CN209933527U - Medicine storage and treatment container for nasal feeding administration - Google Patents

Abstract

The utility model discloses a medicine storage treatment container for nasal feeding administers belongs to the medical instrument field, its characterized in that: comprises a bottle body, a medicine powder box and a circular ring; the powder box is of a hollow cylindrical shell structure with a concave top; a medicine inlet channel is arranged on the side wall of the bottle body; a supporting plate is arranged in the medicine inlet channel; the lower surface of the supporting plate is respectively and fixedly provided with a vertical baffle and a spring piece; the middle parts of the bottom surface of the bottle body and the top surface of the medicine powder box are sunken downwards; the bottom surface of the bottle body and the top surface of the medicine powder box are respectively provided with an inclined plane at the position of the middle opening; a series of vertical pores are arranged on the top surface of the medicine powder box; the lower wall of the medicine powder box is provided with a medicine outlet; a series of inclined strip-shaped protrusions are arranged on the outer surface of the side wall of the powder box, a series of vertical strip-shaped protrusions are arranged on the inner side surface of the circular ring, and the lower ends of the vertical protrusions are abutted to the inclined protrusions. Compared with the prior art have the characteristics of being convenient for smash the medicine.

Description

Medicine storage and treatment container for nasal feeding administration

Technical Field

The utility model relates to a medical appliance, in particular to a drug storage and treatment container for nasal feeding drug delivery.

Background

Nasal feeding is a treatment method for special stomach tube delivery oral medicine inserted into stomach through nasal cavity, and is used for critical patients who cannot take medicine orally by themselves or patients who are in coma or dysphagia for a long time. The nasal feeding medicament is preferably mixed with water after pounding with a liquid formulation or a common solid tablet medicament. For common solid tablet medicines, the medicine is crushed by placing the tablet in a bowl and grinding the tablet with a pestle, so that the crushed dosage is incorrect due to human factors. Particularly, when a nurse sends out medicines in a ward, the medicines are crushed at a nurse station, the powdery medicines are possibly scattered in the process of being brought into the ward, and the operation space is lacked when the medicines are crushed and ground on the spot beside a sickbed. Therefore, many orally available drugs have to be given intravenous infusion, which is costly. In addition, for family care, the earthen bowl, the pestle of smashing the medicine expose in the air, receive the pollution of dust, bacterium easily, so need frequently wash, disinfect, dry before using, whole operation process is more loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The technical task of the utility model is to provide a medicine storage and treatment container for nasal feeding drug delivery, which aims at the defects of the prior art.

The technical proposal of the utility model for solving the technical problem is that: a medication storage and handling container for nasal feeding administration, characterized by: comprises a bottle body with a bottle mouth and a bottle cap, a medicine powder box and a circular ring; a circle of outer flange is arranged on the lower edge of the outer side surface of the side wall of the bottle body, and a circle of annular groove which is matched with the outer flange is arranged on the inner side surface of the ring; the powder box is of a hollow cylindrical shell structure with a concave top and is positioned below the bottle body and on the inner side of the circular ring; a plurality of vertical rods are uniformly distributed on the edge of the upper side surface of the medicine powder box, a plurality of vertical rod channels matched with the vertical rods are arranged in the bottle body, the lower end of each vertical rod channel is provided with an opening, the opening is positioned at the bottom of the bottle body, and the vertical rods penetrate through the openings; a spring which is vertically in a stretching state is arranged in the vertical rod channel, and the upper end and the lower end of the spring are respectively fixed at the upper end of the vertical rod channel and the upper end of the vertical rod; the side wall of the bottle body is provided with a medicine inlet channel which is enclosed by the side wall of the bottle body and the side wall of the channel to form a tubular structure; the upper end of the medicine inlet channel is provided with a medicine inlet which is communicated with the inner cavity of the bottle body and the medicine inlet channel, and the middle position of the medicine inlet channel is provided with a middle opening which is communicated with the medicine inlet channel and the middle cavity; a supporting plate is arranged in the medicine inlet channel; the upper surface of the supporting plate is an inclined surface which goes along the direction from inside to outside; the lower surface of the supporting plate is respectively fixedly provided with a vertical baffle and a spring leaf, the baffle is close to the side wall of the bottle body, and the spring leaf is close to the side wall of the channel; a vertical strip-shaped hole is formed in the side wall of the channel, a series of notches are formed in the two sides of the strip-shaped hole, a handle is fixedly arranged at the lower end of the spring piece, and the handle penetrates out of the strip-shaped hole; the handle and the lug are ejected outwards through the spring piece in a natural state, and the lug is clamped in the notch of the strip-shaped hole; the bottom surface of the bottle body is the same as the top surface of the medicine powder box in shape; the middle parts of the bottom surface of the bottle body and the top surface of the medicine powder box are sunken downwards; the bottom surface of the bottle body and the top surface of the medicine powder box are respectively provided with an inclined plane at the position of the middle opening; the two sides of the inclined plane are respectively provided with a vertical side wall so that the inclined plane forms a complete structure with the bottom surface of the bottle body and the top surface of the medicine powder box respectively; a series of vertical pores are arranged on the top surface of the medicine powder box; the lower wall of the medicine powder box is provided with a medicine outlet with a plug; the outer surface of the side wall of the powder box is provided with a series of inclined bar-shaped bulges, the inner side surface of the circular ring is provided with a series of vertical bar-shaped bulges, and the lower ends of the vertical bulges are propped against the inclined bulges

The side wall of the channel is marked with scales.

The diameter of the medicine inlet channel is such that the tablets inside can only be vertically arranged in a single row.

The channel side wall is made of transparent material.

Compared with the prior art, the utility model discloses following outstanding beneficial effect has:

1. the nasal feeding tube is suitable for places such as geriatric wards, nursing homes, nursing institutions in the end of life and the like where nasal feeding tube nutrition is frequently used, nurses carry the nasal feeding tube to wards during medicine distribution, medicine crushing can be conveniently carried out, and the nasal feeding tube is convenient to operate and administer medicine;

2. the medicine can be contained and crushed, and the two purposes are realized at one time;

3. the elongated medication intake channel can facilitate medication counting;

4. the crushing is carried out in the medicine bottle in the process of crushing the medicine, medicine transfer is not needed, the medicine is prevented from being polluted, and the crushing tools do not need to be cleaned and disinfected frequently;

5. the device can be used repeatedly, new medicines can be directly transferred to the device when the medicines are purchased each time, one-time investment is realized, the comprehensive cost is low, and the artificial benefit is remarkable.

Drawings

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

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is a schematic front sectional view of the present invention.

Fig. 4 is a schematic structural view of the powder box and the ring of the present invention.

Fig. 5 is a schematic partial sectional view of the medicine inlet passage of the present invention.

Detailed Description

The invention is further described with reference to the drawings and the detailed description. For convenience of description, the direction toward the axis of the bottle body 2 in the present invention is set as the inner side, and the opposite direction is set as the outer side.

As shown in fig. 1 to 5, the present invention includes a bottle body 2, a medicine powder box 14 and a ring 3.

The upper end of the bottle body 2 is provided with a bottle mouth and a bottle cap 1. The lower edge of the outer side surface of the side wall of the bottle body 2 is provided with a circle of outer flange 10, the position on the inner side surface of the ring 3 is provided with a circle of annular groove 11 matched with the outer flange 10, and the outer flange 10 is positioned in the annular groove 11, so that the ring 3 can only rotate around the bottle body 2 and can not move up and down. The medicine powder box 14 is a hollow cylindrical shell structure with a concave top and is positioned below the bottle body 2 and inside the circular ring 3. Three cavities, namely an upper cavity, a middle cavity and a lower cavity, are respectively formed in the bottle body 2, between the bottle body 2 and the medicine powder box 14 and in the medicine powder box 14.

A plurality of vertical poles 9 of evenly distributed on the side edge on the powder box 14, bottle 2 in be equipped with a plurality of vertical pole passageways 7 that suit with vertical pole 9, 7 lower extreme openings of vertical pole passageway, the opening part is located the bottom of bottle 2, vertical pole 9 passes from this opening. A vertical spring 8 is arranged in the vertical rod channel 7, the spring 8 is in a stretching state, and the upper end and the lower end of the spring 8 are respectively fixed at the upper end of the vertical rod channel 7 and the upper end of the vertical rod 9.

The side wall of the bottle body 2 is provided with a medicine inlet channel 21, the medicine inlet channel 21 is of a tubular structure enclosed by the side wall of the bottle body 2 and the side wall 4 of the channel, and the diameter of the medicine inlet channel 21 meets the requirement that tablets inside can only be vertically arranged in a single row. The upper end of the medicine inlet channel 21 is provided with a medicine inlet 22 for communicating the inner cavity of the bottle body 2 with the medicine inlet channel 21, and the middle position of the medicine inlet channel 21 is provided with a middle port 17 for communicating the medicine inlet channel 21 with the middle cavity. A supporting plate 20 is arranged in the medicine inlet channel 21. The upper surface of the support plate 20 is an inclined surface that runs in the inward downward to outward upward direction, and the tablets slide out of the central opening 17 by gravity when the support plate 20 is moved to the position of the central opening 17 by the action of the inclined surface. The lower surface of the supporting plate 20 is respectively fixedly provided with a vertical baffle 18 and a spring leaf 19, the baffle 18 is close to the side wall of the bottle body 2, and the spring leaf 19 is close to the side wall 4 of the passage. When the supporting plate 20 moves to a position below the medicine inlet channel 21, the middle opening 17 can be sealed by the action of the baffle 18, and medicine is prevented from splashing out of the middle opening 17 in the crushing process.

As shown in fig. 1 and 5, a vertical strip-shaped hole 6 is formed in the channel side wall 4, a series of notches 24 are formed in two sides of the strip-shaped hole 6, a handle 5 is fixedly arranged at the lower end of the spring piece 19, the handle 5 penetrates out of the strip-shaped hole 6, and the supporting plate 20 can be pulled downwards through the operating handle 5. The positions of two sides of the handle 5 close to the spring leaf 19 are respectively provided with a lug 23, the handle 5 and the lugs 23 are ejected outwards through the spring leaf 19 in a natural state, the lugs 23 are clamped in the notches 24 of the strip-shaped holes 6, so that the position of the supporting plate 20 can be fixed, when the position of the supporting plate 20 needs to be adjusted, the handle 5 is pressed inwards by hands to enable the lugs 23 to leave from the notches 24 and be completely pressed into the medicine inlet channel 21, and the position of the supporting plate 20 can be adjusted by pushing the handle 5 up and down. The channel side wall 4 is made of transparent material, so that the number of the tablets in the channel can be observed. The channel side walls 4 are marked with a scale.

The bottom surface of the bottle body 2 is the same as the top surface of the medicine powder box 14 in shape, so that the bottle body and the medicine powder box can be tightly attached after being buckled. The bottom surface of the bottle body 2 and the upper middle portion of the top surface of the powder cartridge 14 are depressed downward so that the medicine in the middle chamber can be gathered at the middle position of the top surface of the powder cartridge 14. As shown in fig. 2 and 3, a slope 16 is provided on the bottom surface of the bottle body 2 and the top surface of the powder cartridge 14 at a position of the central opening 17, and the medicine is quickly slid down to the central position of the top surface of the powder cartridge 14 by the slope 16. Vertical sidewalls are formed on both sides of the inclined surface 16 such that the inclined surface 16 forms a complete structure with the bottom surface of the bottle body 2 and the top surface of the powder cartridge 14, respectively. The top surface of the powder box 14 is provided with a series of vertical fine holes 15, so that the pulverized powder enters the lower cavity of the powder box 14 through the vertical fine holes 15. The lower wall of the medicine powder box 14 is provided with a medicine outlet 25, the medicine outlet 25 is provided with a plug 26, and the medicine powder can be poured out from the medicine outlet 25 after the plug 26 is pulled out.

As shown in fig. 4, a series of inclined bar-shaped protrusions 13 (hereinafter referred to as inclined protrusions 13) are provided on the outer surface of the side wall of the medicine powder container 14, a series of vertical bar-shaped protrusions 12 (hereinafter referred to as vertical protrusions 12) are provided on the inner side surface of the ring 3, the lower ends of the vertical protrusions 12 abut against the inclined protrusions 13, the ring 3 is rotated, the lower ends of the vertical protrusions 12 slide along the inclined protrusions 13 because the medicine powder container 14 cannot rotate, the medicine powder container 14 can be gradually pulled down by the action of the vertical protrusions 12 and the inclined protrusions 13 because the vertical protrusions 12 cannot move in the vertical direction when the lower ends of the vertical protrusions 12 gradually move from the lower ends of the inclined protrusions 13 to the upper ends of the inclined protrusions 13, the vertical rod 9 and the medicine powder container 14 are rapidly pulled up by the action of the spring 8 when the lower ends of the vertical protrusions 12 move away from the upper ends of the inclined protrusions 13 to the lower ends of the next inclined protrusions 13, the top surface of the medicine powder box 14 collides with the bottom surface of the bottle body 2, and the tablets on the medicine powder box 14 can be smashed through the collision action.

The operation flow is as follows: in use, the ring 3 is first rotated to move the powder container 14 downwards by a certain distance through the action of the vertical protrusions 12 and the inclined protrusions 13, thereby opening the intermediate chamber. The support plate 20 is pulled down to a proper scale position by operating the handle 5 according to the number of tablets used. Then horizontally placing the medicine bottle, enabling the medicine inlet 22 to face downwards, shaking the medicine bottle to enable the tablets to enter the medicine inlet channel 21 from the medicine inlet 22, then vertically placing the medicine bottle, then counting the number of the tablets in the medicine inlet channel 21, and if the number of the tablets is not correct, pouring the medicine bottle back or continuously pouring the medicines into the medicine inlet channel; the supporting plate 20 is pulled downwards to the middle opening 17 by operating the handle 5, so that the tablets slide into the middle cavity. The plate 20 is then moved upwardly to position the flap 18 to block the intermediate port 17 and prevent tablets from spilling out of the intermediate port 17. Then the ring 3 is rotated, the medicine powder box 14 is pulled downwards through the action of the vertical protrusion 12 and the inclined protrusion 13, then the medicine powder box 14 is pulled upwards through the spring 8 to impact the bottle body 2, tablets are smashed through the impact action for a plurality of times until the tablets become medicine powder meeting the requirement, then the medicine powder enters the medicine powder box 14 from the vertical pore 15 on the top surface of the medicine powder box 14, and after the medicine powder is poured out, the plug 26 is pulled out.

The utility model can be used as a container for holding the medicine and can be used for grinding the medicine, and the two purposes are achieved at one stroke. The whole medicine crushing process is carried out in the medicine bottle, and the medicine does not need to be transferred, so that the possibility of pollution of the medicine is avoided. Compared with the mode of smashing by a bowl and a pestle, the operation is greatly simplified, and the use is more convenient.

It should be noted that while the invention has been described in detail with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various obvious changes can be made therein without departing from the spirit and scope of the invention.

Claims (3)

1. A medication storage and handling container for nasal feeding administration, characterized by: comprises a bottle body with a bottle mouth and a bottle cap, a medicine powder box and a circular ring; a circle of outer flange is arranged on the lower edge of the outer side surface of the side wall of the bottle body, and a circle of annular groove which is matched with the outer flange is arranged on the inner side surface of the ring; the powder box is of a hollow cylindrical shell structure with a concave top and is positioned below the bottle body and on the inner side of the circular ring; a plurality of vertical rods are uniformly distributed on the edge of the upper side surface of the medicine powder box, a plurality of vertical rod channels matched with the vertical rods are arranged in the bottle body, the lower end of each vertical rod channel is provided with an opening, the opening is positioned at the bottom of the bottle body, and the vertical rods penetrate through the openings; a spring which is vertically in a stretching state is arranged in the vertical rod channel, and the upper end and the lower end of the spring are respectively fixed at the upper end of the vertical rod channel and the upper end of the vertical rod; the side wall of the bottle body is provided with a medicine inlet channel which is enclosed by the side wall of the bottle body and the side wall of the channel to form a tubular structure; the upper end of the medicine inlet channel is provided with a medicine inlet which is communicated with the inner cavity of the bottle body and the medicine inlet channel, and the middle position of the medicine inlet channel is provided with a middle opening which is communicated with the medicine inlet channel and the middle cavity; a supporting plate is arranged in the medicine inlet channel; the upper surface of the supporting plate is an inclined surface which goes along the direction from inside to outside; the lower surface of the supporting plate is respectively fixedly provided with a vertical baffle and a spring leaf, the baffle is close to the side wall of the bottle body, and the spring leaf is close to the side wall of the channel; a vertical strip-shaped hole is formed in the side wall of the channel, a series of notches are formed in the two sides of the strip-shaped hole, a handle is fixedly arranged at the lower end of the spring piece, and the handle penetrates out of the strip-shaped hole; the handle and the lug are ejected outwards through the spring piece in a natural state, and the lug is clamped in the notch of the strip-shaped hole; the bottom surface of the bottle body is the same as the top surface of the medicine powder box in shape; the middle parts of the bottom surface of the bottle body and the top surface of the medicine powder box are sunken downwards; the bottom surface of the bottle body and the top surface of the medicine powder box are respectively provided with an inclined plane at the position of the middle opening; the two sides of the inclined plane are respectively provided with a vertical side wall so that the inclined plane forms a complete structure with the bottom surface of the bottle body and the top surface of the medicine powder box respectively; a series of vertical pores are arranged on the top surface of the medicine powder box; the lower wall of the medicine powder box is provided with a medicine outlet with a plug; a series of inclined strip-shaped protrusions are arranged on the outer surface of the side wall of the powder box, a series of vertical strip-shaped protrusions are arranged on the inner side surface of the circular ring, and the lower ends of the vertical protrusions are abutted to the inclined protrusions; the side wall of the channel is made of transparent material.

2. A medication storage and handling container for nasogastric administration of claim 1, characterized in that: the side wall of the channel is marked with scales.

3. A medication storage and handling container for nasogastric administration of claim 1, characterized in that: the diameter of the medicine inlet channel is such that the tablets inside can only be vertically arranged in a single row.

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