Intelligent infusion monitoring device
Technical Field
The invention relates to an intelligent transfusion monitoring device, in particular to an intelligent transfusion monitoring device provided with a sensor through a detection box with a special structure, and belongs to the field of medical instruments.
Background
Infusion is widely practiced in hospitals as a convenient and efficient treatment modality. Generally, infusion is a long and boring waiting process for patients and accompanying family members, and a process requiring intensive attention and careful monitoring for nursing staff. Generally, in a small and medium-sized hospital, a ward containing dozens of infusion patients is monitored by only a few medical staff, so that the dangerous situation that the infusion is lost due to the fact that the nursing staff cannot see the ward can be avoided, and the situation that the infusion is lost due to the fact that the patients usually read books or sleep to issue time during infusion can also be caused. Therefore, the intelligent transfusion monitoring device is needed to be invented to reduce the psychological burden of patients, reduce the labor intensity of medical staff and save the labor cost of hospitals.
Disclosure of Invention
Aiming at the defects, the invention provides an intelligent transfusion monitoring device.
The invention is realized by the following technical scheme: the utility model provides an intelligence infusion monitoring device, is including detecting the box, rotating a fender section of thick bamboo, signal transmitter, server, controller, display, level sensor, inserted block, vibrations sensor and hot plate, its characterized in that: the front side of the detection box is provided with a drip cup groove, the upper and lower sides of the drip cup groove are respectively provided with an upper transfusion tube groove and a lower transfusion tube groove, a transfusion tube protective plate is arranged in the upper transfusion tube groove, the lower end of the transfusion tube protective plate is connected with the detection box, a baffle cylinder groove is arranged between the outer side of the transfusion tube protective plate and the detection box, the lower side of the baffle cylinder groove is provided with a baffle block groove, one side of the transfusion tube protective plate is provided with an opening with the same width as the upper transfusion tube groove, the rotary baffle cylinder comprises a rotary rod, a baffle cylinder and a baffle block, the baffle block is matched with the baffle cylinder groove, the upper end of the baffle block is connected with the lower end of the baffle cylinder, the baffle cylinder is matched with the baffle cylinder groove, the rotary rod is arranged at one side of the baffle cylinder, the rotary rod is arranged outside the baffle cylinder groove, one side of the baffle cylinder is provided with a baffle cylinder pipe orifice, the baffle cylinder pipe orifice is connected with the baffle block, liquid level sensor, shock transducer, hot plate all locate the kettle inslot that drips, and the display is located one side of going up the transfer line groove, and the display is connected with the hot plate electricity, and liquid level sensor, shock transducer, hot plate, display all are connected with the controller electricity, and in the detection box was located to the controller, signal transmitter located the upper end of detecting the box and was connected with the controller electricity, and signal transmitter passes through wireless and is connected with the server.
Preferably, the infusion tube protection plate is of a cylindrical structure.
Preferably, one side of the lower infusion tube groove is provided with a socket, the other side of the lower infusion tube groove is provided with an insertion block groove, one side of the lower infusion tube groove is provided with a poking rod groove, the poking rod groove is connected with the insertion block groove, the insertion block is arranged in the insertion block groove, the insertion block is matched with the socket, one side of the insertion block is provided with a poking rod, and the poking rod is matched with the poking rod groove.
Preferably, still include backup battery, backup battery locates in the detection box, and one side of detection box is equipped with charging socket, charging socket is connected with controller, hot plate, backup battery electricity respectively.
Preferably, a temperature control switch is arranged on the lower side of the display, a temperature adjusting key is arranged on one side of the temperature control switch, the heating plate is a strip-shaped arc plate, one side of the heating plate is connected with the wall of the drip cup, and the heating plate is the same as the drip cup of the infusion apparatus in length.
Preferably, the liquid level sensor is arranged at the lower end of the side wall of the drip cup groove, and the vibration sensor is arranged at the lower end in the drip cup groove.
Preferably, the intelligent water dispenser further comprises a prompt lamp and an alarm, wherein the prompt lamp is arranged on one side of the drip cup groove and is a flash lamp, the alarm is arranged on the lower side of the prompt lamp, and the prompt lamp and the alarm are both electrically connected with the controller.
The invention has the advantages that:
1. according to the invention, the cylindrical rotating stop block is designed, the infusion tube on the upper side of the drip cup can be easily fixed and taken out of the detection box through the rotating connection of the rotating stop block and the detection box, meanwhile, the rotating stop block is arranged in the detection box and cannot be taken out, and only can rotate, so that the adjustment is easy, the loss of the rotating stop block cannot be caused, the infusion tube on the lower side of the drip cup can be fixed through the insert block, the insert block is in sliding connection with the detection box, the adjustment of the insert block is realized through the deflector rod, meanwhile, the deflector rod can play a role in fixing the insert block, the insert block is prevented from sliding out of the insert block groove and being lost, and the structural.
2. According to the invention, the vibration sensor is arranged at the lower end of the drip cup groove, the drip cup is arranged in the drip cup groove, when medicine drops, the vibration sensor is more obvious due to the gravity effect, the detection is more accurate, the existence condition of the liquid medicine can be detected through the existence of vibration, meanwhile, the liquid level sensor is arranged at the lower end of one side of the drip cup groove, the reliability of detection is ensured through arranging two different sensors, the danger is prevented, the safety of a patient is ensured, meanwhile, the signal is transmitted to the server through the signal transmitter, a doctor can remotely learn the information, the back-and-forth running check is avoided, the workload of the doctor is reduced, and the efficiency is improved.
3. The heating plate can properly heat liquid medicine in cold winter, so that the stimulation of the low-temperature liquid medicine to the blood vessel of a patient is avoided, the pain of the patient is caused, the cold caused by the liquid medicine is avoided, and the comfort of the patient is increased as much as possible.
4. The reminding lamp and the alarm are arranged to prevent that the reminding of the transfusion ending is not obtained due to the carelessness of a doctor or when the doctor is not beside a server, and can remind surrounding people and patients of the transfusion ending, so that the injury to the patients due to the transfusion ending is prevented.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present invention;
FIG. 2 is a schematic view of the structure of the cartridge;
FIG. 3 is a schematic view of an insert block structure;
FIG. 4 is a schematic structural view of a rotary drum;
fig. 5 is an enlarged view of fig. 2 at a.
In the figure, 1-detection cartridge; 101-a drum blocking groove; 102-a block groove; 103-infusion tube protecting plate; 104-lower infusion tube groove; 105-a socket; 106-insert slot; 107-toggle lever slot; 108-drip chamber; 109-upper infusion tube groove; 110-a charging socket; 2, rotating a gear cylinder; 201-rotating rod; 202-a gear cylinder; 203-a barrel blocking pipe orifice; 204-a stop block; 205-stopper orifice; 3-a signal transmitter; 4-a display; 401-temperature controlled switch; 402-temperature adjustment key; 5-a warning light; 6-an alarm; 7-a liquid level sensor; 8-inserting blocks; 801-a driving lever; 9-a vibration sensor; 10-heating plate.
Detailed Description
As shown in fig. 1-5, an intelligent transfusion monitoring device comprises a detection box 1, a rotary blocking cylinder 2, a signal emitter 3, a server, a controller, a display 4, a liquid level sensor 7, an insertion block 8, a vibration sensor 9 and a heating plate 10, and is characterized in that: the front side of the detection box 1 is provided with a drip cup groove 108, the upper and lower sides of the drip cup groove 108 are respectively provided with an upper infusion tube groove 109 and a lower infusion tube groove 104, an infusion tube protection plate 103 is arranged in the upper infusion tube groove 109, the lower end of the infusion tube protection plate 103 is connected with the detection box 1, a baffle cylinder groove 101 is arranged between the outer side of the infusion tube protection plate 103 and the detection box 1, the lower side of the baffle cylinder groove 101 is provided with a baffle block groove 102, one side of the infusion tube protection plate 103 is provided with an opening with the same width as the upper infusion tube groove 109, the rotary baffle cylinder 2 comprises a rotary rod 201, a baffle cylinder 202 and a baffle block 204, the baffle block 204 is matched with the baffle cylinder groove 102, the upper end of the baffle block 204 is connected with the lower end of the baffle cylinder 202, the baffle cylinder 202 is matched with the baffle cylinder groove 101, the rotary rod 201 is arranged at one side of the baffle cylinder 202, the rotary rod 201 is arranged outside the baffle cylinder groove 101, keep off bobbin mouth 203 and dog mouth of pipe 205 and be connected, and both width and the width cooperation of last transfer line groove 109, inserted block 8 and the cooperation of lower transfer line groove 104, level sensor 7, shock transducer 9, hot plate 10 all locate in drip chamber 108, and display 4 locates one side of last transfer line groove 109, and display 4 is connected with hot plate 10 electricity, and level sensor 7, shock transducer 9, hot plate 10, display 4 all are connected with the controller electricity, and the controller is located in detecting box 1, and signal transmitter 3 locates the upper end of detecting box 1 and is connected with the controller electricity, and signal transmitter 3 is connected with the server through wireless.
The infusion tube protection plate 103 is of a cylindrical structure.
One side in the lower infusion tube groove 104 is provided with a socket 105, the other side is provided with a plug groove 106, one side of the lower infusion tube groove 104 is provided with a poking rod groove 107, the poking rod groove 107 is connected with the plug groove 106, the plug 8 is arranged in the plug groove 106, the plug 8 is matched with the socket 105, one side of the plug 8 is provided with a poking rod 801, and the poking rod 801 is matched with the poking rod groove 107.
Still include backup battery, backup battery locates in detecting box 1, and one side of detecting box 1 is equipped with charging socket 110, charging socket 110 is connected with controller, hot plate 10, backup battery electricity respectively.
A temperature control switch 401 is arranged on the lower side of the display 4, a temperature adjusting key 402 is arranged on one side of the temperature control switch 401, the heating plate 10 is a strip-shaped arc-shaped plate, one side of the heating plate 10 is connected with the wall of the drip cup groove 108, and the heating plate 10 is the same as the drip cup of the infusion apparatus in length.
The liquid level sensor 7 is arranged at the lower end of the side wall of the drip cup groove 108, and the vibration sensor 9 is arranged at the lower end in the drip cup groove 108.
Still include warning light 5, alarm 6, warning light 5 locates one side of drip kettle groove 108, and warning light 5 is the flash light, warning 6 locates the downside of warning light 5, and warning light 5 and alarm 6 all are connected with the controller electricity.
The working principle is as follows: a drip cup of an infusion apparatus is arranged in a drip cup groove 108, an infusion tube at the upper end of the drip cup is arranged in an upper infusion tube groove 109, the infusion tube is separated through rotating a blocking barrel 2, an infusion tube at the lower end of the drip cup is arranged in a lower infusion tube groove 104, an insertion block 8 is matched with an insertion opening 105, the infusion tube is separated, when infusion is carried out, when dropping liquid stops dropping, a vibration sensor 9 transmits a detection signal to a controller, or when the remaining amount of liquid medicine in the drip cup is very small, a liquid level sensor 7 transmits the signal to the controller, the controller transmits the signal to a server through a signal transmitter 3 to inform a doctor that infusion is finished, meanwhile, the controller controls an indicator lamp 5 to flicker and an alarm 6 to give an alarm sound to remind the patient that infusion is finished, the infusion safety of the infusion is guaranteed, and the workload of the patient is saved.
It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.