CN220275964U - Medicine feeding device for children - Google Patents

Abstract

The utility model relates to a child medicine feeding device, which comprises a first main pipe for mixing medicine liquid, a first auxiliary pipe capable of adding medicine into the first main pipe is arranged on the side wall of the first main pipe, a pressure bag for providing air flow for blowing the medicine into the first main pipe to the first auxiliary pipe based on shrinkage, a one-way valve for limiting the medicine to enter the pressure bag and a medicine filling component for controlling the medicine to enter the first main pipe are sequentially arranged from the far end to the near end close to the first main pipe. The medicine feeding device is provided with a first auxiliary pipe capable of adding medicine to the first main pipe and a second auxiliary pipe capable of adding a phagostimulant to the first main pipe, and a user can select to add medicine or phagostimulant to the first main pipe based on the current state of the child, so that the taste of the child taking the medicine can be adjusted.

Description

Medicine feeding device for children

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a medicine feeding device for children.

Background

At present, in the clinical medical treatment process of children, the situation of feeding medicine to children is a frequent occurrence, and the medicine of children is usually mainly liquid medicine. The traditional medicine feeding mode that children patient adopted, pour the liquid medicine in the ladle earlier, use the ladle to press the tongue and directly irritate, cause children to choking easily, and operate when feeding medicine for children patient, children often are unfavorable for drinking medicine because the bitter taste of medicine, especially to those dig strong or stubborn skin child, when feeding medicine for this kind of children, this kind of child often sways the medicine feeding spoon that will send into in the mouth around, makes the medicine in the medicine feeding spoon spill very easily to bring difficulty for the medicine feeding process, perhaps can influence children's treatment even, be unfavorable for children patient's rehabilitation.

Nipple and spoon type feeding devices for children are produced based on the needs of child feeding.

Chinese patent No. CN215740541U discloses a child drug feeder comprising: the medicine feeder body is internally limited with a containing cavity, an opening is arranged on the medicine feeder body, the opening is communicated with the containing cavity, and medicine liquid can enter the oral cavity of a child through the opening; the smell box is arranged on the medicine feeder body, an accommodating cavity with one open end is defined in the smell box, and a food calling part capable of giving off smell is arranged in the smell box. However, the drug delivery device is designed based on a spoon structure, which has poor palatability for children and the entrance structure is easy to damage the children's mouth when they struggle.

The Chinese patent with the patent number of CN209270352U relates to a medical child medicine feeding device, which comprises a bottle body, wherein a nipple is arranged above the bottle body, a nipple cover is sleeved on the nipple and the bottle body, a bottle cover is sleeved on the outer side of the nipple cover, a rotary tube is arranged on the outer side of the nipple, a rotary plate is arranged below the nipple, a medicine feeder is arranged below the rotary plate, and the medicine feeder is connected with the inner wall of the nipple cover. Based on the nipple setting of the device, on the one hand, a familiar and comfortable feeding tool can be provided for children; on the other hand, the design of the rotary tube and the rotary plate is also convenient for mixing the medicine with the food in the bottle body.

The biggest characteristic of child feeding is forcing and inducing. Forced filling of the child's mouth with a phagostimulant (e.g., sugar) and mixing of the drug during feeding is the two most commonly used means when the child develops a drug resistance attitude due to the child's resistance to the drug.

The Chinese patent with the patent number of CN217366579U relates to a child interesting liquid medicine and placebo dual-phase medicine feeder, which comprises an ice cream model, wherein transverse partition plates are welded and installed on the inner walls of two sides of the ice cream model, vertical partition plates are welded and installed at the bottoms of the transverse partition plates, the number of the vertical partition plates is two groups and are correspondingly arranged in parallel, and the interior of the ice cream model is sequentially divided into a pipeline bin, a placebo bin, a liquid medicine bin and a ventilation bin by the transverse partition plates and the vertical partition plates.

However, during the feeding process, children may be more resistant to taking medications due to the taste contrast of the feeding agent and the medication due to the separate feeding of the feeding agent and the medication. Meanwhile, the device has a complex drug adding mode and is easy to generate drug residues.

When the upper sheet layer or the lower sheet layer is piled up, part of the medicine exists at the edge position of the upper sheet layer or the lower sheet layer, and the part of the medicine cannot be stressed to fall from the through hole. On the one hand, when the medicine is replaced, the medicine in the corners of the pile can be mixed with the newly added medicine, and the toxic and side effects of the medicine can be caused; on the other hand, the single-time taking medicine amount of children is relatively small and is in the low-dosage range of 1g or 2g, and the inaccuracy of the single-time taking medicine amount of children can be caused when part of medicines are accumulated on the upper sheet layer or the lower sheet layer.

Based on the above, the utility model provides a medicine feeding device for children.

Furthermore, there are differences in one aspect due to understanding to those skilled in the art; on the other hand, since the applicant has studied a lot of documents and patents while making the present utility model, the text is not limited to details and contents of all but it is by no means the present utility model does not have these prior art features, but the present utility model has all the prior art features, and the applicant remains in the background art to which the right of the related prior art is added.

Disclosure of Invention

The utility model provides a child medicine feeding device, which comprises a first main pipe for mixing medicine liquid, wherein a first auxiliary pipe capable of adding medicine to the first main pipe is arranged on the side wall of the first main pipe, a pressure bag for providing air flow for blowing medicine into the first main pipe to the first auxiliary pipe based on shrinkage, a one-way valve for limiting the medicine to enter the pressure bag and a medicine filling component for controlling the medicine to enter the first main pipe are sequentially arranged from the far end to the near end close to the first main pipe, the medicine filling component is provided with an upper sheet layer covering the cross section of the first auxiliary pipe and a lower sheet layer partially covering the cross section of the first auxiliary pipe, the upper sheet layer is connected with the lower sheet layer through a rotating shaft in a mode of being blocked by the lower sheet layer or releasing a through hole arranged on the lower sheet layer, and one end of the scraping brush is connected with the rotating shaft so as to scratch the upper sheet layer by taking the rotating center of the upper sheet layer and the lower sheet layer as a rotating shaft when the upper sheet layer rotates relatively.

According to a preferred embodiment, the scraping brush is provided on a surface of the upper sheet facing the lower sheet so as to scrape a surface of the upper sheet facing the lower sheet when the upper sheet and the lower sheet are relatively rotated.

According to a preferred embodiment, the scraping brush is disposed on a surface of the upper sheet facing away from the lower sheet, so as to scrape the surface of the upper sheet facing away from the lower sheet when the upper sheet and the lower sheet relatively rotate.

According to a preferred embodiment, the wiper is configured to: bristles are respectively arranged towards the upper sheet layer and the lower sheet layer so as to scratch the opposite surfaces of the upper sheet layer and the lower sheet layer.

According to a preferred embodiment, the first secondary tube is inclined with respect to the first main tube in such a way that its distal end remote from the first main tube is closer to the drug inlet end of the first main tube than to the drug outlet end of the first main tube.

According to a preferred embodiment, the side wall of the first main pipe is further provided with a second auxiliary pipe capable of adding a phagostimulant for promoting the children to take medicine to the first main pipe, wherein the second auxiliary pipe comprises a storage box and a pressing type spray head, and the pressing type spray head is connected with the storage box in a mode that the phagostimulant in the storage box can be introduced into the first main pipe when pressed.

According to a preferred embodiment, the feed inlet end of the second secondary pipe is connected to a funnel for assisting in the addition of phagostimulant.

According to a preferred embodiment, based on a connecting piece arranged between the one-way valve and the medicine filling assembly, one end of the first auxiliary pipe far away from the first main pipe is separated from one end of the first auxiliary pipe close to the first main pipe by taking the connecting piece as a dividing position, so that one end of the first auxiliary pipe far away from the first main pipe is exposed with an opening capable of placing medicine.

According to a preferred embodiment, an extrusion rod is slidingly connected to the inner side of the first main tube, so that the mixture in the first main tube can be introduced into the mouth of the person taking the medicine from the nipple provided at the distal opening of the first main tube, based on the pressure application of the extrusion rod.

According to a preferred embodiment, the diameter of the first main pipe is larger than the diameter of the first secondary pipe, and the diameter of the first main pipe is larger than the diameter of the second secondary pipe.

The utility model has the beneficial effects that:

(1) The medicine feeding device is provided with the first auxiliary pipe capable of adding medicine to the first main pipe and the second auxiliary pipe capable of adding the phagostimulant to the first main pipe, so that a user can select to add the medicine or the phagostimulant to the first main pipe based on the current state of the child, and the taste of the child taking the medicine is adjusted;

(2) Compared with the medicine filling assembly in the prior art, the medicine filling assembly provided by the utility model is in a sieve mesh shape so as to inject medicine into the first main pipe, meanwhile, the medicine filling assembly is provided with the scraping brush, and the scraping brush can scrape off the medicine powder attached to the surfaces of the upper layer and the lower layer when the upper layer and the lower layer of the medicine filling assembly are opened, so that the medicine filling assembly is prevented from being blocked by the medicine powder, and the medicine taking amount of children is ensured not to be greatly deviated from the medicine ordering amount due to excessive medicine powder remained on the surface of the medicine filling assembly.

Drawings

FIG. 1 is a simplified schematic diagram of a module connection relationship according to a preferred embodiment of the present utility model;

fig. 2 is a schematic diagram of connection relation of the drug filling component provided by the utility model.

List of reference numerals

100: a first main pipe; 110: an extrusion rod; 120: a medicine feeding cavity; 200: a first secondary pipe; 210: a pressure bladder; 220: a one-way valve; 230: a connecting piece; 240: a receiving chamber; 250: a drug-filling component; 251: a sheet layer is arranged; 252: scraping and brushing; 253: a rotating shaft; 254: a lower sheet layer; 255: a through hole; 300: a second sub-pipe; 310: a funnel; 320: and a valve switch.

Detailed Description

The following detailed description refers to the accompanying drawings.

When the upper sheet layer or the lower sheet layer is piled up, part of the medicine exists at the edge position of the upper sheet layer or the lower sheet layer, and the part of the medicine cannot be stressed to fall from the through hole. On the one hand, when the medicine is replaced, the medicine in the corners of the pile can be mixed with the newly added medicine, and the toxic and side effects of the medicine can be caused; on the other hand, the single-time taking medicine amount of children is relatively small and is in the low-dosage range of 1g or 2g, and the inaccuracy of the single-time taking medicine amount of children can be caused when part of medicines are accumulated on the upper sheet layer or the lower sheet layer.

The utility model provides a child medicine feeding device with a scraping brush capable of cleaning a medicine feeding position. The utility model also provides a scraping brush which can be suitable for cleaning the medicine inlet.

The utility model provides a child medicine feeding device, which comprises a first main pipe 100 for mixing medicine liquid, and a first auxiliary pipe 200 which is arranged on the side wall of the first main pipe 100 and can add medicine to the first main pipe 100. The first sub-tube 200 is provided with a medicated assembly 250 comprising an upper sheet 251 covering the cross-section of the first sub-tube 200 and a lower sheet 254 partially covering the cross-section of the first sub-tube 200, as shown in fig. 1.

The upper sheet 251 is connected to the lower sheet 254 through a rotation shaft 253 so as to be capable of being blocked by the lower sheet 254 or releasing a through hole 255 provided therein, and the rotation shaft 253 is connected to one end of the wiper 252 so as to be capable of rotating around the rotation shaft 253 and scraping the upper sheet 251 when the upper sheet 251 and the lower sheet 254 are rotated relatively.

The distal end of the scraping brush 252 is provided with a brush piece which forms an angle alpha with the extending direction of the scraping brush 252 and one end of which abuts against the inner tube wall of the first auxiliary tube 200, so that the medicine accumulated on the upper sheet 251 and/or the lower sheet 254 gathers towards the center of the upper sheet 251 and/or the lower sheet 254 under the action of the pushing force of the brush piece towards the rotating shaft 253. As shown in fig. 2, the bent brush piece can exert a forward pushing force and a pushing force in the direction of the rotation shaft 253 on the medicine accumulated at the edge of the upper sheet 251 or the lower sheet 254. The medicine subjected to the thrust force can gradually move from the edge of the upper sheet 251 or the lower sheet 254 toward the center of the circle, and thus enter the region where the through-hole 255 is provided, and drop from the through-hole 255.

According to a preferred embodiment, the angle of included angle α is in the range of 15 ° to 75 °. Preferably, the angle of the included angle α is 45 °.

According to a preferred embodiment, the first sub-pipe 200 is sequentially provided with a pressure bladder 210 for providing an air flow for blowing medicine into the first main pipe 100 to the first sub-pipe 200 based on contraction, a check valve 220 for restricting the medicine from entering the pressure bladder 210, and a medicine filling assembly 250 for controlling the medicine from entering the first main pipe 100 from a distal end toward a proximal end near the first main pipe 100.

According to a preferred embodiment, the centers of the lower and upper sheets 254 and 251 are provided with rotating rings capable of being coupled to both ends of the rotating shaft 253. The rotating ring means a seal ring that rotates with the shaft. When influenced by an external force, the rotation shaft 253 can rotate the upper sheet 251 relative to the lower sheet 254 based on the action of the rotation ring. Preferably, the swivel ring can be a universal swivel ring. When the medicine is injected, the pressure bag 210 is pressed, and the gas in the pressure bag 210 can blow the medicine to move in the direction of the first main pipe 100.

According to a preferred embodiment, the upper half of the first secondary pipe 200 is rotatable relative to the lower half. The split position of the upper half and the lower half of the first sub-tube 200 is the position of the medicine feeding unit 250. The lower half of the first sub-pipe 200 is close to the first main pipe 100. The upper half of the first sub pipe 200 is distant from the first main pipe 100. The upper sheet 251 is disposed at the upper half of the first sub-pipe 200. The lower sheet 254 is disposed in the lower half of the first secondary pipe 200. The upper sheet 251 and the lower sheet 254 are connected based on a rotation shaft 253. Preferably, the upper sheet 251/lower sheet 254 and the rotation shaft 253 can be arranged in the same manner as the disks and shafts in the chinese patent No. CN 2577744Y. The rotation shaft 253 can be provided as a combined shaft that can realize forward and reverse rotation. Preferably, one end of the shaft 253 is fixedly connected to the lower sheet 254. When the upper half of the first sub-pipe 200 is screwed, the upper sheet 251 moves relative to the wiper 252 so that the wiper 252 can scrape the upper sheet 251.

According to a preferred embodiment, the scraping brush 252 is provided on a surface of the upper sheet 251 facing the lower sheet 254 so as to be capable of scraping the surface of the upper sheet 251 facing the lower sheet 254 when the upper sheet 251 and the lower sheet 254 are relatively rotated. Preferably, the wiper 252 is a strip-type structure. One end of the scraping brush 252 is fixedly connected with the rotating shaft 253. When the rotation shaft 253 rotates, the wiper 252 rotates in the same direction and at the same speed as the rotation shaft 253 along the upper sheet 251 and the lower sheet 254 with the rotation shaft 253 as the center.

According to a preferred embodiment, the scraping brush 252 is disposed on a surface of the upper sheet 251 facing away from the lower sheet 254, so as to be capable of scraping a surface of the upper sheet 251 facing away from the lower sheet 254 when the upper sheet 251 and the lower sheet 254 are relatively rotated. The wiper 252 can be disposed on different sides of the upper sheet 251 based on the requirements of the wiping position. Preferably, the scraping brush 252 moves together with the rotating shaft 253 and scrapes against one face of the upper sheet 251.

According to a preferred embodiment, the wiper 252 is configured to: bristles are respectively disposed toward the upper and lower sheets 251 and 254 so as to scratch the opposite surfaces of the upper and lower sheets 251 and 254. Preferably, the bristles of the wiper 252 can be composed of silica gel. Preferably, the direction of the wiper 252 toward the upper sheet 251 and the lower sheet 254 can also be set as a wiper blade.

According to a preferred embodiment, the first sub-tube 200 is disposed obliquely with respect to the first main tube 100 in such a manner that its distal end, which is far from the first main tube 100, is closer to the drug inlet end of the first main tube 100 than to the drug outlet end of the first main tube 100. By this arrangement, the medicine in the first sub-tube 200 can fall down to the first main tube 100 based on gravity when the device is in normal use.

According to a preferred embodiment, the side wall of the first main pipe 100 is further provided with a second auxiliary pipe 300 capable of adding a phagostimulant for promoting the taking of the medicine by children to the first main pipe 100, wherein the second auxiliary pipe 300 comprises a storage box and a pressing nozzle, and the pressing nozzle is connected with the storage box in a manner of being capable of guiding the phagostimulant in the storage box into the first main pipe 100 when being pressed.

According to a preferred embodiment, the feed inlet end of the second secondary pipe 300 is connected to a funnel 310 for assisting in the addition of phagostimulant.

According to a preferred embodiment, based on the connection member 230 provided between the check valve 220 and the medicine filling assembly 250, the end of the first sub-pipe 200 remote from the first main pipe 100 is separated from the end thereof close to the first main pipe 100 with the connection member 230 as a dividing position, so that the end of the first sub-pipe 200 remote from the first main pipe 100 exposes an opening capable of placing medicine. Preferably, the connection 230 can be a magnetic assembly or a screw thread provided at both ends, respectively.

According to a preferred embodiment, the second secondary pipe 300 comprises a conduit and a valve switch 320. The valve switch 320 can be a hand pump. The hand pump is connected with the guide pipe. Catheterization into phagostimulants. Preferably, the structure of the hand pump can be the same as that of chinese patent No. CN 203143348U. When the operator depresses the valve switch 320, the catheter draws the phagostimulant and ejects it from the opening of the hand pump. The hand pump opens into the first main pipe 100.

According to a preferred embodiment, the extrusion stem 110 is slidably connected to the inner side of the first main tube 100, so that the mixture in the first main tube 100 can be introduced into the mouth of the patient from the nipple provided at the distal end opening of the first main tube 100 based on the pressure application of the extrusion stem 110. Preferably, the compression rod 110 is identical in structure to the compression rod 110 of the syringe.

According to a preferred embodiment, the diameter of the first main pipe 100 is larger than the diameter of the first sub-pipe 200, and the diameter of the first main pipe 100 is larger than the diameter of the second sub-pipe 300. To avoid excessive pressure when the first sub-pipe 200 or the second sub-pipe 300 injects the medicine or the phagostimulant into the first main pipe 100, the diameter of the first main pipe 100 is larger than that of the first sub-pipe 200, and thus the diameter of the first main pipe 100 is larger than that of the second sub-pipe 300.

According to a preferred embodiment, the first sub-pipe 200 can be provided with a plurality. The medicine feeding parents can put the medicines to be taken by the children in different first auxiliary pipes 200 according to the single-time required taking amount of the children in advance.

For example, when children diarrhea, the combination regimen for children of two years is: the single dosage of the montmorillonite powder and the amoxicillin particles is 1.5g, and the single dosage of the amoxicillin particles is 20-40 mg/kg. The parent medicine feeder can put montmorillonite powder and amoxicillin granules in the two first auxiliary pipes 200 in amounts respectively. At this time, the medicine-filling assembly 250 in the first sub-tube 200 is in a closed state, and medicine is placed in the accommodating chamber 240 of the first sub-tube 200. The parent to feed the medicine adds a corresponding phagostimulant to the second sub-tube 300 through the funnel 310 based on the phagostimulant interests of the child taking the medicine (e.g., sugar water, puree, or milk powder). The second subsidiary pipe 300 is connected to the first main pipe 100.

The parent medicine feeder screws the accommodating cavity 240 of the first sub-tube 200, and the upper and lower layers of the medicine filling assembly 250 relatively rotate, so that the medicine in the accommodating cavity 240 falls into the first main tube 100. The medicine feeding parents place the medicine feeding cavity 120 in the oral cavity of the child taking medicine, particularly, when the medicine feeding cavity 120 is arranged in a nipple shape, the child taking medicine can be subconsciously sucked based on the nipple with a pacifying effect, and therefore the purpose of feeding medicine to the child is achieved. At this time, if the child is cryed or the like due to bitterness, the parent may press the valve switch 320 of the second sub-tube 300, and the child gets rewarded for taking the medicine.

Alternatively, when the child taking the medicine does not suck the medicine in the first main tube 100 completely, in order to induce the child to take the medicine further against bad taste such as bitterness, the medicine-feeding parent may press the valve switch 320 of the second sub-tube 300 one or more times to harmonize the taste of the medicine in the first main tube 100 and encourage the child taking the medicine.

Because the child needs to take multiple medicines at a time and the dosages of different medicines are different, the medicine-feeding parents can place the medicines of the single dosage of the child in a classified manner based on the first auxiliary tube 200 prepared in advance, and quickly replace the medicines taken by the child by replacing the first auxiliary tube 200 after the child takes the first medicine. For the parents of the medicine feeding which need to pacify the children at the same time, the process does not need to worry about errors in the kind or the usage amount of the medicine feeding. The mode of replacing the sealing pipeline instead of directly replacing the medicine can avoid the situation that the medicine is spilled out when the medicine is replaced due to inconvenient self operation or crying of children.

When the accommodating cavity 240 of the first sub-pipe 200 is screwed, the bristles arranged in the middle of the upper layer and the lower layer can scratch the surfaces of the upper layer and the lower layer when the upper layer and the lower layer rotate in opposite directions, so that the medicine leaks out from the through holes 255 arranged on the surface of the lower layer closer to the first main pipe 100, and the medicine, particularly the powdery medicine, is prevented from being adhered to the surface of the medicine filling assembly 250.

It should be noted that the above-described embodiments are exemplary, and that a person skilled in the art, in light of the present disclosure, may devise various solutions that fall within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present description and drawings are illustrative and not limiting to the claims. The scope of the utility model is defined by the claims and their equivalents. The description of the utility model encompasses multiple inventive concepts, such as "preferably," "according to a preferred embodiment," or "optionally," all means that the corresponding paragraph discloses a separate concept, and that the applicant reserves the right to filed a divisional application according to each inventive concept. Throughout this document, the word "preferably" is used in a generic sense to mean only one alternative, and not to be construed as necessarily required, so that the applicant reserves the right to forego or delete the relevant preferred feature at any time.

Claims (10)

1. A child medicine feeding device, comprising a first main pipe (100) for mixing medicine liquid, a first auxiliary pipe (200) capable of adding medicine to the first main pipe (100) is arranged on the side wall of the first main pipe (100), the first auxiliary pipe (200) is provided with a medicine filling component (250) comprising an upper sheet layer (251) covering the cross section of the first auxiliary pipe (200) and a lower sheet layer (254) partially covering the cross section of the first auxiliary pipe (200),

the upper sheet (251) is connected with the lower sheet (254) through a rotating shaft (253) in a mode of being blocked by the lower sheet (254) or releasing a through hole (255) arranged on the upper sheet, the rotating shaft (253) is connected with one end of a scraping brush (252) so as to rotate around the rotating shaft (253) and scrape the upper sheet (251) when the upper sheet (251) and the lower sheet (254) relatively rotate, wherein,

the distal end of the scraping brush (252) is provided with a brush piece which forms an alpha included angle with the extending direction of the scraping brush and one end of which is abutted against the inner pipe wall of the first auxiliary pipe, so that medicines piled up on the upper sheet layer and/or the lower sheet layer are gathered towards the center of the upper sheet layer and/or the lower sheet layer under the action of the pushing force of the brush piece towards the rotating shaft direction.

2. The pediatric drug delivery device according to claim 1, wherein the wiper (252) is provided on a face of the upper sheet (251) facing the lower sheet (254) so as to be capable of wiping the face of the upper sheet (251) facing the lower sheet (254) upon relative rotation of the upper sheet (251) and the lower sheet (254).

3. The pediatric drug delivery device according to claim 1, wherein the scraping brush (252) is arranged on a face of the upper sheet (251) facing away from the lower sheet (254) so as to scrape the face of the upper sheet (251) facing away from the lower sheet (254) when the upper sheet (251) and the lower sheet (254) are rotated relatively.

4. The pediatric drug delivery device according to claim 2, wherein the wiper (252) is configured to: bristles are respectively arranged towards the upper sheet (251) and the lower sheet (254) so as to scratch the opposite surfaces of the upper sheet (251) and the lower sheet (254).

5. The pediatric drug delivery device according to claim 4, wherein the first secondary tube (200) is arranged obliquely with respect to the first main tube (100) in such a way that its distal end remote from the first main tube (100) is closer to the drug inlet end of the first main tube (100) than to the drug outlet end of the first main tube (100).

6. The pediatric drug delivery device according to claim 5, wherein the first sub-tube (200) is provided with, in order from the distal end towards the proximal end adjacent to the first main tube (100), a pressure bladder (210) providing an air flow for blowing the drug into the first main tube (100) to the first sub-tube (200) based on the constriction, a one-way valve (220) restricting the drug into the pressure bladder (210), and a drug filling assembly (250) controlling the drug into the first main tube (100).

7. The pediatric feeding device according to claim 6, wherein the side wall of the first main tube (100) is further provided with a second auxiliary tube (300) capable of adding a feeding attractant for promoting the taking of the child to the first main tube (100), wherein the second auxiliary tube (300) comprises a storage case and a pressing nozzle, and the pressing nozzle is connected with the storage case in such a way that the feeding attractant in the storage case can be introduced into the first main tube (100) when pressed.

8. The pediatric drug delivery device according to claim 7, wherein the end of the first sub-tube (200) remote from the first main tube (100) is separated from the end thereof close to the first main tube (100) by the connecting piece (230) as a split position based on the connecting piece (230) provided between the one-way valve (220) and the drug filling assembly (250), such that the end of the first sub-tube (200) remote from the first main tube (100) is exposed with an opening where a drug can be placed.

9. The pediatric drug delivery device according to claim 8, wherein the inner side of the first main tube (100) is slidingly connected with a squeeze rod (110) such that the mixture in the first main tube (100) can be introduced into the mouth of a user from a nipple provided at the distal opening of the first main tube (100) based on the pressure application of the squeeze rod (110).

10. The pediatric feeding device according to claim 9, wherein the feeding port end of the second auxiliary tube (300) is connected to a funnel (310) for assisting in the addition of a phagostimulant.