CN219538943U - Movable storage structure for clinical nutrient solution - Google Patents

Abstract

The utility model discloses a clinical nutrient solution mobile storage structure, which relates to the technical field of gastrointestinal nutrient solutions, and comprises a storage barrel, wherein the outer wall of the storage barrel is of a vacuum sandwich structure, a heating component is arranged in the sandwich, the heating component comprises a plurality of heating pipes which are fixed in the sandwich and are equidistantly arranged along the height direction of the storage barrel, the top of the storage barrel is provided with a nutrient solution output component, the output component comprises a micro air pump which is fixed on the side surface of the storage barrel by screws, the bottom of the storage barrel is of a concave structure, a rechargeable battery is arranged at the concave part, one side of the rechargeable battery is provided with a stirring component which is rotationally connected in the storage barrel, the stirring component comprises a motor at the bottom of the storage barrel, and the rechargeable battery is used for providing electric energy for the heating pipes, the micro air pump and the motor; this nutrient solution removes storage structure can realize the storage of nutrient solution, quantitative derivation, accurate control by temperature change and stirring prevent the function of deposiing, facilitate the use and reduce medical personnel's intensity of labour.

Description

Movable storage structure for clinical nutrient solution

Technical Field

The utility model relates to the technical field of gastrointestinal nutrient solutions, in particular to a movable storage structure of clinical nutrient solutions.

Background

After operation, some patients cannot actively eat, and at this time, gastrointestinal nutrient solution needs to be delivered to the intestines and stomach through a catheter for infusion, so that the patients can be supplied with nutrition in time. However, certain problems exist in the current gastrointestinal nutrient fluid catheter delivery process.

For example, the gastrointestinal nutrient solution is delivered to the intestines and stomach of a patient through a catheter, the temperature of the gastrointestinal nutrient solution is relatively low, certain damage can be caused to the intestines and stomach of the patient, adverse reaction is generated, the experience of the patient in the infusion process is deteriorated, the conventional heating mode is generally that a clamping heating sleeve similar to that on an infusion tube is adopted, or a gastrointestinal nutrient solution heating and heat preservation device disclosed in Chinese patent CN213822610U comprises a liquid storage bag, a dropper, a catheter and a heating assembly, one end of the catheter is connected with the liquid storage bag, the other end of the catheter is connected with a patient, the heating assembly and the dropper are all arranged on the catheter, the dropper is communicated with the catheter, the heating and heat preservation device further comprises a heat preservation layer which is sleeved on the catheter and is positioned between the patient and the heating assembly. According to the utility model, through the heating assembly and the heat preservation layer, the gastrointestinal nutrient solution can be heated to a proper temperature and is preserved and then is input into the intestines and stomach of a patient, and the heat preservation function is added on the basis of clamping the heating sleeve, but for the heating and heat preservation structure, accurate control of the temperature is difficult to realize, and as the most comfortable temperatures of different patients are different, there is room for improvement.

For example, the existing nutrient solution is generally input by using a nasal feeding method, the variety of the nasal feeding nutrient solution is more, the nasal feeding nutrient solution is generally selected according to the condition of patients, such as full-strength solution, an Sufen and the like, and the nutrient solution is dissolved as solid, so that precipitation phenomenon is unavoidable when the nutrient solution stands in the process from the completion of preparation to the completion of input, and the nutrient solution is wasted.

Finally, for different patients, the amount of the nutrient solution needed for eating each time is variable, and for patients with little or multiple meals, medical staff is needed to inject the nutrient solution at regular time, so that if the structure of automatic control is studied, the labor intensity of the medical staff can be reduced, and the time is saved.

Disclosure of Invention

The utility model aims to provide a movable storage structure of clinical nutrient solution, which changes the traditional mode that medical staff carries the nutrient solution by adopting a nasal feeding method through a syringe, can realize the functions of storage, quantitative export, accurate temperature control and stirring and precipitation prevention of the nutrient solution, is convenient to use and reduces the labor intensity of the medical staff.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a clinical nutrient solution removes storage structure, this clinical nutrient solution removes storage structure includes the storage section of thick bamboo, the storage section of thick bamboo outer wall is vacuum sandwich structure, and the inside heating element that sets up of intermediate layer, heating element include that a plurality of is fixed inside along the heating pipe that storage section of thick bamboo direction of height equidistance set up of intermediate layer, the storage section of thick bamboo top is equipped with nutrient solution output module, and output module includes the miniature air pump of screw fixation in storage section of thick bamboo side, and storage section of thick bamboo bottom is the indent structure, and the depressed part is equipped with rechargeable battery, and rechargeable battery one side is equipped with rotates the stirring subassembly of connecting in storage section of thick bamboo inside, and stirring subassembly is used for providing the electric energy to heating pipe, miniature air pump and motor including the motor of storage section of thick bamboo bottom.

Furthermore, all heating pipes are connected in series, a temperature control valve is also connected in series, the temperature control valve is connected to the side surface of the storage barrel in a threaded manner, and a threaded connecting seat is fixed on the corresponding storage barrel.

Further, the input of miniature air pump is connected with first pipe, and first pipe stretches into the inside bottom of storage section of thick bamboo, and the output is connected with the second pipe, and miniature air pump still electricity is connected with the switch controller, and switch controller screw fixation is in storage section of thick bamboo outer wall department.

Further, the top of the storage cylinder is clamped with a rubber plug, a conduction pipe is inserted into the rubber plug, and a gland is hinged to the end, away from the rubber plug, of the conduction pipe.

Further, the output shaft of the motor is fixedly connected with a stirring rod, the stirring rod is positioned at the inner part of the storage cylinder, stirring blades are fixed on the outer wall of the stirring rod, and a plurality of stirring blades are arranged along the circumference and the height direction of the stirring rod.

Further, the stirring rod is also fixed with the sleeve outside, the sleeve outside is equipped with the bracing piece, rotates between sleeve and the bracing piece to be connected, and bracing piece both ends are fixed in the concave part department of storage barrel bottom, are located the bracing piece below and still are equipped with the backup pad, motor screw fixes in the backup pad, and backup pad screw fixes in storage barrel bottom, has seted up the heat dissipation groove in the backup pad, and heat dissipation groove one side is equipped with the battery mounting groove of seting up in the backup pad.

By adopting the scheme, the heat dissipation groove is utilized to dissipate heat for the rechargeable battery and the motor, so that the internal temperature is prevented from being too high, and the service life of the motor is prolonged.

Further, the bottom of the storage cylinder is also fixed with a rubber base, and the rubber base is provided with a plurality of rubber bases along the circumferential direction of the storage cylinder.

By adopting the scheme, the height of the storage barrel from the supporting surface is improved when the storage barrel is placed, and the heat dissipation effect is further improved.

Further, a heat insulation layer is fixed on the side face of the storage cylinder, and a grab handle is integrally formed on the heat insulation layer.

The beneficial effects of the utility model are as follows:

1. the storage barrel adopted by the utility model can be directly used for conveying clinical nutrient solution while being used for storing the nutrient solution, and the whole intelligent switch is controlled electrically, so that excessive stay of medical staff is not needed in the conveying process, the traditional mode that the medical staff conveys the nutrient solution by adopting a nasal feeding method through the injector is changed, the use is convenient, and the labor intensity of the medical staff is reduced.

2. The quantitative export of the nutrient solution is realized by combining a switch controller with a miniature air pump, so that the requirements of different patients are met.

3. By combining a temperature control valve with a heating control mode of an electric heating tube, accurate temperature control can be realized, and feeding temperatures required by different patients can be met.

4. By utilizing a motor driving mode, the internal components of the nutrient solution are prevented from precipitating due to placement by stirring in advance when the nutrient solution is input, and the nutrient solution components are ensured to fully enter the body of a patient.

Drawings

FIG. 1 is a schematic diagram of a structure of a mobile storage structure for clinical nutrient solution provided by the utility model;

FIG. 2 is a schematic diagram of the internal structure of a storage cylinder of the clinical nutrient solution mobile storage structure provided by the utility model;

FIG. 3 is a schematic view of the bottom of a cartridge of the mobile storage structure for clinical nutrient solution provided by the utility model;

fig. 4 is a schematic view of a heating tube of the clinical nutrient solution mobile storage structure provided by the utility model.

In the figure: 1. a storage cylinder; 2. heating pipes; 3. a micro air pump; 4. a rechargeable battery; 5. a motor; 6. a temperature control valve; 7. a threaded connecting seat; 8. a first conduit; 9. a second conduit; 10. a switch controller; 11. a rubber stopper; 12. a conduit; 13. a gland; 14. a stirring rod; 15. stirring blades; 16. a sleeve; 17. a support rod; 18. a support plate; 19. a heat sink; 20. a battery mounting groove; 21. a rubber base; 22. a thermal insulation layer; 23. a grab handle.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

In this embodiment, the storage cylinder 1 is made of copper, stainless steel and other materials, the heat insulation layer 22 is made of ceramic materials, the external heat insulation performance is improved, the miniature air pump 3 is made of SFB-2431-Q product of Dongguan City magnetic electricity technology limited company, the heating pipe 2 is made of carbon steel pipe with built-in heating wire structure, the switch controller 10 is made of syn 168 product of Guangzhou Siya intelligent electronic limited company, the temperature control valve 6 is made of Zigbee temperature control valve 6 of Xia Bai Yi energy saving technology limited company, the rechargeable battery 4 is integrally provided with power through the rechargeable battery 4, and the rechargeable battery 4 is installed inside the battery installation groove 20 through screws.

In this embodiment, as shown in fig. 1, the storage structure body is a storage barrel 1, so that the quantitative derivation of the nutrient solution can be realized, the accurate temperature control and the stirring of the nutrient solution can be realized, the anti-precipitation function is also realized, a heat insulation layer 22 is further arranged, and a grab handle 23 is integrally formed on the heat insulation layer 22, so that the nutrient solution can be conveniently taken and moved.

For quantitatively exporting nutrient solution, a nutrient solution output assembly is adopted, as shown in fig. 1 and 2, the nutrient solution is specifically exported through the driving of the miniature air pump 3, the second guide pipe 9 is arranged as a nasal feeding pipe to enter intestines and stomach along the nose of a patient, the nutrient solution in the storage cylinder 1 is exported by utilizing the first guide pipe 8, the miniature air pump 3 is controlled by the switch controller 10, and the pipe diameter length of the first guide pipe 8 and the second guide pipe 9 and the power of the miniature air pump 3 are known, so that the liquid quantity exported by the two guide pipes in unit time can be obtained actually, the nutrient solution can be quantitatively exported through setting the opening time of the switch controller 10, the requirements of different patients are met, and the medical staff can use the nutrient solution conveniently according to the conditions of the patients.

For accurate temperature control of nutrient solution, a plurality of heating pipes 2 are arranged inside the outer wall of the storage barrel 1, as shown in fig. 4, the heating time of the heating pipes 2 is controlled by a temperature control valve 6, a target temperature value is input on the temperature control valve 6, the temperature control valve 6 can be automatically disconnected when the target temperature is reached, the temperature control valve 6 adopts the existing product, and the principle is not repeated; meanwhile, the temperature control valve 6 is arranged above the grab handle 23, so that the operation is convenient.

To stirring anti-sedimentation function, through opening motor 5, motor 5 drives puddler 14 and rotates, and as shown in fig. 2, and then stirs the inside nutrient solution of storage section of thick bamboo 1, and puddler 14 adopts the silica gel material, can moderate stirring for a long time, simultaneously because the bottom of storage section of thick bamboo 1 is the indent, can bend to the puddler 14 of bottommost, laminating storage section of thick bamboo 1 bottom.

When the device is specifically used, the prepared nutrient solution is stored in the storage barrel 1, the rubber plug 11 arranged along the top of the storage barrel 1 is directly injected into the storage barrel 1 in a syringe split mode, meanwhile, the gland 13 on the guide pipe 12 is opened, and after the storage is finished, the gland 13 is tightly pressed to seal the guide pipe 12; when the miniature water pump is required to be used, the motor 5 is firstly turned on to stir internal nutrient solution, after stirring for 1-2min, the storage cylinder 1 is taken to one side of a patient, the second guide pipe 9 is inserted into the patient, meanwhile, the position of the second guide pipe 9, which is close to the storage cylinder 1, is increased in height, the nutrient solution is convenient to enter the patient, the temperature value of the temperature control valve 6 is further regulated, after heating is completed, the on-off time of the switch controller 10 is regulated, and the miniature water pump works to guide the nutrient solution into the patient.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Clinical nutrient solution removes storage structure, including a storage section of thick bamboo (1), its characterized in that, a storage section of thick bamboo (1) outer wall is vacuum sandwich structure, and the inside heating element that sets up of intermediate layer includes that a plurality of is fixed inside heating pipe (2) that set up along a storage section of thick bamboo (1) direction of height equidistance in the intermediate layer, a storage section of thick bamboo (1) top is equipped with nutrient solution output module, and output module includes miniature air pump (3) of screw fixation in a storage section of thick bamboo (1) side, and a storage section of thick bamboo (1) bottom is the indent structure, and the depressed part is equipped with rechargeable battery (4), and rechargeable battery (4) one side is equipped with rotates and connects at the inside stirring subassembly of a storage section of thick bamboo (1), and stirring subassembly is used for providing electric energy to heating pipe (2), miniature air pump (3) and motor (5) including a storage section of thick bamboo (1) bottom.

2. The movable storage structure of clinical nutrient solution according to claim 1, wherein all heating pipes (2) are connected in series, a temperature control valve (6) is also connected in series, the temperature control valve (6) is connected with the side surface of the storage barrel (1) in a threaded manner, and a threaded connecting seat (7) is fixed on the corresponding storage barrel (1).

3. The movable clinical nutrient solution storage structure according to claim 1, wherein the input end of the miniature air pump (3) is connected with a first conduit (8), the first conduit (8) stretches into the bottom end inside the storage cylinder (1), the output end is connected with a second conduit (9), the miniature air pump (3) is further electrically connected with a switch controller (10), and the switch controller (10) is fixed on the outer wall of the storage cylinder (1) through screws.

4. The movable storage structure of clinical nutrient solution according to claim 1, wherein the top of the storage barrel (1) is clamped with a rubber plug (11), a conducting pipe (12) is inserted onto the rubber plug (11), and a gland (13) is hinged to the end, far away from the rubber plug (11), of the conducting pipe (12).

5. The movable clinical nutrient solution storage structure according to claim 1, wherein the output shaft of the motor (5) is fixedly connected with a stirring rod (14), the stirring rod (14) is positioned at the inner part of the storage cylinder (1), stirring blades (15) are fixed on the outer wall of the stirring rod (14), and a plurality of stirring blades (15) are arranged along the circumference and the height direction of the stirring rod (14).

6. The movable clinical nutrient solution storage structure according to claim 5, wherein a sleeve (16) is further fixed outside the stirring rod (14), a supporting rod (17) is arranged outside the sleeve (16), the sleeve (16) is rotationally connected with the supporting rod (17), two ends of the supporting rod (17) are fixed at the concave part of the bottom of the storage cylinder (1), a supporting plate (18) is further arranged below the supporting rod (17), the motor (5) is screwed on the supporting plate (18), the supporting plate (18) is screwed on the bottom of the storage cylinder (1), a heat dissipation groove (19) is formed in the supporting plate (18), and a battery mounting groove (20) formed in the supporting plate (18) is formed in one side of the heat dissipation groove (19).

7. The movable storage structure of clinical nutrient solution according to claim 6, wherein a rubber base (21) is further fixed at the bottom of the storage barrel (1), and the rubber base (21) is provided with a plurality of rubber bases along the circumferential direction of the storage barrel (1).

8. The movable storage structure of clinical nutrient solution according to claim 6, wherein the side surface of the storage cylinder (1) is fixed with a heat insulation layer (22), and a grab handle (23) is integrally formed on the heat insulation layer (22).