Cutting mechanism and cutting equipment having the cutting mechanism
By using a clamping method to install the cutting blade in the cutting mechanism, and combining the design of the clamping cylinder and clamping components, the problem of cumbersome blade installation in the prior art is solved, achieving efficient disassembly and adjustment, and improving the ease of operation and cutting efficiency of the cutting equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GREE ELECTRICAL APPLIANCE WUHU
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-30
AI Technical Summary
The existing cutting mechanism has a cumbersome blade installation method, resulting in low efficiency in disassembly, replacement and adjustment, which causes inconvenience to the staff.
The cutting blade is installed using a clamping method, which combines a clamping cylinder and a clamping component to fix the cutting blade through the clamping position. It is also equipped with an anti-slip structure and a guide block to simplify the process of blade disassembly, assembly, and adjustment.
It improves the efficiency of disassembling, replacing, and adjusting cutting blades, simplifies the operation process, shortens the operation time, and enhances the applicability and cutting efficiency of the cutting equipment.
Smart Images

Figure CN224424438U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of cutting equipment technology, and more specifically, to a cutting mechanism and a cutting device having the cutting mechanism. Background Technology
[0002] In air conditioning equipment, the evaporator and condenser are the core components. In the production process of the evaporator, there is a step that requires cutting the evaporator material. Cutting equipment is usually used to cut the evaporator material.
[0003] During the cutting process of evaporator materials using cutting equipment, the position of the cutting blades may shift with continuous use. Therefore, periodic adjustment of the blade position is necessary. Furthermore, different evaporator materials require different cutting depths, necessitating blade replacement to match the cutting depth for different materials. However, most existing cutting blades are installed manually using screws, a cumbersome and inconvenient method that hinders blade removal, replacement, and adjustment. This results in low efficiency for blade removal, replacement, and adjustment, causing inconvenience and wasting time for operators. Utility Model Content
[0004] The purpose of this application is to provide a cutting mechanism and a cutting device having the cutting mechanism. The cutting blade of the cutting mechanism is installed and fixed on the cutting mechanism by clamping, which makes it easier to disassemble, replace and adjust the cutting blade of the cutting mechanism. This brings many conveniences to the workers and is relatively easy to operate. It can effectively shorten the operation time and greatly improve the efficiency of disassembling, replacing and adjusting the cutting blade.
[0005] To achieve the above objectives, in a first aspect, this application provides a cutting mechanism, comprising:
[0006] Cylinder clamping;
[0007] At least two cooperating clamping members, a plurality of the clamping members are disposed on the clamping cylinder, the plurality of clamping members move closer to or further away from each other under the drive of the clamping cylinder, and the plurality of clamping members form blade clamping positions;
[0008] A cutting blade, which is held in place by the blade holding position on a plurality of the holding members.
[0009] In the implementation of the above technical solution, the cutting mechanism can be installed on a cutting device for cutting evaporator materials and different evaporator materials. The cutting mechanism has two clamping components installed on the pressing cylinder. These two cooperating clamping components can move closer or further apart under the action of the pressing cylinder, clamping or releasing the cutting blade through the blade clamping position formed by the two clamping components. The cutting blade of this cutting mechanism is installed and fixed on the cutting mechanism by clamping, which facilitates the disassembly, replacement, and adjustment of the cutting blade. This provides convenience for workers, is easy to operate, effectively shortens operation time, and greatly improves the efficiency of disassembly, replacement, and adjustment of the cutting blade.
[0010] In a preferred embodiment of this application, there are two clamping members, which are clamping pressure plates. The two clamping pressure plates are disposed opposite to each other on the clamping cylinder, and the two clamping pressure plates form the blade clamping position.
[0011] In the implementation of the above technical solution, the clamping component adopts two mutually cooperating clamping pressure plates. The clamping pressure plates can be easily installed on the clamping cylinder. The clamping pressure plates have a plate-like structure that matches the structure of the cutting blade, which is conducive to clamping and fixing the cutting blade. Furthermore, the shape and size of the clamping pressure plates can be designed to be adapted to the cutting blade to facilitate clamping and fixing the cutting blade and to increase the clamping and fixing force on the cutting blade, making the clamping of the cutting blade more stable and firm.
[0012] In a preferred embodiment of this application, anti-slip structures are provided on the opposing inner end faces of the two clamping pressure plates. When the cutting blade is clamped between the two clamping pressure plates through the blade clamping position, the anti-slip structures act on the cutting blade.
[0013] In the implementation of the above technical solution, anti-slip structures are provided on the inner end faces of the two clamping pressure plates to act on the cutting blade. The anti-slip structure can further enhance the clamping and fixing force of the two clamping pressure plates on the cutting blade, making the clamping of the cutting blade more stable and firm.
[0014] In a preferred embodiment of this application, the anti-slip structure is a toothed anti-slip pattern provided on the opposing inner end faces of the two clamping pressure plates.
[0015] In the implementation of the above technical solution, the anti-slip structure adopts a toothed anti-slip texture, which facilitates its processing on the clamping plate and provides a good anti-slip effect for the cutting blade, effectively improving the friction between the cutting blade and the clamping plate. When processing the toothed anti-slip texture, the tooth depth and density of the toothed anti-slip texture can also be designed to improve the anti-slip effect of the toothed anti-slip texture on the cutting blade, further improving the clamping and fixing force of the clamping plate on the cutting blade.
[0016] In a preferred embodiment of this application, the cutting mechanism further includes two blade guide blocks, which are disposed on the clamping cylinder and located on both sides of the two clamping pressure plates.
[0017] Both blade guide blocks are provided with blade guide parts, which are used to guide the cutting blade.
[0018] In the implementation of the above technical solution, two blade guide blocks are set on both sides of the two clamping pressure plates, and the two blade guide blocks are provided with blade guide parts. When installing the cutting blade, the cutting blade can be guided and limited by the blade guide parts of the blade guide blocks. In this way, the clamping pressure plates can clamp the cutting blade in alignment, which can better prevent the cutting blade from shifting when the clamping pressure plates clamp and fix the cutting blade, thus affecting the clamping effect of the clamping pressure plates on the cutting blade.
[0019] In a preferred embodiment of this application, the blade guide portion is a blade guide groove, which is disposed on the inner end face of the blade guide block, and the blade guide grooves on the two blade guide blocks are positioned correspondingly.
[0020] In the implementation of the above technical solution, the blade guide part adopts the blade guide groove. The size of the blade guide groove can be designed to match the thickness of the cutting blade, which can play a good guiding and limiting role for the cutting blade, and is more convenient for the installation and disassembly of the cutting blade.
[0021] In a preferred embodiment of this application, the cutting mechanism further includes a rotary drive member, and the clamping cylinder is disposed on the rotary drive member, the rotary drive member being used to drive the clamping cylinder to rotate.
[0022] In the implementation of the above technical solution, the clamping cylinder of the cutting mechanism is mounted on the rotary drive component. The rotary drive component can drive the clamping cylinder to rotate, and the rotation of the clamping cylinder drives the rotation of the cutting blade. This allows the cutting angle and cutting depth of the cutting blade to be adjusted, making the cutting mechanism suitable for cutting different evaporator materials. In this way, it is not necessary to change different cutting blades for different evaporator materials, which can improve the applicability and practicality of the cutting mechanism, facilitate the cutting of different evaporator materials, and greatly improve the efficiency of evaporator material cutting operations.
[0023] In a preferred embodiment of this application, the rotary drive is a rotary cylinder.
[0024] In the implementation of the above technical solution, the rotary drive component adopts a rotary cylinder, which can facilitate the rotation drive of the clamping cylinder. Furthermore, the use of a rotary cylinder can improve the adjustment accuracy of the rotation of the clamping cylinder, making the cutting angle and cutting depth of the cutting blade more precise and ideal, thereby improving the cutting effect of the cutting mechanism on the evaporator material.
[0025] In a preferred embodiment of this application, the rotary cylinder includes a cylinder body and a rotary connector, the rotary connector being rotatably mounted on the cylinder body, and the clamping cylinder being fixedly connected to the rotary connector.
[0026] In the implementation of the above technical solution, the clamping cylinder is rotatably mounted on the cylinder body through a rotary connector. This rotary cylinder structure facilitates the rotational drive of the clamping cylinder without the need for a complex mechanical connection structure, which simplifies the structure of the cutting mechanism and reduces the production cost of the cutting mechanism.
[0027] Secondly, this application provides a cutting device, including the aforementioned cutting mechanism.
[0028] In the implementation of the above technical solution, the cutting equipment is equipped with the aforementioned cutting mechanism. The cutting blade of the cutting mechanism is installed and fixed on the cutting mechanism by clamping, which makes it easier to disassemble, replace and adjust the cutting blade of the cutting mechanism. It is also easier to operate, which can effectively shorten the operation time and greatly improve the efficiency of disassembling, replacing and adjusting the cutting blade. It can also greatly improve the cutting efficiency of evaporator materials.
[0029] This application discloses a cutting mechanism and a cutting device having the cutting mechanism, which, compared with the prior art, have at least the following advantages:
[0030] The cutting mechanism of this application includes a clamping cylinder, at least two cooperating clamping members, and a cutting blade. Multiple clamping members are mounted on the clamping cylinder and move closer or further apart under the drive of the clamping cylinder. These clamping members form blade clamping positions, and the cutting blade is clamped onto the clamping members through these positions. This cutting mechanism can be installed on cutting equipment for cutting evaporator materials and different evaporator materials. The cutting blade is installed and fixed to the cutting mechanism by clamping, which facilitates the disassembly, replacement, and adjustment of the cutting blade, providing convenience for workers and simplifying operation. This effectively shortens operation time and greatly improves the efficiency of disassembly, replacement, and adjustment of the cutting blade.
[0031] The cutting equipment of this application is equipped with the aforementioned cutting mechanism, which facilitates the disassembly, replacement, and adjustment of the cutting blades of the cutting mechanism. It is also easier to operate, effectively shortens the operation time, greatly improves the efficiency of disassembly, replacement, and adjustment of the cutting blades, and also greatly improves the efficiency of cutting materials in the evaporator. Attached Figure Description
[0032] To more clearly illustrate the technical solutions of the embodiments of this application, the accompanying drawings used in the embodiments of this application will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this application and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.
[0033] Figure 1 This is a first three-dimensional structural schematic diagram of a cutting mechanism provided in an embodiment of this application;
[0034] Figure 2 This is a first side view of a cutting mechanism provided in an embodiment of this application;
[0035] Figure 3 This is a schematic diagram of a second three-dimensional structure of a cutting mechanism provided in an embodiment of this application;
[0036] Figure 4 This is a schematic diagram of a third-dimensional structure of a cutting mechanism provided in an embodiment of this application;
[0037] Figure 5 This is an exploded view of the structure of a cutting mechanism provided in an embodiment of this application;
[0038] Figure 6 This is one of the three-dimensional structural schematic diagrams of a rotary cylinder for a cutting mechanism provided in an embodiment of this application;
[0039] Figure 7 This is the second three-dimensional structural schematic diagram of a rotary cylinder for a cutting mechanism provided in the embodiments of this application.
[0040] Reference numerals: 11-Clamping cylinder; 12-Clamping component; 121-Blade clamping position; 13-Blade guide block; 131-Blade guide groove; 14-Rotary cylinder; 141-Cylinder body; 142-Rotary connector. Detailed Implementation
[0041] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. The components of the embodiments of this application described and shown in the accompanying drawings can be arranged and designed in various different configurations. Therefore, the following detailed description of the embodiments of this application provided in the accompanying drawings is not intended to limit the scope of the claimed application, but merely represents selected embodiments of this application. All other embodiments obtained by those skilled in the art based on the embodiments of this application without inventive effort are within the scope of protection of this application.
[0042] In this application, the terms "upper," "lower," "left," "right," "front," "rear," "top," "bottom," "inner," "outer," "middle," "vertical," "horizontal," "lateral," and "longitudinal" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for the purpose of better describing this application and its embodiments, and are not intended to limit the indicated device, element, or component to having a specific orientation, or to be constructed and operated in a specific orientation.
[0043] Furthermore, in addition to indicating location or positional relationship, some of the aforementioned terms may also have other meanings. For example, the term "above" may also be used in some cases to indicate a certain dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in this application based on the specific circumstances.
[0044] Furthermore, the terms "installation," "setup," "equipped with," "connection," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral structure; they can refer to a mechanical connection or a point connection; they can refer to a direct connection or an indirect connection through an intermediate medium, or an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of these terms in this application based on the specific circumstances.
[0045] Furthermore, the terms "first," "second," etc., are primarily used to distinguish different devices, elements, or components (which may be the same or different in specific type and construction), and are not intended to indicate or imply the relative importance or quantity of the indicated devices, elements, or components. Unless otherwise stated, "a plurality of" means two or more.
[0046] During the cutting process of evaporator materials using cutting equipment, the position of the cutting blades may shift with continuous use. Therefore, periodic adjustment of the blade position is necessary. Furthermore, different evaporator materials require different cutting depths, necessitating blade replacement to match the cutting depth for different materials. However, most existing cutting blades are installed manually using screws, a cumbersome and inconvenient method that hinders blade removal, replacement, and adjustment. This results in low efficiency for blade removal, replacement, and adjustment, causing inconvenience and wasting time for operators.
[0047] To address the problems in the prior art, this application provides a cutting mechanism and a cutting device having the cutting mechanism. The cutting blade of the cutting mechanism is installed and fixed on the cutting mechanism by clamping, which facilitates the disassembly, replacement and adjustment of the cutting blade. This brings many conveniences to the workers and is easy to operate, effectively shortening the operation time and greatly improving the efficiency of disassembly, replacement and adjustment of the cutting blade.
[0048] Example 1
[0049] See Figure 1 and Figure 2 , Figure 1 and Figure 2 These are schematic diagrams of the cutting mechanism provided in the embodiments of this application from different perspectives.
[0050] The cutting mechanism of this application embodiment includes:
[0051] Cylinder 11;
[0052] At least two cooperating clamping members 12, multiple clamping members 12 are disposed on a clamping cylinder 11, and the multiple clamping members 12 move closer or further away from each other under the drive of the clamping cylinder 11, and the multiple clamping members 12 form blade clamping positions 121.
[0053] The cutting blade (not shown in the figure) is held on a plurality of clamping members 12 by the blade clamping position 121.
[0054] In this embodiment, the clamping cylinder 11 has a clamping adjustment shaft. For example, there are two clamping adjustment shafts of the clamping cylinder 11. In this embodiment, there are two mutually cooperating clamping members 12. The two mutually cooperating clamping members 12 are arranged opposite to each other on the clamping adjustment shaft of the clamping cylinder 11. Under the action of the clamping cylinder 11, the two mutually cooperating clamping members 12 move closer or further away from each other through the clamping adjustment shaft. The cutting blade is clamped between the two clamping members 12 through the blade clamping position 121 formed by the two clamping members 12.
[0055] It should be understood that in other embodiments, the clamping adjustment shaft of the clamping cylinder 11 can be set to other numbers. For example, the clamping adjustment shaft of the clamping cylinder 11 can be set to one or three. The number of cooperating clamping members 12 can also be set to other numbers. Usually, the number of cooperating clamping members 12 is even. For example, the number of cooperating clamping members 12 can be set to four. When there are two clamping adjustment shafts of the clamping cylinder 11, two clamping members 12 can be set at the top and two at the bottom. The two clamping members 12 at the top are respectively set to one of the two clamping adjustment shafts, and the two clamping members 12 at the bottom are respectively set to one of the two clamping adjustment shafts.
[0056] The cutting mechanism of this application embodiment can be installed on a cutting device for cutting evaporator materials and different evaporator materials. The clamping member 12 provided in the clamping cylinder 11 of the cutting mechanism can be two. The two cooperating clamping members 12 can move closer or further away from each other under the action of the clamping cylinder 11, so as to clamp and fix or release the cutting blade through the blade clamping position 121 formed by the two clamping members 12. The cutting blade of the cutting mechanism is installed and fixed on the cutting mechanism by clamping, which makes it easier to disassemble, replace and adjust the cutting blade of the cutting mechanism. It can bring many conveniences to the workers and is relatively easy to operate. It can effectively shorten the operation time and greatly improve the efficiency of disassembling, replacing and adjusting the cutting blade.
[0057] Example 2
[0058] See Figure 1 and Figure 2 Based on the above embodiment one, the difference between this embodiment and embodiment one is that the cutting mechanism of this embodiment has two clamping members 12, which are clamping pressure plates. The two clamping pressure plates are arranged opposite to each other on the clamping cylinder 11, and the two clamping pressure plates form blade clamping positions 121.
[0059] In this embodiment, two clamping plates are disposed opposite to each other on the clamping adjustment shaft of the clamping cylinder 11. Under the action of the clamping cylinder 11, the two cooperating and opposite clamping plates move closer or further apart from each other through the clamping adjustment shaft.
[0060] In the above structure, the clamping member 12 adopts two mutually cooperating clamping pressure plates. The clamping pressure plates can be easily installed on the clamping cylinder 11. The clamping pressure plates have a plate-like structure that matches the structure of the cutting blade, which can help to clamp and fix the cutting blade. Furthermore, the shape and size of the clamping pressure plates can be designed to be adapted to the cutting blade to facilitate the clamping and fixing of the cutting blade and to increase the clamping and fixing force on the cutting blade, making the clamping of the cutting blade more stable and firm.
[0061] In this embodiment, anti-slip structures are provided on the inner end faces of the two clamping plates. When the cutting blade is clamped between the two clamping plates through the blade clamping position 121, the anti-slip structures act on the cutting blade.
[0062] In the above structure, anti-slip structures are provided on the inner end faces of the two clamping pressure plates to act on the cutting blade. The anti-slip structures can further enhance the clamping and fixing force of the two clamping pressure plates on the cutting blade, making the clamping of the cutting blade more stable and firm.
[0063] Furthermore, the anti-slip structure consists of toothed anti-slip patterns on the opposing inner end faces of the two clamping pressure plates.
[0064] Specifically, the toothed anti-slip texture on the opposing inner end faces of the two clamping plates can be set at the clamping position of the cutting blade on the two clamping plates. The toothed anti-slip texture can be densely distributed on the opposing inner end faces of the two clamping plates, extending along the length direction of the two clamping plates and covering the width direction of the two clamping plates.
[0065] In the above structure, the anti-slip structure adopts a toothed anti-slip texture, which facilitates its processing on the clamping plate and provides a good anti-slip effect for the cutting blade, effectively improving the friction between the cutting blade and the clamping plate. When processing the toothed anti-slip texture, the tooth depth and density of the toothed anti-slip texture can also be designed to improve the anti-slip effect of the toothed anti-slip texture on the cutting blade, further improving the clamping and fixing force of the clamping plate on the cutting blade.
[0066] Example 3
[0067] See Figures 1 to 3 Based on the above embodiment one or embodiment two, the difference between this embodiment and embodiment one or embodiment two is that the cutting mechanism of this embodiment further includes a blade guide block 13. There are two blade guide blocks 13, which are disposed on the clamping cylinder 11 and located on both sides of the two clamping pressure plates.
[0068] Both blade guide blocks 13 are equipped with blade guide parts, which are used to guide the cutting blade.
[0069] In this embodiment, the two blade guide blocks 13 can be fixed or detachably mounted on the clamping cylinder 11. The two blade guide blocks 13 are cuboid block structures, and their dimensions can be adapted to the dimensions of the cutting blade and the two clamping pressure plates.
[0070] In the above structure, two blade guide blocks 13 are disposed on both sides of the two clamping pressure plates, and the two blade guide blocks 13 are provided with blade guide parts. When installing the cutting blade, the cutting blade can be guided and limited by the blade guide parts of the blade guide blocks 13. In this way, the clamping pressure plates can be aligned and clamped to the cutting blade, which can better prevent the cutting blade from shifting when the clamping pressure plates clamp and fix the cutting blade, thus affecting the clamping effect of the clamping pressure plates on the cutting blade.
[0071] In this embodiment, the blade guide part is a blade guide groove 131, which is disposed on the inner end face of the blade guide block 13, and the positions of the blade guide grooves 131 on the two blade guide blocks 13 are corresponding.
[0072] Specifically, each blade guide block 13 is provided with one blade guide groove 131, which extends along the length direction of the blade guide block 13 and can be completely opened along the length direction of the blade guide block 13.
[0073] In the above structure, the blade guide part adopts the blade guide groove 131. The size of the blade guide groove 131 can be designed to match the thickness of the cutting blade, which can play a good guiding and limiting role for the cutting blade, and makes it easier to install and remove the cutting blade.
[0074] It should be noted that in other embodiments, the blade guiding part on the blade guiding block 13 can also be configured as a blade guiding step. The blade guiding step extends along the length direction of the blade guiding block 13, and a blade guiding surface is formed on the blade guiding step. The positions of the blade guiding steps on the two blade guiding blocks 13 are corresponding. The blade guiding step can also play a good guiding and limiting role for the cutting blade, making it easier to install and remove the cutting blade.
[0075] Example 4
[0076] See Figures 1 to 7Based on any of the above embodiments one to three, the difference between this embodiment and any of the embodiments one to three is that the cutting mechanism of this embodiment further includes a rotary drive member, and the clamping cylinder 11 is disposed on the rotary drive member, and the rotary drive member is used to drive the clamping cylinder 11 to rotate.
[0077] In the above structure, the clamping cylinder 11 of the cutting mechanism is mounted on the rotary drive component. The rotary drive component can drive the clamping cylinder 11 to rotate. The rotation of the clamping cylinder 11 drives the rotation of the cutting blade, thereby adjusting the cutting angle and cutting depth of the cutting blade. This allows the cutting mechanism to be suitable for cutting different evaporator materials. In this way, it is not necessary to change different cutting blades for different evaporator materials, which can improve the applicability and practicality of the cutting mechanism, facilitate the cutting of different evaporator materials, and greatly improve the efficiency of evaporator material cutting operations.
[0078] In this embodiment, the rotary drive is a rotary cylinder 14. The rotary cylinder 14 can easily drive the rotation of the clamping cylinder 11. Furthermore, using the rotary cylinder 14 can improve the adjustment accuracy of the rotation of the clamping cylinder 11, making the cutting angle and cutting depth of the cutting blade more precise and ideal, thereby improving the cutting effect of the cutting mechanism on the evaporator material.
[0079] Furthermore, the rotary cylinder 14 includes a cylinder body 141 and a rotary connector 142. The rotary connector 142 is rotatably mounted on the cylinder body 141, and the clamping cylinder 11 is fixedly connected to the rotary connector 142.
[0080] Specifically, the cylinder body 141 has a rotation adjustment shaft, and the rotation connector 142 is disposed on the rotation adjustment shaft of the cylinder body 141. Under the action of the cylinder body 141, the rotation connector 142 is driven to rotate by the rotation adjustment shaft of the cylinder body 141, and then the rotation connector 142 drives the clamping cylinder 11 to rotate.
[0081] In the above structure, the clamping cylinder 11 is rotatably mounted on the cylinder body 141 via the rotary connector 142. This rotary cylinder 14 structure facilitates the rotational drive of the clamping cylinder 11 without the need for a complex mechanical connection structure, thus simplifying the structure of the cutting mechanism and reducing the production cost of the cutting mechanism.
[0082] Example 5
[0083] See Figures 1 to 7 This application provides a cutting device, including a cutting mechanism from any of the embodiments one to four described above.
[0084] In this embodiment, the cutting mechanism can be fastened to the cutting equipment with screws.
[0085] The cutting device of this application embodiment is provided with a cutting mechanism of any one of the above embodiments one to four, which can facilitate the disassembly, replacement and adjustment of the cutting blade of the cutting mechanism, and is easier to operate. It can effectively shorten the operation time, greatly improve the operation efficiency of disassembly, replacement and adjustment of the cutting blade, and also greatly improve the cutting efficiency of evaporator materials.
[0086] In all the above embodiments, "large" and "small" are relative terms, "more" and "less" are relative terms, and "upper" and "lower" are relative terms. The embodiments of this application will not elaborate further on the expression of such relative terms.
[0087] It should be understood that phrases such as "in one embodiment," "in this embodiment," "in this application embodiment," or "as an optional implementation" throughout the specification mean that a specific feature, structure, or characteristic related to an embodiment is included in at least one embodiment of this application. Therefore, phrases such as "in one embodiment," "in this embodiment," "in this application embodiment," or "as an optional implementation" appearing throughout the specification do not necessarily refer to the same embodiment. Furthermore, these specific features, structures, or characteristics can be combined in any suitable manner in one or more embodiments. Those skilled in the art should also understand that the embodiments described in the specification are all optional embodiments, and the actions and modules involved are not necessarily essential to this application.
[0088] In the various embodiments of this application, it should be understood that the sequence number of each process does not necessarily imply the order of execution. The execution order of each process should be determined by its function and internal logic, and should not constitute any limitation on the implementation process of the embodiments of this application.
[0089] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of protection of the claims.
Claims
1. A cutting mechanism, characterized in that, include: Cushioning cylinder (11); At least two cooperating clamping members (12), a plurality of clamping members (12) are disposed on the clamping cylinder (11), the plurality of clamping members (12) move closer to or further away from each other under the drive of the clamping cylinder (11), and the plurality of clamping members (12) form blade clamping positions (121). A cutting blade, which is held on a plurality of clamping members (12) by the blade clamping position (121).
2. The cutting mechanism according to claim 1, characterized in that, There are two clamping members (12), which are clamping pressure plates. The two clamping pressure plates are arranged opposite to each other on the clamping cylinder (11), and the two clamping pressure plates form the blade clamping position (121).
3. The cutting mechanism according to claim 2, characterized in that, Anti-slip structures are provided on the opposing inner end faces of the two clamping pressure plates. When the cutting blade is clamped between the two clamping pressure plates through the blade clamping position (121), the anti-slip structures act on the cutting blade.
4. The cutting mechanism according to claim 3, characterized in that, The anti-slip structure is a toothed anti-slip pattern provided on the opposing inner end faces of the two clamping pressure plates.
5. The cutting mechanism according to claim 2, characterized in that, The cutting mechanism also includes a blade guide block (13), there are two blade guide blocks (13), the two blade guide blocks (13) are disposed on the clamping cylinder (11) and located on both sides of the two clamping pressure plates; Both blade guide blocks (13) are provided with blade guide parts, which are used to guide the cutting blade.
6. The cutting mechanism according to claim 5, characterized in that, The blade guide part is a blade guide groove (131), which is disposed on the inner end face of the blade guide block (13), and the blade guide grooves (131) on the two blade guide blocks (13) are in corresponding positions.
7. The cutting mechanism according to any one of claims 1-6, characterized in that, The cutting mechanism also includes a rotary drive component, and the clamping cylinder (11) is disposed on the rotary drive component. The rotary drive component is used to drive the clamping cylinder (11) to rotate.
8. The cutting mechanism according to claim 7, characterized in that, The rotary drive component is a rotary cylinder (14).
9. The cutting mechanism according to claim 8, characterized in that, The rotary cylinder (14) includes a cylinder body (141) and a rotary connector (142). The rotary connector (142) is rotatably mounted on the cylinder body (141), and the clamping cylinder (11) is fixedly connected to the rotary connector (142).
10. A cutting device, characterized in that, Includes the cutting mechanism as described in any one of claims 1-9.