CN211024535U - Infusion monitoring system - Google Patents

Abstract

The utility model relates to an infusion monitoring system, include: an upper infusion tube; a lower infusion tube; the transparent liquid storage device is hollow and is connected between the upper infusion tube and the lower infusion tube; the resettable partition is transversely arranged in the transparent liquid storage device, one end of the resettable partition is connected to the inner wall of the transparent liquid storage device, and the resettable partition can swing around one end under the gravity of the liquid medicine; the photoelectric detection assembly comprises a light emitter and a light receiver, the light receiver and the light emitter are oppositely arranged on two sides of the transparent liquid storage device, and a first plane on which the photoelectric detection assembly is arranged is close to a second plane when the resettable partition plate is reset and is arranged below the second plane; and the main controller is connected with the photoelectric detection assembly. The utility model is used for realize the intelligent monitoring of infusion process, improve medical personnel work efficiency, promote the patient and use experience.

Description

Infusion monitoring system

Technical Field

The utility model relates to a health and medical treatment technical field, concretely relates to infusion monitoring system.

Background

The current clinical infusion in-process of medical treatment is generally observed at any time and is monitored the liquid medicine surplus condition by patient, waiter or medical personnel, when the liquid medicine surplus is few, notifies medical personnel, and user experience is poor, medical personnel expend energy, causes work efficiency low. And the infusion time is long, the accompanying person leaves sometimes, or the patient is easy to be tired, and the patient is easy to sleep well in the infusion process, so that the liquid infusion is not found in time, the dangers such as blood backflow and the like are easy to occur, and even serious medical accidents are caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides an infusion monitoring system realizes the intelligent monitoring of infusion process, improves medical personnel work efficiency, and promotes the patient and uses experience.

In order to solve the technical problem, the utility model provides a following technical scheme solves:

An infusion monitoring system, comprising: an upper infusion tube; a lower infusion tube; a transparent liquid storage device which is hollow and is connected between the upper infusion tube and the lower infusion tube; the resettable partition is transversely arranged in the transparent liquid storage device, one end of the resettable partition is connected to the inner wall of the transparent liquid storage device, and the resettable partition swings downwards around the other end under the gravity of the liquid medicine; the photoelectric detection assembly comprises a light emitter and a light receiver, the light receiver and the light emitter are oppositely arranged on two sides of the transparent liquid storage device, and a first plane where the photoelectric detection assembly is located is close to a second plane where the resettable partition plate is located when the resettable partition plate is reset and is arranged below the second plane; and the main controller is connected with the photoelectric detection assembly.

As above transfusion monitoring system, in order to realize the transparent liquid storage device respectively with last transfer line and down be connected between the transfer line, transfusion monitoring system still includes respectively hollow first connecting piece and second connecting piece, first connecting piece sealing connection go up the transfer line with the first end of transparent liquid storage device, second connecting piece sealing connection the second end of transparent liquid storage device with down the transfer line.

In order to realize that the first connecting piece seals the upper infusion tube and the transparent liquid storage device and the second connecting piece seals the lower infusion tube and the transparent liquid storage device, the outer wall of one end of the first connecting piece is provided with a first barb which interferes with the inner wall of the lower end of the upper infusion tube, and the outer wall of the other end of the first connecting piece is provided with a second barb which interferes with the inner wall of the upper end of the transparent liquid storage device; the outer wall of the one end of the second connecting piece is provided with a third barb which interferes with the inner wall of the lower end of the transparent liquid storage device, and the outer wall of the other end is provided with a fourth barb which interferes with the inner wall of the upper end of the lower infusion tube.

The infusion monitoring system as described above, wherein the first barb and the second barb have opposite tilt directions, and the third barb and the fourth barb have opposite tilt directions.

According to the transfusion monitoring system, in order to conveniently realize large-angle swing of the partition plate so as to better block an optical signal emitted by the light emitter, an arc-shaped protrusion is formed on the inner wall of the transparent liquid storage device and located below the resettable partition plate, and when the resettable partition plate swings downwards around one end, a flow channel is formed between the other end of the resettable partition plate and the upper edge of the arc-shaped protrusion.

In the infusion monitoring system, in order to realize the easy bending of the partition plate, the resettable partition plate is made of a soft material, and the thickness of one end of the resettable partition plate, which is connected with the inner wall of the transparent liquid storage device, is thinner than the thickness of the other parts of the resettable partition plate.

The infusion monitoring system as described above further comprises a wireless communication module for wireless transmission of signals.

The transfusion monitoring system further comprises hospital terminal equipment, the master controller wirelessly sends information to the hospital terminal equipment through the wireless communication module, and a hospital can conveniently collect relevant transfusion information, such as the number of transfusion personnel, the transfusion starting time, the transfusion ending time, the transfusion duration, the transfusion flow rate and the like.

The transfusion monitoring system further comprises a reminding device connected with the hospital terminal equipment, so that the end of transfusion of medical staff is reminded conveniently.

in the infusion monitoring system, the reminding device is an L ED indicator light or a speaker.

Compared with the prior art, the utility model discloses an infusion monitoring system's advantage and beneficial effect are: when in transfusion, the liquid medicine is sequentially delivered to a patient through the upper transfusion tube, the transparent liquid storage device and the lower transfusion tube, at the moment, the liquid medicine is stored above the partition board in the transparent liquid storage device, the resettable partition swings downwards around one end of the resettable partition when the liquid medicine reaches a certain amount, the liquid medicine flows through a gap between the partition and the inner wall of the transparent liquid storage device, at the moment, light emitted by the light emitter is blocked by the partition, the light receiver cannot receive the emitted light and feed back a signal to the main controller, the main controller outputs a signal for starting transfusion, and when the infusion was accomplished, there was not the liquid medicine baffle top in the transparent stock solution device, the baffle resets, and light receiver received the light of light emitter transmission and feedback signal to master controller this moment, and the signal of infusion is ended in the master controller output this moment, and the monitoring infusion process is realized to intelligence, avoids artifical the supervision, improves medical personnel work efficiency, and promotes the patient and use experience.

Drawings

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

FIG. 1 is a block diagram of an embodiment of the infusion monitoring system of the present invention, wherein the master controller is not shown;

FIG. 2 is a cross-sectional view of the infusion monitoring system embodiment shown in FIG. 1;

FIG. 3 is a partial block diagram of a reset of a septum in the embodiment of the fluid delivery monitoring system shown in FIG. 1;

FIG. 4 is a partial block diagram of the downward swing of a baffle in the embodiment of the fluid administration monitoring system shown in FIG. 1;

Fig. 5 is a schematic block diagram of signal transmission of the embodiment of the infusion detection system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inside", "outside", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 5, in order to intelligently monitor the infusion process, the present embodiment relates to an infusion monitoring system, including: an upper infusion tube 10; a lower infusion tube 20; the transparent liquid storage device 30 is hollow, is connected between the upper infusion tube 10 and the lower infusion tube 20, and is used for enabling the liquid medicine to flow to a patient through the upper infusion tube 10, the transparent liquid storage device 30 and the lower infusion tube 20 in sequence; the resettable partition 60 is transversely arranged inside the transparent liquid storage device 30, one end of the resettable partition 60 is connected to the inner wall of the transparent liquid storage device 30, and the resettable partition 60 swings downwards around one end under the gravity of the liquid medicine; the photoelectric detection assembly comprises a light emitter 40 and a light receiver 50, the light receiver 40 and the light emitter 50 are oppositely arranged at two sides of the transparent liquid storage device 30, and a first plane of the photoelectric detection assembly is close to a second plane of the resettable partition plate 60 when the photoelectric detection assembly is reset and is arranged below the second plane; and the main controller 90 is connected with the photoelectric detection component.

Specifically, referring to fig. 1 to 4, the transparent liquid storage device 30 of the present embodiment is hollow for facilitating the flow of the liquid medicine, and has an upper end hermetically connected to the upper infusion tube 10 and a lower end hermetically connected to the lower infusion tube 20. The resettable partition 60 is transversely disposed inside the transparent liquid storage device 30, and specifically, as shown in fig. 3 and 4, a thickness of one end 61 of the resettable partition 60 connected with the inside of the transparent liquid storage device 30 is smaller, while a thickness of the other portion 62 is thicker, and the partition 60 is made of a soft rubber material. The light emitter 40 and the light receiver 50 are oppositely arranged on two sides of the transparent liquid storage device 30, so that the light signal emitted by the light emitter 40 can be received by the opposite light receiver 50 when no transparent obstacle exists in the middle, the light emitter 40 and the light receiver 50 are located on the same first plane, the first plane is lower than a second plane where the partition plate 60 is located when the partition plate 60 is reset, and the distance between the two planes is ensured to be capable of blocking the light signal emitted by the light emitter 40 when the partition plate 60 swings downwards along one end 61 due to liquid medicine existing above the partition plate 60. As shown in fig. 3, after the infusion is not performed or the infusion is completed, the resettable spacer 60 is transversely placed in the transparent liquid storage device 30 (as a first position), at this time, the optical signal sent by the optical transmitter 40 can be received by the optical receiver 50, as shown by the propagation direction of the optical signal by the arrow of the dashed line in fig. 3, the optical receiver 50 sends a signal to the main controller 90, and outputs a first signal that the infusion is not performed or the infusion is completed currently; as shown in fig. 4, when the infusion is started, the liquid medicine enters the transparent liquid storage device 30 through the upper infusion tube 10 and flows to the upper side of the partition plate 60, when the liquid medicine above the partition plate 60 is stored to a certain amount, the partition plate 60 swings around the thinner end (marked as the second position) so that the liquid medicine flows to the lower infusion tube 20 along the arrow direction in fig. 4, at this time, the partition plate 60 blocks the optical signal emitted by the optical emitter 40, so that the optical receiver 50 cannot receive the optical signal, at this time, the main controller 90 outputs the second signal of the infusion, and can record the infusion start time, after the infusion is completed, because of no liquid medicine blocking, the partition plate 60 resets to the first position, at this time, the optical receiver 50 receives the optical signal emitted by the optical emitter 40 again, and the main controller 90 outputs the first signal of the completion of the. The infusion monitoring device has the advantages that the infusion process is intelligently monitored through the electronic equipment, convenience and reliability are realized, and the use experience is good.

In the actual infusion process, there may be a case where the amount of the liquid medicine is too small to allow the partition plate 60 to swing downward, and at this time, the partition plate 60 is returned to the first position, but when the amount of the liquid medicine stored above the partition plate 60 reaches a certain amount, the partition plate 60 still swings downward around the thinner end to the second position, and therefore, in order to improve the monitoring reliability, it is considered that the infusion is completed when the optical receiver 50 receives the optical signal transmitted from the optical transmitter 40 continuously for, for example, several seconds.

In order to realize the sealed connection between the upper infusion tube 10, the lower infusion tube 20 and the transparent liquid storage device 30, the cross-sectional shape of the channel in the transparent liquid storage device 30 is square, please refer to fig. 1 and 2, therefore, the first connector 70 has a hollow passage, the outer peripheral surface of the upper end is circular and is matched with the upper infusion tube 10, the outer peripheral surface of the lower end of the first connector 70 is square, in cooperation with the upper end of the transparent liquid storage device 30, specifically, the first connecting member 70 is provided with a first barb 71 on the outer peripheral surface of the upper end, and a second barb 72 on the outer peripheral surface of the lower end, the first barb 71 is opposite to the second barb 72 in the inclined direction, and when the upper end of the first connecting piece 70 is inserted into the upper infusion tube 10, the first barb 71 interferes with the inner wall of the upper infusion tube 10, and when the lower end of the first connecting piece 70 is inserted into the upper end of the transparent liquid storage device 30, the second barb 72 interferes with the inner wall of the upper end of the transparent liquid storage device 30. The second connecting piece 80 has the same structure as the first connecting piece 70, and is used for sealing and connecting the lower infusion tube 20 and the lower end of the transparent liquid storage device 30, similarly, the second connecting piece 80 has a hollow channel, the outer peripheral surface of the upper end is circular and matched with the lower infusion tube 20, the outer peripheral surface of the lower end of the second connecting piece 80 is square and matched with the lower end of the transparent liquid storage device 30, specifically, the outer peripheral surface of the upper end of the second connecting piece 80 is provided with a third barb 81, the outer peripheral surface of the lower end is provided with a fourth barb 82, the third barb 81 is opposite to the inclined direction of the fourth barb 82, when the upper end of the second connecting piece 80 is inserted into the lower infusion tube 20, the third barb 81 interferes with the inner wall of the lower infusion tube 20, when the lower end of the second connecting piece 80 is inserted into the lower end of the transparent liquid storage device 30. The barb structures on the first connecting piece 70 and the second connecting piece 80 facilitate the connection of the upper infusion tube 10 and the lower infusion tube 20 with the transparent liquid storage device 30 and play a role in water resistance.

In order to realize that the partition 60 can swing at a larger angle, so as to better block the optical signal emitted by the light emitter 40, referring to fig. 1 to 4, an arc-shaped protrusion 31 is formed on the inner wall of the transparent liquid storage device 30, and when the partition 60 swings downwards around one end thereof, a flow channel for the liquid medicine to flow through is formed between the other end and the upper edge of the arc-shaped protrusion 31. Specifically, as shown in fig. 4, when a certain amount of liquid medicine is stored above the partition 60, the thinner end 61 of the partition 60 is bent, and the thicker end 62 swings downward, and due to the presence of the arc-shaped protrusion 31, the liquid flows through the flow channel to be narrowed, so that the partition 60 can keep a large angle of downward swing under the condition that the same amount of liquid medicine exists, thereby better shielding the optical signal emitted by the optical emitter 40 and improving the monitoring reliability of the system.

the main controller 90 sends out a first signal and a second signal to know the transfusion end time and the transfusion start time, and in order to wirelessly transmit the first signal and the second signal, a wireless transmission module 100 (such as a 2.4G wireless module) is further provided, in addition, in order to remind a patient of the transfusion start or the transfusion end, a reminding device 110 is further provided, when the main controller 90 sends out the first signal or the second signal, the reminding device 110 is controlled to send out a reminding signal, such as an L ED indicating lamp is turned on or a loudspeaker sends out a sound, and information is remotely transmitted to the hospital terminal device 120 through the wireless communication module 100, relevant transfusion information is counted, such as the number of transfusion personnel, the transfusion start time, the transfusion end time, the transfusion duration, the transfusion flow rate and the like, and the information is analyzed, so that a purchase plan of transfusion products is conveniently made by a hospital, and the reminding device 130 is further provided at the hospital terminal device 120, the information is remotely transmitted to indicate that the transfusion is completed and control the reminding device 130 to send out a reminding signal, so that medical personnel can timely handle the medical care, the device 130 can also be an L ED indicating lamp, a loudspeaker and the information can be transmitted to a mobile phone or a button 100, so that the patient can be called by a mobile phone, and the health.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. An infusion monitoring system, comprising:

An upper infusion tube;

A lower infusion tube;

A transparent liquid storage device which is hollow and is connected between the upper infusion tube and the lower infusion tube;

The resettable partition is transversely arranged in the transparent liquid storage device, one end of the resettable partition is connected to the inner wall of the transparent liquid storage device, and the resettable partition can swing around the other end under the gravity of the liquid medicine;

The photoelectric detection assembly comprises a light emitter and a light receiver, the light receiver and the light emitter are oppositely arranged on two sides of the transparent liquid storage device, and a first plane where the photoelectric detection assembly is located is close to a second plane where the resettable partition plate is located when the resettable partition plate is reset and is arranged below the second plane;

And the main controller is connected with the photoelectric detection assembly.

2. The infusion monitoring system according to claim 1, further comprising a first connector and a second connector that are hollow, respectively, the first connector sealingly connecting the upper infusion tube and the first end of the transparent reservoir, the second connector sealingly connecting the second end of the transparent reservoir and the lower infusion tube.

3. The infusion monitoring system according to claim 2, wherein the outer wall of one end of the first connector is provided with a first barb which interferes with the inner wall of the lower end of the upper infusion tube, and the outer wall of the other end of the first connector is provided with a second barb which interferes with the inner wall of the upper end of the transparent liquid storage device; the outer wall of the one end of the second connecting piece is provided with a third barb which interferes with the inner wall of the lower end of the transparent liquid storage device, and the outer wall of the other end is provided with a fourth barb which interferes with the inner wall of the upper end of the lower infusion tube.

4. The infusion monitoring system according to claim 3, wherein the first and second barbs have opposing tilt directions and the third and fourth barbs have opposing tilt directions.

5. The infusion monitoring system according to any one of claims 1 to 4, wherein an arc-shaped protrusion is formed on an inner wall of the transparent liquid storage device, is positioned below the resettable partition, and forms a flow channel between the other end of the resettable partition and an upper edge of the arc-shaped protrusion when the resettable partition swings downward around one end.

6. The infusion monitoring system according to any one of claims 1-4, wherein the repositionable spacer is flexible and has a thickness at an end thereof that is connected to an inner wall of the transparent reservoir that is relatively thin relative to the thickness of the remainder of the repositionable spacer.

7. The infusion monitoring system according to any one of claims 1-4, further comprising a wireless communication module for wirelessly transmitting signals.

8. The infusion monitoring system according to claim 7, further comprising a hospital terminal device, wherein said master controller wirelessly transmits information to said hospital terminal device via said wireless communication module.

9. The infusion monitoring system according to claim 8, further comprising a reminder device connected to the hospital terminal device.

10. the infusion monitoring system according to claim 9, wherein the reminder device is an L ED indicator light or a horn.

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