Disc saw station

By designing a detachable and assembleable circular saw station, the problems of large size and difficult transportation of sawing equipment were solved, achieving efficient automated cutting and a simplified installation process, thereby improving processing efficiency and reducing labor costs.

CN224487824UActive Publication Date: 2026-07-14YIZUMI ROBOT AUTOMATION TECH SUZHOU CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YIZUMI ROBOT AUTOMATION TECH SUZHOU CO LTD
Filing Date
2025-07-07
Publication Date
2026-07-14

Smart Images

  • Figure CN224487824U_ABST
    Figure CN224487824U_ABST
Patent Text Reader

Abstract

The utility model discloses a disc saw station relates to cutting technical field, wherein, disc saw station, including support part, first protection part, upper shell part and second protection part, the utility model discloses the technical scheme of support part, first protection part, upper shell part, second protection part mobile structure's split of disc saw station, and the detachable assembly connection between support part, first protection part, upper shell part, second protection part mobile structure, to this in the process of packing and transferring disc saw station can be packed and transported to each part separately and greatly promoted the packing and transportation efficiency of disc saw station, and in the process of installing disc saw station, through the splicing installation between each part, greatly promoted the assembly efficiency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of cutting technology, and in particular to a circular saw station. Background Technology

[0002] During the production of metal parts such as castings, there are often excess parts on their edges, which need to be cut by sawing equipment. Moreover, due to the different shapes of metal parts and the different styles of excess parts such as burrs, a variety of different equipment are needed to assist in the process.

[0003] In related technologies, in order to cope with different sawing situations, most of the work is done manually, which reduces processing efficiency and increases labor costs. To address this, sawing equipment for automated cutting has been designed. However, most of these sawing equipment are huge and require overall packaging and transportation, which makes packaging and transportation extremely difficult and is not conducive to the transfer and installation of the equipment. Utility Model Content

[0004] The main purpose of this utility model is to propose a circular saw station, which aims to reduce the difficulty of transporting and packaging circular saws and improve the efficiency of equipment transfer and installation.

[0005] To achieve the above objectives, the circular saw station proposed in this utility model includes:

[0006] The support part is provided with a material discharge cavity for collecting materials, and a displacement clamping part is mounted on the support part;

[0007] A first protective part, which is detachably connected to the support part;

[0008] The upper shell is detachably connected to the surface of the first protective part away from the support part, and a movable structure is installed inside the upper shell.

[0009] The second protective part is detachably connected to the side of the upper shell. The second protective part includes a protective body, which is slidably disposed on the side of the upper shell. The protective body moves toward the support part and together with the first protective part to form a working space.

[0010] The movable structure is connected to a sawing part, which extends into the working space and moves at the displacement clamping part under the drive of the movable structure.

[0011] In one embodiment, the second protective part includes a shell portion, the shell portion being detachably connected to the side of the upper shell portion, and the protective body being inserted into the shell portion and slidably connected to the shell portion;

[0012] The shell portion has a guide slide portion on its side, and the extension portion of the protective body extends to the side of the guide slide portion. The guide slide portion passes through the extension portion of the protective body and is slidably connected to the extension portion.

[0013] In one embodiment, the housing portion includes a bottom frame connected to the housing portion. The bottom frame extends along the side of the second protective portion and toward the support portion. The bottom frame is arranged along the edge of the support portion. The protective body slides to the bottom frame and contacts the bottom frame so that the protective body cooperates with the first protective portion to surround the workspace.

[0014] In one embodiment, the bottom frame, which is provided along the edge of the support portion, has a first inclined surface on the side facing the workspace, and the protective body has a second inclined surface on the side facing the workspace.

[0015] In one embodiment, the movable structure includes a support frame and a multi-axis displacement part, the support frame being detachably connected to the upper shell and arranged around the edge of the upper shell;

[0016] The multi-axis displacement unit is connected to the sawing unit, and the multi-axis displacement unit is mounted on the support frame to allow the sawing unit to move within the workspace.

[0017] In one embodiment, the multi-axis displacement unit includes a first moving unit, a second moving unit, and a third moving unit. The third moving unit is mounted on the support frame. The first moving unit, the second moving unit, and the third moving unit are connected in pairs and arranged perpendicularly to each other. The first moving unit is arranged perpendicular to the support frame, and the sawing part is connected to the first moving unit.

[0018] The movement paths of the first moving unit, the second moving unit, and the third moving unit are all equipped with telescopic accordion covers.

[0019] In one embodiment, the third moving unit includes a moving frame mounted on the support frame. A first telescopic part is connected to the side of the support frame. The first telescopic part extends toward the moving frame and is connected to the moving frame.

[0020] The second moving unit is mounted inside the moving frame. The moving frame is connected to a second telescopic part on its side. The second telescopic part extends toward and connects to the second moving unit. The extended first telescopic part and the extended second telescopic part separate the working space from the upper shell.

[0021] In one embodiment, a collection chamber is provided inside the support portion, and the discharge chamber is connected to the collection chamber through a discharge port;

[0022] The bottom wall of the material discharge chamber is inclined toward the center of the support.

[0023] In one embodiment, the collection chamber is provided with a guide structure, and the collection device is guided by the guide structure to move into the collection chamber, and the collection device is positioned relative to the discharge port.

[0024] In one embodiment, the support section integrates an electrical component and a pneumatic component.

[0025] The technical solution of this utility model is to separate the circular saw station into a support part, a first protective part, an upper shell part, and a second protective part movable structure, and to detachably assemble and connect the support part, the first protective part, the upper shell part, and the second protective part movable structure. In this way, during the packaging and transportation of the circular saw station, each part can be packaged and transported separately, which greatly improves the packaging and transportation efficiency of the circular saw station. Furthermore, during the installation of the circular saw station, the assembly efficiency is greatly improved by splicing and installing the various parts. Attached Figure Description

[0026] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art 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 structures shown in these drawings without creative effort.

[0027] Figure 1 A schematic diagram of a structure of an embodiment of the circular saw station provided by this utility model;

[0028] Figure 2 A schematic diagram of another embodiment of the circular saw station provided by this utility model;

[0029] Figure 3 A schematic diagram of another embodiment of the circular saw station provided by this utility model;

[0030] Figure 4 A schematic diagram of the structure of the second protective part of the circular saw station provided by this utility model in the first embodiment;

[0031] Figure 5 A schematic diagram of the structure of the second protective part of the circular saw station provided by this utility model in a second embodiment.

[0032] Figure 6 A schematic diagram of the structure of the third embodiment of the second protective part of the circular saw station provided by this utility model;

[0033] Figure 7 A schematic diagram of another embodiment of the circular saw station provided by this utility model;

[0034] Figure 8 A schematic diagram of the structure of the fourth embodiment of the second protective part of the circular saw station provided by this utility model;

[0035] Figure 9 A schematic diagram of the structure of an embodiment of the support part of the circular saw station provided by this utility model;

[0036] Figure 10 A schematic diagram of the first embodiment of the moving structure of the circular saw station provided by this utility model;

[0037] Figure 11 A schematic diagram of the second embodiment of the moving structure of the circular saw station provided by this utility model;

[0038] Figure 12 A schematic diagram of the third embodiment of the moving structure of the circular saw station provided by this utility model;

[0039] Figure 13 A schematic diagram of the fourth embodiment of the movable structure of the circular saw station provided by this utility model;

[0040] Figure 14 This is a schematic diagram of the fifth embodiment of the movable structure of the circular saw station provided by this utility model.

[0041] Explanation of icon numbers:

[0042] 1000. Circular saw station; 10. Support unit; 11. Electrical unit; 12. Pneumatic unit; 13. Sloping bottom wall; 14. Material discharge chamber; 20. First protective unit; 30. Upper shell; 40. Second protective unit; 41. First cover; 42. Drive structure; 421. Gear unit; 422. Drive shaft; 423. Transmission unit; 424. Drive motor; 43. Second cover; 44. Counterweight unit; 45. Protective body; 46. Guide slide; 47. Guide slide; 50. Moving structure; 51. First moving unit; 511. Pneumatic unit; 512. Third bellows cover; 513. Fixing component; 514. Driven component; 52. Second moving unit 521. Moving unit; 522. Carrier; 523. Second guide rail; 523. Second driven structure; 5231. Second support platform; 5232. Second track; 5233. Second connecting frame; 524. Second telescopic part; 53. Third moving unit; 531. First power unit; 532. Moving frame; 533. First bellows cover; 534. First guide rail; 536. First telescopic part; 537. First driven structure; 5371. First support platform; 5372. First track; 5373. First connecting frame; 60. Displacement clamping part; 70. Guide structure; 71. Stop frame; 72. Guide frame; 80. Sawing part.

[0043] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0044] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0045] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a specific posture. If the specific posture changes, the directional indicators will also change accordingly.

[0046] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the use of "and / or" or "and / or" throughout the text includes three parallel solutions. For example, "A and / or B" includes solution A, solution B, or a solution where both A and B are satisfied simultaneously. Furthermore, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.

[0047] During the production of metal parts such as castings, there are often excess parts on their edges, which need to be cut by sawing equipment. Moreover, due to the different shapes of metal parts and the different styles of excess parts such as burrs, a variety of different equipment are needed to assist in the process.

[0048] In related technologies, in order to cope with different sawing situations, most of the work is done manually, which reduces processing efficiency and increases labor costs. To address this, sawing equipment for automated cutting has been designed. However, most of these sawing equipment are huge and require overall packaging and transportation, which makes packaging and transportation extremely difficult and is not conducive to the transfer and installation of the equipment.

[0049] This utility model proposes a circular saw station.

[0050] Please see Figure 1 In one embodiment of this utility model, the circular saw station includes:

[0051] The support part 10 is provided with a material discharge cavity 14 for collecting materials, and the support part 10 is provided with a displacement clamping part 60.

[0052] The first protective part 20 is detachably connected to the support part 10;

[0053] The upper shell 30 is detachably connected to the surface of the first protective part 20 away from the support part 10, and a movable structure 50 is provided inside the upper shell 30.

[0054] The second protective part 40 is detachably connected to the side of the upper shell 30. The second protective part 40 includes a protective body 45, which is slidably disposed on the side of the upper shell 30. The protective body 45 moves toward the support part 10 and forms a working space with the first protective part 20.

[0055] The movable structure 50 is connected to a sawing part 80, which extends into the working space and moves at the displacement clamping part 60 under the drive of the movable structure 50.

[0056] like Figure 1 As shown, the support part 10 is the base of the circular saw station, that is, the support part 10 is used to support the base of the entire equipment.

[0057] For this purpose, the bottom of the support part 10 is provided with multiple legs, and each leg is provided with a base plate.

[0058] It is understood that when the support part 10 is installed in the installation position, multiple base plates are attached to the installation position to support the support part 10.

[0059] It should be noted that, in order to ensure that the support part 10 can be placed stably, hollow bolts are provided on the base plate, and nuts are provided on the hollow bolts to fix the base plate in the installation position.

[0060] It is understood that the multiple support legs are evenly distributed along the edge of the support part 10. When the support part 10 is placed in the installation position, the hollow bolts on the multiple support legs are rotated to ensure that the support part 10 can be stably set in the installation position, thus ensuring the stability of the circular saw station operation.

[0061] Furthermore, in order to ensure a stable connection between the support leg and the mounting position, a plurality of hollow bolts are provided on the base plate.

[0062] like Figure 9 As shown, the top surface of the support part 10 is provided with a bracket, and the bracket extends toward the material discharge cavity 14. One end of the bracket is connected to the displacement clamping part 60 to clamp the casting, etc., so that the sawing part 80 can perform sawing.

[0063] It is understandable that by relying on the bracket, the displacement clamping part 60 is mounted on the discharge chamber 14. When the sawing part 80 saws the object to be cut held by the displacement clamping part 60, the waste material can fall directly into the discharge chamber 14, thereby ensuring the waste material collection efficiency.

[0064] It should be noted that there is excess material on the edges of the casting and the object to be cut. Therefore, when the sawing part 80 cuts the object, it needs to be rotated to adapt to the cutting of the sawing part 80.

[0065] It is understood that the displacement clamping part 60 includes a base, a rotating shaft, and a clamping part. The base is connected to the bracket, and the clamping part is connected to the base through the rotating shaft. The object to be cut is clamped by the clamping part, and the cutting orientation is adjusted by rotating the clamping part to meet the cutting requirements of the object to be cut.

[0066] Furthermore, a CNC module is provided on the base to control the operation of the clamping part.

[0067] like Figure 1 and Figure 2 As shown, the first protective part 20 is disposed along the edge of the surface of the support part 10, that is, the first protective part 20 is disposed in a direction opposite to the operating direction.

[0068] It is understandable that when the protective body 45 moves onto the support part 10, it works in conjunction with the first protective part 20 to achieve all-round coverage of the processing space, avoiding the splashing of waste material during the sawing process of the object to be cut, thus affecting the safety of the processing environment.

[0069] Furthermore, a connector is provided between the first protective part 20 and the support part 10, and bolts are used to connect the first protective part 20 and the support part 10. This facilitates the assembly and disassembly of the first protective part 20 and the support part 10, thereby facilitating the modular packaging of the circular saw station.

[0070] Furthermore, the first protective part 20 includes a support frame and a plurality of protective bodies, all of which are embedded in the support frame. The support frame is installed on the support part 10 through the connector, and the plurality of protective bodies work together to achieve splash protection in one direction.

[0071] During the processing, it is necessary to observe the processing conditions in the processing space in real time. For this purpose, multiple observation holes are provided on the protective body, and an acrylic plate is provided at the location of the observation holes on the protective body, so that operators can observe the processing space through the acrylic plate and the observation holes.

[0072] In one embodiment, a plurality of observation holes are arranged in an array, which allows the operator to observe the object together conveniently, thereby improving the comprehensiveness and convenience of the observation.

[0073] like Figure 1 and Figure 2As shown, the upper shell 30 is detachably connected to the first protective part 20, and the upper shell 30 and the first protective part 20 are connected by the connector, thereby facilitating the assembly and disassembly of the upper shell 30 and the first protective part 20.

[0074] It is understood that the upper shell 30 is arranged along the edge contour of the first protective part 20 and works in conjunction with the second protective part 40 to provide enveloping protection for the movable structure 50.

[0075] like Figure 14 As shown, the movable structure 50 is detachably connected to the frame of the upper shell 30, and the internal space of the upper shell 30 communicates with the working space.

[0076] It is understood that the upper shell 30 has multiple connecting points inside, and the movable structure 50 is detachably connected to the upper shell 30 by the multiple connecting points, thereby facilitating the assembly and disassembly of the movable structure 50 on the circular saw station.

[0077] Meanwhile, due to the connection between the upper shell 30 and the first protective part 20, the working space is connected to the internal space of the upper shell 30, thereby facilitating the control of the sawing part 80 located in the working space by the moving structure 50.

[0078] The technical solution of this utility model involves disassembling the circular saw station into the moving structure 50, which consists of the support part 10, the first protective part 20, the upper shell part 30, and the second protective part 40. Furthermore, the moving structure 50 is detachably assembled and connected to the support part 10, the first protective part 20, the upper shell part 30, and the second protective part 40. This allows for separate packaging and transportation of each part during the packaging and transport of the circular saw station, greatly improving packaging and transportation efficiency. Additionally, the assembly efficiency is significantly improved through the splicing and installation of the various parts during the installation of the circular saw station.

[0079] In one embodiment, the second protective part 40 includes a housing part, which is detachably connected to the side of the upper housing part 30, and the protective body 45 is inserted into the housing part and slidably connected to the housing part.

[0080] The shell portion has a guide slide portion 46 on its side, and the extension portion of the protective body 45 extends to the side of the guide slide portion 46. The guide slide portion 46 passes through the extension portion of the protective body 45 and is slidably connected to the extension portion.

[0081] like Figure 1 As shown, the housing portion is connected to the side of the upper housing portion 30 via the connector.

[0082] It is understood that the shell portion, together with the upper shell portion 30, covers and surrounds the movable structure 50, thereby protecting the movable structure 50.

[0083] like Figure 4 As shown, the housing includes a first housing 41 and a second housing 43. The second housing 43 is detachably connected to the side of the upper housing 30 via the connector. The first housing 41 is connected to the second housing 43 and is surrounded by the second housing 43. The first housing 41 and the second housing 43 together form a placement space. The protective body 45 is inserted into the placement space, and part of the protective body extends out of the placement space.

[0084] It is understood that the protective body 45 is disposed within the placement space, and the protective body 45 is protected by the first shell 41 and the second shell 43.

[0085] Furthermore, the top surface of the second housing 43 is provided with a sealing portion, and the sealing portion is flush with the top surface of the upper housing 30 and connected to the top surface of the upper housing 30.

[0086] like Figure 5 As shown, the outer side of the second housing 43 is connected to the guide slide 46, and the guide slide 46 passes through the extension of the protective body 45.

[0087] It is understood that when the protective body 45 moves up and down within the placement space, the protective body 45 is directionally restricted by the guide slide part 46, thereby ensuring the unidirectional movement of the protective body 45.

[0088] like Figure 4 As shown, a driving structure 42 is provided on the first housing 41. The driving structure 42 extends into the placement space and is connected to the protective body 45.

[0089] It is understood that the lifting and lowering of the protective body 45 within the placement space is controlled by the power output of the drive structure 42.

[0090] Furthermore, the drive structure 42 includes a drive motor 424, a gear part 421, a transmission shaft 422, and a transmission part 423. The transmission shaft 422 is rotatably connected inside the first housing 41. The drive motor 424 is connected to the cover part and to the transmission shaft 422. The gear part 421 is connected to the transmission shaft 422, and the transmission part 423 is connected to the gear part. A portion of the transmission part 423 extends into the placement space and is connected to the protective body 45.

[0091] It is understood that when the drive motor 424 outputs power, it drives the transmission shaft 422 to rotate, which in turn drives the gear part 421 to rotate, thereby realizing the winding or releasing of the transmission part 423, and thus realizing the lifting and lowering of the protective body 45.

[0092] It should be noted that the transmission part 423 is a chain, and the chain part is embedded in the gear part 421, so that the chain can be wound or released during the rotation of the gear part 421.

[0093] In one embodiment, one end of the chain is connected to the protective body 45, and the other end of the chain is connected to the counterweight 44.

[0094] It is understandable that during the rotation of the gear part 421, the counterweight part 44 is raised or lowered according to the rotation direction of the gear part 421, thereby raising or lowering the protective body 45.

[0095] Moreover, the support frame is hollow, the counterweight 44 is disposed inside the support frame, one end of the chain extends into the support frame and is connected to the counterweight 44, so that the support frame can limit the lifting and lowering of the counterweight 44 during the lifting and lowering process, and ensure the stability of the lifting and lowering of the counterweight 44.

[0096] In another embodiment, a support beam is also provided inside the first housing 41. The support beam is mounted on the first housing 41 and is arranged parallel to the transmission shaft 422. The support beam is provided with multiple support points, and the transmission shaft passes through the multiple support points to support the transmission shaft.

[0097] It is understood that the drive shaft and the support fulcrum are connected by bearings.

[0098] It should be noted that, in order to ensure the stability of the lifting and lowering of the protective body 45, two gear parts 421 are provided, and two transmission parts 423 and two counterweight parts 44 are also provided. The gear parts 421 are located at both ends of the transmission shaft 422, so that the two gear parts 421 rotate synchronously during the rotation of the transmission shaft 422, thereby synchronously realizing the lifting and lowering of the protective body 45.

[0099] like Figure 5 As shown, when the counterweight 44 is at its lowest position, the protective body 45 rises to its highest position, thereby connecting the workspace to the outside and facilitating the operator's operation of the sawing part 80 and the displacement clamping part 60.

[0100] like Figure 6As shown, when the counterweight 44 is at the uppermost position, the protective body 45 is lowered to the lowermost position, so that the protective body 45 and the first protective part 20 enclose the working space, thereby preventing the sawing part 80 from splashing waste during processing.

[0101] like Figure 8 As shown, the protective body 45 is provided with a plurality of observation holes, and the plurality of observation holes are sealed by the acrylic plate, so that the operator can easily observe through the observation holes and the acrylic plate during the process of the protective body 45 sealing the work space.

[0102] In one embodiment, the housing includes a bottom frame connected to the housing, the bottom frame extending along the side of the second protective portion 40 and toward the support portion 10, the bottom frame being arranged along the edge of the support portion 10, and the protective body 45 sliding to the bottom frame and contacting the bottom frame, so that the protective body 45 cooperates with the first protective portion 20 to surround the workspace.

[0103] like Figure 5 As shown, the bottom frame includes a support column and a frame. The frame is arranged along the edge of the surface of the support part 10 and abuts against the first protective part 20. The frame and the support part 10 are connected by the connector. The support column connects the frame and the second shell 43 and is attached to the side of the first protective part 20.

[0104] It is understood that the frame and the support column are designed to limit the raising and lowering of the protective body 45. When the protective body 45 is lowered to the lowest point, it abuts against the frame.

[0105] Moreover, as Figure 4 and Figure 5 As shown, the guide slide 46 is mounted on the side of the support column, and the extension 47 of the protective body 45 is penetrated by the guide slide 46, thereby facilitating the lifting and lowering restriction of the protective body 45.

[0106] Furthermore, in order to ensure the stability of the lifting and lowering of the protective body 45, the outer side of the second housing 43 is also provided with the guide slide 46, and the side of the second housing 43 is provided with a slide groove extending along the extension direction of the guide slide 46. The side of the protective body 45 is provided with an extension that penetrates the slide groove, so that the extension is connected to the guide slide 46 located on the side of the second housing 43.

[0107] It should be noted that the guide slide 46 located on the side of the second housing 43 and the guide slide 46 located on the side of the support column are on the same straight line.

[0108] It is understandable that the two guide slides together restrict the lifting and lowering of the protective body 45, ensuring the lifting and lowering stability of the protective body 45.

[0109] Furthermore, the guide slide portion 46 is provided on the opposite sides of the second shell 43, two support columns are connected to the frame, and the guide slide portion 46 is provided on the sides of the two support columns. Multiple extension portions 47 are provided on the sides of the protective body 45, and each extension portion 47 is connected to one guide slide portion 46.

[0110] In one embodiment, the bottom frame provided along the edge of the support portion 10 has a first inclined surface on the side facing the workspace, and the protective body 45 has a second inclined surface on the side facing the workspace.

[0111] It should be noted that when the protective body 45 encloses the working space, when the waste generated by the sawing part 80 splashes onto the protective body 45 or the frame, the waste is likely to accumulate on the bottom edge of the protective body 45 or the frame, thus affecting the collection of waste.

[0112] like Figure 5 The first inclined surface is provided on the side of the frame near the workspace, and the second inclined surface is provided on the bottom edge of the protective body 45 facing the workspace.

[0113] It is understood that when the protective body 45 descends and the bottom edge of the protective body 45 abuts against the frame, the first inclined surface and the second inclined surface abut against each other, so that the splashed waste will fall directly onto the first inclined surface or the second inclined surface, and thus fall into the material discharge cavity along the inclined surface under the action of the inclined surface, thereby realizing the centralized collection of waste and avoiding the accumulation of waste on the bottom edge of the protective body 45 and the frame.

[0114] In one embodiment, the movable structure 50 includes a support frame 54 and a multi-axis displacement part. The support frame 54 is detachably connected to the upper shell 30 and is arranged around the edge of the upper shell 30.

[0115] The multi-axis displacement unit is connected to the sawing unit 80, and the multi-axis displacement unit is mounted on the support frame 54 so that the sawing unit 80 can move within the workspace.

[0116] like Figure 10As shown, the support frame 54 is a frame structure, and the space enclosed by the support frame 54 is the space used for the translation of the sawing part 80. Multiple connection points are arranged at intervals on the inner wall of the upper shell part 30. The multiple connection points are distributed in a frame shape to facilitate connection with the support frame 54.

[0117] It is understood that the support frame 54 is the support base of the multi-axis displacement part, and the support frame 54 is detachably connected to the upper shell 30, so as to facilitate the separate packaging of the movable structure 50 and the upper shell 30, as well as the assembly of the movable structure 50 and the upper shell 30.

[0118] The multi-axis displacement unit can drive the sawing unit 80 to move in three mutually perpendicular directions, thereby facilitating the control of the movement of the sawing unit 80 at any position in the workspace.

[0119] In one embodiment, the multi-axis displacement unit includes a first moving unit 51, a second moving unit 52, and a third moving unit 53. The third moving unit 53 is mounted on the support frame 54. The first moving unit 51, the second moving unit 52, and the third moving unit 53 are connected in pairs and arranged perpendicularly to each other. The first moving unit 51 is arranged perpendicular to the support frame 54, and the sawing part 80 is connected to the first moving unit 51.

[0120] The movement paths of the first moving unit 51, the second moving unit 52, and the third moving unit 53 are all equipped with telescopic accordion covers.

[0121] In one embodiment, the third moving unit 53 includes a moving frame 532, which is mounted on the support frame 54. The support frame 54 has a first telescopic part 536 connected to its side. The first telescopic part 536 extends toward the moving frame 532 and is connected to the moving frame 532.

[0122] The second moving unit 52 is mounted inside the moving frame 532. The moving frame 532 is connected to a second telescopic part 524 on its side. The second telescopic part 524 extends toward the second moving unit 52 and is connected to the second moving unit 52. The extended first telescopic part 536 and the extended second telescopic part 524 separate the working space from the upper shell 30.

[0123] It is understood that the telescopic accordion cover includes a first accordion cover 533, a second accordion cover 525 and a third accordion cover 512.

[0124] like Figure 10As shown, the third moving unit 53 includes a first power unit 531, a first guide rail 534, and a first bellows cover 533. The first guide rail 534 is disposed on the support frame 54, and the moving frame 532 is mounted on the first guide rail 534. The first bellows cover 533 is connected to opposite sides of the moving frame 532, and the end of the first bellows cover 533 facing away from the moving frame 532 is connected to the end of the first guide rail 534. The moving frame 532 is horizontally mounted on the support frame 54, and the first power unit 531 is connected to the moving frame 532.

[0125] It is understood that the power output of the first power unit 531 drives the movable frame 532 to move on the first guide rail 534, while stretching or extending the first bellows cover 533 to ensure that the first bellows cover 533 always covers the first guide rail 534, thereby preventing waste from splashing onto the first guide rail 534 and affecting the movement of the movable frame 532.

[0126] Furthermore, there are two first guide rails 534, and the two first guide rails 534 are symmetrically arranged on the support frame 54. The movable frame 532 is mounted on the two first guide rails 534, and each of the two first guide rails 534 is provided with a first bellows cover 533 that connects to the movable frame 532.

[0127] like Figure 10 As shown, the second moving unit 52 includes a carrier 521, a second guide rail 522, and a second bellows cover 525. The second guide rail 522 is mounted on the moving frame 532. The carrier 521 is connected to the second guide rail 522 and is mounted on the moving frame 532. The second bellows cover 525 is provided on opposite sides of the carrier 521. One end of the second bellows cover 525 is connected to one end of the second guide rail 522. A second power unit is provided on the carrier 521.

[0128] It is understood that the second power unit drives the carrier 521 to slide on the second guide rail 522 and extends and retracts the second bellows cover 525, thereby realizing the movement of the first moving unit 51. At the same time, the retracting and extending second bellows cover 525 prevents waste from accumulating on the second guide rail 522.

[0129] like Figure 11As shown, the first moving unit 51 includes a third power unit, a pneumatic unit 511, a fixing member 513, a driven member 514, and a third bellows cover 512. The fixing member 513 is connected to the carrier 521. The carrier 521 is partially inserted through the center of the support frame 54 and extends into the working space. The driven member 514 is slidably connected to one end of the fixing member 513 located in the working space. One end of the driven member 514 extending out of the fixing member 513 is connected to the sawing part 80. The third power unit and the starting unit 511 jointly drive the driven member 514 to move relative to the fixing member 513. Both the fixing member 513 and the driven member 514 are inserted through the third bellows cover 512. One end of the third bellows cover 512 is connected to the fixing member 513, and the other end of the third bellows cover 512 is connected to the driven member 514.

[0130] It is understood that the third power unit and the pneumatic unit 511 jointly drive the driven member 514 to move, thereby adjusting the distance between the sawing part 80 and the support frame 54. During this period, the third bellows cover extends and retracts synchronously to prevent waste from falling between the fixing member 513 and the driven member 514.

[0131] It is understandable that the third power unit and the pneumatic unit 511 jointly output power in order to precisely drive the driven member 514 and ensure the accuracy of the movement of the sawing part 80.

[0132] Furthermore, the first moving unit 51, the second moving unit 52, and the third moving unit 53 are driven together to enable the sawing part 80 to move arbitrarily in the workspace.

[0133] like Figure 12 As shown, a first driven structure 537 is mounted on the support frame 54, and the first driven structure 537 is connected to the movable frame 532. A second driven structure 523 is mounted on the movable frame 532, and the second driven structure 523 is connected to the carrier 521.

[0134] It is understood that the first driven structure 537 ensures the stability of the movement of the moving frame 532, and the second driven structure 523 ensures the stability of the movement of the carrier 521.

[0135] Furthermore, the first driven structure 537 includes a first support platform 5371, a first track 5372, and a first connecting frame 5373. The first support platform 5371 is mounted on the support frame 54. One end of the first track 5372 is connected to the first support platform 5371 and is arranged on the first support platform 5371. The first connecting frame 5373 is connected to the movable frame 532 and extends to the upper side of the first support platform 5371 and is connected to the other end of the first track 5372.

[0136] It is understood that when the movable frame 532 moves on the support frame 54, the first connecting frame 5373 moves synchronously, thereby driving the first track 5372 to move and ensuring the stability of the movement of the movable frame 532.

[0137] Furthermore, the second driven structure 523 includes a second support platform 5231, a second track 5232, and a second connecting frame 5233. The second support platform 5231 is mounted on the movable frame 532. One end of the second track 5232 is connected to the second support platform 5231 and is arranged on the second support platform 5231. The second connecting frame 5233 is connected to the carrier 521 and extends to the upper side of the second support platform 5231 and is connected to the other end of the second track 5232.

[0138] It is understood that when the carrier 521 moves on the moving frame 532, the second connecting frame 5233 moves synchronously, thereby driving the second track 5232 to move and ensuring the stability of the movement of the carrier 521.

[0139] In one embodiment, the sawing section 80 includes a fourth power unit and a sawing component, the fourth power unit being connected to one end of the driven member 514, and the sawing component being connected to the output end of the fourth power unit.

[0140] It is understood that when the fourth power unit outputs power, it drives the sawing piece to rotate, and then, under the joint drive of the first moving unit 51, the second moving unit 52 and the third moving unit 53, the sawing piece moves to facilitate multi-angle sawing of the object to be cut.

[0141] like Figure 13As shown, the first telescopic part 536 and the second telescopic part 524 are arranged to extend and retract synchronously during the movement of the moving frame 532 and the carrier 521, so as to achieve the isolation of the upper and lower layers of the support frame 54, thereby preventing the waste generated by the sawing part 80 from splashing onto the upper side of the support frame 54.

[0142] In one embodiment, the support portion 10 is provided with a collection chamber, and the discharge chamber 14 is connected to the collection chamber through a discharge port;

[0143] The bottom wall of the material discharge chamber 14 is inclined toward the center of the support part 10.

[0144] like Figure 1 As shown, the collection cavity provided inside the support part 10 is used to accommodate the trolley for collecting waste materials.

[0145] It is understood that the discharge chamber 14 is connected to the collection chamber through the discharge port, so that when the waste material enters the collection chamber through the discharge port, it can be directly collected by the trolley.

[0146] In one embodiment, the bottom wall of the discharge chamber 14 is inclined, so that when waste falls onto the bottom wall of the discharge chamber 14, the waste moves along the inclined surface towards the discharge port under its own weight, which facilitates collection by the trolley and improves collection efficiency.

[0147] In another embodiment, the bottom wall of the material discharge cavity 14 includes a plurality of inclined bottom walls 13, which are arranged adjacently along the upper edge of the support portion 10 and connected to each other. The inclined bottom walls 13 are inclined toward the material discharge port.

[0148] It is understood that the inclined bottom wall 13 is a plane, so as to facilitate falling into the surface of the inclined bottom wall 13 and thus facilitate quick entry into the discharge port.

[0149] In one embodiment, a guide structure 70 is provided inside the collection chamber, and the collection device is guided to move into the collection chamber via the guide structure 70, and the collection device is positioned relative to the discharge port.

[0150] like Figure 2 and Figure 7 As shown, the guiding mechanism 70 is installed inside the collection cavity. The guiding mechanism 70 includes a stop frame 71 and two guide frames 72. The guide frames are installed inside the collection cavity, the stop frame 71 is installed inside the collection cavity, and the two guide frames 72 are installed on both sides of the stop frame 71. The end of the guide frame 72 away from the stop frame 71 is bent and bends in a direction away from the stop frame 71.

[0151] It is understood that when the collecting device enters the collecting chamber, the collecting device is guided along the edge of the guide frame to the bottom of the discharge port in order to ensure the accuracy of the collecting device in moving to the predetermined position.

[0152] It should be noted that a position sensor is installed inside the collection chamber. The position sensor is used to detect the movement position of the collection device. When the collection device moves to the predetermined position, the position sensor sends a signal to the device to transmit the signal that the collection device has arrived, which facilitates the operation of the device.

[0153] In one embodiment, the position sensor is disposed on the stop frame 71.

[0154] It should be noted that a falling object sensor is installed inside the collection chamber. When the falling objects in the collection device accumulate to a certain height, the falling object sensor sends a signal to pause the operation of the device so that the collection device can be replaced.

[0155] Furthermore, if the falling object sensor does not send a signal due to falling objects during the operation of the equipment, it indicates that the equipment has malfunctioned, thus facilitating timely shutdown and maintenance.

[0156] In one embodiment, the support portion 10 integrates an electrical portion 11 and a pneumatic portion 12.

[0157] It is understood that the electrical part 11 and the pneumatic part 12 are integrated into the support part 10 for centralized maintenance.

[0158] The above description is merely an exemplary embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural transformations made based on the technical concept of the present utility model and the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.

Claims

1. A circular saw station, characterized in that, include: The support part is provided with a material discharge cavity for collecting materials, and a displacement clamping part is mounted on the support part; A first protective part, which is detachably connected to the support part; The upper shell is detachably connected to the surface of the first protective part away from the support part, and a movable structure is installed inside the upper shell. The second protective part is detachably connected to the side of the upper shell. The second protective part includes a protective body, which is slidably disposed on the side of the upper shell. The protective body moves toward the support part and together with the first protective part to form a working space. The movable structure is connected to a sawing part, which extends into the working space and moves at the displacement clamping part under the drive of the movable structure.

2. The circular saw station as described in claim 1, characterized in that, The second protective part includes a shell cover, which is detachably connected to the side of the upper shell, and the protective body is inserted into the shell cover and slidably connected to the shell cover. The shell portion has a guide slide portion on its side, and the extension portion of the protective body extends to the side of the guide slide portion. The guide slide portion passes through the extension portion of the protective body and is slidably connected to the extension portion.

3. The circular saw station as described in claim 2, characterized in that, The housing includes a bottom frame connected to the housing. The bottom frame extends along the side of the second protective part and toward the support part. The bottom frame is arranged along the edge of the support part. The protective body slides to the bottom frame and contacts the bottom frame so that the protective body cooperates with the first protective part to surround the workspace.

4. The circular saw station as described in claim 3, characterized in that, The bottom frame, which is provided along the edge of the support portion, has a first inclined surface on the side facing the workspace, and the protective body has a second inclined surface on the side facing the workspace.

5. The circular saw station as described in claim 1, characterized in that, The movable structure includes a support frame and a multi-axis displacement part. The support frame is detachably connected to the upper shell and is arranged around the edge of the upper shell. The multi-axis displacement unit is connected to the sawing unit, and the multi-axis displacement unit is mounted on the support frame to allow the sawing unit to move within the workspace.

6. The circular saw station as described in claim 5, characterized in that, The multi-axis displacement section includes a first moving unit, a second moving unit, and a third moving unit. The third moving unit is mounted on the support frame. The first moving unit, the second moving unit, and the third moving unit are connected in pairs and arranged perpendicularly to each other. The first moving unit is arranged perpendicular to the support frame, and the sawing section is connected to the first moving unit. The movement paths of the first moving unit, the second moving unit, and the third moving unit are all equipped with telescopic accordion covers.

7. The circular saw station as described in claim 6, characterized in that, The third moving unit includes a moving frame mounted on the support frame. A first telescopic part is connected to the side of the support frame. The first telescopic part extends toward the moving frame and is connected to the moving frame. The second moving unit is mounted inside the moving frame. The moving frame is connected to a second telescopic part on its side. The second telescopic part extends toward and connects to the second moving unit. The extended first telescopic part and the extended second telescopic part separate the working space from the upper shell.

8. The circular saw station as described in claim 1, characterized in that, The support section is provided with a collection chamber, and the material discharge chamber is connected to the collection chamber through a material discharge port; The bottom wall of the material discharge chamber is inclined toward the center of the support.

9. The circular saw station as described in claim 8, characterized in that, The collection chamber is provided with a guide structure, and the collection device is guided by the guide structure to move into the collection chamber, and the collection device is positioned relative to the discharge port.

10. The circular saw station as described in any one of claims 1 to 9, characterized in that, The support section integrates electrical and pneumatic components.