Medical vertical sterile compartmentalized treatment bag
By designing a vertical sterile compartmentalized treatment bag, the problems of bulky sterile treatment trays and medication errors were solved, enabling rapid, accurate, and efficient drug storage and administration, reducing the risk of cross-infection and medical costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LIUZHOU PEOPLES HOSPITAL
- Filing Date
- 2025-04-09
- Publication Date
- 2026-06-26
AI Technical Summary
Existing sterile treatment trays are bulky and time-consuming to set up, making it impossible to classify and place syringes of different sizes and models. Bare syringes are easily contaminated, and mixing different drugs increases the risk of administration errors, making them unsuitable for use in anesthesia recovery.
Design a vertical sterile compartmentalized treatment bag, including a bag body, a front panel and an identification frame. The two sides and bottom edges of the inner and rear panels are joined together to form the bag body, with an opening at the top. An identification frame is set on the front of the front panel, and multiple inner bags of different sizes are set on the front of the inner panel according to the syringe model and size, which can be used to classify and fix syringes from 1ml to 50ml.
It enables rapid, accurate, and efficient drug classification and storage, reduces the number of times sterile items need to be laid out, lowers the risk of cross-infection, improves the accuracy and efficiency of drug administration, reduces the workload of nurses, and lowers medical costs.
Smart Images

Figure CN224403772U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical supplies technology, and in particular to a sterile treatment bag for use in an anesthesia recovery room. Background Technology
[0002] Aseptic technique is one of the essential operational skills that clinical medical personnel must master. Many treatment and nursing procedures, such as intramuscular, subcutaneous, intradermal, and intravenous injections, often require the use of sterile trays. A sterile treatment tray is formed by placing sterile treatment drapes in a clean, dry tray to create a sterile area for placing sterile items for treatment and nursing care. The effective time for this purpose is no more than 4 hours. To maintain the sterility of the area, specific procedures must be followed. For example, after aligning the upper and lower edges of the treatment drape, it should be folded upwards twice, and the two side edges should be folded downwards once each before being placed in the sterile treatment tray. Figure 5 and Figure 6 As shown. During anesthesia recovery, multiple medications need to be prepared immediately according to the doctor's orders based on changes in the patient's condition, and infection control requires that different medications be stored separately. However, traditional sterile treatment trays are bulky and cannot accommodate the separate storage of syringes of different sizes. Existing sterile treatment towels lack flexible compartmentalization designs and are also difficult to match the needs of storing different sizes of syringes separately. After a patient is transferred, the tray needs to be re-laid, often requiring medical staff to increase the number of tray-laying operations, resulting in time and labor costs. According to current regulations, laying a sterile treatment tray generally takes an average of 1 minute per operation. For example, in some hospitals, an anesthesia recovery room lays about 50 sterile treatment trays per day, which amounts to about 18,000 operations per year, and 300 hours of sterile treatment tray laying time per year, increasing the workload of anesthesia nurses and relatively reducing the time they can spend caring for patients. Currently, in critical care and resuscitation scenarios in the anesthesia recovery room, medical staff often face the problem of improper temporary storage of syringes. Storing untreated syringes is prone to contamination, posing a risk of hospital-acquired infection, and storing different medications together poses a risk to medication safety, increasing the incidence of medication errors. Utility Model Content
[0003] The technical problem to be solved by this utility model is to provide a vertical sterile compartmentalized treatment bag, which can solve many problems of the existing sterile treatment tray method, such as the bulky size of the sterile treatment tray, the time and labor-intensive tray laying, the inability to classify and place various sizes and models of syringes, the susceptibility of bare syringes to contamination, the risk of drug administration safety due to mixed storage of different drugs, the increase in the incidence of drug administration errors, and its unsuitability for use in the anesthesia recovery process.
[0004] To solve the above problems, the technical solution of this utility model is as follows: This vertical sterile compartmentalized treatment bag includes a bag body, a front panel, and an identification frame; the bag body is formed by joining the two sides and bottom of an inner panel and a rear panel, and the top of the bag body is open; the top of the front panel is joined to the top of the inner panel, and the identification frame for placing various patient information cards is provided on the upper front part of the front panel; the front of the inner panel is divided into two layers of multiple inner bags of different sizes according to the syringe model and size, which are used to classify and fix 1ml to 50ml syringes.
[0005] In the above technical solution, a more specific solution could be: the front piece, the inner piece, and the back piece are all made of high-quality cotton fabric, and the cotton fabric is green.
[0006] Furthermore, the front sheet, the inner sheet, and the rear sheet are 320 mm high and 260 mm wide.
[0007] Furthermore: each of the aforementioned inner pockets is 60-80 mm wide and 110-160 mm high.
[0008] Further: In use, insert the writing board into the bag through the top opening of the bag body, with the top of the writing board slightly protruding from the bag. Then, use the spring clip of the writing board to clamp the bag body and fix it. Use the hanging strap at the top of the writing board to hang it on the IV stand at the foot of the patient's bed. Then, put the syringes with the drawn medication into the compartment bags respectively. Then, insert the card with the patient's name, bed number, department, hospital number and other information printed by the system into the identification frame at the top front of the front piece.
[0009] By adopting the above technical solution, this utility model has the following beneficial effects compared with the prior art:
[0010] 1. This utility model has significant social benefits:
[0011] (1) Optimize the allocation of medical resources:
[0012] By reducing the number of sterile treatment trays, the use of sterile treatment towels is greatly reduced, allowing limited medical resources to be allocated and utilized more rationally, improving the overall efficiency of resuscitation care, and enabling medical services to benefit more patients.
[0013] (2) Promote industry innovation and upgrading:
[0014] The introduction of this utility model has injected new vitality and innovative elements into the field of aseptic technology, promoted the continuous development and upgrading of the clinical resuscitation nursing industry towards a more efficient and safer direction, and provided new ideas and practical examples for industry progress.
[0015] (3) Improve the drug administration efficiency in the anesthesia recovery room:
[0016] With the help of medical vertical sterile compartmentalized treatment bags, anesthesiologists can administer medication more quickly, accurately, and efficiently, effectively reducing the time anesthesia nurses spend searching for medications in the sterile treatment tray, significantly accelerating the medication administration time, and strongly ensuring the timely and accurate execution of medical orders.
[0017] (4) Reduce nurses' workload:
[0018] By reducing the number of times sterile treatment trays are laid, nurses' workload is effectively reduced, allowing them more time to observe and care for patients, meet their needs in a timely manner, and improve patients' medical experience and treatment outcomes.
[0019] 2. This utility model has good economic benefits:
[0020] (1) Significantly shorten the time required for project launch:
[0021] The anesthesia recovery room has a high patient turnover rate and a large number of resuscitations. Before the improvement, each patient's medication required a separate sterile treatment tray, a process that was not only time-consuming but also consumed a lot of manpower, leading to increased departmental costs. The improved medical vertical sterile compartmentalized treatment bag has a clever internal structure that allows for the simultaneous classification and placement of multiple medications, ensuring that medications are separated according to syringe type. This significantly reduces tray preparation time, allowing nurses to devote more energy to other critical nursing tasks.
[0022] (2) Significant cost advantage:
[0023] This medical vertical sterile compartmentalized treatment bag features a simple structure, is easy to lay and replace, and has low manufacturing costs. During use, it allows medical staff to quickly access necessary medications, significantly reducing the time spent on medication retrieval and improving work efficiency. According to statistics from some hospital anesthesia recovery rooms, using this medical vertical sterile compartmentalized treatment bag has reduced tray laying time to 45 seconds, saving 165 working hours annually. It effectively maintains the sterility of medications, meeting infection control requirements, while reducing medication waste caused by syringe contamination. While ensuring medical quality, it reduces unnecessary medical expenses. It has significant promotional value and is expected to be widely used in hospitals, helping to reduce overall medical costs.
[0024] Before use: Disposable treatment towels cost 1.35 yuan each, treatment trays cost 20 yuan each, disinfectant wipes cost 0.1 yuan each, daily usage is about 50 wipes, and annual usage is about 18,000 wipes.
[0025] After use: The manufacturing cost of a medical vertical sterile compartment treatment bag is 4 yuan per bag, the cost of a recovery room-specific plate is 1.5 yuan per plate, and the disinfection and cleaning cost is 0.35 yuan per plate. The daily usage is approximately 50 bags, and the annual usage is approximately 18,000 bags. The cost comparison is shown in the table below:
[0026] Attached Figure Description
[0027] Figure 1 This is a front view of the present invention;
[0028] Figure 2 This is a schematic diagram of the inner surface of this utility model;
[0029] Figure 3 This is a schematic diagram of the back of this utility model;
[0030] Figure 4 This is a schematic diagram of the utility model used with a writing board;
[0031] Figure 5 This is a picture of an existing aseptic tray;
[0032] Figure 6 This is a picture of injectable drugs being held in a sterile tray.
[0033] Figure 7 This is an internal physical image of an embodiment of this utility model;
[0034] Figure 8 yes Figure 7 A picture of the actual drug being injected, contained inside the container.
[0035] Figure 9 This is a picture of a writing board used in conjunction with this utility model;
[0036] Figure 10 This is a scenario diagram of the clinical use of this utility model.
[0037] The labels in the diagram are: 1. Front panel, 2. Inner panel, 3. Identification frame, 4. Writing board, 4-1. Clip spring, 4-2. Hanging strap, 5. Inner pocket, 6. Back panel. Detailed Implementation
[0038] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0039] Figure 1 , Figure 2 , Figure 3 and Figure 4 The vertical sterile compartmentalized treatment bag includes a bag body, a front panel 1, and an identification frame 3. The bag body is formed by joining the two sides and bottom of an inner panel 2 and a rear panel 6, with an opening at the top. The top of the front panel 1 is joined to the top of the inner panel 2, and an identification frame 3 for placing patient information cards is provided on the upper front of the front panel 1. The front panel 1, inner panel 2, and rear panel 6 are all 320 mm high and 260 mm wide; all three panels are made of high-quality green cotton fabric.
[0040] The front of the inner sheet 2 is divided into two layers of inner bags 5 with different sizes to accommodate syringes ranging from 1ml to 50ml, arranged according to syringe model and size. Figure 7 and Figure 8 As shown. Each inner bag 5 is 60-80 mm wide, and the height of the inner bag 5 is available in two types: one is 110 mm high, and the other is 160 mm high; the dimensions of the inner bag 5 in this embodiment are as follows. Figure 2 As shown. The back of the front panel 1 covers the syringe placed in front of the inner panel 2, achieving a balance between sterility, dust prevention, and rapid access.
[0041] In the description of this utility model, it should be noted that the terms "inner", "outer", "upper", "lower", "top", "bottom", "left", "right", "front", "back", "vertical" and "horizontal" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0042] This invention can hold various pre-drawn medications using syringes. Different types of medications can be stored in separate compartments, ensuring neat and orderly placement and preventing mixing, thus reducing potential risks. It also allows for precise and rapid retrieval of medications, preventing dosage errors and quickly meeting treatment needs according to doctor's orders. Furthermore, it effectively reduces the frequency of exposure to sterile items, avoids cross-infection caused by high turnover, and ultimately lowers medical costs.
[0043] This invention features a vertical structure design, ensuring a sterile environment and containing multiple independently compartmentalized bags. It simplifies traditional tray laying operations to a "ready-to-use" mode, saving tray laying time and improving work efficiency.
[0044] How to use this utility model:
[0045] 1. First, insert the pre-sterilized, dedicated writing board 4 from the top of the bag into the bag, with the top of the writing board 4 slightly protruding from the bag. Then, use the clamping spring 4-1 of the writing board 4 to clamp and fix the bag. Hang the writing board on the IV stand at the foot of the patient's bed using the hanging strap 4-2 at the top of the writing board. Afterward, place the syringes containing the drawn medication into the compartment bags respectively. Figure 9 and Figure 10 As shown.
[0046] 2. Medical staff prepare the medication according to the doctor's order. After double verification, the medication name label is affixed, clearly stating the concentration, dosage, preparation time, name of the person preparing the medication, and the name of the person verifying the prescription. Different types of medications are placed separately in their respective inner bags 5 within the inner sheet 2 to avoid mixing. When using the medication, open the outer layer from bottom to top to remove it, avoiding contact with the inner layer to prevent infection.
[0047] 3. Insert the card printed by the system with the patient's name, bed number, department, hospital number, etc. into the upper front identification box 3 of the front panel 1 to prevent medication errors caused by the large number of patients and rapid turnover in the recovery room.
[0048] 4. Disinfection and preservation:
[0049] After the patient is transferred out, the writing board 4 in the recovery room is cleaned and disinfected with disinfectant wipes. Used medical upright sterile compartment treatment bags are placed in a special recycling basket and sent to the supply room for cleaning and disinfection by designated personnel. After disinfection, the medical upright sterile compartment treatment bags are stored in a dry and clean environment to avoid secondary contamination.
Claims
1. A medical vertical sterile compartmentalized treatment bag, characterized in that: It includes a bag body, a front piece (1) and an identification frame (3); the bag body is formed by joining the two sides and the bottom edge of the inner piece (2) and the back piece (6), and the top of the bag body is open; the top of the front piece (1) is joined with the top of the inner piece (2), and the identification frame (3) is provided in front of the front piece (1); multiple inner bags (5) of different sizes are provided in front of the inner piece (2).
2. The vertical sterile compartmentalized treatment bag of claim 1, wherein: The front piece (1), the inner piece (2), and the back piece (6) are all made of high-quality cotton fabric, and the cotton fabric is green.
3. The vertical sterile compartmentalized treatment bag of claim 1 or 2, wherein: The front piece (1), the inner piece (2), and the rear piece (6) are 320 mm high and 260 mm wide.
4. The vertical sterile compartmentalized treatment bag of claim 3, wherein: Each of the inner pockets (5) is 60-80 mm wide and 110-160 mm high.
5. The vertical sterile compartmentalized treatment bag of claim 4, wherein: When in use, insert the writing board (4) into the bag from the top opening of the bag body, then use the clamping spring (4-1) of the writing board (4) to clamp the bag body and fix it, hang it on the infusion stand with the hanging strap (4-2) at the top of the writing board (4), and then put the syringes with the medicine drawn into the compartment bags respectively; then insert the card with the patient information into the identification frame (3) at the top front of the front piece (1).