CN210963318U - Portable intelligent transfusion device - Google Patents

Abstract

The utility model provides a portable intelligent infusion device, which comprises an infusion device shell, an arm bag, a ring waist type buckle belt and an arm bag buckle belt; two ends of the ring waist type buckle belt are respectively connected with a dropping device shell, and a storage battery is arranged in the dropping device shell; the transfusion device shell consists of a left shell, a middle shell and a right shell, wherein the middle shell is fixed between the left shell and the right shell; a pneumatic pressurizing device is also arranged; the right shell is provided with a drip cup receiving cavity with an outward opening, and the outer part of the right shell is also provided with a drip cup buckle cover which can be buckled on the drip cup receiving cavity; the outer side surface of the middle shell is designed in an inwards concave manner, and the lower part of the outer side is provided with a telescopic circular ring supporting piece capable of supporting an infusion bottle; the upper portion of well casing is equipped with a plurality of function buttons that can carry out control to microcontroller, and the upper portion of right side casing is equipped with the display screen that is connected with microcontroller. The to-be-solved technical problem of the utility model is to provide a portable intelligent bit device that is fit for a large amount of wounded of field treatment, battlefield, salvage.

Description

Portable intelligent transfusion device

Technical Field

The utility model relates to a medical care device, in particular to a portable intelligent infusion device.

Background

The infusion device is mainly used for assisting in infusion, is used more in the medical care industry, but most of the existing infusion devices are not easy to move, and the infusion devices with movable parts also have the dangers of liquid breaking, blood returning and the like, so that serious consequences are easily caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a portable intelligent bit device that is fit for a large amount of wounded of field treatment, battlefield, salvage.

In order to solve the technical problem, the utility model provides a portable intelligent bit device, include: the infusion device comprises an infusion device shell, an arm bag, a ring waist type buckle belt and an arm bag buckle belt; the two ends of the waist-shaped buckle belt are respectively connected with the drip device shell, a storage battery is arranged in the drip device shell, and the storage battery provides electric support for the device; the drip device shell consists of a left shell, a middle shell and a right shell, wherein the middle shell is fixed between the left shell and the right shell; the pneumatic pressurization device is also arranged and consists of an air inlet branch pipe, an air pump, a filter, a first air pipe, a one-way valve, an air chamber, a pressure sensor, a second air pipe, an air outlet, a third air pipe and a microcontroller; the infusion bottle comprises a left shell, a left air pipe, a right air pipe, a left air pipe, a right air pipe, a left air pipe; the right shell is provided with a drip cup receiving cavity with an outward opening, and the outside of the right shell is also provided with a drip cup buckle cover which can be buckled on the drip cup receiving cavity; the outer side surface of the middle shell is designed in a concave manner, and the lower part of the outer side is provided with a telescopic circular ring supporting piece capable of supporting an infusion bottle; the upper portion of well casing be equipped with a plurality of function buttons that can control microcontroller, the upper portion of right casing be equipped with the display screen of being connected with microcontroller. In order to realize the possibility of low potential energy infusion, a pneumatic pressurization and air filtration purification mode is adopted, so that a certain pressure difference is formed between the infusion liquid level and a drip input point under the pressurization of pure air, and the infusion process can be completed through infusion power and accurate control under the condition of the potential energy height of the infusion liquid by the control of a microcontroller. The arm bag is designed to place redundant infusion tubes, and further prevents redundant infusion tubes and sundries from being hooked by an infusion patient in the moving process. The function keys and the display screen are positioned on the upper part of the shell of the intravenous drip device, and a user can see the working condition of the intravenous drip device and adjust and control the intravenous drip device by himself when lowering the head.

Preferably, as further optimization improvement, the drip cup accommodating cavity is internally provided with an infrared transmitting module, an infrared receiver and a liquid stopper which are connected with the microcontroller, the infrared transmitting module and the infrared receiver are arranged through an infusion tube, and the liquid stopper is arranged outside the infusion tube at the lower part of the drip cup.

Preferably, as a further optimization improvement, the infusion heating control device is further provided with an infusion heating control module connected with the microcontroller and the storage battery, wherein the infusion heating control module consists of a temperature sensor and a heating sheet, the temperature sensor is arranged in the middle shell, and the heating sheet is laid on the outer side surface of the middle shell.

Preferably, as a further optimization and improvement, the outer side surface of the drip cup buckle cover is of a hollow structure. The hollow structure can facilitate medical personnel to check the liquid level condition in the drip cup.

Preferably, as a further optimization and improvement, a loudspeaker connected with the microcontroller is arranged at the upper end of the left shell.

Preferably, as a further optimization and improvement, an indicator light connected with the microcontroller is arranged on the outer side of the right shell.

Preferably, as a further optimization improvement, the temperature of the heating plate is controlled between 25 and 37 degrees.

Preferably, as a further optimization and improvement, the casing of the drip device is made of ABS plastic.

Preferably, as a further optimization and improvement, the liquid stopper is a liquid stopping clamp.

Compared with the prior art, the utility model has the advantages that: the possibility of free movement of the transfusion patient is increased, and the inconvenience and the discomfort caused by the transfusion process are solved; secondly, the transfusion device takes the sudden situation of outdoor movement and outdoor activity conditions of a transfusion patient into consideration, designs the functions of abnormal transfusion alarm, liquid stopping, liquid medicine heating and the like, intelligently controls various safety requirements of outdoor transfusion and the like, ensures that outdoor transfusion is always lost, reduces the workload of medical personnel, saves precious manpower in battlefield and ensures that outdoor rescue is safer and more efficient.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic front view of the casing of the intravenous drip device of the present invention.

Fig. 3 is a schematic top view of a drip set housing according to the present invention.

Fig. 4 is a schematic side view of the casing of the drip device of the present invention.

Fig. 5 is a schematic diagram of a part of the structure of the present invention.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the following description of the portable intelligent infusion device will be made in detail with reference to the accompanying drawings.

In the description of the present invention, it should be noted that the terms "upper", "lower", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to 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.

The portable intelligent dropper apparatus of the present embodiment, as shown in fig. 1 to 4, includes: the intravenous drip device comprises an intravenous drip device shell 1, an arm bag 2, a ring waist type buckle belt 3 and an arm bag buckle belt 21; two ends of the waist-shaped buckle belt 3 are respectively connected with a drip device shell 1, a storage battery is arranged in the drip device shell 1, and the storage battery provides electric support for the device; the drip device shell 1 consists of a left shell 11, a middle shell 12 and a right shell 13, wherein the middle shell 12 is fixed between the left shell 11 and the right shell 13; the pneumatic pressurization device 14 is further arranged, and the pneumatic pressurization device 14 consists of an air inlet branch pipe 141, an air pump 142, a filter 143, a first air pipe 144, a one-way valve 145, an air chamber 146, a pressure sensor 147, a second air pipe 148, an air outlet 149, a third air pipe 150 and a microcontroller; an air inlet branch pipe 141, an air pump 142, a filter 143, a first air pipe 144, a one-way valve 145, an air chamber 146, a pressure sensor 147, a second air pipe 148 and a microcontroller are arranged in the intravenous drip device shell 1, the filter 143 is arranged at the upper part of the left shell 11 and connected with the air pump 142 through the air inlet branch pipe 141, the air pump 142 is connected with the air chamber 146 through the first air pipe 144, the one-way valve 145 is further arranged in the first air pipe 144, the air chamber 146 is connected with an air outlet 149 through the second air pipe 148, the air outlet 149 is connected with an infusion bottle through the third air pipe 150, the air outlet 149 is embedded at the lower part of the left shell 11, and; the right shell 13 is provided with a drip cup receiving cavity with an outward opening, and the outside of the right shell is also provided with a drip cup buckle cover 131 which can be buckled on the drip cup receiving cavity; the outer side surface of the middle shell 12 is designed to be concave, and the lower part of the outer side is provided with a telescopic circular ring supporting piece 121 capable of supporting an infusion bottle; the upper part of the middle shell 12 is provided with a plurality of function keys 122 which can control the microcontroller, and the upper part of the right shell 12 is provided with a display screen 132 which is connected with the microcontroller.

An infrared emission module 4, an infrared receiver 5 and a liquid stopper 6 which are connected with the microcontroller are also arranged in the drip cup accommodating cavity, the infrared emission module 4 and the infrared receiver 5 are arranged in a transfusion tube, and the liquid stopper 6 is arranged outside the transfusion tube at the lower part of the drip cup; the infusion heating control module is connected with the microcontroller and the storage battery and consists of a temperature sensor 6 and a heating sheet 7, the temperature sensor 6 is arranged inside the middle shell 12, and the heating sheet 7 is laid on the outer side surface of the middle shell 12; the outer side surface of the drip cup buckle cover 131 is of a hollow structure; the upper end of the left shell 11 is provided with a loudspeaker 111 connected with the microcontroller; the outer side of the right housing 13 is provided with an indicator light 133 connected to the microcontroller.

The specific working principle is as follows: drip kettle top transfer line both sides and have infrared receiver of infrared emission module and, under the normal condition, infrared light can take place the refraction when penetrating the liquid medicine in the transfer line, and the infrared receiver at rear can not receive infrared light, when passing through gas post in the transfer line, infrared receiver can direct receipt infrared light, to microcontroller transmission signal, microcontroller control speaker sends the police dispatch newspaper to send closed instruction to the end liquid ware simultaneously and reach and end the liquid effect. The infusion heating control module consists of a temperature sensor and a heating sheet, the set value of the temperature control device is 25-37 degrees (except biological products and medicines requiring low-temperature storage, so that the stimulation of low-temperature medicines to a body can be reduced, and the drug effect of the infusion medicines can be ensured), when the temperature reaches the maximum set temperature value, the microcontroller controls the storage battery to stop providing electric support for the heating sheet, and when the temperature is lower than the minimum set temperature value, the microcontroller controls the storage battery to provide electric support for the heating sheet so as to achieve the heating effect.

To sum up, the utility model discloses with pneumatic pressure device, infrared emission module, infrared receiver and end the liquid ware, on techniques such as infusion heating control module were synthesized and were used this portable intelligent bit device, not mentioned in current field, and the application of correlation technique, make this portable intelligent bit device possess a lot of advantages, if improve the infusion principle and then realize the possibility of low potential energy infusion, increase the possibility of infusion patient infusion in-process free activity limit, realize the intelligent control of suitable infusion speed and temperature under the special circumstances. Therefore, the utility model has beneficial technical effects and obvious progress.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A portable intelligent drip device comprising: the intravenous drip device comprises a casing (1), an arm bag (2), a ring waist type buckle belt (3) and an arm bag buckle belt (21); two ends of the waist-shaped buckle belt (3) are respectively connected with the drip device shell (1), a storage battery is arranged in the drip device shell (1), and the storage battery provides electric support for the device; the drip device shell (1) consists of a left shell (11), a middle shell (12) and a right shell (13), wherein the middle shell (12) is fixed between the left shell (11) and the right shell (13); the method is characterized in that: the pneumatic pressurization device (14) is further arranged, and the pneumatic pressurization device (14) consists of an air inlet branch pipe (141), an air pump (142), a filter (143), a first air pipe (144), a one-way valve (145), an air chamber (146), a pressure sensor (147), a second air pipe (148), an air outlet (149), a third air pipe (150) and a microcontroller; the air inlet branch pipe (141), the air pump (142), the filter (143), the first air pipe (144), the one-way valve (145), the air chamber (146), the pressure sensor (147), the second air pipe (148) and the microcontroller are arranged in the dripping device shell (1), the filter (143) is arranged at the upper part of the left shell (11) and is connected with the air pump (142) through the air inlet branch pipe (141), the air pump (142) is connected with the air chamber (146) through the first air pipe (144), the one-way valve (145) is further arranged in the first air pipe (144), the air chamber (146) is connected with the air outlet (149) through the second air pipe (148), the air outlet (149) is connected with an infusion bottle through the third air pipe (150), and the air outlet (149) is embedded at the lower part of the left shell (11), the pressure sensor (147) is connected with the microcontroller; the right shell (13) is provided with a drip cup receiving cavity with an outward opening, and the outside of the right shell is also provided with a drip cup buckle cover (131) which can be buckled on the drip cup receiving cavity; the outer side surface of the middle shell (12) is designed in a concave manner, and the lower part of the outer side is provided with a telescopic circular ring supporting piece (121) capable of supporting an infusion bottle; the upper portion of well casing (12) be equipped with a plurality of function button (122) that can control microcontroller, the upper portion of right casing (13) be equipped with microcontroller connected display screen (132).

2. The portable intelligent drip device of claim 1, wherein: the drip cup accomodate in the cavity still be equipped with infrared emission module (4), infrared receiver (5) and end liquid ware (6) that microcontroller connected, infrared emission module (4) and infrared receiver (5) separate the transfer line and arrange, end liquid ware (6) locate the transfer line outside of drip cup lower part.

3. The portable intelligent drip device of claim 2, wherein: the infusion heating control module is connected with the microcontroller and the storage battery and consists of a temperature sensor (7) and a heating sheet (8), the temperature sensor (7) is arranged inside the middle shell (12), and the heating sheet (8) is laid on the outer side surface of the middle shell (12).

4. The portable intelligent drip device of claim 3, wherein: the outer side surface of the drip cup buckle cover (131) is of a hollow structure.

5. The portable intelligent drip device of claim 4, wherein: and a loudspeaker (111) connected with the microcontroller is arranged at the upper end of the left shell (11).

6. The portable intelligent drip device of claim 5, wherein: and an indicator lamp (133) connected with the microcontroller is arranged on the outer side of the right shell (13).

7. The portable intelligent drip device of claim 6, wherein: the temperature of the heating plate (8) is controlled between 25 and 37 degrees.

8. The portable intelligent drip device of claim 7, wherein: the drip device shell (1) is made of ABS plastic.

9. The portable intelligent drip device of claim 8, wherein: the liquid stopper (6) is a liquid stopping clamp.

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