 to rotate to drive the gear ring 16 to rotate according to the operation instruction input by the doctor, so as to drive the sliding plate 13, the sliding column 21 and the mounting frame 22 to move to adjust the position of the injection needle 24, so that the injection needle 24 moves to be right above the injection position, then the injection needle 24 descends under the drive of the sliding plate 13 to prick into the skin, meanwhile, the PC client 1 controls the infusion pump 6 to continue working, so as to inject the anesthetic into the skin of the patient, after the injection is finished, the PC client 1 controls the hub motor 17 to rotate to drive the sliding plate 13 to ascend through the gear ring 16 to drive the injection needle 24 to leave the skin, then, the vacuum pump 18 is closed, and the device main, the whole anesthetic injection work is finished, the anesthesia positions are different when the injection positions are different, and in addition, general anesthesia or local anesthesia can be finished through injection, so that the local anesthesia injection work and the general anesthesia injection work can be finished, in the whole injection process, the PC client 1 controls the micro camera 23, the hub motor 17, the vacuum pump 18 and the infusion pump 6 to act, an anaesthetist does not need to finish injection by hands, and the PC client 1 is operated to send commands to the hub motor 17, the vacuum pump 18 and the infusion pump 6 only through the keyboard and mouse input equipment 2 in front of the PC client 1, so that the operation is simple, the time and the labor are saved, the labor intensity of the anaesthetist is effectively reduced, and the practicability is good.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (4)

1. The utility model provides a multi-functional clinical anesthesia branch of academic or vocational study is with supplementary anaesthesia device, includes PC client and the keyboard mouse input device who is connected with this PC client electricity, its characterized in that: the PC client is also electrically connected with the device main body;

the device main body comprises a sliding cylinder and a vacuum pump fixedly arranged on the outer wall of the sliding cylinder, and the vacuum pump pumps air in the device main body out through an air pumping pipe; the upper end of the sliding cylinder is also hermetically buckled with a cylinder cover;

a sliding plate is vertically and slidably mounted in the sliding barrel, a sliding column is horizontally and slidably mounted at the lower end of the sliding plate, a mounting frame is horizontally and slidably mounted on the sliding column, the sliding direction of the mounting frame is perpendicular to that of the sliding column, an injection needle head for injecting anesthetic into skin and a micro camera for observing the injection needle head by a doctor are mounted at the lower end of the mounting frame, and the micro camera is electrically connected with a PC client;

the upper end of the injection needle is communicated with a transfusion bottle through a transfusion tube, anesthetic is filled in the transfusion bottle, and the transfusion tube is also provided with a transfusion pump;

a plurality of vertical sliding grooves are vertically formed in the inner wall of the sliding cylinder, wherein the plurality of vertical sliding grooves are symmetrically distributed in the inner wall of the sliding cylinder, and a rack is mounted on the inner wall of each vertical sliding groove;

the two side surfaces of the sliding plate are fixedly provided with sliding blocks which are connected with the vertical sliding groove in an up-and-down sliding mode, the sliding blocks are provided with hub motors, gear rings which are meshed and connected with the racks are sleeved outside the hub motors, and the hub motors rotate to drive the gear rings to rotate to drive the sliding blocks and the sliding plate to slide up and down along the vertical sliding groove;

the sliding plate is a U-shaped plate;

the two inner walls of the U-shaped plate are provided with a pair of horizontal parallel transverse sliding grooves, sliding blocks are arranged in the two transverse sliding grooves in a sliding mode, and two ends of the sliding column are inserted into the two sliding blocks respectively;

the side surface of the sliding block is provided with a hub motor, and a gear ring is tightly sleeved outside the hub motor; a rack meshed with the gear ring is mounted on the bottom of the transverse sliding groove and parallel to the length direction of the transverse sliding groove, and the hub motor rotates to drive the gear ring to rotate so as to drive the sliding block and the sliding column to horizontally slide along the transverse sliding groove;

the number of the sliding columns is two;

wherein, one end of each of the two sliding columns is inserted into the same sliding block;

wherein the mounting rack is a U-shaped rack;

the upper end of the inside of the U-shaped frame is provided with a hub motor, and the outside of the hub motor is provided with a gear ring; a toothed plate in meshed connection with the gear ring is mounted on the lower surface of the sliding plate; the hub motor rotates to drive the gear ring to rotate to drive the mounting frame to slide along the sliding column.

2. The auxiliary anesthesia device for the multifunctional clinical anesthesia department as claimed in claim 1, wherein: the PC client is also electrically connected with a head-mounted BIS detector for detecting the anesthesia state of the patient.

3. The auxiliary anesthesia device for the multifunctional clinical anesthesia department as claimed in claim 1, wherein: and a sucking disc ring which is tightly attached to the surface of the skin is fixedly arranged at the lower end of the sliding cylinder.

4. The auxiliary anesthesia device for the multifunctional clinical anesthesia department as claimed in claim 1, wherein: the vacuum pump is externally sleeved with a mounting box;

wherein, the mounting box is fixedly connected with the outer wall of the sliding barrel.

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