A patch device for detecting mycoplasma and drug sensitivity
By improving the sealing structure and labeling design of the mycoplasma detection drug sensitivity test patch, the problems of drug leakage and low single-drug detection efficiency were solved, achieving efficient and stable multi-drug detection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG BINZHOU ANIMAL SCI & VETERINARY MEDICINE ACADEMY
- Filing Date
- 2025-03-25
- Publication Date
- 2026-07-07
AI Technical Summary
The existing mycoplasma detection drug sensitivity test patch devices have poor sealing after filling with drug solution, resulting in drug leakage and affecting the stability and accuracy of detection; they can only test one set of drugs at a time, resulting in low detection efficiency.
A device was designed comprising a nonwoven fabric layer, an adhesive film, a release film, a separator frame, a medicine storage box, a through hole, medicine storage cotton, a positioning rod, a sealing gasket, a sealing cap, a sealing plug, a sealing cover, and a labeling component. The sealing performance is improved by the threaded connection between the sealing cover and the medicine storage box, and the cooperation of the sealing gasket and the sealing plug. The design of the separator frame and the labeling sticker enables the simultaneous detection of multiple groups of drugs.
It effectively prevents drug leakage, improves the stability and accuracy of detection, and enables simultaneous detection of multiple drug groups, thus improving detection efficiency.
Smart Images

Figure CN224461846U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mycoplasma detection drug sensitivity tablets, specifically a patching device for mycoplasma detection drug sensitivity tablets. Background Technology
[0002] The mycoplasma detection drug sensitivity test strip patch device uses an integrated design to precisely attach the drug sensitivity test strip to the animal's body surface or sampling site, collecting samples in real time and simultaneously analyzing the mycoplasma's sensitivity to antimicrobial drugs. Its function is to simplify the veterinary clinical testing process, quickly screen effective antibiotics through non-invasive or minimally invasive methods, guide precise medication, and avoid drug resistance problems caused by the indiscriminate use of antibiotics. The device is adaptable to different animal body surfaces and can significantly shorten the testing time to several hours, helping farms to achieve early infection screening, optimized treatment, and control medication costs. It is of great significance for ensuring animal health and food safety.
[0003] The existing technology has the following problems:
[0004] 1. The existing mycoplasma detection drug sensitivity test patch device does not have ideal sealing performance after filling with drug solution. This leads to drug leakage at the connection points inside the patch during the detection process, affecting the stability and accuracy of the detection and failing to meet the usage requirements.
[0005] 2. Existing mycoplasma detection drug sensitivity testing patch devices can only perform testing on one set of drugs at a time. This results in staff having to spend a lot of time and effort repeating the operation when testing multiple sets of drugs, reducing testing efficiency and making it impractical. Utility Model Content
[0006] To address the shortcomings of existing technologies, this invention provides a patch device for mycoplasma detection drug sensitivity testing. This solves the problems of suboptimal sealing after filling with drug solution, which leads to drug leakage at the connection points within the patch during testing, affecting the stability and accuracy of the detection. Furthermore, it addresses the limitation that only one set of drugs can be tested at a time, requiring significant time and effort for repeated operations when testing multiple sets of drugs.
[0007] To achieve the above objectives, this utility model provides the following technical solution: a patch device for mycoplasma detection drug sensitivity tablets, comprising a non-woven fabric layer, an adhesive film at the bottom of the non-woven fabric layer, a release film at the bottom of the adhesive film, a partition frame inside the adhesive film on one side of the non-woven fabric layer, a drug storage box inside the partition frame, a through hole at the bottom of the drug storage box, a drug storage cotton at the bottom of the drug storage box, a positioning rod at the top of the drug storage box, a sealing gasket on the outer surface of the drug storage box outside the positioning rod, a sealing cover at the top of the sealing gasket, a positioning hole at the bottom of the sealing cover, a sealing plug in the middle of the bottom of the sealing cover, a sealing shield above the outer surface of the sealing cover, and an identification component at the top of the sealing shield.
[0008] As a preferred technical solution of this utility model, the partition frame is fixedly installed on the non-woven fabric layer, the size of the partition frame is adapted to the size of the medicine storage box, and the partition frame is specifically made of absorbent cotton material.
[0009] In a preferred embodiment of this utility model, the position of the positioning rod corresponds to the position of the positioning hole, and the positioning rod and the medicine storage box are integrated into each other.
[0010] As a preferred embodiment of this utility model, the sealing gasket and the sealing plug are respectively bonded and installed on the medicine storage box and the sealing cover. The size of the sealing gasket is adapted to the size of the sealing plug. The sealing gasket and the sealing plug are made of silicone material.
[0011] As a preferred embodiment of this utility model, the sealing cover is installed on the sealing cap and the medicine storage box by a threaded connection, and the size of the sealing cover, the size of the sealing cap and the size of the medicine storage box are adapted to each other.
[0012] As a preferred embodiment of the present invention, the marking component includes a fixing plate, an adhesive layer is provided on the top of the fixing plate, an anti-adhesive film is provided on the top of the adhesive layer, and a marking sticker is provided inside the anti-adhesive film.
[0013] As a preferred embodiment of this utility model, the anti-adhesive film and the label are integrated, the size of the label is adapted to the size of the fixing plate, the number of the label is several sets, and the label is arranged in a rectangular array.
[0014] Compared with the prior art, this utility model provides a patch device for mycoplasma detection drug sensitivity tablets, which has the following beneficial effects:
[0015] 1. This mycoplasma detection drug sensitivity patch patch device comprises a drug storage box, a positioning rod, a sealing gasket, a sealing cap, a positioning hole, a sealing plug, and a sealing cover. After the drug is added to the drug storage box, the sealing cap is first placed on top of the drug storage box, and the positioning rod is inserted into the positioning hole to position the sealing cap. Then, the sealing cover is threadedly connected to the drug storage box to reinforce the connection between the sealing cap and the drug storage box. Finally, the sealing plug and the sealing gasket work together to improve the sealing performance at the connection of the drug storage box. This design avoids the problem of drug leakage at the connection of the patch during the detection process, thus meeting the usage requirements.
[0016] 2. This mycoplasma detection drug sensitivity test patch device comprises a non-woven fabric layer, an adhesive film, a release film, a separator, a drug storage box, through holes, drug storage cotton, an adhesive layer, an anti-adhesion film, and labeling stickers. During patch application, each drug group is first marked on the labeling sticker for differentiation. If a labeling sticker is incorrectly marked, it can be removed from the adhesive layer through the anti-adhesion film, and the correctly marked label can be pasted onto the adhesive layer. Then, the release film at the bottom of the non-woven fabric layer is peeled off, and the non-woven fabric layer is adhered to the animal's skin through the adhesive film. At this point, the drugs on each group of drug storage cotton flow out through the through holes and come into contact with the animal's skin. Simultaneously, the separator frame prevents the drugs from mixing, thus affecting the test results. This design allows the device to simultaneously test multiple drug groups, avoiding the problem of operators spending a lot of time and effort on repetitive operations when testing multiple drug groups, improving testing efficiency and demonstrating strong practicality. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This is a schematic diagram of the bottom structure of this utility model;
[0019] Figure 3 This is a cross-sectional structural diagram of the medicine storage box of this utility model;
[0020] Figure 4 This is a three-dimensional structural diagram of the identification component of this utility model.
[0021] In the diagram: 1. Non-woven fabric layer; 2. Adhesive film; 3. Release film; 4. Divider frame; 5. Medicine storage box; 6. Through hole; 7. Medicine storage cotton; 8. Positioning rod; 9. Sealing gasket; 10. Sealing cover; 11. Positioning hole; 12. Sealing plug; 13. Sealing cover; 14. Labeling component; 141. Fixing plate; 142. Adhesive layer; 143. Anti-adhesive film; 144. Label sticker. Detailed Implementation
[0022] 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.
[0023] Reference Figure 1 , Figure 2 and Figure 3 This utility model provides an embodiment of a mycoplasma detection drug sensitivity patch device, comprising a non-woven fabric layer 1, an adhesive film 2 at the bottom of the non-woven fabric layer 1, a release film 3 at the bottom of the adhesive film 2, a partition frame 4 inside the adhesive film 2 on one side of the non-woven fabric layer 1, a drug storage box 5 inside the partition frame 4, a through hole 6 at the bottom of the drug storage box 5, a drug storage cotton 7 at the bottom of the drug storage box 5, a positioning rod 8 at one side of the top of the drug storage box 5, a sealing gasket 9 on the outer surface of the positioning rod 8, a sealing cover 10 at the top of the sealing gasket 9, a positioning hole 11 at one side of the bottom of the sealing cover 10, a sealing plug 12 at the middle of the bottom of the sealing cover 10, a sealing shield 13 above the outer surface of the sealing cover 10, and an identification component 14 at the top of the sealing shield 13; the partition frame 4 is fixedly connected to the non-woven fabric layer 1, the size of the partition frame 4 is adapted to the size of the drug storage box 5, and the partition frame 4 is specifically made of absorbent cotton material;
[0024] Specifically, the separation frame 4 allows for the isolation of different drug groups, preventing them from mixing and affecting the test results.
[0025] Reference Figure 3 The position of the positioning rod 8 corresponds to the position of the positioning hole 11, and the positioning rod 8 and the medicine storage box 5 are integrated.
[0026] Specifically: It facilitates the positioning of the sealing cover 10 by inserting the positioning rod 8 into the positioning hole 11.
[0027] Reference Figure 3 The sealing gasket 9 and the sealing plug 12 are respectively attached to the medicine storage box 5 and the sealing cover 10 by adhesive bonding. The size of the sealing gasket 9 is adapted to the size of the sealing plug 12. The sealing gasket 9 and the sealing plug 12 are made of silicone material.
[0028] Specifically, the sealing performance at the connection of the medicine storage box 5 is improved by the cooperation between the sealing plug 12 and the sealing gasket 9.
[0029] Reference Figure 1 and Figure 3The sealing cover 13 is installed on the sealing cover 10 and the medicine storage box 5 by threaded connection, and the size of the sealing cover 13, the size of the sealing cover 10 and the size of the medicine storage box 5 are adapted to each other.
[0030] Specifically: to facilitate the connection between the sealing cover 10 and the medicine storage box 5 via the threaded connection of the sealing cover 13, thereby reinforcing the connection between the sealing cover 10 and the medicine storage box 5.
[0031] Reference Figure 1 and Figure 4 The labeling component 14 includes a fixing plate 141, an adhesive layer 142 is provided on the top of the fixing plate 141, an anti-adhesive film 143 is provided on the top of the adhesive layer 142, and a label sticker 144 is provided inside the anti-adhesive film 143; the anti-adhesive film 143 and the label sticker 144 are integrally formed, the size of the label sticker 144 is adapted to the size of the fixing plate 141, there are several sets of label stickers 144, and the label stickers 144 are arranged in a rectangular array;
[0032] Specifically: It facilitates the marking and differentiation of each group of drugs through the set label 144. When the label 144 is marked incorrectly, it can be removed from the adhesive layer 142 through the anti-adhesion film 143, and the correctly marked label 144 can be pasted on the adhesive layer 142.
[0033] The working principle and usage process of this utility model are as follows: After the medicine is added into the medicine storage box 5, the sealing cover 10 is first placed on the top of the medicine storage box 5, and the positioning rod 8 on the medicine storage box 5 is inserted into the positioning hole 11 on the sealing cover 10 to position the sealing cover 10. Then, the sealing cover 10 and the medicine storage box 5 are connected by the sealing cover 13 to reinforce the connection between the sealing cover 10 and the medicine storage box 5. Finally, the sealing performance of the connection of the medicine storage box 5 is improved by the cooperation of the sealing plug 12 and the sealing gasket 9.
[0034] During patch application, each group of drugs is first marked on the label 144 inside the labeling component 14. If the label 144 is incorrectly marked, it can be removed from the adhesive layer 142 through the anti-adhesion film 143, and the correctly marked label 144 is pasted on the adhesive layer 142. Then, the release film 3 at the bottom of the non-woven fabric layer 1 is peeled off, and the non-woven fabric layer 1 is adhered to the animal's skin through the adhesive film 2. At this time, the drugs on each group of drug storage cotton 7 flow out from the through hole 6 on the drug storage box 5 and come into contact with the animal's skin. At the same time, the separation frame 4 is set to prevent the drugs from mixing and affecting the test results.
[0035] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A patch device for mycoplasma detection drug sensitivity testing, comprising a nonwoven fabric layer (1), characterized in that: The nonwoven fabric layer (1) has an adhesive film (2) at its bottom and a release film (3) at its bottom. The nonwoven fabric layer (1) has a partition frame (4) on one side inside the adhesive film (2). The nonwoven fabric layer (1) has a medicine storage box (5) inside the partition frame (4). The medicine storage box (5) has a through hole (6) at its bottom and a medicine storage cotton (7) at its bottom. The medicine storage box (5) has a positioning rod (8) on one side of its top. The medicine storage box (5) has a sealing gasket (9) on the outer surface of the positioning rod (8). The sealing gasket (9) has a sealing cover (10) on its top. The sealing cover (10) has a positioning hole (11) on one side of its bottom. The sealing cover (10) has a sealing plug (12) in the middle of its bottom. The sealing cover (10) has a sealing shield (13) above its outer surface. The sealing shield (13) has an identification component (14) on its top.
2. The patching device for mycoplasma detection drug sensitivity testing according to claim 1, characterized in that: The partition frame (4) is fixedly installed on the non-woven fabric layer (1). The size of the partition frame (4) is adapted to the size of the medicine storage box (5). The partition frame (4) is specifically made of absorbent cotton material.
3. The patching device for a mycoplasma detection drug sensitivity test according to claim 1, characterized in that: The position of the positioning rod (8) corresponds to the position of the positioning hole (11), and the positioning rod (8) and the medicine storage box (5) are integrated.
4. The patching device for a mycoplasma detection drug sensitivity test according to claim 1, characterized in that: The sealing gasket (9) and the sealing plug (12) are respectively attached to the medicine storage box (5) and the sealing cover (10) by adhesive bonding. The size of the sealing gasket (9) is adapted to the size of the sealing plug (12). The sealing gasket (9) and the sealing plug (12) are made of silicone material.
5. The patching device for a mycoplasma detection drug sensitivity test according to claim 1, characterized in that: The sealing cover (13) is installed on the sealing cover (10) and the medicine storage box (5) by threaded connection. The size of the sealing cover (13), the size of the sealing cover (10) and the size of the medicine storage box (5) are adapted to each other.
6. The patching device for a mycoplasma detection drug sensitivity test according to claim 1, characterized in that: The labeling component (14) includes a fixing plate (141), an adhesive layer (142) is provided on the top of the fixing plate (141), an anti-adhesive film (143) is provided on the top of the adhesive layer (142), and a label sticker (144) is provided inside the anti-adhesive film (143).
7. The patching device for a mycoplasma detection drug sensitivity test according to claim 6, characterized in that: The anti-stick film (143) and the label (144) are integrated. The size of the label (144) is adapted to the size of the fixing plate (141). There are several sets of the label (144), and the label (144) are arranged in a rectangular array.