Special operation platform for subcutaneous injection of children in allergy department

By designing a dedicated subcutaneous injection platform for pediatric allergy patients, the problems of prolonged injection time caused by drug retrieval and the crying and struggling of children have been solved. This platform enables rapid drug delivery and pre-fixation of children, improving injection efficiency and safety.

CN224461934UActive Publication Date: 2026-07-07TONGJI HOSPITAL ATTACHED TO TONGJI MEDICAL COLLEGE HUAZHONG SCI TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TONGJI HOSPITAL ATTACHED TO TONGJI MEDICAL COLLEGE HUAZHONG SCI TECH
Filing Date
2025-06-12
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the allergy department, the process of subcutaneous injection in children is characterized by long drug search and verification times, high risk of human error, and prolonged injection time due to the child's crying and struggling, resulting in low overall efficiency.

Method used

A special subcutaneous injection operation platform for pediatric allergy specialists was designed, comprising a nurse operation area and a pediatric treatment area. The nurse operation area is equipped with a drug storage station and an injection station, which are connected by a track to a transport space to enable rapid drug transfer and reduce nurses' drug retrieval time. The pediatric treatment area is equipped with a mobile treatment chair and a fixation device to reduce the psychological burden on children and the operation time.

Benefits of technology

By reducing the time nurses spend collecting medication and the psychological burden on children, injection efficiency has been improved, manpower consumption has been reduced, the time for a single injection has been shortened, and overall injection efficiency and safety have been enhanced.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of special operation platform for subcutaneous injection of allergic reaction department children, including nurse operation area and sick child treatment area;Nurse operation area includes medicine storage platform and injection operation platform, and injection operation platform includes a plurality of operation windows being arranged adjacent interval;Transmission space is built-in inside the injection operation platform, and intercommunication and closed track are arranged in transmission space and medicine storage platform, and the injection operation platform is set at the side below of each operation window It is provided with medicine taking window, medicine taking window is communicated with transmission space, and the medicine in medicine storage platform can be transmitted to transmission space by track, for medical staff to quickly take out from medicine taking window, save injection time;Medicine storage platform includes a plurality of placing tables and a plurality of medicine storage boxes, a plurality of medicine storage boxes are placed in a plurality of placing tables, and a plurality of medicine storage boxes are slidably connected by sliding block and sliding rail.
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Description

Technical Field

[0001] This utility model belongs to the field of medical device technology, specifically relating to a special operating platform for subcutaneous injection in children with allergies. Background Technology

[0002] In clinical practice at the allergy department, subcutaneous immunotherapy (SCIT) is an important means of treating allergic diseases such as allergic rhinitis, asthma, and severe insect venom allergies. This therapy usually requires children to receive subcutaneous injections at the hospital regularly (e.g., weekly or monthly), and for some children, the injection cycle can even last up to three years.

[0003] Due to safety regulations and drug characteristics, medications for allergy patients must be centrally stored in the hospital. However, given the large number of children with varying treatment needs and progress, and the wide variety of medications, nurses must repeatedly search for and prepare medications during injections. This increases both the overall waiting time for patients and the nurses' operational time window. Furthermore, the manual searching, checking, and dispensing process increases the risk of human error, such as dispensing the wrong medication or oversights. Secondly, because the children are young, they experience significant pain and fear during injections, often crying and struggling. This not only prolongs the injection time but also forces parents to assist by holding the child's limbs to maintain position, further extending the injection time. With a large number of children requiring injections daily, the accumulated extended injection time for each child significantly reduces overall injection efficiency.

[0004] Therefore, how to provide a dedicated subcutaneous injection platform for pediatric allergy specialists, reduce the manpower and medication retrieval time of injection nurses, shorten the injection time for individual children, and improve overall injection efficiency is a technical problem that urgently needs to be solved by those skilled in the art. Utility Model Content

[0005] The technical problem to be solved by this utility model is to provide a special operating platform for subcutaneous injection in children with allergies, so as to solve at least one of the above-mentioned technical problems.

[0006] To solve the above-mentioned technical problems, this utility model provides a special operating platform for subcutaneous injection in pediatric allergy departments. The platform includes: a nurse's operating area, which includes a medication storage station and an injection station, with the medication storage station adjacent to one side of the injection station; the injection station includes several operating windows arranged at intervals; the injection station has a built-in transmission space located below the operating windows, and a medication dispensing window is provided on the side of the injection station below each operating window. The medication dispensing window is connected to the transmission space; wherein, the transmission space and the medication storage platform are provided with interconnected and closed tracks, one end of the tracks is located in the medication storage platform, and the other end of the tracks is located in the transmission space; the medication storage platform is provided with several placement platforms and several medication boxes, the several placement platforms are arranged in a row, and the bottom of each of the several placement platforms is connected to a slider, the slider being slidably connected to the track, and the several medication boxes are correspondingly placed in the several placement platforms; the child treatment area is located near the outer side of the several operation windows.

[0007] Optionally, the treatment area for the child includes a standard treatment chair and several mobile treatment groups. The standard treatment chair is located at one of the outermost operation windows among the several operation windows, and the mobile treatment groups are correspondingly located at the other operation windows among the several operation windows. Each mobile treatment group includes a slide rail and two dedicated treatment chairs, and the two dedicated treatment chairs are slidably connected on the slide rail.

[0008] Optionally, the slide rail has a closed elliptical structure, and both ends of the elliptical structure are provided with fixed points, so that when the special treatment chair slides to either of the fixed points, the bottom of the special treatment chair is locked into the fixed point for limitation.

[0009] Optionally, the line connecting two fixed points in the same slide rail is perpendicular to the operation window, and one of the fixed points is positioned close to the corresponding operation window.

[0010] Optionally, each of the two dedicated treatment chairs is provided with a displacement block at its bottom, and the displacement block is slidably connected to the slide rail; a spring steel ball is installed inside the displacement block, and a groove adapted to the steel ball is opened at each of the two fixed points. When the dedicated treatment chair slides to either of the fixed points, the spring steel ball is pressed into the groove by elastic force, so as to limit the movement of the dedicated treatment chair when it slides to either of the fixed points.

[0011] Optionally, the bottom of each of the several dedicated treatment chairs is rotatably connected to the corresponding displacement block.

[0012] Optionally, one end of the track has a grid-like structure with several rows and columns, and several placement platforms are arranged at the intersection of one end of the track; wherein, the two sides of one end of the track extend outward and close to form the other end of the track, and the other end of the track is arranged within the transmission space.

[0013] Optionally, the medicine dispensing window is provided with a flip cover, the bottom of which is rotatably connected to the medicine dispensing window.

[0014] Optionally, a drug sorting station may also be provided on one side of the drug storage station.

[0015] Optionally, a nurse's chair may be provided on the inside of each of the aforementioned operation windows.

[0016] Beneficial effects:

[0017] This utility model provides a special subcutaneous injection operation platform for children in the allergy department, including a nurse operation area and a child treatment area, with the child treatment area located on one side of the nurse operation area. The nurse operation area includes a medication storage station and an injection station, with the medication storage station adjacent to the injection station on one side, containing multiple medications required by the child. The injection station includes several operation windows arranged at intervals, each equipped with an injection nurse to administer injections to the child. The injection station has a built-in transmission space, with interconnected and closed tracks running through the transmission space and the medication storage station. A medication retrieval window is located on the lower side of each operation window on the injection station, connected to the transmission space. Medication from the storage station can be transferred to the transmission space via the tracks for quick retrieval by medical staff from the retrieval window. This design avoids medical staff having to search for medications at the drug storage station, saving injection time. The drug storage station includes several placement platforms and several drug storage boxes. Each box contains a commonly used medication or medications needed for a patient's long-term treatment cycle. These boxes are placed on corresponding placement platforms, each platform having a slider connected to a track at its bottom. This allows the drug storage boxes to be transported through the platforms to a transport space. This creates a specialized subcutaneous injection platform for pediatric allergy patients, improving injection efficiency. By transporting the required medications, it eliminates the need for nurses to repeatedly retrieve and search for medications, reducing manpower and time spent on medication retrieval. Furthermore, it shortens injection time, reduces the psychological burden on children during injections, and improves overall injection efficiency.

[0018] The above description is merely an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, and to make the above and other objects, features and advantages of this utility model more obvious and understandable, specific embodiments of this utility model are given below. Attached Figure Description

[0019] To more clearly illustrate the technical solutions in the embodiments of this specification or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This application provides an overall structural schematic diagram of a dedicated subcutaneous injection operation platform for pediatric allergy specialists.

[0021] Figure 2 This application provides a schematic diagram of the nurse's operating area of ​​a special operating platform for pediatric subcutaneous injections in an allergy department.

[0022] Figure 3 A three-dimensional structural diagram of the nurse's operating area of ​​a special operating platform for pediatric subcutaneous injection in the allergy department, provided in an embodiment of this application;

[0023] Figure 4 A schematic diagram of the inner structure of the injection table of a special subcutaneous injection operation platform for pediatric allergy specialists provided in this application embodiment;

[0024] Figure 5 This application provides a partial structural schematic diagram of a special operating platform for subcutaneous injection in pediatric allergy specialists.

[0025] Figure label:

[0026] 1—Nurse's operating area;

[0027] 11—Drug storage station;

[0028] 111—Placement platform;

[0029] 112—Medicine storage box;

[0030] 113—Slider;

[0031] 12—Injection worktable;

[0032] 121—Operation Window;

[0033] 122—Transmission space;

[0034] 123—Medication dispensing window;

[0035] 124—Flip cover;

[0036] 13—Orbit;

[0037] 14—Medication sorting table;

[0038] 15—Nurse's chair;

[0039] 2—Treatment area for sick children;

[0040] 21—Standard treatment chair;

[0041] 22—Mobile Treatment Group;

[0042] 221—Slide rail;

[0043] 2211—Fixed point;

[0044] 222—Dedicated treatment chair; Detailed Implementation

[0045] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0046] Furthermore, in the embodiments of this specification, when a component is referred to as being "fixed to" another component, it can be directly on the other component or there may be an intervening component. When a component is considered to be "connected to" another component, it can be directly connected to the other component or there may be an intervening component. When a component is considered to be "set on" another component, it can be directly set on the other component or there may be an intervening component. The terms "vertical," "horizontal," "left," "right," and similar expressions used in the embodiments of this specification are for illustrative purposes only and are not intended to limit the present invention.

[0047] Please see Figure 1-3This embodiment provides a dedicated subcutaneous injection operation platform for pediatric allergy specialists. The platform includes: a nurse's operating area 1, comprising a medication storage station 11 and an injection station 12, with the medication storage station 11 adjacent to one side of the injection station 12; the injection station 12 includes several operating windows 121 spaced apart adjacent to each other; the injection station 12 has a built-in transmission space 122 located below the operating windows 121; and a medication dispensing window 123 is provided at the side of each operating window 121 on the injection station 12. The transmission space 122 is interconnected; wherein, the transmission space 122 and the drug storage platform 11 are provided with interconnected and closed tracks 13, one end of the tracks 13 is located in the drug storage platform 11, and the other end of the tracks 13 is located in the transmission space 122; the drug storage platform 11 is provided with several placement platforms 111 and several drug storage boxes 112, the several placement platforms 111 are arranged in a row, and the bottom of each of the several placement platforms 111 is connected to a slider 113, the slider 113 is slidably connected to the track 13, and the several drug storage boxes 112 are correspondingly placed in the several placement platforms 111; the child treatment area 2 is located near the outside of several operation windows 121.

[0048] Specifically, this utility model provides a special subcutaneous injection operation platform for pediatric allergy specialists, including a nurse operation area 1 and a pediatric treatment area 2, with the pediatric treatment area 2 located to one side of the nurse operation area 1. The nurse operation area 1 includes a medication storage station 11 and an injection station 12. The medication storage station 11 is adjacent to the injection station 12 and contains multiple medications required by the pediatric patient. The injection station 12 includes several operation windows 121 arranged at intervals, each equipped with an injection nurse to administer injections to the pediatric patient. The injection station 12 has a built-in transmission space 122, with interconnected and closed tracks 13 running through the transmission space 122 and the medication storage station 11. A medication retrieval window 123 is located on the lower side of each operation window 121 on the injection station 12, connected to the transmission space 122. Medications from the medication storage station 11 can be transferred to the transmission space 122 via the tracks 13 for use by medical staff. The medication is quickly retrieved from the dispensing window 123, avoiding the need for medical staff to search for the required medication in the medication storage station 11, thus saving injection time. The medication storage station 11 includes several placement platforms 111 and several medication boxes 112. Each medication box 112 contains a commonly used medication or medications required for different patients' long-term treatment cycles. The medication boxes 112 are placed within the placement platforms 111, and each placement platform 111 has a slider 113 connected to its bottom. The slider 113 slides along a track 13 to transport the medication boxes 112 to the transport space 122 via the placement platforms 111. This creates a dedicated subcutaneous injection platform for pediatric allergy patients, improving injection efficiency for medical staff. By transporting the required medication, it avoids nurses having to repeatedly retrieve and search for medication, reducing manpower and retrieval time. It also shortens injection time, reduces the psychological burden on children during injection, and improves overall injection efficiency.

[0049] In some possible implementations, the pediatric treatment area 2 includes a standard treatment chair 21 and several mobile treatment units 22. The standard treatment chair 21 is located at one of the outermost operation windows 121 among several operation windows 121, and the several mobile treatment units 22 are correspondingly located at the other operation windows 121 among several operation windows 121. Each mobile treatment unit 22 includes a slide rail 221 and two dedicated treatment chairs 222, and the two dedicated treatment chairs 222 are slidably connected on the slide rail 221.

[0050] Specifically, such as Figure 1As shown, the pediatric treatment area 2 includes a standard treatment chair 21 and several mobile treatment units 22. The standard treatment chair 21 is used for quick injections, such as when the child is not afraid of injections, has a mature mindset, or the injection procedure is simple. Furthermore, during injections, most children often cry and struggle due to pain and fear, requiring parents to assist by pressing down on the child's limbs, prolonging the injection time, posing a risk to safe injection, increasing the nurse's processing time, and exacerbating the child's fear of injections, while also requiring simultaneous injection and reassurance. Therefore, the mobile treatment units 22 include a slide rail 221 and two dedicated treatment chairs 222. 2. For situations where the injection time is relatively long, the dedicated treatment chair 222 located at the back of the queue can be used to prepare the child in advance. Parents can seat the child in the dedicated treatment chair 222 in advance and use straps to restrain the limbs to shorten the injection time. For example, children of different sizes may have different chair heights, and children who are too young or small in size can have their chairs adjusted to a suitable height in advance and their limbs properly fixed and the tightness adjusted. In this way, the time for adjusting the seat and restraining the limbs can be controlled within the time of the previous child's injection, which can shorten the injection time of each child, shorten the overall injection time, improve the overall injection efficiency, and improve the safety of the injection process.

[0051] In some possible implementations, the slide rail 221 has a closed elliptical structure, and each of the two distal ends of the elliptical structure is provided with a fixed point 2211, so that when the special treatment chair 222 slides to any fixed point 2211, the bottom of the special treatment chair 222 is locked into the fixed point 2211 for limitation; the line connecting two fixed points 2211 in the same slide rail 221 is perpendicular to the operation window 121, and one of the fixed points 2211 is arranged close to the corresponding operation window 121.

[0052] Specifically, such as Figure 1 As shown, the slide rail 221 has a closed elliptical structure, and fixed points 2211 are set at both ends of the elliptical structure. In the initial use state, the two special treatment chairs 222 should be located at the two fixed points 2211 respectively. The special treatment chair 222 near the operation window 121 is used by the child who is receiving acupuncture. The special treatment chair 222 at the operation window 121 can provide a seat for the child who needs acupuncture later and allow the child's arm to be tied in advance. Especially when the children are of different ages, body sizes and acupuncture tolerance, the seat height can be adjusted in advance and the straps can be fixed. In the case of a large number of children, the overall injection time is greatly saved and the injection efficiency is improved.

[0053] In some possible implementations, each of the two dedicated treatment chairs 222 has a displacement block at its bottom, which is slidably connected to the slide rail 221. A spring steel ball is installed inside the displacement block, and grooves that match the steel ball are provided at two fixed points 2211. When the dedicated treatment chair 222 slides to any fixed point 2211, the spring steel ball is pressed into the groove by elastic force, so that the dedicated treatment chair 222 is limited when it slides to any fixed point 2211.

[0054] Specifically, a spring-loaded steel ball / roller ball, i.e., a spring steel ball, is installed inside the displacement block. A matching groove is machined at the fixed point 2211 of the slide rail 221. When the displacement block slides to the groove position, the spring presses the spring steel ball into the groove, causing the displacement block to be locked in the groove. The movement of the special treatment chair 222 is resisted, and the movement is stopped to position the special treatment chair 222. When it is necessary to move the special treatment chair 222, a greater thrust can be applied to overcome the spring force of the spring steel ball, push the spring steel ball out of the groove, and allow the special treatment chair 222 to continue to slide.

[0055] In some possible implementations, the bottom of several dedicated treatment chairs 222 is rotatably connected to corresponding displacement blocks.

[0056] Specifically, the bottom of several dedicated treatment chairs 222 are rotatably connected to corresponding displacement blocks. When in use, the dedicated treatment chairs 222 can be rotated to a suitable position according to the angle of the child sitting or the need for acupuncture, so that medical staff can perform acupuncture.

[0057] In some possible implementations, one end of the track 13 has a grid-like structure with several rows and columns, and several placement platforms 111 are arranged at the intersection of one end of the track 13; wherein, the two sides of one end of the track 13 extend outward and close to form the other end of the track 13, and the other end of the track 13 is arranged in the transmission space.

[0058] Specifically, one end of track 13 has a grid-like structure with several rows and columns, and several placement platforms 111 are placed at the intersections for easy and flexible removal; as one possible method, such as Figure 2 As shown, several placement platforms 111 are divided into multiple groups, with a track 13 between each group. Each group has two rows of several placement platforms 111, which facilitates the placement platforms 111 to be moved out from multiple directions.

[0059] In some possible implementations, a flip cover 124 is provided on the medicine dispensing window 123, and the bottom of the flip cover 124 is rotatably connected to the medicine dispensing window 123.

[0060] Specifically, such as Figure 4As shown, the dispensing window 123 is equipped with a flip cover 124. When the medicine storage box 112 slides to the corresponding dispensing window 123 to be taken out, medical staff can open the flip cover 124 to take out the medicine storage box 112 and retrieve the medicine inside. As an effective method, the dispensing window 123 is made of transparent material, which makes it easy for medical staff to view the drug delivery status in real time.

[0061] In some possible implementations, a drug sorting table 14 is also provided on one side of the drug storage table 11.

[0062] Specifically, such as Figure 3 As shown, the setting of the drug sorting table 14 facilitates the subsequent sorting of drugs by medical staff and provides an operating platform for drug organization.

[0063] In some possible implementations, a nurse's chair 15 is provided on the inside of each of the several operation windows 121.

[0064] Specifically, each of the several operating windows 121 is equipped with a nurse chair 15 on its inner side. The nurse chair 15 is movable and its height can be adjusted so that medical staff can adjust it according to their own body size and the front and back distance between it and the operating platform, so as to facilitate flexible movement and injection operation.

[0065] Finally, it should be noted that the above embodiments are merely specific implementations of this utility model, used to illustrate the technical solution of this utility model, and not to limit it. The protection scope of this utility model is not limited thereto. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that any person skilled in the art can still modify or easily conceive of changes to the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some of the technical features, within the technical scope disclosed in this utility model; and these modifications, changes, or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model. All should be covered within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the protection scope of the claims.

[0066] Although the embodiments of this utility model have been disclosed above, they are not limited to the applications listed in the specification and embodiments. They can be applied to various fields suitable for this utility model. For those skilled in the art, other modifications can be easily made. Therefore, without departing from the general concept defined by the claims and their equivalents, this utility model is not limited to the specific details and the illustrations shown and described herein.

Claims

1. A specialized operating platform for subcutaneous injection in pediatric allergy specialists, characterized in that, The aforementioned pediatric subcutaneous injection platform for allergy specialists includes: The nurse operating area (1) includes a medication storage station (11) and an injection station (12). The medication storage station (11) is located adjacent to one side of the injection station (12). The injection station (12) includes several operating windows (121) arranged at intervals. The injection station (12) has a built-in transmission space (122) located below the several operating windows (121). A medication dispensing window (123) is provided on the injection station (12) below each operating window (121), and the medication dispensing window (123) is connected to the transmission space (122). The transmission space (122) and the drug storage platform (11) are provided with interconnected and closed tracks (13). One end of the track (13) is located in the drug storage platform (11), and the other end of the track (13) is located in the transmission space (122). The drug storage platform (11) is provided with a number of placement platforms (111) and a number of drug storage boxes (112). The number of placement platforms (111) are arranged in a row, and the bottom of each of the placement platforms (111) is connected to a slider (113). The slider (113) is slidably connected to the track (13), and the number of drug storage boxes (112) are correspondingly placed in the number of placement platforms (111). The treatment area for the child (2) is located near the outside of several of the operation windows (121).

2. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 1, characterized in that, The treatment area (2) for the child includes a regular treatment chair (21) and several mobile treatment groups (22). The regular treatment chair (21) is located at one of the outermost operation windows (121) among the several operation windows (121), and the several mobile treatment groups (22) are correspondingly located at the other operation windows (121) among the several operation windows (121). Each mobile treatment group (22) includes a slide rail (221) and two special treatment chairs (222). The two special treatment chairs (222) are slidably connected on the slide rail (221).

3. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 2, characterized in that, The slide rail (221) has a closed elliptical structure, and both ends of the elliptical structure are provided with fixed points (2211) so that when the special treatment chair (222) slides to any of the fixed points (2211), the bottom of the special treatment chair (222) is locked into the fixed point (2211) for limitation.

4. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 3, characterized in that, The line connecting two fixed points (2211) in the same slide rail (221) is perpendicular to the operation window (121), and one of the fixed points (2211) is located close to the corresponding operation window (121).

5. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 4, characterized in that, The bottom of each of the two special treatment chairs (222) is provided with a displacement block, which is slidably connected to the slide rail (221). A spring steel ball is installed inside the displacement block, and a groove adapted to the steel ball is opened at each of the two fixed points (2211). When the special treatment chair (222) slides to either of the fixed points (2211), the spring steel ball is pressed into the groove by elastic force, so that the special treatment chair (222) is limited when it slides to either of the fixed points (2211).

6. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 5, characterized in that, The bottom of each of the several dedicated treatment chairs (222) is rotatably connected to the corresponding displacement block.

7. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 1, characterized in that, One end of the track (13) has a grid-like structure with several rows and columns, and several placement platforms (111) are arranged at the intersection of one end of the track (13); wherein, the two sides of one end of the track (13) extend outward and close to form the other end of the track (13), and the other end of the track (13) is arranged in the transmission space (122).

8. A special operating platform for subcutaneous injection in pediatric allergy departments according to any one of claims 1-7, characterized in that, The medicine dispensing window (123) is provided with a flip cover (124), and the bottom of the flip cover (124) is rotatably connected to the medicine dispensing window (123).

9. The special operating platform for subcutaneous injection in pediatric allergy departments according to claim 8, characterized in that, A drug sorting table (14) is also provided on one side of the drug storage table (11).

10. A special operating platform for subcutaneous injection in pediatric allergy departments according to claim 9, characterized in that, A nurse's chair (15) is provided on the inside of each of the aforementioned operation windows (121).