CN221538862U - Precise cutting device for machining metal components - Google Patents

Abstract

The utility model provides a precise cutting device for processing metal components, belongs to the technical field of metal cutting, and solves the technical problems that scrap iron splashes due to the lack of scrap iron recovery structures when existing metal components are cut, and then the scrap iron is accumulated on a table top of cutting equipment. The utility model provides a metal component processing is with accurate cutting device, includes cutting table, a pair of clamping frame of sliding connection on the cutting table, is provided with accurate cutting assembly on the cutting table, is provided with the regulation and control subassembly that control clamping frame removed in the cutting table, is provided with the recovery clearance subassembly of retrieving the cutting miscellaneous bits on the cutting table. The utility model has the advantage of recovering the generated metal scraps during cutting operation.

Description

Precise cutting device for machining metal components

Technical Field

The utility model belongs to the technical field of metal cutting, and relates to a precise cutting device, in particular to a precise cutting device for processing metal components.

Background

The processing of the metal component is a pivot technology which needs to be held by a metal component technical staff and is also an important process for forming the metal component. The metal member processing comprises the traditional cutting and blanking, press forming and other methods and technological parameters, various cold stamping die structures and technological parameters, various equipment working principles and operating methods, and also comprises new stamping technology and new technology. Metal component cutting is a ring that is important in many processing steps of metal component processing.

Through the search, for example, chinese patent literature discloses a precision cutting device for special processing of precision sheet metal parts [ application number: 202122173971.4; publication No.: CN 216656549U ]. This kind of accurate sheet metal component special type processing is with accurate cutting device relates to panel beating cutting and technical field, including the workstation, install the portal on the workstation, the wall fixed mounting has electric slide rail under the portal crossbeam, electric slide rail's mobile end fixed mounting has electric telescopic handle, electric telescopic handle bottom fixed mounting has motor installation shell, be equipped with the motor in the motor installation shell, motor drive end fixed mounting has the cutter head, cutter head other end movable mounting is on a motor installation shell lateral wall, both sides are installed longitudinal locating device respectively around the motor installation shell, accurate locating device is installed respectively to both sides around just being located the portal on the workstation. The problem of current device cut the panel beating at the mode that uses punching press cutting, the panel beating of cutting knife both sides can take place the perk because of punching press deformation, and the cutting can take place to shift this moment to make the cutting lose precision is solved.

In this patent, owing to lack the iron fillings and retrieve the structure when cutting metal component for there is the iron fillings to splash, then the iron fillings pile up the problem on cutting equipment mesa, owing to the iron fillings have very high recycling value simultaneously, often still need retrieve again the iron fillings that produce when these cuts in the later stage, the intensity of labour has certainly great increased like this.

Disclosure of utility model

The utility model aims at solving the problems in the prior art, and provides a precision cutting device for processing a metal member, which aims at solving the technical problems that: how to recycle the generated metal scraps when cutting is performed.

The aim of the utility model can be achieved by the following technical scheme:

The utility model provides a metal component processing is with accurate cutting device, includes cutting table, a pair of clamping frame of sliding connection on the cutting table, be provided with accurate cutting assembly on the cutting table, be provided with the regulation and control subassembly that control clamping frame removed in the cutting table, be provided with the recovery clearance subassembly of retrieving the cutting miscellaneous bits on the cutting table.

The working principle of the utility model is as follows: the metal component is clamped and fixed through the clamping frame, the metal component is conveyed to the cutting position through the clamping frame controlled by the regulating and controlling component, the metal component is cut through the precise cutting component, and metal scraps generated during cutting are recovered by the recovery and cleaning component, so that personnel can easily clean the metal component.

The clamping frame is internally and fixedly connected with a hydraulic push rod, the output end of the hydraulic push rod is fixedly provided with a clamping plate, and the clamping plate is clamped and fixedly matched with the surface of the metal member.

By adopting the structure, the clamping plate can be pushed by the hydraulic push rod, so that the clamping plate can automatically clamp and fix, and the workload of personnel is reduced.

The adjusting and controlling assembly comprises a pair of adjusting and controlling lead screws which are rotatably connected in the cutting table and two driving motor I which are fixedly connected in the cutting table, wherein the output end of the driving motor I is coaxially and fixedly connected with the corresponding adjusting and controlling lead screw, and the adjusting and controlling lead screw is in threaded connection with the corresponding clamping frame.

By adopting the structure, the driving motor drives the regulating and controlling screw rod coaxially and fixedly connected with the output end of the regulating and controlling screw rod to drive the clamping frame to move, so that the metal component is conveyed, the follow-up cutting work is matched, and the overall machining efficiency is improved.

The precise cutting assembly comprises an adjusting frame fixed on one side of the cutting table and a mounting frame in sliding connection with the adjusting frame, a second driving motor is fixed on the mounting frame, the output end of the second driving motor is coaxially and fixedly connected with the cutting frame, a slice is rotationally connected to the cutting frame, a driving assembly for controlling the slice to rotate is arranged in the cutting frame, and a control assembly for controlling the mounting frame to move up and down is arranged in the adjusting frame.

By adopting the structure, the cutting frame is driven to rotate by the driving motor II, so that the cutting angle of the slice is changed, the metal component is cut by controlling the rotation of the slice through the driving component, the mounting frame is controlled to move up and down by the control component, the slice is matched for cutting, the precise cutting is realized, and the cutting efficiency is improved.

The driving assembly comprises a driving motor III fixed in the cutting frame, and a driving wheel I coaxially and fixedly connected with the output end of the driving motor III, wherein a driving wheel II positioned in the cutting frame is coaxially and fixedly connected with the slice, and a driving belt is connected with the driving wheel I and the driving wheel II.

By adopting the structure, the driving motor III can drive the driving wheel I which is coaxially and fixedly connected with the output end of the driving motor III to rotate, the driving wheel II is driven to rotate through the driving belt after the driving wheel I rotates, and the driving wheel II further drives the slice to rotate, so that the cutting capability is realized.

The control assembly comprises a control screw rod rotatably connected in the adjusting frame and a driving motor IV fixedly connected in the adjusting frame, the output end of the driving motor IV is fixedly connected with the same shaft of the control screw rod, and the control screw rod is in threaded connection with the mounting frame.

By adopting the structure, the driving motor four drives the control screw rod which is coaxially and fixedly connected with the output end of the driving motor four to rotate, the control screw rod is connected with the mounting frame in a threaded manner, the up-and-down movement capability of the mounting frame is realized, and the up-and-down cutting capability of the slice is realized.

The recovery cleaning component comprises a recovery port arranged on the cutting table and a recovery box connected with one side of the cutting table in a plugging manner, wherein the input end of the recovery port is overlapped with the slicing position, and the output end of the recovery port faces the box opening of the recovery box.

By adopting the structure, the metal impurity scraps generated during cutting operation of the slice can be recovered through the recovery port, and the metal impurity scraps are stored into the recovery box through the recovery port, so that the metal impurity scraps are cleaned conveniently by personnel.

The cutting table is characterized in that a buckle block is fixed on the side wall of the cutting table, a buckle hole is formed in the buckle block, a buckle groove is formed in the recovery box, a bolt is connected to the buckle groove in a sliding mode, the bolt is matched with the buckle hole in a buckling mode, and the protruding portion of the bolt is exposed out of the recovery box.

By adopting the structure, the sliding of the bolt can realize the eye-splice matching with the eye-splice hole, so that the recovery box is convenient to detach and clean.

Compared with the prior art, the precision cutting device for processing the metal component has the following advantages:

1. The cutting frame is driven to rotate by the driving motor II, so that the cutting angle of the slice is changed, the metal component is cut by controlling the rotation of the slice through the driving component, the mounting frame is controlled to move up and down by the control component, the slice is matched for cutting, precise cutting is realized, and the cutting efficiency is improved.

2. The clamping frame is driven to move by a driving motor to drive a regulating and controlling screw rod coaxially and fixedly connected with the output end of the regulating and controlling screw rod, so that the metal component is conveyed, the follow-up cutting work is matched, and the overall machining efficiency is improved.

3. The metal miscellaneous bits that the section produced when cutting work is retrieved through the recovery mouth, and metal miscellaneous bits are accomodate into the collection box through the recovery mouth, and convenient personnel clear up it, and realize the eye-splice cooperation with the eye-splice hole through the slip of bolt for conveniently dismantle the collection box, conveniently clear up the collection box.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the precision cutting assembly of the present utility model.

Fig. 3 is a schematic view of the structure of the driving assembly in the present utility model.

FIG. 4 is a schematic diagram of the structure of the regulatory assembly of the present utility model.

FIG. 5 is a schematic view of the recovery cleaning assembly of the present utility model.

FIG. 6 is a schematic illustration of a recycling bin tab connection in accordance with the present utility model.

In the figure, 1, a cutting table; 2. a clamping frame; 3. a precision cutting assembly; 4. a regulatory component; 5. recovering the cleaning component; 6. a plug pin; 7. a clamping plate; 8. regulating and controlling a screw rod; 9. driving a first motor; 10. an adjusting frame; 11. a mounting frame; 12. a second driving motor; 13. a cutting frame; 14. slicing; 15. a drive assembly; 16. a control assembly; 17. a third driving motor; 18. a first driving wheel; 19. a second driving wheel; 20. a transmission belt; 21. controlling a screw rod; 22. driving a motor IV; 23. recovering the mouth; 24. a recovery box; 25. a buckle block; 26. a button inserting hole; 27. a buckle inserting groove.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1-6, a precision cutting device for metal member processing comprises a cutting table 1, a pair of clamping frames 2 slidably connected to the cutting table 1, a precision cutting assembly 3 arranged on the cutting table 1, a regulating and controlling assembly 4 for controlling the clamping frames 2 to move arranged in the cutting table 1, and a recovery and cleaning assembly 5 for recovering and cutting scraps arranged on the cutting table 1.

The metal component is clamped and fixed through the clamping frame 2, the clamping frame 2 is controlled by the regulating and controlling assembly 4 to convey the metal component to the cutting position, the metal component is cut through the precise cutting assembly 3, and metal scraps generated during cutting are recovered by the recovery and cleaning assembly 5, so that personnel can clean the metal component easily.

The clamping frame 2 is internally fixedly connected with a hydraulic push rod, the output end of the hydraulic push rod is fixedly provided with a clamping plate 7, and the clamping plate 7 is clamped and fixedly matched with the surface of the metal member.

By adopting the structure, the clamping plate 7 can be pushed by the hydraulic push rod, so that the clamping plate 7 can automatically clamp and fix, and the workload of personnel is reduced.

The regulating and controlling assembly 4 comprises a pair of regulating and controlling lead screws 8 which are rotatably connected in the cutting table 1, two driving motors I9 which are fixedly connected in the cutting table 1, wherein the output ends of the driving motors I9 are coaxially and fixedly connected with the corresponding regulating and controlling lead screws 8, and the regulating and controlling lead screws 8 are in threaded connection with the corresponding clamping frames 2.

By adopting the structure, the first driving motor 9 can drive the regulating and controlling screw rod 8 which is coaxially and fixedly connected with the output end of the first driving motor, and the clamping frame 2 is driven to move, so that the metal component is conveyed, the subsequent cutting work is matched, and the overall machining efficiency is improved.

The precise cutting assembly 3 comprises an adjusting frame 10 fixed on one side of the cutting table 1, a mounting frame 11 in sliding connection with the adjusting frame 10, a driving motor II 12 fixed on the mounting frame 11, a cutting frame 13 coaxially and fixedly connected with the output end of the driving motor II 12, a slice 14 rotatably connected with the cutting frame 13, a driving assembly 15 for controlling the slice 14 to rotate and arranged in the cutting frame 13, and a control assembly 16 for controlling the mounting frame 11 to move up and down and arranged in the adjusting frame 10.

With the structure, the cutting frame 13 can be driven to rotate by the driving motor II 12, so that the cutting angle of the slice 14 is changed, the driving assembly 15 is used for controlling the rotation of the slice 14 to cut metal components, the control assembly 16 is used for controlling the mounting frame 11 to move up and down, the slice 14 is matched for cutting, precise cutting is realized, and the cutting efficiency is improved.

The driving assembly 15 comprises a driving motor III 17 fixed in the cutting frame 13, a driving wheel I18 coaxially and fixedly connected with the output end of the driving motor III 17, a driving wheel II 19 coaxially and fixedly connected with the slice 14 and positioned in the cutting frame 13, and a driving belt 20 connected with the driving wheel I18 and the driving wheel II 19.

With the structure, the driving motor III 17 can drive the driving wheel I18 which is coaxially and fixedly connected with the output end of the driving motor III to rotate, the driving wheel II 19 is driven to rotate through the driving belt 20 after the driving wheel I18 rotates, and the driving wheel II 19 further drives the slice 14 to rotate, so that the cutting capability is realized.

The control assembly 16 comprises a control screw rod 21 rotatably connected in the adjusting frame 10, a driving motor four 22 fixedly connected in the adjusting frame 10, the output end of the driving motor four 22 is fixedly connected with the same shaft of the control screw rod 21, and the control screw rod 21 is in threaded connection with the mounting frame 11.

With the structure, the driving motor four 22 can drive the control screw 21 which is coaxially and fixedly connected with the output end of the driving motor four to rotate, the control screw 21 is connected with the mounting frame 11 through threads, the up-and-down movement capability of the mounting frame 11 is realized, and the up-and-down cutting capability of the slice 14 is realized.

The recovery cleaning assembly 5 comprises a recovery port 23 formed in the cutting table 1 and a recovery box 24 connected with one side of the cutting table 1 in a plugging and buckling mode, the input end of the recovery port 23 is overlapped with the position of the slice 14, and the output end of the recovery port 23 faces the box opening of the recovery box 24.

With the structure, the metal impurity scraps generated when the slicing 14 performs cutting work can be recovered through the recovery port 23, and the metal impurity scraps are stored into the recovery box 24 through the recovery port 23, so that the metal impurity scraps are cleaned conveniently by personnel.

The cutting board 1 lateral wall is fixed with the eye-splice piece 25, has seted up eye-splice hole 26 on the eye-splice piece 25, has seted up eye-splice groove 27 on the collection box 24, and sliding connection has bolt 6 on the eye-splice groove 27, and bolt 6 and eye-splice hole 26 looks eye-splice cooperation, and the protruding part of bolt 6 exposes outside the collection box 24.

By adopting the structure, the plug pin 6 can slide to realize the plug-in matching with the plug-in hole 26, so that the recovery box 24 is convenient to detach and clean.

The metal component is placed between the clamping plates 7, the clamping plates 7 are pushed by the hydraulic push rods, so that the clamping plates 7 automatically clamp and fix the metal component, the first driving motor 9 drives the regulating and controlling screw rod 8 which is coaxially and fixedly connected with the output end of the clamping plates, the clamping frame 2 is driven to move, the metal component is conveyed, when the metal component is conveyed to the lower part of the slice 14, the fourth driving motor 22 drives the control screw rod 21 which is coaxially and fixedly connected with the output end of the metal component to rotate, the control screw rod 21 is connected with the screw thread of the mounting frame 11 to realize the downward movement of the mounting frame 11, the mounting frame 11 further drives the slice 14 to downwards cut the metal component, the second driving motor 12 drives the cutting frame 13 to rotate in the cutting process, so that the cutting angle of the slice 14 is changed, the metal component can be taken out after the cutting, and metal trash generated by cutting is stored in the recovery box 24 through the recovery mouth 23, and people can conveniently clean the metal component.

To sum up, carry out the centre gripping fixedly with the metal component through clamping frame 2, rethread regulation and control subassembly 4 control clamping frame 2 carries the cutting position with the metal component, and rethread precision cutting subassembly 3 cuts the metal component, and the miscellaneous bits of metal that produces during the cutting are retrieved by retrieving clearance subassembly 5, and the personnel of easily clearing up.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (8)

1. The utility model provides a precision cutting device is used in metalworking, includes cutting table (1), a pair of clamping frame (2) of sliding connection on cutting table (1), its characterized in that is provided with precision cutting subassembly (3) on cutting table (1), be provided with regulation and control subassembly (4) that control clamping frame (2) removed in cutting table (1), be provided with on cutting table (1) retrieve clearance subassembly (5) of retrieving the cutting miscellaneous bits.

2. The precise cutting device for machining metal components according to claim 1, wherein a hydraulic push rod is fixedly connected in the clamping frame (2), and a clamping plate (7) is fixedly arranged at the output end of the hydraulic push rod.

3. The precise cutting device for machining metal components according to claim 1, wherein the regulating and controlling assembly (4) comprises a pair of regulating and controlling screws (8) rotatably connected in the cutting table (1) and two driving motor I (9) fixedly connected in the cutting table (1), wherein the output ends of the driving motor I (9) are fixedly connected with the corresponding regulating and controlling screws (8) coaxially, and the regulating and controlling screws (8) are in threaded connection with the corresponding clamping frames (2).

4. The precise cutting device for metal member processing according to claim 1, characterized in that the precise cutting assembly (3) comprises an adjusting frame (10) fixed on one side of the cutting table (1) and a mounting frame (11) connected to the adjusting frame (10) in a sliding manner, a driving motor II (12) is fixed on the mounting frame (11), a cutting frame (13) is coaxially and fixedly connected to an output end of the driving motor II (12), a slice (14) is connected to the cutting frame (13) in a rotating manner, a driving assembly (15) for controlling the slice (14) to rotate is arranged in the cutting frame (13), and a control assembly (16) for controlling the mounting frame (11) to move up and down is arranged in the adjusting frame (10).

5. The precise cutting device for metal member processing according to claim 4 characterized in that the driving assembly (15) comprises a driving motor III (17) fixed in the cutting frame (13) and a driving wheel I (18) coaxially and fixedly connected with the output end of the driving motor III (17), a driving wheel II (19) positioned in the cutting frame (13) is coaxially and fixedly connected with the slice (14), and a driving belt (20) is connected with the driving wheel I (18) and the driving wheel II (19).

6. The precise cutting device for machining metal components according to claim 4, wherein the control assembly (16) comprises a control screw (21) rotatably connected in the adjusting frame (10), a driving motor IV (22) fixedly connected in the adjusting frame (10), the output end of the driving motor IV (22) is fixedly connected with the same shaft of the control screw (21), and the control screw (21) is in threaded connection with the mounting frame (11).

7. The precise cutting device for metal member processing according to claim 1 characterized in that the recovery cleaning assembly (5) comprises a recovery port (23) formed on the cutting table (1) and a recovery box (24) connected with one side of the cutting table (1) in a plugging manner, an input end of the recovery port (23) is overlapped with a position of the slice (14), and an output end of the recovery port (23) faces to a box opening of the recovery box (24).

8. The precise cutting device for metal member processing according to claim 7 characterized in that the side wall of the cutting table (1) is fixed with a buckle block (25), a buckle hole (26) is formed in the buckle block (25), a buckle slot (27) is formed in the recovery box (24), a bolt (6) is slidingly connected to the buckle slot (27), the bolt (6) is in buckle fit with the buckle hole (26), and a protruding portion of the bolt (6) is exposed out of the recovery box (24).