Solid adhesive cutting apparatus
By integrating the feeding, cutting, and cleaning mechanisms, and adopting a movable cutting mechanism and a double scraper design, the problem of cutting blade residue in solid glue cutting equipment has been solved, realizing efficient and automated production of solid glue and improving cutting accuracy and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JINHUA HONGTAI STATIONERY CO LTD
- Filing Date
- 2025-07-03
- Publication Date
- 2026-07-07
AI Technical Summary
Existing solid glue cutting equipment leaves residue on the cutting blade due to its stickiness during the cutting process, affecting cutting accuracy and quality, and is difficult to clean.
It integrates feeding, cutting, and cleaning mechanisms, adopts a movable cutting mechanism and a double scraper design, combines horizontal and vertical adjustment structures, and is equipped with an automatic blade sharpening function to achieve fully automated production of solid adhesives.
It improves production efficiency and cutting quality, ensures cutting accuracy and stability, reduces manual intervention and cleaning costs, and extends the service life of the cutting blade.
Smart Images

Figure CN224464769U_ABST
Abstract
Description
Technical Field
[0001] This application belongs to the technical field of solid glue processing equipment, and particularly relates to a solid glue cutting device. Background Technology
[0002] The manufacturing process of solid adhesives (solid glues) typically involves injecting hot liquid into a mold, allowing it to cool and solidify, then packaging it into lipstick-style tubes to create a usable solid adhesive product. In the solid glue production process, the cutting step is extremely important, as its quality directly affects the product's quality and subsequent user experience.
[0003] Currently, equipment used for cutting solid adhesives on the market has many unresolved problems. Solid adhesives are inherently sticky, a characteristic that makes them easily adhere to the cutting blade during the cutting process. After continuous use, a large amount of adhesive residue gradually accumulates on the blade's surface. With time and the increase in the number of cuts, the amount of adhesive adhering to the blade increases, severely affecting the blade's sharpness and cutting accuracy. This not only leads to significant dimensional deviations in the cut solid adhesive, failing to meet product specifications, but may also result in uneven cut surfaces, affecting the appearance quality and performance of the solid adhesive. Improvements are needed in this regard. Utility Model Content
[0004] The purpose of this application is to provide a solid glue cutting device that can solve the above-mentioned problems.
[0005] The purpose of this application is to provide a solid glue cutting device, comprising:
[0006] Mounting rack;
[0007] The feeding mechanism, mounted on the mounting frame, includes a storage tank, a cooling and shaping device, and a colloid extrusion molding device connected in sequence;
[0008] A cutting mechanism, mounted on a mounting frame, is used to cut extruded solid adhesive;
[0009] A cleaning mechanism is used to clean the cutting mechanism;
[0010] The cutting mechanism is movably mounted on the mounting frame and can move up and down.
[0011] The aforementioned solid adhesive cutting equipment integrates the feeding mechanism, cutting mechanism, and cleaning mechanism onto a mounting frame, realizing an integrated process for solid adhesive from material storage, cooling and curing, extrusion to cutting and cleaning. Compared with existing equipment, the division of labor is clear and the cooperation is close, which greatly improves the production efficiency of solid adhesive. At the same time, it effectively solves the problem of cutting blade residue caused by the stickiness of solid adhesive, ensuring the stability of cutting quality.
[0012] The mounting frame serves as a support structure, providing a foundation for each mechanism and ensuring the relative stability of the components during operation, thus preventing cutting deviations caused by shaking. The material feeding mechanism, consisting of a storage bin, a cooling and setting device, and a colloid extrusion molding unit, is connected sequentially, enabling continuous operation of the solid adhesive from raw material storage to extrusion. The storage bin can hold a large amount of raw material, reducing frequent feeding operations and ensuring production continuity. The cooling and setting device precisely controls the temperature, allowing the hot liquid injected into the mold to cool and solidify quickly and evenly according to the set process requirements, ensuring the molding quality of the solid adhesive. The colloid extrusion molding unit extrudes the solidified solid adhesive at a stable speed and shape, providing standardized material for subsequent cutting processes and preventing cutting accuracy issues caused by unstable material shape and size.
[0013] The cutting mechanism works in conjunction with the feeding mechanism. After the solid glue is extruded, the cutting mechanism can be moved and installed on the mounting frame and can move up and down. It can cut the extruded solid glue in a timely manner and can also flexibly adjust the cutting position, thus improving cutting efficiency and cutting accuracy.
[0014] In addition, the cleaning mechanism solves the problem of cutting blade residue caused by the stickiness of solid adhesive. During the solid adhesive cutting process, some solid adhesive will inevitably adhere to the cutting blade. The first and second scrapers in the cleaning mechanism can scrape off the residual solid adhesive on the surface of the cutting blade in real time, ensuring that the cutting blade is always in a clean state and guaranteeing the continuity and stability of the cutting process.
[0015] Furthermore, the cutting mechanism includes:
[0016] Lateral adjustment structure;
[0017] Vertical adjustment structure;
[0018] A drive motor is mounted on a longitudinal adjustment mechanism, and a cutting blade is mounted on its output shaft.
[0019] The horizontal adjustment structure is mounted horizontally on the mounting bracket to adjust the horizontal position of the cutting blade, while the vertical adjustment structure is mounted vertically on the horizontal drive mechanism to adjust the vertical position of the cutting blade.
[0020] In this application, the cutting mechanism includes a horizontal adjustment structure, a vertical adjustment structure, a drive motor, and a cutting blade. The horizontal adjustment structure is horizontally mounted on a mounting bracket. By adjusting the rotation of the first screw on the first guide rail, the first slider is driven to slide, thereby achieving precise horizontal position adjustment of the cutting blade. The vertical adjustment structure is vertically mounted on the horizontal drive mechanism. The second motor drives the second screw to rotate within the second guide rail, causing the second slider to slide along the guide rail, thus achieving flexible vertical position adjustment of the cutting blade. These two adjustment structures work together to quickly and accurately adjust the position of the cutting blade according to different specifications of solid adhesive products. Compared with traditional fixed-position cutting blades, it can adapt to more diverse cutting needs, avoiding problems such as large dimensional deviations and uneven cutting surfaces caused by inaccurate cutting positions, thus improving cutting accuracy and product quality.
[0021] Furthermore: the cleaning mechanism includes:
[0022] A fixing cap is fixedly installed on one side of the cutting blade;
[0023] The movable cover is hinged to one end of the fixed cover;
[0024] The first scraper is located on one side of the cutting blade and cooperates with the side of the cutting blade;
[0025] The second scraper is located on the other side of the cutting blade and cooperates with the other side of the cutting blade.
[0026] The first scraper and the second scraper are respectively mounted on the fixed cover and the movable cover by fasteners.
[0027] The cleaning mechanism includes a fixed cover, a movable cover, a first scraper, and a second scraper. The fixed cover is installed on one side of the cutting blade, and the movable cover is hinged to one end of the fixed cover for easy opening and closing. The first and second scrapers are respectively installed on the fixed and movable covers and fit tightly with the two sides of the cutting blade. During the cutting process, as the cutting blade moves, the two scrapers can promptly remove the solid adhesive adhering to the sides of the cutting blade, thus solving the problem of solid adhesive residue affecting cutting. Simultaneously, the first and second scrapers are installed using fasteners, allowing for easy removal and deep cleaning when a large amount of solid adhesive accumulates on the scrapers. Compared to the complex and inefficient cleaning methods of existing equipment, this improves cleaning efficiency, reduces manual cleaning costs, and avoids the risk of damage to the cutting blade during cleaning. Furthermore, the fasteners here can be bolts.
[0028] Furthermore, both the first and second scrapers include a mounting part and a working part. The mounting part is connected to a fastener, while the working part is attached to the two sides of the cutting blade.
[0029] In this application, both the first and second scrapers include a mounting part and a working part. The mounting part is connected to a fastener. This structural design enables the scraper to be installed firmly and is not easy to loosen during cutting and cleaning. The working part is attached to the two sides of the cutting blade and can fit tightly to the surface of the cutting blade to ensure that the adhered solid glue is completely scraped off, thereby effectively improving the cleaning effect.
[0030] Furthermore, the bottom of the fixed cover and the movable cover are provided with a cutting opening for the cutting blade to cut, and the top is provided with a sharpening opening. A sharpening stone is provided above the sharpening opening and is mounted on the mounting bracket.
[0031] Both the fixed and movable covers have cutting openings at the bottom for the cutting blade to cut, and a sharpening opening at the top, with a sharpening stone placed above the sharpening opening. After the cutting blade completes one cutting stroke, it cuts solid adhesive through the cutting opening. As the cutting blade moves upwards on its return stroke, it passes through the sharpening opening, where the sharpening stone automatically sharpens the blade, maintaining its sharpness. It can also be sharpened periodically. This system continuously maintains the cutting blade's excellent cutting performance, extends its service life, reduces downtime and costs caused by blade wear and replacement, and further ensures cutting accuracy and production efficiency.
[0032] Furthermore, the lateral adjustment structure includes a first guide rail disposed on the mounting bracket, a first screw disposed on the guide rail, a first motor driving the first screw to rotate, and a first slider slidably disposed on the first guide rail and threadedly connected to the first screw. The longitudinal adjustment structure is installed at the bottom of the first slider.
[0033] The first screw is driven by the first motor to rotate, and the rotational motion of the motor is converted into the linear motion of the first slider on the first guide rail. This enables the adjustment of the horizontal position of the cutting blade, ensuring the accuracy of the cutting position. At the same time, the first guide rail provides guidance and support for the first slider, enhancing the stability of the entire lateral adjustment structure. This prevents the cutting blade from shifting due to force during the cutting process, thus improving the reliability of the cutting.
[0034] Furthermore, the longitudinal adjustment mechanism includes a support frame disposed at the bottom of the first slider, a second guide rail disposed on the support frame, a second motor disposed at the bottom of the second guide rail, a second screw disposed within the second guide rail, and a second slider threadedly connected to the second screw and slidably disposed on the second guide rail, with the drive motor mounted on the second slider.
[0035] The second motor drives the second screw to rotate within the second guide rail, causing the second slider to slide up and down along the guide rail, thereby adjusting the longitudinal position of the drive motor and the cutting blade. The support frame provides stable support for the entire longitudinal adjustment structure, ensuring stability during the adjustment process. The cooperation between the second guide rail and the second screw makes the longitudinal adjustment of the cutting blade more precise and smooth, accurately controlling the cutting position according to the height of the solid glue extrusion. This avoids problems such as incomplete or over-cutting of solid glue due to inaccurate cutting height, further improving cutting quality and product qualification rate.
[0036] The beneficial effects of this application are:
[0037] 1. By coordinating the feeding, cutting, and cleaning mechanisms, the entire solid glue production process can be automated, thereby effectively improving production efficiency and reducing manual intervention;
[0038] 2. By using two scrapers in combination and designing a detachable structure, it can remove solid glue residue on the cutting blade in real time, making cleaning convenient and efficient, effectively avoiding residue from affecting cutting, thereby improving cutting efficiency and yield.
[0039] 3. The position of the cutting blade can be controlled by the horizontal and vertical adjustment structures, thus adapting to different product specifications. It is also equipped with an automatic blade sharpening function, which can extend the blade life and reduce downtime maintenance costs. Attached Figure Description
[0040] Figure 1 This is a schematic diagram of the structure of this utility model;
[0041] Figure 2 This is a schematic diagram of the cleaning mechanism of this utility model.
[0042] The reference numerals in the figure are as follows: 100, mounting frame; 200, feeding mechanism; 210, storage bin; 220, cooling and shaping device; 230, colloid extrusion molding device; 300, cutting mechanism; 310, lateral adjustment structure; 311, first guide rail; 312, first screw; 313, first motor; 314, first slider; 320, longitudinal adjustment structure; 321, support frame; 322, second guide rail; 323, second motor; 324, second screw; 325, second slider; 330, drive motor; 340, cutting blade; 400, cleaning mechanism; 410, fixed cover; 420, movable cover; 430, first scraper; 440, second scraper; 441, mounting part; 442, working part; 450, cutting edge; 460, grinding edge; 470, grinding stone. Detailed Implementation
[0043] The technical solutions of the embodiments of this application will be clearly described below with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application are within the scope of protection of this application.
[0044] The terms "first," "second," etc., used in the specification and claims of this application are used to distinguish similar objects and not to describe a specific order or sequence. It should be understood that such use of data can be interchanged where appropriate so that embodiments of this application can be implemented in orders other than those illustrated or described herein, and the objects distinguished by "first," "second," etc., are generally of the same class and the number of objects is not limited; for example, a first object can be one or more. Furthermore, in the specification and claims, "and / or" indicates at least one of the connected objects, and the character " / " generally indicates that the preceding and following objects are in an "or" relationship.
[0045] The solid glue cutting equipment provided in this application will be described in detail below with reference to the accompanying drawings, through specific embodiments and application scenarios.
[0046] Example 1:
[0047] like Figure 1 As shown in the figure, this application provides a solid glue cutting device, including:
[0048] Mounting bracket 100;
[0049] The feeding mechanism 200 is mounted on the mounting frame 100 and includes a storage box 210, a cooling and shaping device 220 and a colloid extrusion molding device 230 connected in sequence.
[0050] The cutting mechanism 300 is mounted on the mounting frame 100 and is used to cut the extruded solid glue;
[0051] Cleaning mechanism 400 is used to clean cutting mechanism 300;
[0052] The cutting mechanism 300 is movably mounted on the mounting bracket 100 and can move up and down.
[0053] The solid adhesive cutting equipment described above integrates the feeding mechanism 200, the cutting mechanism 300, and the cleaning mechanism 400 onto the mounting frame 100, realizing an integrated process for solid adhesive from material storage, cooling and curing, extrusion to cutting and cleaning. Compared with existing equipment, the division of labor is clear and the cooperation is close, which greatly improves the production efficiency of solid adhesive. At the same time, it effectively solves the problem of cutting blade residue caused by the stickiness of solid adhesive, ensuring the stability of cutting quality.
[0054] In some embodiments of this application, such as Figure 1 As shown, the mounting frame 100 serves as a support frame 321, providing a mounting foundation for each mechanism and ensuring the relative stability of the components during equipment operation, thus avoiding cutting deviations caused by shaking. The material storage tank 210, cooling and shaping device 220, and colloid extrusion molding device 230 in the feeding mechanism 200 are connected sequentially, realizing continuous operation of solid adhesive from raw material storage to molding extrusion. The material storage tank 210 can hold a large amount of raw material to be processed, reducing frequent feeding operations and ensuring production continuity; the cooling and shaping device 220 can precisely control the temperature, allowing the hot liquid injected into the mold to cool and solidify quickly and uniformly according to the set process requirements, ensuring the molding quality of the solid adhesive; the colloid extrusion molding device 230 extrudes the solidified solid adhesive at a stable speed and shape, providing standardized material to be cut for subsequent cutting processes, avoiding the impact of unstable material shape and size on cutting accuracy.
[0055] The cutting mechanism 300 works in conjunction with the feeding mechanism 200. After the solid glue is extruded, the cutting mechanism 300 can be movably mounted on the mounting frame 100 and can move up and down. It can cut the extruded solid glue in a timely manner and can also flexibly adjust the cutting position, thereby improving cutting efficiency and cutting accuracy.
[0056] In addition, the cleaning mechanism 400 solves the problem of residue on the cutting blade 340 caused by the stickiness of solid adhesive. During the solid adhesive cutting process, some solid adhesive will inevitably adhere to the cutting blade 340. The first scraper 430 and the second scraper 440 in the cleaning mechanism 400 can scrape off the residual solid adhesive on the surface of the cutting blade 340 in real time, ensuring that the cutting blade 340 is always in a clean state and ensuring the continuity and stability of the cutting process.
[0057] Example 2:
[0058] This application provides a solid glue cutting device. In addition to the above-mentioned technical features, the solid glue cutting device of this application also includes the following technical features.
[0059] like Figure 1 As shown, the cutting mechanism 300 includes:
[0060] Lateral adjustment structure 310;
[0061] Longitudinal adjustment structure 320;
[0062] A drive motor 330 is mounted on a longitudinal adjustment mechanism, and a cutting blade 340 is mounted on its output shaft.
[0063] The horizontal adjustment structure 310 is horizontally mounted on the mounting bracket 100 and is used to adjust the horizontal position of the cutting blade 340. The vertical adjustment structure 320 is vertically mounted on the horizontal drive mechanism and is used to adjust the vertical position of the cutting blade 340.
[0064] In this embodiment, the cutting mechanism 300 includes a horizontal adjustment structure 310, a vertical adjustment structure 320, a drive motor 330, and a cutting blade 340. The horizontal adjustment structure 310 is horizontally mounted on the mounting bracket 100. By adjusting the rotation of the first screw 312 on the first guide rail 311, the first slider 314 is driven to slide, thereby achieving precise horizontal position adjustment of the cutting blade 340. The vertical adjustment structure 320 is vertically mounted on the horizontal drive mechanism. The second motor 323 drives the second screw 324 to rotate within the second guide rail 322, causing the second slider 325 to slide along the guide rail, thereby achieving flexible vertical position adjustment of the cutting blade 340. These two adjustment structures work together to quickly and accurately adjust the position of the cutting blade 340 according to different specifications of solid glue products. Compared with the traditional fixed-position cutting blade 340, it can adapt to more diverse cutting needs, avoiding problems such as large deviations in solid glue cutting dimensions and uneven cutting surfaces caused by inaccurate cutting positions, thus improving cutting accuracy and product quality.
[0065] Example 3:
[0066] This application provides a solid glue cutting device. In addition to the above-mentioned technical features, the solid glue cutting device of this application also includes the following technical features.
[0067] like Figure 2 As shown, the cleaning mechanism 400 includes:
[0068] The fixing cover 410 is fixedly installed on one side of the cutting blade 340;
[0069] The movable cover 420 is hinged to one end of the fixed cover 410;
[0070] The first scraper 430 is disposed on one side of the cutting blade 340 and cooperates with the side of the cutting blade 340;
[0071] The second scraper 440 is disposed on the other side of the cutter 340 and cooperates with the other side of the cutter 340;
[0072] The first scraper 430 and the second scraper 440 are respectively mounted on the fixed cover 410 and the movable cover 420 by fasteners.
[0073] In this embodiment, the cleaning mechanism 400 includes a fixed cover 410, a movable cover 420, a first scraper 430, and a second scraper 440. The fixed cover 410 is installed on one side of the cutting blade 340, and the movable cover 420 is hinged to one end of the fixed cover 410 for easy opening and closing. The first scraper 430 and the second scraper 440 are respectively installed on the fixed cover 410 and the movable cover 420, and are tightly fitted with the two sides of the cutting blade 340. During the cutting process, as the cutting blade 340 moves, the two scrapers can promptly scrape off the solid adhesive adhering to the sides of the cutting blade 340, thereby solving the problem of solid adhesive residue affecting cutting. Simultaneously, the first scraper 430 and the second scraper 440 are installed with fasteners, allowing for easy disassembly for deep cleaning when a large amount of solid adhesive accumulates on the scrapers. Compared to the complex and inefficient cleaning methods of existing equipment, this improves cleaning efficiency, reduces manual cleaning costs, and avoids the risk of damage to the cutting blade 340 during the cleaning process. Furthermore, the fasteners here can be bolts.
[0074] Furthermore, both the first scraper 430 and the second scraper 440 include a mounting part 441 and a working part 442. The mounting part 441 is connected to a fastener, while the working part 442 is attached to the two sides of the cutting blade 340.
[0075] In this application, both the first scraper 430 and the second scraper 440 include a mounting part 441 and a working part 442. The mounting part 441 is connected to a fastener. This structural design enables the scraper to be installed firmly and is not easy to loosen during cutting and cleaning. The working part 442 is attached to the two sides of the cutting blade 340 and can fit tightly to the surface of the cutting blade 340 to ensure that the adhered solid glue is completely scraped off, thereby effectively improving the cleaning effect.
[0076] Example 4:
[0077] This application provides a solid glue cutting device. In addition to the above-mentioned technical features, the solid glue cutting device of this application also includes the following technical features.
[0078] like Figure 2 As shown, the bottom of the fixed cover 410 and the movable cover 420 are provided with a cutting opening 450 for the cutting blade 340 to cut, and the top is provided with a sharpening opening 460. A sharpening stone 470 is provided above the sharpening opening 460 and is mounted on the mounting bracket 100.
[0079] In this embodiment, the bottom of the fixed cover 410 and the movable cover 420 are provided with a cutting opening 450 for the cutting blade 340 to cut, and the top is provided with a sharpening opening 460. A sharpening stone 470 is provided above the sharpening opening 460. After the cutting blade 340 completes one cutting stroke, it cuts solid glue through the cutting opening 450. When the cutting blade 340 moves upwards for its return stroke, it passes through the sharpening opening 460, and the sharpening stone 470 can automatically sharpen the cutting blade 340, maintaining its sharpness. It can also be sharpened periodically. This ensures the continuous good cutting performance of the cutting blade 340, extends its service life, reduces downtime and costs caused by blade wear and replacement, and further guarantees cutting accuracy and production efficiency.
[0080] Example 5:
[0081] This application provides a solid glue cutting device. In addition to the above-mentioned technical features, the solid glue cutting device of this application also includes the following technical features.
[0082] like Figure 1 As shown, the lateral adjustment structure 310 includes a first guide rail 311 disposed on the mounting bracket 100, a first screw 312 disposed on the guide rail, a first motor 313 driving the first screw 312 to rotate, and a first slider 314 slidably disposed on the first guide rail 311 and threadedly connected to the first screw 312. The longitudinal adjustment structure 320 is installed at the bottom of the first slider 314.
[0083] In this embodiment, the first screw 312 is driven to rotate by the first motor 313, which converts the rotational motion of the motor into the linear motion of the first slider 314 on the first guide rail 311. This enables the adjustment of the horizontal position of the cutting blade 340, ensuring the accuracy of the cutting position. At the same time, the first guide rail 311 provides guidance and support for the first slider 314, enhancing the stability of the entire lateral adjustment structure 310. This prevents the cutting blade 340 from shifting due to force during the cutting process, thus improving the reliability of the cutting.
[0084] Furthermore, the longitudinal adjustment mechanism includes a support frame 321 disposed at the bottom of the first slider 314, a second guide rail 322 disposed on the support frame 321, a second motor 323 disposed at the bottom of the second guide rail 322, a second screw 324 disposed within the second guide rail 322, and a second slider 325 threadedly connected to the second screw 324 and slidably disposed on the second guide rail 322, with the drive motor 330 mounted on the second slider 325.
[0085] The second motor 323 drives the second screw 324 to rotate within the second guide rail 322, causing the second slider 325 to slide up and down along the guide rail, thereby realizing the longitudinal position adjustment of the drive motor 330 and the cutting blade 340. The support frame 321 provides stable support for the entire longitudinal adjustment structure 320, ensuring stability during the adjustment process; the cooperation between the second guide rail 322 and the second screw 324 makes the longitudinal adjustment of the cutting blade 340 more precise and smooth, and can accurately control the cutting position according to the height of the solid glue extrusion, avoiding problems such as incomplete or over-cutting of solid glue due to inaccurate cutting height, further improving cutting quality and product qualification rate.
[0086] It should be noted that, in this document, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element. Furthermore, it should be noted that the scope of the methods and apparatuses in the embodiments of this application is not limited to performing functions in the order shown or discussed, but may also include performing functions substantially simultaneously or in the reverse order, depending on the functions involved. For example, the described methods may be performed in a different order than described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.
[0087] The embodiments of this application have been described above with reference to the accompanying drawings. However, this application is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of this application without departing from the spirit and scope of the claims, and all of these forms are within the protection scope of this application.
Claims
1. A solid glue cutting device, characterized in that: include: Mounting bracket (100); The feeding mechanism (200) is mounted on the mounting frame (100) and includes a storage tank (210), a cooling and shaping device (220) and a colloid extrusion molding device (230) connected in sequence. A cutting mechanism (300) is mounted on a mounting frame (100) and is used to cut extruded solid glue; A cleaning mechanism (400) is used to clean the cutting mechanism (300); The cutting mechanism (300) is movably mounted on the mounting bracket (100) and can move up and down.
2. The solid glue cutting device according to claim 1, characterized in that: The cutting mechanism (300) includes: Lateral adjustment structure (310); Longitudinal adjustment structure (320); A drive motor (330) is mounted on the longitudinal adjustment mechanism, and a cutting blade (340) is mounted on its output shaft; The horizontal adjustment structure (310) is horizontally mounted on the mounting bracket (100) and is used to adjust the horizontal position of the cutting blade (340). The vertical adjustment structure (320) is vertically mounted on the horizontal drive mechanism and is used to adjust the vertical position of the cutting blade (340).
3. A solid glue cutting device according to claim 2, characterized in that: The cleaning mechanism (400) includes: A fixing cover (410) is fixedly mounted on one side of the cutting blade (340); The movable cover (420) is hinged to one end of the fixed cover (410); The first scraper (430) is disposed on one side of the cutting blade (340) and cooperates with the side of the cutting blade (340); The second scraper (440) is disposed on the other side of the cutting blade (340) and cooperates with the other side of the cutting blade (340); The first scraper (430) and the second scraper (440) are respectively mounted on the fixed cover (410) and the movable cover (420) by fasteners.
4. A solid glue cutting device according to claim 3, characterized in that: The first scraper (430) and the second scraper (440) both include a mounting part (441) and a working part (442). The mounting part (441) is connected to a fastener, and the working part (442) is attached to the two sides of the cutting blade (340).
5. A solid glue cutting device according to claim 4, characterized in that: The bottom of the fixed cover (410) and the movable cover (420) are provided with a cutting opening (450) for the cutting blade (340) to cut, and a sharpening opening (460) is provided at the top. A sharpening stone (470) is provided above the sharpening opening (460) and is mounted on the mounting bracket (100).
6. A solid glue cutting device according to claim 5, characterized in that: The lateral adjustment structure (310) includes a first guide rail (311) disposed on the mounting bracket (100), a first screw (312) disposed on the guide rail, a first motor (313) driving the first screw (312) to rotate, and a first slider (314) slidably disposed on the first guide rail (311) and threadedly connected to the first screw (312). The longitudinal adjustment structure (320) is installed at the bottom of the first slider (314).
7. A solid glue cutting device according to claim 6, characterized in that: The longitudinal adjustment mechanism includes a support frame (321) disposed at the bottom of the first slider (314), a second guide rail (322) disposed on the support frame (321), a second motor (323) disposed at the bottom of the second guide rail (322), a second screw (324) disposed in the second guide rail (322), and a second slider (325) threadedly connected to the second screw (324) and slidably disposed on the second guide rail (322). The drive motor (330) is mounted on the second slider (325).