CN113209415B

CN113209415B - Automatic bracelet of dosing that intensive care therapy used

Info

Publication number: CN113209415B
Application number: CN202110552760.3A
Authority: CN
Inventors: 钟山
Original assignee: Second Affiliated Hospital Army Medical University
Current assignee: Second Affiliated Hospital Army Medical University
Priority date: 2021-05-20
Filing date: 2021-05-20
Publication date: 2022-08-30
Anticipated expiration: 2041-05-20
Also published as: CN113209415A

Abstract

The invention belongs to the field of emergency medical appliances, and particularly relates to an automatic dosing wristband for intensive care. The utility model provides an automatic bracelet of dosing that intensive care therapy used, includes the rubber tube, still includes: the connecting buckle is divided into an inserting part and a buckling part, and the inserting part and the buckling part are respectively arranged at two ends of the rubber pipe; the inserting part is connected with the rubber tube in a sliding mode, and the buckling part is fixedly connected with the rubber tube; the control end is fixedly arranged on the buckling part and communicated with the inside of the rubber tube; the two arc-shaped clamping sleeves are sleeved on the rubber tube, are connected with the rubber tube in a sliding manner and are respectively used for determining the positions of the styloid process of the radius and the styloid process of the ulna on the wrist; the administration component is arranged on the rubber tube and fixedly connected with the rubber tube. The utility model provides a bracelet can take place emergency at the patient, injects the patient at the medicament of medicament package with the prestore internal, strives for the time for the patient for medical personnel have more time to expand the treatment to the patient.

Description

Automatic bracelet of dosing that intensive care therapy used

Technical Field

The invention belongs to the field of emergency medical appliances, and particularly relates to an automatic dosing wristband for intensive care.

Background

Intensive care therapy refers to the intensive treatment and nursing of various critical patients by applying various advanced medical technologies and modern monitoring and rescuing equipment. To ensure the survival and the subsequent life quality of the patient to the maximum extent. Patients in need of intensive care are monitored in an intensive care unit, various devices for monitoring vital signs of the patients exist in the intensive care unit, and general medical staff can confirm the state of the patients through data on the devices and the condition that the patients can be observed.

Along with the development of the existing science and technology, the Internet of things is also set in the intensive care unit, and the purpose of remote monitoring of patients in the intensive care unit is realized. However, the condition of the patient in the intensive care unit can be worsened at any time, and even the life safety is threatened, although the condition of the patient in the intensive care unit can be known more timely by the application of the Internet of things in the intensive care unit, the time is required from the occurrence of the condition of the patient to the treatment or the relief of the patient, and the time is uncontrollable, so the patient can also die or suffer from irreversible damage because the patient cannot be treated timely.

Disclosure of Invention

Aiming at the technical problems, the invention provides an automatic dosing bracelet for intensive care.

In order to achieve the above object, the technical solution adopted by the invention is that an automatic drug administration bracelet for intensive care comprises a rubber tube, and further comprises: the connecting buckle is divided into an inserting part and a buckling part, and the inserting part and the buckling part are respectively arranged at two ends of the rubber pipe; the inserting part is connected with the rubber tube in a sliding manner, and the buckling part is fixedly connected with the rubber tube; the control end is fixedly arranged on the buckling part and communicated with the inside of the rubber tube; the two arc-shaped cutting sleeves are sleeved on the rubber tube, are connected with the rubber tube in a sliding manner and are respectively used for determining the positions of the radial styloid process and the ulnar styloid process on the wrist; the administration component is arranged on the rubber tube and is fixedly connected with the rubber tube.

Preferably, the control terminal includes: the power supply module is arranged in the buckling part; the central controller is arranged in the buckling part and is electrically connected with the power supply module; the miniature air pump is arranged on the buckling part, is electrically connected with the central controller and the power supply module, and is communicated with the inside of the rubber tube; the communication module is arranged in the buckle part and is electrically connected with the central controller; and the air pressure sensor is arranged in the rubber tube and is electrically connected with the central control.

Preferably, the administration set comprises: one end of the hemostatic component extends into the rubber tube, and the other end of the hemostatic component is positioned outside the rubber tube and is jointed with the skin of the patient; and the injection assembly is positioned at the position corresponding to the hemostasis assembly, one end of the injection assembly extends into the rubber tube, and the other end of the injection assembly is positioned outside the rubber tube.

Preferably, the hemostatic assembly comprises: one end of the first pipe body extends into the rubber pipe and is connected with the rubber pipe in a sealing way; the hemostatic filler is filled in the first tube body and is simultaneously contacted with the skin of the patient with the other end of the first tube body; the first puncture membrane is arranged at one end of the first tube body, which is positioned in the rubber tube, and is connected with the first tube body in a sealing manner.

Preferably, the injection assembly comprises: the second tube body is positioned at the position corresponding to the hemostasis assembly, and one end of the second tube body penetrates into the rubber tube from the other side of the rubber tube and is connected with the rubber tube in a sealing manner; the second puncture membrane is arranged at one end of the second pipe body, which is positioned in the rubber pipe, and is connected with the second pipe body in a sealing way; the medicament bag is arranged at the other end of the second pipe body and is in sliding connection with the second pipe body; and the medicament boosting structure is fixedly connected with the rubber tube and used for pushing the medicament bag.

Preferably, the kit comprises: the medicament containing box is arranged in the second pipe body, is connected with the second pipe body in a sliding way and is used for containing medicaments; the puncture needle is arranged at one end of the medicament box, and the needle point penetrates through the second puncture membrane and extends into the rubber tube; the promotion head sets up the other end at the medicament box, and one end and medicament box sealing connection, the other end pushes away the structure with the medicament and offsets.

Preferably, the medicament pushing structure comprises: two connecting pieces which are made of flexible inelastic materials are arranged between the second pipe body and the rubber pipe, one end of each connecting piece is fixedly connected with the second pipe body, and the other end of each connecting piece is fixedly connected with the rubber pipe; two connectors are arranged and are respectively arranged on the corresponding connecting sheets and are fixedly connected with the connecting sheets; the adjustable connecting band is an inelastic and adjustable band-shaped body, and two ends of the adjustable connecting band are detachably connected with the corresponding connectors.

Preferably, the two connecting pieces are respectively arranged on two sides of the second pipe body along the extending direction of the rubber pipe.

Preferably, the first pipe body is provided with a vent pipe, and the vent pipe is arranged at one end of the first pipe body, which is positioned in the rubber pipe, and is used for communicating the rubber pipes on two sides of the first pipe body.

The beneficial effects created by the invention are as follows: the bracelet of this application can take place emergency when the patient, injects the medicament of prestoring at the medicament package to the patient internal, strives for the time for the patient for medical personnel have more time to launch the treatment to the patient.

Drawings

In order to more clearly illustrate the invention in its specific embodiments, reference will now be made briefly to the accompanying drawings, which are used in the detailed description of the invention. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

FIG. 1 is a schematic side view of the hand ring in an inflated state

FIG. 2 is a schematic view of the side structure of the hand ring in the air-extracting state

FIG. 3 is a side view of the medicine bag

FIG. 4 is an enlarged cross-sectional view of the administration set

FIG. 5 is a connection diagram of control terminals

Reference numerals:

1-plug part, 2-buckle part, 3-rubber tube, 4-arc cutting sleeve, 5-hemostatic assembly, 51-first tube body, 52-first puncture membrane, 53-hemostatic filler, 6-administration assembly, 61-second tube body, 62-second puncture membrane, 631-pushing head, 632-medicament containing box, 633-puncture needle, 71-connecting sheet, 72-adjustable connecting belt, 73-connecting head, 81-power supply module, 82-central controller, 83-micro air pump, 84-pressure sensor, 85-communication module.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

The utility model provides an automatic bracelet of dosing that intensive care therapy used, includes rubber tube 3, still includes: connector link, control end, arc cutting ferrule 4 and administration subassembly 6. The connection buckle is an inserting part 1 and a buckling part 2, wherein the inserting part 1 and the buckling part 2 are respectively arranged at two ends of the rubber tube 3. The inserting part 1 is connected with the rubber tube 3 in a sliding mode, and the buckling part 2 is fixedly connected with the rubber tube 3. The two arc-shaped cutting sleeves 4 are sleeved on the rubber tube 3, are connected with the rubber tube 3 in a sliding mode and are used for determining the positions of the radial styloid process and the ulnar styloid process on the wrist respectively.

The control end is fixedly arranged on the buckling part 2 and is communicated with the inside of the rubber tube 3. The control end includes: a power module 81, a central controller 82, a micro air pump 83, a communication module 85 and an air pressure sensor. The power module 81 is installed in the buckle 2. The central controller 82 is installed in the buckle part 2 and electrically connected to the power module 81. The micro air pump 83 is installed on the buckle part 2, electrically connected with the central controller 82 and the power module 81, and communicated with the inside of the rubber tube 3. The communication module 85 is installed in the buckle 2 and electrically connected to the central controller 82. The air pressure sensor is arranged in the rubber tube 3 and is electrically connected with the central control.

The administration component 6 is arranged on the rubber tube 3 and is fixedly connected with the rubber tube 3. The dosing assembly 6 comprises: a haemostatic assembly 5 and an injection assembly. One end of the hemostatic component 5 extends into the rubber tube 3, and the other end is positioned outside the rubber tube 3 and is attached to the skin of the patient.

The hemostatic assembly 5 comprises: a first tube 51, a hemostatic filler 53, and a first puncture membrane 52. One end of the first pipe 51 extends into the rubber tube 3 and is connected with the rubber tube 3 in a sealing manner. The first pipe 51 is provided with a vent pipe, which is arranged at one end of the first pipe 51 located in the rubber tube 3 and is used for communicating the rubber tubes 3 at two sides of the first pipe 51. The hemostatic packing 53 is filled in the first tube 51 and is in contact with the skin of the patient simultaneously with the other end of the first tube 51. The first puncture membrane 52 is disposed at one end of the first tube 51 in the rubber tube 3, and is connected to the first tube 51 in a sealing manner.

The injection component is positioned at the position corresponding to the hemostasis component 5, one end of the injection component extends into the rubber tube 3, and the other end of the injection component is positioned outside the rubber tube 3. The injection assembly comprises: second body 61, second puncture membrane 62, medicament package and medicament boosting structure. The second tube 61 is located at a position corresponding to the hemostatic assembly 5, and one end of the second tube penetrates into the rubber tube 3 from the other side of the rubber tube 3 and is connected with the rubber tube 3 in a sealing manner. The second puncture membrane 62 is disposed at one end of the second tube 61 located in the rubber tube 3, and is connected to the second tube 61 in a sealing manner. The medicine bag is mounted on the other end of the second tube 61 and is slidably connected to the second tube 61.

The medicament pack comprises: a medicament containing cartridge 632, a puncture needle 633 and a pusher head 631. The medicament containing cassette 632 is mounted in the second tube 61 in sliding connection with the second tube 61 for containing the medicament. The puncture needle 633 is arranged at one end of the medicament cartridge, and the needle tip penetrates through the second puncture membrane 62 and extends into the rubber tube 3. The pushing head 631 is disposed at the other end of the medicine box, one end of which is connected to the medicine box in a sealing manner, and the other end of which is abutted to the medicine pushing structure.

And the medicament boosting structure is fixedly connected with the rubber tube 3 and used for boosting the medicament bag. The medicament pushing structure includes: a connecting piece 71, a connecting head 73 and an adjustable connecting belt 72. The connecting piece 71 is made of two flexible inelastic materials and is installed between the second pipe body 61 and the rubber tube 3, one end of the connecting piece is fixedly connected with the second pipe body 61, and the other end of the connecting piece is fixedly connected with the rubber tube 3. The two connection pieces 71 are respectively provided on both sides of the second pipe body 61 along the extending direction of the rubber tube 3. The connectors 73 are two and are respectively installed on the corresponding connecting pieces 71 and fixedly connected with the connecting pieces 71. The adjustable connecting band 72 is an inelastic and adjustable band, and both ends are detachably connected to the corresponding connecting heads 73.

The utility model provides a bracelet can take place emergency at the patient, injects the patient at the medicament of medicament package with the prestore internal, strives for the time for the patient for medical personnel have more time to expand the treatment to the patient.

When in use, the medical staff adjusts the connecting buckle, so that the length of the rubber tube 3 conforms to the length of the wrist of the patient. The arc shaped ferrule 4 is adjusted so that the arc shaped ferrule 4 is positioned at the location of the radius styloid and ulnar styloid on the wrist of the patient and so that the end of the first tube body 51 facing the skin of the patient is positioned at the location where the injection is desired. Aerify in to rubber tube 3 through the control end for 3 inflation of rubber tube, because there is arc cutting ferrule 4's supporting effect, rubber tube 3 can not cause the oppression to the patient towards one side of patient's skin, have avoided causing the problem that patient's hand blood circulation is not smooth because of the oppression.

When the air is inflated to a certain degree, a doctor sets the trigger condition of the control end and connects the control end with the Internet of things in the intensive care unit, so that the control end can receive the detection data of each device. After the setting is accomplished, the doctor drives out the first aid medicine, fills the first aid medicine to the medicament package, inserts the one end that second body 61 is located the rubber tube 3 outside with the medicament package again. The medicine accommodating case on the medicine pack is pressed so that the puncture needle 633 penetrates the second puncture film 62 into the rubber tube 3. Since the second puncture film 62 is of a rubber structure, a slight air leakage occurs immediately after puncturing, but since the air leakage occurs, the pressure of the second puncture film 62 against the puncture needle 633 increases, so that the rubber tube 3 can restore the sealing effect again.

Next, one end of the adjustable connecting band 72 is connected to the connecting head 73, and the length of the adjustable connecting band 72 is adjusted according to the expansion of the rubber tube 3, so that when the other end of the adjustable connecting band 72 is connected to the connecting head 73, the middle part of the adjustable connecting band 72 can generate slight pressure on the pushing head 631, but the pushing head 631 cannot be displaced.

When the control end accords with the trigger condition that the doctor set up through the detection data that receive each equipment, the miniature air pump 83 of control end control is taken out the gas in with rubber tube 3, along with miniature air pump 83's pumping, can make whole rubber tube 3 retract, and then makes second body 61 be close to first body 51 gradually, also can make pjncture needle 633 be close to first puncture membrane 52 gradually simultaneously. Under the effect of the retraction force of the rubber tube 3 and the atmospheric pressure, the puncture needle 633 can penetrate through the first penetration membrane and pierce into the skin, the end portions of the first tube body 51 and the second tube body 61 are abutted, so that the second tube body 61 cannot continue to descend, but at the moment, the rubber tube 3 can continue to contract due to air suction of the micro air pump 83, finally, two surfaces of the rubber tube 3 are attached together, at the moment, the connecting sheet 71 can move downwards, so that the path between the two connecting heads 73 is increased, and further, the pressure of the adjustable connecting sheet 72 on the push head 631 is increased, so that the push head 631 moves downwards, and the medicament is pushed into the patient.

After the air is pumped for a period of time, the control end controls the micro air pump 83 to inflate the rubber tube 3 again, so that the rubber tube 3 expands, the second tube 61 moves upwards under the driving of the rubber tube 3, and the puncture needle 633 pushes out the skin of the patient. At this time, the hemostatic filler 53 in the first tube 51 receives atmospheric pressure because air leaks from the hole pierced by the puncture needle 633 in the first penetrating membrane due to the increase of the air pressure. The general hemostatic filler 53 is cotton, so the cotton is gradually compressed under the pressure of air pressure, and then the hemostatic filler 53 is pressed at the needle hole of the patient by the air pressure, so that the bleeding of the needle hole can be effectively prevented, and the needle hole can be well repaired by platelets.

The position of subassembly 6 of dosing in patient's wrist department can be fixed in the existence of arc cutting ferrule 4 in this application, can avoid the random rotation of rubber tube 3 and can prevent that rubber tube 3 from causing heavier oppression to patient's wrist blood vessel under the gas filled state after rubber tube 3 aerifys moreover.

During the puncturing process, the pressure of the second penetrating film on the puncturing needle 633 can be gradually increased along with the reduction of the air pressure, the situation that the puncturing needle 633 backs up when the puncturing needle 633 passes through the first puncturing film 52 can be prevented, and the second penetrating film can also play a sealing role on the rubber tube 3.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same. While the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: it is also possible to modify the solutions described in the previous embodiments or to substitute some or all of them with equivalents. The modifications or the substitutions do not make the essence of the corresponding technical solution depart from the scope of the technical solution of the embodiments of the present invention, and the technical solution is covered by the claims and the specification of the present invention.

Claims

1. The utility model provides an automatic bracelet of dosing that intensive care therapy used, includes the rubber tube, its characterized in that still includes:

the connecting buckle is divided into an inserting part and a buckling part, and the inserting part and the buckling part are respectively arranged at two ends of the rubber pipe;

the inserting part is connected with the rubber tube in a sliding manner, and the buckling part is fixedly connected with the rubber tube;

the control end is fixedly arranged on the buckling part and communicated with the inside of the rubber tube;

the two arc-shaped clamping sleeves are sleeved on the rubber tube, are connected with the rubber tube in a sliding manner and are respectively used for determining the positions of the styloid process of the radius and the styloid process of the ulna on the wrist;

the administration component is arranged on the rubber tube and fixedly connected with the rubber tube;

the control end comprises:

the power supply module is arranged in the buckling part;

the central controller is arranged in the buckling part and is electrically connected with the power supply module;

the miniature air pump is arranged on the buckling part, is electrically connected with the central controller and the power supply module, and is communicated with the inside of the rubber tube;

the communication module is arranged in the buckle part and is electrically connected with the central controller;

the air pressure sensor is arranged in the rubber tube and is electrically connected with the central control;

the administration set comprises:

one end of the hemostatic component extends into the rubber tube, and the other end of the hemostatic component is positioned outside the rubber tube and is jointed with the skin of the patient;

the injection assembly is positioned at the position corresponding to the hemostasis assembly, one end of the injection assembly extends into the rubber tube, and the other end of the injection assembly is positioned outside the rubber tube;

the injection assembly comprises:

the second tube body is positioned at the position corresponding to the hemostasis assembly, and one end of the second tube body penetrates into the rubber tube from the other side of the rubber tube and is connected with the rubber tube in a sealing manner;

the second puncture membrane is arranged at one end of the second pipe body, which is positioned in the rubber pipe, and is connected with the second pipe body in a sealing way;

the medicament bag is arranged at the other end of the second pipe body and is in sliding connection with the second pipe body;

the medicament pushing structure is fixedly connected with the rubber tube and used for pushing the medicament bag;

the medicament pack comprises:

the medicament containing box is arranged in the second pipe body, is connected with the second pipe body in a sliding way and is used for containing medicaments;

the puncture needle is arranged at one end of the medicament containing box, and the needle point penetrates through the second puncture membrane and extends into the rubber tube;

the pushing head is arranged at the other end of the medicament accommodating box, one end of the pushing head is connected with the medicament accommodating box in a sealing mode, and the other end of the pushing head is abutted to the medicament pushing structure.

2. The automatic drug administration bracelet of claim 1, wherein the hemostatic assembly comprises:

one end of the first pipe body extends into the rubber pipe and is connected with the rubber pipe in a sealing way;

the hemostatic filler is filled in the first tube body and is simultaneously contacted with the skin of the patient with the other end of the first tube body;

the first puncture membrane is arranged at one end of the first pipe body, which is positioned in the rubber pipe, and is connected with the first pipe body in a sealing manner.

3. The automatic dosing bracelet of claim 1, wherein the medicament pushing structure comprises:

two connecting pieces which are made of flexible inelastic materials are arranged between the second pipe body and the rubber pipe, one end of each connecting piece is fixedly connected with the second pipe body, and the other end of each connecting piece is fixedly connected with the rubber pipe;

two connectors are arranged and are respectively arranged on the corresponding connecting sheets and are fixedly connected with the connecting sheets;

the adjustable connecting band is an inelastic and adjustable band-shaped body, and two ends of the adjustable connecting band are detachably connected with the corresponding connectors.

4. The automatic bracelet of dosing that intensive care therapy used according to claim 3, characterized in that, two connection pieces set up respectively in the both sides of second body along the extending direction of rubber tube.

5. The automatic dosing bracelet of claim 2, wherein the first tube is provided with a vent tube, and the vent tube is arranged at one end of the first tube in the rubber tube and is used for communicating the rubber tube at two sides of the first tube.