CN206391298U - An automatic infusion control system - Google Patents

Abstract

The utility model discloses an automatic transfusion control system, which comprises at least one transfusion host, the infusion host is connected with a receiver, a switch and a server in sequence, the infusion host comprises an infusion controller, the infusion controller is connected with an infusion host communication circuit which is in wireless communication with the receiver or between the infusion controllers, at least one infusion tube flow control device, the infusion tube flow control circuit comprises an infusion tube flow detection circuit and a motor drive circuit which are respectively connected with the infusion controller, the motor driving circuit is connected with an electric valve for adjusting the flow of the infusion tube, thereby saving the labor cost, reducing the labor amount of nurses for patrolling the liquid medicine and replacing the liquid, reducing the nervous mood of patients caused by untimely liquid replacement, meanwhile, the workload of accompanying nursing is reduced, the installation and the operation are simple, and the workload of nurses is not increased basically.

Description

An automatic infusion control system

[technical field]

The utility model relates to an automatic transfusion control system.

[Background technique]

Existing hospital infusion medical treatment uses hoses for long-term infusion. During the infusion period, nurses are required to perform manual control, so a large amount of manpower is required for monitoring, resulting in high costs, and it is prone to drip empty during the manual supervision of infusion, resulting in Danger.

[utility model content]

The utility model overcomes the disadvantages of the above-mentioned technologies, and provides an automatic infusion control system capable of automatically detecting and controlling the flow in the infusion tube.

In order to achieve the above object, the utility model adopts the following technical solutions:

An automatic infusion control system, comprising at least one infusion host 1, the infusion host 1 is sequentially connected with a receiver 2, a switch 3 and a server 4, the infusion host 1 includes an infusion controller 5, the infusion control The device 5 is connected with an infusion host communication circuit 6 for wireless communication with the receiver 2 or wireless communication between the infusion controllers 5, at least one infusion tube flow control circuit 7, and the infusion tube flow control circuit 7 includes an 5 is connected to the infusion tube flow detection circuit 8 and the motor drive circuit 9, and the motor drive circuit 9 is connected with an electric valve 10 for adjusting the flow rate of the infusion tube.

The infusion controller 5 is connected with a light alarm 11 .

The infusion controller 5 is connected with a clock circuit 12 .

The infusion controller 5 is connected with a call button 13 .

The beneficial effects of the utility model are:

1. The utility model can automatically detect and control the flow in the infusion tube, thereby realizing automatic infusion.

2. The utility model saves labor costs and reduces the labor of nurses for patrolling the medicinal liquid and replacing the liquid.

3. The utility model reduces the nervousness of the patient due to untimely liquid replacement, and reduces the workload of the accompanying nurse at the same time.

4. The utility model is easy to install and operate, and basically does not increase the workload of nurses.

[Description of drawings]

Fig. 1 is the schematic diagram of the utility model.

[detailed description]

Below in conjunction with accompanying drawing and embodiment of the present utility model, further describe in detail:

As shown in Figure 1, an automatic infusion control system includes at least one infusion host 1, the infusion host 1 is sequentially connected with a receiver 2, a switch 3 and a server 4, and the infusion host 1 includes an infusion controller 5. The infusion controller 5 is connected with an infusion host communication circuit 6 for wireless communication with the receiver 2 or between the infusion controllers 5, and at least one infusion tube flow control circuit 7, and the infusion tube flow control circuit 7 includes There is an infusion tube flow detection circuit 8 and a motor drive circuit 9 respectively connected to the infusion controller 5, and the motor drive circuit 9 is connected with an electric valve 10 for adjusting the flow rate of the infusion tube.

The working principle is as follows: Take one infusion host 1 and two infusion tube flow control circuits 7 are set in the infusion host 1 as an example, set the first infusion tube and the second infusion tube according to the preset infusion sequence, and when working, The infusion controller 5 controls the first infusion tube for infusion. During the infusion, the infusion controller 5 detects the flow rate by detecting the infusion tube flow detection circuit 8 of the first infusion tube, and passes the motor according to the feedback information of the infusion tube flow detection circuit 8. The driving circuit 9 drives the electric valve 10 to adjust the infusion flow rate of the first infusion tube. When the infusion tube flow detection circuit 8 detects that the flow rate in the first infusion tube is zero, that is, when the drip delivery of the first bottle is completed, the infusion controller 5 turns off the electric valve. The gate valve 10 thus shuts off the first infusion tube, and controls the infusion of the second infusion tube, and at the same time detects the flow rate by detecting the infusion tube flow detection circuit 8 of the second infusion tube, and drives the motor according to the feedback information of the infusion tube flow detection circuit 8 The circuit 9 drives the electric valve 10 to adjust the infusion flow rate of the second infusion tube until the infusion tube flow detection circuit 8 detects that the flow rate in the second infusion tube is zero, that is, when the second bottle drip delivery is completed, the infusion controller 5 closes the electric gate valve 10 thereby shutting off the first infusion tube.

On the other hand, when the first bottle of drip and the second bottle of drip are delivered, the infusion controller 5 transmits the information that the drip has been transmitted to the server 4 through the infusion host communication circuit 6, the receiver 2, and the switch 3. The server 4 checks the infusion situation of the patient, and replaces the liquid medicine according to the situation.

At the same time, this case can also pass the data transmission between the infusion host 1 and the infusion host 1. After the medicine in the first infusion host 1 is delivered, the infusion host communication circuit 6 in the first infusion host 1 will communicate with the second infusion host 1. After the second infusion host 1 receives the signal, the infusion controller 5 in the second infusion host 1 controls the infusion work until all the medicines are delivered.

Described infusion controller 5 is connected with light alarm 11, and after infusion is finished, infusion controller 5 controls light alarm 11 to send out light alarm, prompts the medical personnel on the scene that this patient infusion finishes.

The infusion controller 5 is connected with a clock circuit 12, and the user can check the duration of the infusion.

The infusion controller 5 is connected with a call button 13, through which the user can call medical personnel at any time.

Claims (4)

1. An automatic infusion control system, characterized in that: at least one infusion host (1) is included, and the infusion host (1) is sequentially connected with a receiver (2), a switch (3) and a server (4), The infusion host (1) includes an infusion controller (5), and the infusion controller (5) is connected with an infusion host communication circuit for wireless communication with the receiver (2) or wireless communication between the infusion controllers (5) (6), at least one infusion tube flow control circuit (7), the infusion tube flow control circuit (7) includes an infusion tube flow detection circuit (8) connected to the infusion controller (5), a motor drive circuit ( 9), the motor drive circuit (9) is connected with an electric valve (10) for adjusting the flow rate of the infusion tube. 2. An automatic infusion control system according to claim 1, characterized in that: said infusion controller (5) is connected with a light alarm (11). 3. An automatic infusion control system according to claim 1, characterized in that: the infusion controller (5) is connected with a clock circuit (12). 4. An automatic infusion control system according to claim 1, characterized in that: the infusion controller (5) is connected with a call button (13).