Hand-made gluing fixing device for carton box

By designing a manual gluing and fixing device for carton boxes, and utilizing a combination of limiting modules and elastic spacers, the problem of carton boxes easily falling off and deforming after manual gluing was solved. This enabled high-quality reuse and stable shaping of carton boxes, improving production efficiency and product quality.

CN224491780UActive Publication Date: 2026-07-14HONGYUN HONGHE TOBACCO (GRP) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HONGYUN HONGHE TOBACCO (GRP) CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-14

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Abstract

The utility model discloses a kind of stick box manual viscose fixing devices, belong to cigarette technical field.Stick box manual viscose fixing device includes first limiting module and second limiting module, at least two first limiting partitions are set on the upper surface of bottom plate along second direction equally interval, and first fixed shape groove is formed between bottom plate and adjacent two first limiting partitions, and the first part of stick box can be inserted in first fixed shape groove;At least two second limiting partitions are set on the lower surface of cover along second direction equally interval, and second fixed shape groove is formed between cover and adjacent two second limiting partitions, and second part for inserting stick box in second fixed shape groove, the width of first limiting partition and second limiting partition along second direction is same with the width of stick box.The utility model can improve the reusability and quality stability of stick box.
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Description

Technical Field

[0001] This utility model relates to the field of cigarette technology, and in particular to a manual adhesive fixing device for cigarette cartons. Background Technology

[0002] In tobacco processing, the packaging of cigarette cartons is a crucial step in the cigarette production process. Throughout the production process, a series of rigorous quality inspections are conducted to ensure product quality, including unpacking inspections or self-inspections. These measures aim to promptly identify and address any potential quality issues, thereby ensuring that the cigarettes ultimately reaching the market meet high-quality standards.

[0003] When conducting quality inspections or self-inspections after dismantling cigarette cartons, the handling of the cartons is unavoidable. Since carton boxes fall under the category of auxiliary materials and their production costs are relatively high, adhering to the principle of conserving auxiliary materials and reducing production costs, for cartons that are undamaged after inspection but temporarily rendered unusable due to dismantling, companies will manually glue them back together. Cartons repaired through manual gluing will then be sent to the automated packaging process to participate in subsequent cigarette packaging procedures, maximizing resource utilization.

[0004] However, in daily practice, the manual gluing process presents several problems that urgently need to be addressed. Because operators often cannot maintain pressure on the glued area for extended periods after manual gluing, and the white glue used has a relatively slow curing speed, reusable cartons are prone to defects in subsequent production processes. Specifically, the manually glued areas are prone to detachment or protrusion, which not only affects the carton's appearance but may also negatively impact the protection of the cigarettes inside. Furthermore, weak glue or damage to the carton structure can lead to deformation of the cigarette pack, thus affecting the overall product quality and market image. These problems not only increase the difficulty of handling subsequent production processes but may also negatively impact the company's production efficiency and economic benefits. Utility Model Content

[0005] The purpose of this invention is to provide a manual gluing and fixing device for carton boxes, which improves the reusability and quality stability of carton boxes after manual gluing.

[0006] To achieve the above objectives, the following technical solution is provided:

[0007] The manual adhesive fixing device for carton boxes includes:

[0008] The first limiting module includes a base plate and at least two first limiting partitions extending along a first direction. The at least two first limiting partitions are equally spaced on the upper surface of the base plate along a second direction. A first shaping groove is formed between the base plate and two adjacent first limiting partitions. The first part of the strip box can be inserted into the first shaping groove.

[0009] The second limiting module includes a cover plate and at least two second limiting partitions extending along a first direction. The at least two second limiting partitions are equally spaced on the lower surface of the cover plate along a second direction. A second shaping groove is formed between the cover plate and two adjacent second limiting partitions. The second shaping groove is used to insert the second part of the carton. The width of the first limiting partition and the second limiting partition along the second direction is the same as the width of the carton.

[0010] As an optional solution for the manual gluing and fixing device for the strip box, the upper surface of the base plate has a first shaping and mounting area and a second shaping and mounting area. Both the first shaping and mounting areas and the second shaping and mounting areas are provided with a plurality of first limiting partitions at equal intervals along the second direction. The spacing between the first limiting partitions in the first shaping and mounting area is different from the spacing between the first limiting partitions in the second shaping and mounting area.

[0011] As an optional solution for the manual gluing and fixing device for carton, the height of the first limiting partition along a third direction is half the height of the carton, and / or the height of the second limiting partition along a third direction is half the height of the carton.

[0012] As an optional solution for the manual gluing and fixing device for the carton, the first limiting module also includes a first handle, with at least two first handles respectively disposed on both sides of the base plate.

[0013] As an optional solution for the manual gluing and fixing device for the carton, at least the upper surface of the base plate is provided with a first elastic spacer.

[0014] As an optional solution for the manual adhesive fixing device for the carton, at least the lower surface of the cover is provided with a second elastic spacer.

[0015] As an optional solution for the manual adhesive fixing device for the carton, the first elastic spacer and the second elastic spacer are made of silicone or rubber.

[0016] As an optional solution for the manual gluing and fixing device for the carton, a second handle is provided on the upper surface of the cover plate.

[0017] As an optional solution for the manual adhesive fixing device for the carton, the first limiting partition is provided with a first rounded chamfer at both ends along the first direction, and / or

[0018] The second limiting partition is provided with a second rounded chamfer at both ends along the first direction.

[0019] As an optional solution for the manual adhesive fixing device for the carton, the first limiting module and / or the second limiting module are made of stainless steel.

[0020] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0021] The manual gluing and fixing device for cartons provided by this utility model has at least two first limiting partitions of a first limiting module equally spaced on the upper surface of a base plate, wherein the first part of the carton can be inserted into the first shaping groove of the first limiting module. At least two second limiting partitions of a second limiting module equally spaced on the lower surface of the base plate, wherein the second part of the carton can be inserted into the second shaping groove of the second limiting module. Reusable cartons are re-glued manually, and the glued cartons are placed in the manual gluing and fixing device. The first and second shaping grooves complete the shaping of the cartons, improving the reusability and quality stability of the cartons. Since the width of the first and second limiting partitions along the second direction is the same as the width of the carton, after the first layer of cartons is inserted into the corresponding first shaping groove, a shaping groove for the second layer of cartons is formed between two adjacent first layer cartons and the first limiting partitions, and so on. This facilitates the accumulation and stacking of multiple layers of cartons, further increasing the number of cartons shaped in a single operation. Attached Figure Description

[0022] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments of this utility model 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 the content of the embodiments of this utility model and these drawings without creative effort.

[0023] Figure 1 This is a schematic diagram of the structure of the first limiting module in an embodiment of this utility model;

[0024] Figure 2 This is a side view of the first limiting module in an embodiment of the present invention;

[0025] Figure 3 This is a schematic diagram of the structure of the second limiting module in an embodiment of this utility model;

[0026] Figure 4 This is a side view of the second limiting module in an embodiment of this utility model.

[0027] Figure label:

[0028] 1. Base plate; 2. First limiting partition; 21. First rounded chamfer; 3. First shaping groove; 4. Cover plate; 5. Second limiting partition; 51. Second rounded chamfer; 6. Second shaping groove; 7. First handle; 8. First elastic spacer; 9. Second elastic spacer; 10. Second handle. Detailed Implementation

[0029] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0030] In the description of this utility model, it should be noted that the terms "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the product of this utility model is in use. They are used only for the convenience of describing this utility model and for 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. Furthermore, the terms "first," "second," and "third," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance. In the description of this utility model, unless otherwise stated, "a plurality of" means two or more.

[0031] In the description of this utility model, it should also be noted that, unless otherwise explicitly specified and limited, the terms "set" and "connection" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0032] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0033] In the cigarette manufacturing industry, the reuse of cigarette cartons is of great significance for saving costs and improving resource utilization. However, manually glued cartons often face problems such as easy detachment of the glue and deformation, which seriously affect product quality and production efficiency.

[0034] To improve the reusability and quality stability of carton after manual gluing, this embodiment provides a manual gluing and fixing device for cartons. The following describes the device in conjunction with... Figures 1 to 4 The specific content of this embodiment will be described in detail. It should be noted that the first direction mentioned in this embodiment is... Figure 1 The X direction, the second direction mentioned in this embodiment, and the width direction are... Figure 1 In this embodiment, the Y-direction, the third direction, and the height direction are... Figure 1 The Z direction in the equation.

[0035] The manual adhesive fixing device for the carton in this embodiment mainly consists of a first limiting module and a second limiting module. The base plate 1 of the first limiting module serves as the supporting foundation for the entire module, providing a stable installation platform for the subsequent limiting structure. At least two first limiting partitions 2 extending along a first direction are equally spaced along a second direction on the upper surface of the base plate 1. This equally spaced arrangement ensures the uniformity and stability of the carton during insertion. The first shaping groove 3 formed between the base plate 1 and two adjacent first limiting partitions 2 matches the size of the first part of the carton (in a side-standing position), allowing the carton to be accurately inserted into the first shaping groove 3. After the carton is inserted into the first shaping groove 3, the groove wall provides good limiting and support for the carton, effectively preventing the carton from shaking or shifting, and providing a stable reference for shaping. The cover plate 4 of the second limiting module serves as the main structure of the second limiting module. The cover plate 4 cooperates with the base plate 1 of the first limiting module to jointly fix the carton. At least two second limiting partitions 5 extending along a first direction are equally spaced along a second direction on the lower surface of the cover plate 4. A second shaping groove 6 formed between the cover plate 4 and two adjacent second limiting partitions 5 is used to insert the second part of the carton (in a side-standing position). The width of both the first limiting partition 2 and the second limiting partition 5 along the second direction is the same as the width of the carton (in a side-standing position). This not only ensures that the carton fits tightly when inserted into the shaping groove, preventing the carton from shaking due to excessive gaps, but also provides the possibility for subsequent stacking of multiple layers of cartons.

[0036] In practical applications, operators first manually glue the reusable cartons together. After gluing, the carton is placed in the manual gluing and fixing device. The first part of the carton is inserted into the first shaping groove 3 of the first limiting module, and the second part is inserted into the second shaping groove 6 of the second limiting module. At this time, the first shaping groove 3 and the second shaping groove 6 cooperate with each other to shape the carton from both top and bottom. This shaping method can effectively constrain the shape of the carton, so that the glued area is subjected to uniform pressure, promoting the rapid solidification of the white glue, thereby greatly improving the adhesion and reducing the occurrence of glue detachment or protrusion. At the same time, because the carton is well fixed in the device, deformation of the cigarette pack caused by external forces is avoided, significantly improving the quality stability of the carton.

[0037] Furthermore, since the widths of the first limiting partition 2 and the second limiting partition 5 along the second direction are the same as the width of the carton, they offer a significant advantage when stacking cartons. When the first layer of cartons is inserted into the corresponding first shaping slot 3, a shaping slot for the second layer of cartons is naturally formed between two adjacent first-layer cartons and the first limiting partition 2. This process continues, allowing operators to easily stack multiple layers of cartons together. This multi-layer stacking design not only saves space but also further increases the number of cartons shaped at a time, greatly improving production efficiency.

[0038] Furthermore, the upper surface of the base plate 1 has a first shaping and mounting area and a second shaping and mounting area, which are set according to the processing requirements of different sized cigarette cartons. Both the first and second shaping and mounting areas are equally spaced along the second direction with multiple first limiting partitions 2. The spacing between the first limiting partitions 2 in the first shaping and mounting area is different from the spacing between the first limiting partitions 2 in the second shaping and mounting area. This fully considers the size characteristics of different sized cigarette cartons. For regular cigarettes, the carton size is relatively large, requiring a wider partition spacing to accommodate them; while for slim and medium-sized cigarettes, the carton size is smaller, correspondingly requiring a narrower partition spacing. Through this differentiated design, the manual adhesive fixing device for the carton can accurately adapt to different sized cigarette cartons, achieving compatibility with multiple specifications of cartons.

[0039] In actual production, the design of different partition spacing has brought significant technical benefits. First, it greatly improves the versatility of the device. Previously, multiple sets of different fixing devices might be needed for different sizes of cigarette cartons, which not only increased equipment procurement costs but also occupied a lot of production space. This device, by setting partitions with different spacings, only needs one set of equipment to meet the processing needs of various sizes of cigarette cartons, effectively reducing the company's equipment investment and operating costs. Second, this design helps improve production efficiency. Operators do not need to frequently change fixing devices; they only need to insert the carton into the corresponding spacing between the first limiting partitions 2 according to the size of the cigarette cartons to be processed. This not only saves time on equipment changes but also reduces production interruptions that may occur due to equipment changes, making the production process smoother and improving overall production efficiency.

[0040] Furthermore, the height of the first limiting partition 2 along a third direction is half the height of the carton, and / or the height of the second limiting partition 5 along a third direction is half the height of the carton. When the height of the first limiting partition 2 along a third direction is half the height of the carton, it can play a precise guiding and limiting role during the insertion of the carton. When the carton is inserted into the first shaping groove 3 in a side-standing position, the first limiting partition 2 can exactly cover half the height of the carton. On the one hand, this provides sufficient support for the carton, preventing it from tilting or falling over due to uneven force during insertion, ensuring that the carton can be accurately inserted into the predetermined position. On the other hand, this height design allows part of the carton to be exposed after insertion, facilitating observation and adjustment by the operator. For example, the operator can visually see whether the adhesive part of the carton is aligned, whether there are impurities, etc., and make timely corrections, improving the accuracy and quality of adhesive application.

[0041] Similarly, when the height of the second limiting partition 5 along the third direction is half the height of the carton, the second limiting partition 5 cooperates with the first limiting partition 2 to further enhance the fixing effect of the carton. After the second part of the carton is inserted into the second shaping groove 6, the second limiting partition 5 limits the carton from above, and the second limiting partition 5 and the first limiting partition 2 form an upper and lower clamping posture. This upper and lower limiting method can effectively constrain the displacement of the carton in the vertical direction, so that the carton remains stable during the shaping process. Even when subjected to slight collisions or vibrations, the carton will not easily shake, thus ensuring the firmness and uniformity of the adhesive.

[0042] Furthermore, the first limiting module also includes first handles 7, with at least two first handles 7 respectively disposed on both sides of the base plate 1. The symmetrical arrangement of the two first handles 7 ensures even force distribution on both sides during device movement, preventing tilting or wobbling due to unilateral force, thus ensuring the stability and safety of the device during transport. Without the first handles 7, multiple operators may be required, which is not only laborious but also prone to causing the device to slip or be damaged due to improper operation. With the first handles 7, operators can easily lift and move the device to the designated position by simply holding the handles with both hands. This significantly reduces the workload of operators, improves the efficiency and accuracy of transport, and reduces time wastage and production interruptions caused by improper transport.

[0043] Furthermore, at least the upper surface of the base plate 1 is provided with a first elastic spacer 8. When the carton is inserted into the first shaping groove 3, the bottom of the carton will directly contact the first elastic spacer 8. Due to the cushioning effect of the elastic spacer, even if the device is subjected to a certain external impact during handling or operation, the carton will not be squeezed and deformed due to direct collision with the hard base plate 1. This is especially important for some cartons with softer materials or more fragile structures, effectively ensuring the shape and dimensional accuracy of the carton. At the same time, the first elastic spacer 8 also avoids direct contact between the carton and the base plate 1. During the production process, there may be some small impurities, dust or burrs on the surface of the base plate 1. If the carton directly contacts the base plate 1, these foreign objects may scratch the surface of the carton, causing scratches, wear and other defects, affecting the appearance quality of the product. The presence of the first elastic spacer 8 forms a soft isolation layer, separating the carton from the base plate 1, effectively preventing scratches and wear, and ensuring the smoothness and integrity of the carton surface.

[0044] Especially when multiple layers of carton are stacked, the weight of the upper carton will be transferred to the lower carton. The presence of the first elastic spacer 8 can evenly distribute the pressure and ensure that the lower carton is well protected.

[0045] Furthermore, at least the lower surface of the cover plate 4 is provided with a second elastic spacer 9. When the second part of the carton is inserted into the second shaping groove 6, the cover plate 4 will close on top of the carton, at which point the second elastic spacer 9 will be in close contact with the top of the carton. Similar to the first elastic spacer 8, the second elastic spacer 9 can absorb the pressure of the cover plate 4 on the carton, preventing the carton from deforming due to excessive pressure. In addition, the second elastic spacer 9 also avoids direct contact between the carton and the cover plate 4. During the manufacturing and use of the cover plate 4, there may be some uneven or sharp parts on the surface. If the carton is in direct contact with the cover plate 4, it is also easy to be scratched and worn. The soft material of the second elastic spacer 9 can buffer the friction between the cover plate 4 and the carton, reduce the possibility of scratches, and further protect the appearance quality of the carton.

[0046] From the perspective of production efficiency and cost control, the placement of the first elastic spacer 8 and the second elastic spacer 9 is also significant. They effectively prevent carton deformation and scratches, reducing the scrap rate caused by carton damage and lowering production costs. Simultaneously, the intact carton reduces subsequent rework and repair time and effort, improving production efficiency. Furthermore, the elastic spacers have a relatively long service life, eliminating the need for frequent replacements and further reducing maintenance costs.

[0047] Furthermore, the first elastic spacer 8 and the second elastic spacer 9 are made of silicone or rubber. Both silicone and rubber are elastomers with excellent flexibility and elasticity. When the carton is placed in the device, whether subjected to pressure from the cover plate 4 or external compression during device movement, these elastic spacers can quickly deform elastically. They act like tiny "buffer springs," effectively absorbing and dispersing pressure, preventing direct pressure on the carton surface, thus preventing deformation due to excessive compression. More importantly, silicone and rubber materials have good elastic recovery properties. When the pressure disappears, they can quickly return to their original shape and size, without permanent deformation due to long-term pressure. This means that during repeated use, the elastic spacers can maintain stable cushioning performance, providing continuous and reliable protection for the carton. Moreover, this elastic recovery characteristic also ensures that the fit between the elastic spacers and the carton does not decrease after multiple uses, further enhancing the protective effect. In addition, silicone and rubber materials also have a certain degree of surface friction. This moderate friction helps to hold the carton in place within the device, preventing it from sliding or wobbling. At the same time, it avoids excessive friction that could damage the carton's surface, ensuring its stability during processing.

[0048] The thickness of the first elastic spacer 8 and the second elastic spacer 9 is approximately 1mm-2mm. If the elastic spacer is too thin, for example, less than 1mm, its cushioning effect will be greatly reduced. When subjected to external pressure, the thin spacer may not be able to fully absorb and disperse the pressure, and the carton may still be subjected to a large impact force, resulting in deformation or damage. Moreover, the spacer that is too thin may not be able to effectively isolate the direct contact between the carton and the base plate 1 and the cover plate 4, making it difficult to avoid scratches and wear. If the elastic spacer is too thick, for example, more than 2mm, although the cushioning effect may be better, it will also bring some new problems. On the one hand, the spacer that is too thick will increase the overall height of the device, resulting in a larger device size and occupying more production space. On the other hand, the spacer that is too thick may affect the positioning accuracy of the carton in the device, making the carton less smooth when placed and removed, increasing the difficulty of operation, and reducing production efficiency. Setting the thickness of the elastic spacer between 1mm and 2mm ensures sufficient cushioning performance, effectively absorbing and dispersing pressure to prevent carton deformation and scratches, without excessively impacting the overall size and ease of operation of the device. Within this thickness range, the elastic spacer can fit tightly against the carton surface, providing uniform support and protection, ensuring the stability and safety of the carton during processing.

[0049] Furthermore, a second handle 10 is provided on the upper surface of the cover plate 4. As an important component of the device, the cover plate 4 needs to be frequently removed and placed during carton processing. Without the second handle 10, operators typically need to directly grasp the edge of the cover plate 4 to remove or place it. However, the edge of the cover plate 4 may be relatively smooth, and its shape is not conducive to hand gripping. This results in operators needing to exert considerable force when removing or placing the cover plate 4, and is prone to slipping, increasing operational difficulty and safety risks. The added second handle 10 conforms to the operator's hand. When the operator needs to remove the cover plate 4, they simply insert their fingers naturally into the groove of the second handle 10 to easily apply upward force and lift the cover plate 4 from the device. Similarly, when placing the cover plate 4, the operator can accurately control the position and angle of the cover plate 4 using the second handle 10, ensuring it is smoothly closed onto the carton. This convenient method of removal and placement greatly reduces the operator's workload and improves operational efficiency and accuracy. Because operators can firmly grip the cover plate 4 using the second handle 10, the possibility of it slipping and falling is prevented. In the production environment, a falling cover plate 4 could not only damage the cover plate itself but also injure operators or damage surrounding equipment and boxes, causing unnecessary losses and safety hazards. Furthermore, the second handle 10 allows operators to better control the balance of the cover plate 4 when handling it. During movement, operators can hold the second handle 10 on both sides of the cover plate 4 with both hands to keep it level and prevent it from tilting or wobbling. This is especially important for larger or heavier covers 4, effectively preventing collisions and damage caused by tilting and ensuring smooth production.

[0050] Furthermore, the first limiting partition 2 is provided with a first rounded chamfer 21 at both ends along the first direction, and / or the second limiting partition 5 is provided with a second rounded chamfer 51 at both ends along the first direction. During the carton insertion process, if the ends of the limiting partitions are right angles or sharp edges, structural interference can easily occur due to dimensional tolerances, operational errors, or other factors when the edge of the carton contacts the end of the limiting partition. For example, a slight offset during insertion may cause the edge of the carton to collide with the right angle of the limiting partition, preventing smooth insertion or even causing it to get stuck in the device, severely impacting production progress. The added first rounded chamfer 21 and second rounded chamfer 51 provide a smooth transition area for carton insertion. The arc-shaped surface of the rounded chamfer allows the edge of the carton to gradually slide into the shaping groove along the arc during insertion, avoiding direct collision with the end of the limiting partition. Even if the carton deviates slightly during insertion, the rounded chamfer guides the carton smoothly into the correct position, ensuring a smooth insertion process. This design significantly reduces production downtime caused by structural interference, thereby improving production efficiency.

[0051] Carton materials are typically quite refined, and the surface coating or printed patterns are crucial to their appearance quality. During insertion, if the end of the retaining plate is too sharp, the friction between the carton edge and the retaining plate will increase, easily leading to scratches, wear, or even coating peeling on the carton surface, severely impacting the product's appearance quality and market competitiveness. The first rounded chamfer 21 and the second rounded chamfer 51 effectively reduce the coefficient of friction between the carton and the retaining plate. The rounded surface reduces the contact area between the carton edge and the retaining plate, allowing the friction to be distributed more evenly on the rounded surface, avoiding damage caused by excessive localized friction. Simultaneously, the smooth surface of the rounded chamfers also reduces the heat generated during friction, further minimizing the impact on the carton material and ensuring that the carton maintains good appearance quality after insertion.

[0052] For operators, the smoothness and non-damage-prone insertion of the receptacle directly impacts their work experience and workload. If frequent interference or damage occurs during insertion, operators need to spend more time and effort adjusting the receptacle's position or repairing damaged receptacles. This not only increases workload but also easily leads to operator fatigue and frustration, affecting work efficiency and quality. The rounded chamfer design allows for easy and quick receptacle insertion, reducing the operator's difficulty and workload. Operators don't need to worry about the receptacle getting stuck due to structural interference or about damage to its surface.

[0053] Optionally, the first and / or second limiting modules are made of stainless steel. Cigarette production environments are typically complex, potentially involving humidity and chemical volatilization. Limiting modules made of ordinary materials are susceptible to corrosion in such environments, with surfaces prone to rust and oxidation. Over time, corrosion leads to decreased dimensional accuracy and increased surface roughness in the limiting modules, consequently affecting the positioning accuracy and stability of the carton within the device. Stainless steel, however, possesses excellent corrosion resistance, maintaining its chemical stability under various harsh environmental conditions. Even when exposed to humid air or minor chemical substances for extended periods, stainless steel limiting modules will not easily rust or corrode. This allows the device to maintain stable performance over long periods of use, reducing production failures and downtime caused by limiting module corrosion, and ensuring production continuity and stability. Stainless steel also boasts high strength and hardness, capable of withstanding significant pressure and friction without substantial deformation. Using stainless steel for the first and / or second limiting modules provides reliable positioning support for the carton. Regardless of variations in the size and weight of the receptacle, the stainless steel limit module ensures accurate positioning of the receptacle within the device, guaranteeing its processing precision and consistency. Stainless steel possesses excellent wear resistance, and its surface undergoes a special treatment to form a hard oxide film, further enhancing its wear resistance. This allows the stainless steel limit module to maintain surface flatness and dimensional accuracy over long-term use, reducing replacement frequency due to wear and extending the device's lifespan.

[0054] Note that the above description is merely a preferred embodiment of the present invention and the technical principles employed. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described herein, and various obvious changes, readjustments, and substitutions can be made without departing from the scope of protection of the present invention. Therefore, although the present invention has been described in detail through the above embodiments, the present invention is not limited to the above embodiments. Many other equivalent embodiments may be included without departing from the concept of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. A manual adhesive fixing device for strip boxes, characterized in that, include: The first limiting module includes a base plate (1) and at least two first limiting partitions (2) extending along a first direction. The at least two first limiting partitions (2) are equally spaced along a second direction on the upper surface of the base plate (1). A first shaping groove (3) is formed between the base plate (1) and two adjacent first limiting partitions (2). The first part of the strip box can be inserted into the first shaping groove (3). The second limiting module includes a cover plate (4) and at least two second limiting partitions (5) extending along a first direction. The at least two second limiting partitions (5) are equally spaced along a second direction on the lower surface of the cover plate (4). A second shaping groove (6) is formed between the cover plate (4) and two adjacent second limiting partitions (5). The second shaping groove (6) is used to insert the second part of the carton. The width of the first limiting partition (2) and the second limiting partition (5) along the second direction is the same as the width of the carton.

2. The manual adhesive fixing device for strip boxes according to claim 1, characterized in that, The upper surface of the base plate (1) has a first shaping installation area and a second shaping installation area. Both the first shaping installation area and the second shaping installation area are provided with a plurality of first limiting partitions (2) at equal intervals along the second direction. The spacing between the first limiting partitions (2) located in the first shaping installation area is different from the spacing between the first limiting partitions (2) located in the second shaping installation area.

3. The manual adhesive fixing device for strip boxes according to claim 2, characterized in that, The height of the first limiting partition (2) along a third direction is half the height of the carton, and / or the height of the second limiting partition (5) along a third direction is half the height of the carton.

4. The manual adhesive fixing device for strip boxes according to claim 2, characterized in that, The first limiting module also includes a first handle (7), and at least two first handles (7) are respectively disposed on both sides of the base plate (1).

5. The manual adhesive fixing device for strip boxes according to claim 2, characterized in that, At least the upper surface of the base plate (1) is provided with a first elastic spacer (8).

6. The manual adhesive fixing device for strip boxes according to claim 5, characterized in that, At least the lower surface of the cover plate (4) is provided with a second elastic septum (9).

7. The manual adhesive fixing device for strip boxes according to claim 6, characterized in that, The first elastic spacer (8) and the second elastic spacer (9) are made of silicone or rubber.

8. The manual adhesive fixing device for strip boxes according to claim 1, characterized in that, The upper surface of the cover plate (4) is provided with a second handle (10).

9. The manual adhesive fixing device for strip boxes according to claim 1, characterized in that, The first limiting partition (2) is provided with a first rounded chamfer (21) at both ends along the first direction, and / or The second limiting partition (5) is provided with a second rounded chamfer (51) at both ends along the first direction.

10. The manual adhesive fixing device for strip boxes according to any one of claims 1-9, characterized in that, The first limiting module and / or the second limiting module are made of stainless steel.