A supporting paper device for a single drug injection solution
By using a support mechanism made of corrugated paper and an inner silicone sleeve, the problems of high cost, low efficiency and poor environmental protection of traditional fixing methods are solved, achieving low-cost, environmentally friendly and efficient fixing of pharmaceutical injection bottles.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHUHAI BLUE TITANIUM TECH CO LTD
- Filing Date
- 2025-07-14
- Publication Date
- 2026-07-03
Smart Images

Figure CN224448632U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of pharmaceutical packaging technology, specifically to a paper support device for a single pharmaceutical injection. Background Technology
[0002] Pharmaceutical injection vials are special containers used to hold sterile injectable liquids. They are commonly made of glass or medical-grade plastic and are typically available in sizes such as 5ml and 10ml. The vials are usually designed with a slender neck and are equipped with a rubber stopper and an aluminum cap for sealing, ensuring sterile storage of the drug solution. Some use brown vials to protect photosensitive drugs from light and are widely used in clinical intravenous injection, intramuscular injection, and other treatment scenarios.
[0003] During the packaging of pharmaceutical injection solutions, it is essential to effectively secure the vials to prevent damage from shaking and collisions during transportation and storage. Traditional securing methods often employ plastic brackets or foam filling, which suffer from high costs, low packaging efficiency, and poor environmental friendliness. Therefore, there is an urgent need for a low-cost, easy-to-operate device that can effectively secure injection vials. Utility Model Content
[0004] The objective of this utility model can be achieved through the following technical solutions:
[0005] A paper support device for a single injection of medicine includes a support mechanism, with corner guards on both sides of the support mechanism and an inner silicone sleeve in the middle of the support mechanism.
[0006] The support mechanism has a first folding section on each side, and the first folding section bends 90 degrees inward toward the support mechanism. A second folding section is provided below the first folding section, and the second folding section bends 90 degrees inward toward the support mechanism. A third folding section is provided on the side of the second folding section away from the first folding section, and the third folding section bends 120 degrees outward toward the support mechanism. An adhesive section is provided at the top of the third folding section, and the outer surface of the adhesive section is bonded to the first folding section with glue. The first folding section, the second folding section, the third folding section and the adhesive section are all integrally formed.
[0007] As a further embodiment of this utility model: a slot is provided in the middle of the surface of the support mechanism, and the support mechanism surface is cut into segmented claws around the slot.
[0008] As a further embodiment of this utility model: the upper surface of the support mechanism is provided with a face paper, the bottom surface of the face paper is glued and fixed with a corrugated core paper, and the bottom surface of the corrugated core paper is glued and fixed with an inner paper.
[0009] As a further embodiment of this utility model: a buffer pad is fixed to the outer surface of the support mechanism located in the first folding section by adhesive, and the thickness of the buffer pad is 2-5mm.
[0010] As a further embodiment of this utility model: the upper two sides of the support mechanism are fixed with corner protectors by adhesive, the lower ends of the corner protectors extend to the outside of the first folding section, and the thickness of the corner protectors is the same as that of the buffer pad.
[0011] As a further embodiment of this utility model: an inner silicone sleeve is inserted into the inner side of the bayonet, and the upper diameter of the outer wall of the inner silicone sleeve is larger than the lower diameter.
[0012] As a further embodiment of this utility model: the diameter of the bayonet is 12mm, and the overall thickness of the inner silicone sleeve is 1mm.
[0013] The beneficial effects of this utility model are:
[0014] (1) The support mechanism for placing the injection bottle of medicine in this utility model is made of three layers of corrugated paper. Compared with traditional materials such as plastic brackets and foam, it greatly reduces the cost of packaging materials. Corrugated paper is easy to obtain and inexpensive, which is conducive to large-scale promotion and application.
[0015] (2) Paper packaging has a simple structure and is easy to use. Simply insert the injection bottle into the corrugated paper slot to quickly fix it, which can effectively shorten the packaging process time and improve the overall efficiency of drug packaging.
[0016] (3) In addition, the support mechanism made of corrugated paper is relatively lightweight. After supporting a single injection bottle, it does not take up too much space when placed in the packaging box, and it is convenient for subsequent use and inspection of each medicine. At the same time, corrugated paper can be naturally degraded, which is relatively environmentally friendly and in line with the trend of green packaging development. Attached Figure Description
[0017] The present invention will be further described below with reference to the accompanying drawings.
[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0019] Figure 2 This is a cross-sectional structural schematic diagram of the support mechanism in this utility model;
[0020] Figure 3 yes Figure 2 Enlarged structural diagram of region A in the middle;
[0021] Figure 4 This is a schematic diagram of the overall structure of the inner silicone sleeve in this utility model.
[0022] In the diagram: 1. Support mechanism; 101. Face paper; 102. Corrugated core paper; 103. Inner paper; 104. Clip; 105. Split-type claw; 106. First fold section; 107. Second fold section; 108. Third fold section; 109. Adhesive section; 110. Cushion; 2. Corner protector; 3. Inner silicone sleeve. Detailed Implementation
[0023] 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 skilled in the art without creative effort are within the protection scope of the present utility model.
[0024] like Figures 1-4 As shown, a paper support device for a single injection of medicine includes a support mechanism 1, with corner guards 2 on both sides and an inner silicone sleeve 3 in the middle. Both sides of the support mechanism 1 have first folding sections 106, which are bent inwards at 90 degrees. Below the first folding sections 106 are second folding sections 107, which are bent inwards at 90 degrees. On the side of the second folding section 107 away from the first folding section 106, a third folding section 108 is provided, which is bent outwards at 120 degrees. At the top of the third folding section 108 is an adhesive section 109, the outer surface of which is bonded to the first folding section 106 with adhesive. The first folding sections 106, 107, 108, and 109 are all integrally formed. Figure 1 As shown, a two-sided support structure is formed by bending the first fold segment 106 and the second fold segment 107, as follows. Figure 2 As shown, the second folding section 107 is parallel to the ground, thereby increasing the ground contact area of the support mechanism 1, and the support mechanism is not easy to shake due to the resistance of the friction below.
[0025] A bayonet 104 is provided in the center of the surface of the support mechanism 1, and segmented claws 105 are cut and formed around the bayonet 104 on the surface of the support mechanism 1. Figure 2 As shown, the split-type claw 105 can be bent downwards to help support the drug injection bottle inside the jaw 104.
[0026] The support mechanism 1 has a face paper 101 on its upper surface. A corrugated core paper 102 is glued to the bottom surface of the face paper 101, and a liner paper 103 is glued to the bottom surface of the corrugated core paper 102. A cushioning pad 110 is glued to the outer surface of the support mechanism 1, specifically to the first fold section 106. The thickness of the cushioning pad 110 is 2-5mm. Corner protectors 2 are glued to both sides of the upper end of the support mechanism 1. The lower ends of the corner protectors 2 extend to the outer side of the first fold section 106, and the thickness of the corner protectors 2 is the same as that of the cushioning pad 110. Figure 1 As shown, the corner protector 2 shapes the upper end of the support mechanism 1;
[0027] An inner silicone sleeve 3 is inserted into the inner side of the bayonet 104. The upper diameter of the outer wall of the inner silicone sleeve 3 is larger than the lower diameter. The diameter of the bayonet 104 is 12mm, and the overall thickness of the inner silicone sleeve 3 is 1mm. Figure 1 As shown, the inner silicone sleeve 3 increases the friction on the inside of the bayonet 104, thereby preventing the medicine injection bottle from easily becoming loose.
[0028] The working principle of this utility model:
[0029] During material preparation, three-layer corrugated paper meeting strength requirements is selected. Corrugated cardboard of appropriate width is cut according to the specifications of the injection vials (such as common 5ml and 10ml vial sizes) to fit the internal space of the packaging box and the need to secure the injection vials. The cut cardboard is then stamped and creased using a mold to form the first fold section 106, the second fold section 107, the third fold section 108, and the bonding section 109. Then, using a cutting or slitting device, notches 104 are created on the corrugated paper, and straight cuts are made around the notches 104 to form segmented notches 105. 04 The shape is designed according to the neck or body contour of the injection bottle, and is round or adapted to the curvature of the bottle body. The diameter of the latch 104 is slightly smaller than the diameter of the corresponding latching part of the injection bottle to ensure the tightness after latching. For example, for a 10ml injection bottle, the diameter of the latch 104 can be set to 12mm. A 5mm straight line can be cut around the latch 104 to form a segmented latch 105. When it is necessary to fix a smaller injection bottle, an inner silicone sleeve needs to be fitted on the neck of the injection bottle. The inner silicone sleeve supports the latch 104 and the segmented latch 105.
[0030] Finally, fold the corrugated paper with the pre-processed latch 104 along the creases to form a two-sided support structure. Insert the injection bottle into the latch 104, check the stability of the engagement, and then attach the kraft paper corner protectors 2 and the silicone or sponge cushioning pads 110 to the outside of the two-sided support structure. Place the entire device into the medicine packaging box. The kraft paper corner protectors 2 and the cushioning pads 110 prevent large gaps between the packaging box and the support structure 1. Adjust the position so that the injection bottle is suspended in the air and does not interfere with the box, thus completing the packaging and fixing of the injection bottle. When using the injection, simply remove the bottle from the latch; the operation is simple and quick.
[0031] The above description provides a detailed account of one embodiment of the present invention. However, this description is merely a preferred embodiment and should not be construed as limiting the scope of the present invention. All equivalent variations and improvements made within the scope of the present invention should still fall within the patent coverage of the present invention.
Claims
1. A paper support device for a single injection of medicine, comprising a support mechanism (1), wherein corner guards (2) are provided on both sides of the support mechanism (1), and an inner silicone sleeve (3) is provided in the middle of the support mechanism (1). characterized in that The support mechanism (1) is provided with a first folding section (106) on both sides, and the first folding section (106) bends 90 degrees toward the inside of the support mechanism (1). A second folding section (107) is provided below the first folding section (106), and the second folding section (107) bends 90 degrees toward the inside of the support mechanism (1). A third folding section (108) is provided on the side of the second folding section (107) away from the first folding section (106), and the third folding section (108) bends 120 degrees toward the outside of the support mechanism (1). An adhesive section (109) is provided at the top of the third folding section (108), and the outer surface of the adhesive section (109) is bonded to the first folding section (106) with glue. The first folding section (106), the second folding section (107), the third folding section (108) and the adhesive section (109) are all integrally formed.
2. The paper support device for a single-dose injection solution according to claim 1, characterized in that, The support mechanism (1) has a slot (104) in the middle of its surface, and the support mechanism (1) has segmented claws (105) cut around the slot (104) on its surface.
3. The paper support device for a single-dose injection liquid according to claim 2, characterized by The support mechanism (1) has a face paper (101) on its upper surface. The bottom surface of the face paper (101) is glued to a corrugated core paper (102), and the bottom surface of the corrugated core paper (102) is glued to a liner paper (103).
4. The paper support device for a single-dose injection according to claim 3, wherein The support mechanism (1) and the outer surface of the first folding section (106) are fixed with a buffer pad (110) by adhesive, the thickness of the buffer pad (110) being 2-5mm.
5. The paper support device for a single-dose injection according to claim 4, wherein The upper sides of the support mechanism (1) are fixed with corner protectors (2) by adhesive. The lower end of the corner protector (2) extends to the outside of the first folding section (106), and the thickness of the corner protector (2) is the same as that of the buffer pad (110).
6. The paper support device for a single-dose injection according to claim 5, wherein The inner side of the bayonet (104) is fitted with an inner silicone sleeve (3), and the upper diameter of the outer wall of the inner silicone sleeve (3) is larger than the lower diameter.
7. The paper support device for a single-dose injection according to claim 6, wherein The diameter of the bayonet (104) is 12mm, and the overall thickness of the inner silicone sleeve (3) is 1mm.