CN210963318U - A portable intelligent drip device - Google Patents

Abstract

The utility model provides a portable intelligent dripping device, which comprises a dripping device casing, an arm bag, a waist-loop type buckle and an arm-pack buckle; The battery is built in the body; the drip device shell is composed of a left shell, a middle shell and a right shell, and the middle shell is fixed between the left shell and the right shell; a pneumatic pressure device is also provided; the right shell is provided with a The drip pot storage cavity is open to the outside, and the outside is also provided with a drip pot buckle cover that can be buckled on the drip pot storage cavity; The ring supporting part for the infusion bottle; the upper part of the middle shell is provided with a plurality of function keys that can control the microcontroller, and the upper part of the right shell is provided with a display screen connected with the microcontroller. The technical problem to be solved by the utility model is to provide a portable intelligent drip device suitable for field rescue, battlefield, and rescue of a large number of wounded.

Description

A portable intelligent drip device

technical field

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

Background technique

The drip device is mainly used for auxiliary infusion, and is widely used in the medical and nursing industry. However, most of the current drip devices are not easy to move, and some movable drip devices also have dangers such as fluid interruption and blood return, which can easily cause serious consequences.

Utility model content

The technical problem to be solved by the utility model is to provide a portable intelligent drip device suitable for field treatment, battlefield, and rescuing a large number of wounded.

In order to solve the above-mentioned technical problems, the utility model provides a portable intelligent dripping device, comprising: a dripping device shell, an arm bag, a waist-loop type buckle and an arm-pack buckle; both ends of the waist-loop type buckle are respectively connected to the drip device housing, the drip device housing has a built-in battery, and the battery provides power support for the device; the drip device housing consists of a left housing, a middle housing and a right housing The middle shell is fixed between the left shell and the right shell; a pneumatic pressure device is also provided, and the pneumatic pressure device consists of an intake branch pipe, an air pump, a filter, a first Air pipe, one-way valve, air chamber, pressure sensor, second air pipe, air outlet, third air pipe and microcontroller; the intake branch pipe, air pump, filter, first air pipe, one-way valve, air chamber , the pressure sensor, the second air pipe and the microcontroller are built in the inside of the drip device casing, the filter is arranged on the upper part of the left casing and is connected to the air pump through the intake branch pipe, so The air pump is connected to the air chamber through the first air pipe, the first air pipe is also provided with a one-way valve, the air chamber is connected to the air outlet through the second air pipe, and the outlet is connected to the air outlet. The air port is connected with the infusion bottle through the third air pipe, the air outlet is embedded in the lower part of the left casing, the pressure sensor is connected with the microcontroller; the right casing is opened There is a drip pot storage cavity, the opening is outward, and the outside is also provided with a drip pot buckle cover that can be buckled on the drip pot storage cavity; the outer side of the middle shell is concave design, and the lower part of the outer side is There is a telescopic ring supporting member that can support the infusion bottle; the upper part of the middle shell is provided with a plurality of function buttons that can control the microcontroller, and the upper part of the right shell is provided with Display connected to a microcontroller. In order to realize the possibility of low potential energy infusion, pneumatic pressure combined with air filtration and purification method is adopted, so that a certain pressure difference is formed between the infusion liquid surface and the drip input point under the pressure of pure air. Through the control of the microcontroller, the infusion liquid is guaranteed. With or without potential energy height, the infusion process can be completed through infusion power and precise control. The arm bag is designed to place excess infusion tubes, thereby preventing the excess infusion tubes from being tangled with debris during the movement of the infusion patient. The function buttons and the display screen are located on the upper part of the drip device casing, and the user can see the working status of the drip device by looking down and can adjust and control it himself.

Preferably, as a further optimization and improvement, the drip pot storage cavity is further provided with an infrared emission module, an infrared receiver and a liquid stopper connected to the microcontroller, and the infrared emission module is connected with the infrared The receiver is arranged apart from the infusion tube, and the liquid stopper is arranged on the outside of the infusion tube at the lower part of the dripping pot.

Preferably, as a further optimization and improvement, there is also an infusion heating control module connected with the microcontroller and the battery, the infusion heating control module is composed of a temperature sensor and a heating sheet, and the temperature sensor is located in the Inside the middle shell, the heating sheet is laid on the outer side of the middle shell.

Preferably, as a further optimization and improvement, the outer side of the drip pot buckle cover is a hollow structure. The hollow structure makes it convenient for medical staff to check the liquid level in the drip pot.

Preferably, as a further optimization and improvement, the upper end of the left casing is provided with a speaker connected to the microcontroller.

Preferably, as a further optimization and improvement, the outer side of the right casing is provided with an indicator light connected to the microcontroller.

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

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

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

Compared with the prior art, the advantages of the utility model are: the possibility of free movement of the infusion patient is increased, and the inconvenience and discomfort brought by the infusion process to the patient are solved; secondly, the dripping device takes into account the outdoor movement of the infusion patient. The emergency situation and outdoor activity conditions, the design of abnormal drip alarm, liquid stop, liquid heating and other functions, intelligent control of field infusion and other safety requirements, to ensure that outdoor infusion is foolproof, reduce the workload of medical staff, save battlefield Precious manpower makes field rescue safer and more efficient.

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

Description of drawings

Figure 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic front view of the housing of the drip device of the present invention.

FIG. 3 is a schematic top view of the housing of the drip device of the present invention.

FIG. 4 is a schematic side view of the housing of the drip device of the present invention.

Figure 5 is a schematic diagram of part of the structure of the present utility model.

Detailed ways

In order to make the above objects, features and advantages of the present invention more obvious and easy to understand, the portable intelligent drip device of the present invention will be described in detail with the preferred embodiments and the accompanying drawings.

In the description of the present invention, it should be noted that the orientation or positional relationship indicated by the terms "upper", "lower", "vertical", "horizontal", "inner", "outer", etc. is based on the drawings. The orientation or positional relationship shown is only for the convenience of describing the present utility model and simplifying the description, rather than indicating or implying that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as affecting the present utility model. New type of restriction.

The portable smart drip device of this embodiment, as shown in FIG. 1 to FIG. 4 , includes: a drip device housing 1 , an arm bag 2 , a loop-waist buckle 3 and an arm-pack buckle 21 ; The two ends are respectively connected to the drip device housing 1, the drip device housing 1 has a built-in battery, and the battery provides power support for the device; the drip device housing 1 is composed of a left housing 11, a middle housing 12 and a right housing 13. The middle housing The body 12 is fixed between the left casing 11 and the right casing 13; a pneumatic pressure device 14 is also provided, and the pneumatic pressure device 14 consists of an intake branch pipe 141, an air pump 142, a filter 143, a first air pipe 144, a one-way Valve 145, air chamber 146, pressure sensor 147, second air pipe 148, air outlet 149, third air pipe 150 and microcontroller; intake branch pipe 141, air pump 142, filter 143, first air pipe 144, one-way valve 145, the air chamber 146, the pressure sensor 147, the second air pipe 148 and the microcontroller are built in the drip device housing 1, the filter 143 is arranged on the upper part of the left housing 11 and is connected to the air pump 142 through the intake branch pipe 141, and the air pump 142 is connected with the air chamber 146 through the first air pipe 144, the first air pipe 144 is also provided with a one-way valve 145, the air chamber 146 is connected with the air outlet 149 through the second air pipe 148, and the air outlet 149 is connected with the infusion bottle through the third air pipe 150. Connection, the air outlet 149 is embedded in the lower part of the left casing 11, and the pressure sensor 147 is connected to the microcontroller; the right casing 13 is provided with a drip pot storage cavity, the opening is outward, and the outside is also provided with a drip pot storage cavity that can be buckled The drip pot buckle cover 131 on the cavity; the outer side of the middle casing 12 is of a concave design, and the lower part of the outer side is provided with a telescopic ring support 121 that can support the infusion bottle; the upper part of the middle casing 12 is provided with There are a plurality of function keys 122 that can control the microcontroller, and the upper part of the right casing 12 is provided with a display screen 132 connected to the microcontroller.

There is also an infrared emission module 4, an infrared receiver 5 and a liquid stopper 6 connected to the microcontroller in the dripping pot storage cavity. The infrared emission module 4 and the infrared receiver 5 are arranged in an infusion tube. The outside of the infusion tube at the lower part of the dripping pot is also provided with an infusion heating control module connected with the microcontroller and the battery. The infusion heating control module is composed of a temperature sensor 6 and a heating sheet 7. Inside, the heating sheet 7 is laid on the outer side of the middle casing 12; the outer side of the drip pot buckle cover 131 is a hollow structure; the upper end of the left casing 11 is provided with a speaker 111 connected to the microcontroller; The outer side is provided with an indicator light 133 connected to the microcontroller.

Specific working principle: There are infrared emission modules and infrared receivers on both sides of the infusion tube above the drip pot. Under normal circumstances, the infrared light will be refracted when penetrating the liquid in the infusion tube, and the infrared receiver at the rear cannot receive it. Infrared light, when the infusion tube passes through the gas column, the infrared receiver can directly receive the infrared light, send a signal to the microcontroller, the microcontroller controls the speaker to issue an alarm, and at the same time sends a closing command to the liquid stop to achieve the liquid stop effect. . The infusion heating control module is composed of a temperature sensor and a heating sheet. The temperature control device is set at 25°-37° (except for biological products and drugs that require low temperature preservation, which can not only reduce the stimulation of low temperature drugs to the body, but also To ensure the efficacy of the infusion drug), when the temperature reaches the maximum set temperature, the microcontroller will control the battery to stop providing power support for the heating plate. When the temperature is lower than the minimum set temperature, the microcontroller will control the battery to The heating sheet provides electrical support to achieve the effect of heating.

To sum up, the utility model comprehensively applies technologies such as a pneumatic pressurizing device, an infrared emitting module, an infrared receiver and a liquid stopper, and an infusion heating control module to the portable intelligent drip device, which has not been used in the prior art. Mentioned, and the application of related technologies, the portable intelligent drip device has many advantages, such as the possibility of improving the infusion principle to realize low-potential energy infusion, increasing the possibility of the free movement limit of the infusion patient during the infusion process, and realizing special circumstances. Intelligent control of suitable infusion rate and temperature. Therefore, the present invention has beneficial technical effects and obvious progress.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (9)

1. A portable intelligent drip device, comprising: a drip device housing (1), an arm bag (2), a waistband buckle (3) and an arm bag buckle (21); the waistband buckle The two ends of (3) are respectively connected to the drip device housing (1), the drip device housing (1) has a built-in battery, and the battery provides power support for the device; the drip device housing (1) consists of a left casing (11), a middle casing (12) and a right casing (13), the middle casing (12) is fixed to the left casing (11) and the right casing (13); it is characterized in that: a pneumatic pressurizing device (14) is also provided, and the pneumatic pressurizing device (14) is composed of an intake branch pipe (141), an air pump (142), a 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), the air outlet (149), the third air pipe (150) and the microcontroller are composed ; Described intake branch pipe (141), air pump (142), filter (143), first air pipe (144), one-way valve (145), air chamber (146), pressure sensor (147), second The air pipe (148) and the microcontroller are built in the inside of the drip device housing (1), and the filter (143) is arranged on the upper part of the left housing (11) and passes through the air intake The branch pipe (141) is connected with the air pump (142), the air pump (142) is connected with the air chamber (146) through the first air pipe (144), and a single air pipe (144) is further provided in the first air pipe (144). To the valve (145), the air chamber (146) is connected with the air outlet (149) through the second air pipe (148), and the air outlet (149) passes through the third air pipe (150) connected with the infusion bottle, the air outlet (149) is embedded in the lower part of the left shell (11), the pressure sensor (147) is connected with the microcontroller; the right shell (13) A drip pot storage cavity is provided, the opening is outward, and a drip pot buckle cover (131) that can be buckled on the drip pot storage cavity is also provided on the outside; the middle shell (12) The outer side is of concave design, and the lower part of the outer side is provided with a telescopic annular support member (121) that can support the infusion bottle; the upper part of the middle shell (12) is provided with a plurality of micro-controllers The function keys (122) for controlling, the upper part of the right casing (13) is provided with a display screen (132) connected with the microcontroller. 2. The portable intelligent dripping device according to claim 1, characterized in that: the dripping pot receiving cavity is also provided with an infrared emitting module (4), an infrared receiver (4) that are connected with the microcontroller. 5) and the stopper (6), the infrared emission module (4) and the infrared receiver (5) are arranged separately from the infusion tube, and the stopper (6) is arranged at the infusion at the lower part of the dripping pot outside of the tube. 3. The portable intelligent dripping device according to claim 2, characterized in that: it is also provided with an infusion heating control module connected with a microcontroller and a storage battery, and the infusion heating control module is composed of a temperature sensor (7) and a battery. It consists of a heating sheet (8), the temperature sensor (7) is arranged inside the middle casing (12), and the heating sheet (8) is laid on the outside of the middle casing (12). side. 4. The portable intelligent dripping device according to claim 3, characterized in that: the outer side of the drip pot buckle cover (131) is a hollow structure. 5. The portable intelligent dripping device according to claim 4, characterized in that: the upper end of the left casing (11) is provided with a speaker (111) connected to the microcontroller. 6. The portable intelligent dripping device according to claim 5, characterized in that: an indicator light (133) connected to the microcontroller is provided on the outer side of the right casing (13). 7 . The portable intelligent dripping device according to claim 6 , wherein the temperature of the heating sheet ( 8 ) is controlled between 25°C and 37°C. 8 . 8 . The portable intelligent drip device according to claim 7 , wherein the material of the drip device housing ( 1 ) is ABS plastic. 9 . 9. The portable intelligent dripping device according to claim 8, characterized in that: the liquid stopper (6) is a liquid stopper.

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