CN216298678U - CNC (computer numerical control) machining equipment with feeding and discharging mechanism - Google Patents
CNC (computer numerical control) machining equipment with feeding and discharging mechanism Download PDFInfo
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- CN216298678U CN216298678U CN202122951886.6U CN202122951886U CN216298678U CN 216298678 U CN216298678 U CN 216298678U CN 202122951886 U CN202122951886 U CN 202122951886U CN 216298678 U CN216298678 U CN 216298678U
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Abstract
The utility model discloses a CNC (computer numerical control) machining device with a feeding and discharging mechanism, which relates to the technical field of machining devices and comprises: the equipment main part, one side of equipment main part is provided with fortune material transmission band, the one end of equipment main part is provided with the stripper, the top of equipment main part is provided with the processing mould. According to the utility model, the calibration mechanism is arranged, a workpiece is transported and dropped on the processing platform through material transporting and conveying driving, the first motor is started to drive the first transmission column to rotate, the first sliding screw rod is driven to rotate, the first sliding block is driven to move in the equipment main body, the second motor is started to drive the second transmission column to rotate, the second sliding screw rod is driven to rotate, the supporting block is driven to move in the first sliding block, the processing platform at the top end is driven to move, the workpiece is driven to be aligned with the processing mold, and then the calibration operation of the workpiece and the processing mold can be completed.
Description
Technical Field
The utility model relates to the technical field of machining equipment, in particular to CNC (computer numerical control) machining equipment with a feeding and discharging mechanism.
Background
The CNC numerical control equipment is a equipment which adopts computer to implement digital program control, and said equipment uses computer to implement the motion track of equipment and peripheral operation sequential logic control function according to the control program stored in advance, and adopts computer to substitute the original numerical control equipment formed from hardware logic circuit so as to make the storage, treatment, calculation and logic judgement of input operation instruction implement various control functions, and can be implemented by means of computer software, and the microscopic instruction produced by processing can be transferred into servo-driving device driving motor or hydraulic execution element to drive equipment to run.
Although present CNC numerical control equipment kind and quantity are very much, most of CNC numerical control equipment is at the in-process that uses, mostly carries out the unloading to the work piece through the manual work, wastes time and energy and has the potential safety hazard, has reduced work efficiency to add man-hour to the work piece, can't calibrate work piece and mold processing, lead to the unqualified of the work piece of processing out.
SUMMERY OF THE UTILITY MODEL
The utility model aims to: in order to solve the problems that the manual blanking work efficiency of CNC (computer numerical control) equipment is low and workpieces and machining dies are not calibrated, the workpieces are unqualified, the CNC is provided with the machining equipment with the feeding and blanking mechanism.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a CNC is from unloading mechanism processing equipment in area, includes:
the device comprises a device main body, wherein a material conveying belt is arranged on one side of the device main body, a stripper plate is arranged at one end of the device main body, and a processing die is arranged at the top end of the device main body;
the calibration mechanism is positioned at the top end of the equipment main body, penetrates into the equipment main body and is used for driving the processing platform and the processing mould to perform processing calibration operation;
and the discharging mechanism is positioned at the top end of the equipment main body, is positioned at one end of the equipment main body, which is far away from the discharging plate, and penetrates through the inside of the calibrating mechanism to be used for discharging the machined workpiece on the machining platform.
As a still further scheme of the utility model: the calibration mechanism comprises a first motor, a first transmission column, a first sliding screw rod, a first sliding block, a second motor, a second transmission column, a second sliding screw rod, a support column and a processing platform, wherein the first motor is positioned at one end of the equipment main body, the first transmission column is positioned at one end of the first motor and penetrates into the equipment main body, the first sliding screw rod is positioned in the equipment main body and is positioned at one end of the first transmission column, the first sliding block is positioned at the top end of the equipment main body and penetrates into the equipment main body to be sleeved with the outer wall of the first sliding screw rod, the second motor is positioned in the equipment main body and is positioned at one side of the first sliding block, the second transmission column is positioned at one side of the second motor and penetrates into the inside of the first sliding block, the second sliding screw rod is positioned in the first sliding block and is positioned at one side of the second transmission column away from the second motor, the support column is located the top of a sliding block to run through the inside of a sliding block and cup joint with the outer wall of No. two slip lead screws, the processing platform is located the top of support column.
As a still further scheme of the utility model: the discharging mechanism comprises a supporting block, a first electric telescopic rod, a second electric telescopic rod, a material pushing plate, a movable column, a contraction spring, a reset column, a limiting plate, a reset spring and a discharging plate, wherein the supporting block is positioned at the top end of the equipment main body and positioned at one end of the processing platform, the first electric telescopic rod is positioned at one end of the supporting block close to the processing platform, the second electric telescopic rod is positioned at one end of the supporting block and positioned above the first electric telescopic rod, the material pushing plate is positioned at one end of the second electric telescopic rod far away from the supporting block, the movable column is positioned at one end of the supporting column and penetrates into the supporting column, the contraction spring is positioned at one end of the movable column penetrating into the supporting column, the reset column is positioned inside the supporting column and positioned at the top end of the movable column, the limiting plate is positioned at one end of the reset column, and the reset spring is positioned at the top end of the limiting plate, the discharge plate is located at the top end of the processing platform and penetrates through the processing platform to be connected with the reset column.
As a still further scheme of the utility model: a transmission post passes through the bearing and is connected with the equipment main part rotation, the inside of equipment main part be provided with a sliding block assorted shifting chute, the outer wall of a slip lead screw is provided with the external screw thread, the inner wall of a sliding block be provided with a slip lead screw external screw thread assorted internal thread.
As a still further scheme of the utility model: no. two transmission posts rotate through bearing and sliding block and be connected, the inside of equipment main part is provided with the movable groove that matches with No. two motors, the both ends of support column are provided with the slider, the inner wall of sliding block be provided with support column assorted shifting chute.
As a still further scheme of the utility model: the inside of processing platform is provided with and workpiece phase-match standing groove, the surface of activity post is provided with pushes away the material groove with processing platform assorted, the inside of supporting shoe is provided with the flexible groove with electric telescopic handle, No. two electric telescopic handle assorted.
As a still further scheme of the utility model: the inside of support column is provided with activity post assorted sliding tray, the inside of support column be provided with shrink spring assorted shrink groove, the inside of support column be provided with the post assorted that resets groove that resets.
Compared with the prior art, the utility model has the beneficial effects that:
1. by arranging the calibrating mechanism, workpieces are transported and dropped on the processing platform through material transporting and conveying driving, the first motor is started to drive the first transmission column to rotate, the first sliding screw rod is driven to rotate, the first sliding block is driven to move in the equipment main body, the second motor is started to drive the second transmission column to rotate simultaneously, the second transmission column drives the second sliding screw rod to rotate, the second sliding screw rod rotates to drive the supporting block to move in the first sliding block, the supporting block moves to drive the processing platform at the top end to move, the processing platform moves to drive the workpieces to be aligned with the processing mold at the top end of the equipment main body, and the calibration operation of the workpieces and the processing mold can be completed through mutual matching of the parts;
2. through setting up shedding mechanism, the work piece is after processing platform processing is accomplished, start the electric telescopic handle of a of supporting shoe one side, an electric telescopic handle removes extrusion activity post, activity post extrusion shrink spring shrink drives the activity post and removes, the activity post removes the extrusion reset post, the limiting plate extrusion reset spring shrink that drives one side drives the limiting plate and removes, it removes to drive the reset post, it removes promotion work piece and shifts out from processing platform is inside to drive the ejector pad to remove to drive the ejector pad, the ejector pad removes the work piece that promotes the processing platform top and drops on the stripper, through the mutually supporting between the above a plurality of parts, can accomplish the operation of unloading to the work piece.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a structural sectional view of the apparatus body of the present invention;
FIG. 3 is a structural cross-sectional view of a support post of the present invention;
fig. 4 is an enlarged view of the utility model at a.
In the figure: 1. an apparatus main body; 101. a material conveying belt; 102. a stripper plate; 103. processing a mould; 2. a calibration mechanism; 201. a first motor; 202. a first transmission column; 203. a first sliding screw rod; 204. a first sliding block; 205. a second motor; 206. a second transmission column; 207. a second sliding screw rod; 208. a support pillar; 209. a processing platform; 3. a discharge mechanism; 301. a support block; 302. a first electric telescopic rod; 303. a second electric telescopic rod; 304. a material pushing plate; 305. a movable post; 306. a retraction spring; 307. a reset column; 308. a limiting plate; 309. a return spring; 310. and a discharging plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 4, in an embodiment of the present invention, a CNC numerical control machining apparatus with a feeding and discharging mechanism includes:
the device comprises a device body 1, wherein a material conveying belt 101 is arranged on one side of the device body 1, a stripper plate 102 is arranged at one end of the device body 1, and a processing die 103 is arranged at the top end of the device body 1;
the calibration mechanism 2 comprises a processing platform 209, and the calibration mechanism 2 is positioned at the top end of the equipment main body 1, penetrates into the equipment main body 1, and is used for driving the processing platform 209 and the processing mold 103 to perform processing calibration operation;
the discharging mechanism 3 is located at the top end of the device body 1, located at one end of the device body 1 far away from the discharging plate 102, and penetrating into the calibrating mechanism 2, and is used for discharging the processed workpiece on the processing platform 209.
In this embodiment: the workpiece is transported to the processing platform 209 through the material transporting and conveying belt 101 on one side of the equipment main body 1, the calibration of the relative position between the workpiece and the processing mold 103 is completed through parts inside the calibration mechanism 2, and finally the unloading operation of the processed workpiece is completed through the mutual matching of the parts inside the unloading mechanism 3.
Please refer to fig. 1-2, the calibration mechanism 2 includes a first motor 201, a first transmission column 202, a first sliding screw rod 203, a first sliding block 204, a second motor 205, a second transmission column 206, a second sliding screw rod 207, a support column 208 and a processing platform 209, the first motor 201 is located at one end of the device body 1, the first transmission column 202 is located at one end of the first motor 201 and penetrates into the device body 1, the first sliding screw rod 203 is located inside the device body 1 and is located at one end of the first transmission column 202, the first sliding block 204 is located at the top end of the device body 1 and penetrates into the device body 1 to be sleeved with the outer wall of the first sliding screw rod 203, the second motor 205 is located inside the device body 1 and is located at one side of the first sliding block 204, the second transmission column 206 is located at one side of the second motor 205 and penetrates into the first sliding block 204, no. two sliding screw 207 are located the inside of sliding block 204, and are located No. two transmission post 206 and keep away from the one side of No. two motor 205, and support column 208 is located the top of sliding block 204 to run through to the inside of sliding block 204 and cup joint with the outer wall of No. two sliding screw 207, and processing platform 209 is located the top of support column 208.
In this embodiment: the workpiece is transported on the processing platform 209 through the material transporting transmission driver 101, the first motor 201 is started to drive the first transmission column 202 to rotate, the transmission column 202 rotates to drive the first sliding screw rod 203 to rotate, the first sliding screw rod 203 rotates to drive the first sliding block 204 to move in the equipment main body 1, the second motor 205 is started to drive the second transmission column 206 to rotate, the second transmission column 206 rotates to drive the second sliding screw rod 207 to rotate, the second sliding screw rod 207 rotates to drive the supporting block 208 to move in the first sliding block 204, the supporting block 208 moves to drive the processing platform 209 at the top end to move, the processing platform 209 moves to drive the workpiece to align with the processing mold 103, and the calibration of the workpiece and the processing mold 103 can be completed.
Please refer to fig. 2 to 4, the discharging mechanism 3 includes a supporting block 301, a first electric telescopic rod 302, a second electric telescopic rod 303, a material pushing plate 304, a movable column 305, a contracting spring 306, a restoring column 307, a limiting plate 308, a restoring spring 309, and a material discharging plate 310, wherein the supporting block 301 is located at the top end of the main body 1 of the apparatus and located at one end of the processing platform 209, the first electric telescopic rod 302 is located at one end of the supporting block 301 close to the processing platform 209, the second electric telescopic rod 303 is located at one end of the supporting block 301 and located above the first electric telescopic rod 302, the material pushing plate 304 is located at one end of the second electric telescopic rod 303 far from the supporting block 301, the movable column 305 is located at one end of the supporting column 208 and penetrates into the supporting column 208, the contracting spring 306 is located at one end of the movable column 305 penetrating into the supporting column 208, the restoring column 307 is located inside the supporting column 208 and located at the top end of the movable column 305, the limiting plate 308 is located at one end of the reset column 307, the reset spring 309 is located at the top end of the limiting plate 308, and the discharging plate 310 is located at the top end of the processing platform 209 and penetrates through the processing platform 209 to be connected with the reset column 307.
In this embodiment: the first electric telescopic rod 302 on one side of the supporting block 301 is started to move and extrude the movable column 305, the movable column 305 extrudes the contraction spring 306 to contract to drive the movable column 305 to move, the movable column 305 moves and extrudes the reset column 307, the reset column 307 drives the limiting plate 308 on one side to extrude the contraction spring 309 to contract to drive the limiting plate 308 to move, the limiting plate 308 moves to drive the reset column 307 to move, the reset column 307 moves to drive the discharge plate 310 to move, the discharge plate 310 moves to push a workpiece to move out of the processing platform 209, the second electric telescopic rod 303 is started to move to drive the push plate 304 to move, the push plate 304 moves to push the workpiece on the top end of the processing platform 209 to drop on the discharge plate 102, and the discharging operation of the processed workpiece can be completed.
Please refer to fig. 1-2, the first transmission column 202 is rotatably connected to the device body 1 through a bearing, a moving groove matched with the first sliding block 204 is arranged inside the device body 1, an external thread is arranged on the outer wall of the first sliding screw rod 203, and an internal thread matched with the external thread of the first sliding screw rod 203 is arranged on the inner wall of the first sliding block 204.
In this embodiment: a motor 201 is started to drive a transmission column 202 to rotate, the transmission column 202 rotates to drive a sliding screw rod 203 to rotate, the sliding screw rod 203 rotates to drive a sliding block 204 to move inside the equipment main body 1, and therefore the sliding block 204 can be driven to move inside the equipment main body 1.
Please refer to fig. 1-2, the second transmission column 206 is rotatably connected to the first sliding block 204 through a bearing, a movable groove matched with the second motor 205 is arranged inside the device main body 1, sliding blocks are arranged at two ends of the supporting column 208, and a moving groove matched with the supporting column 208 is arranged on the inner wall of the first sliding block 204.
In this embodiment: the second motor 205 is started to drive the second transmission column 206 to rotate, the second transmission column 206 drives the second sliding screw rod 207 to rotate, the second sliding screw rod 207 drives the supporting block 208 to move inside the first sliding block 204, the supporting block 208 moves to drive the processing platform 209 at the top end to move, and the processing platform 209 can be driven to move inside the first sliding block 204 through the supporting block 208.
Please refer to fig. 2-4, a placing groove matched with the workpiece is arranged inside the processing platform 209, a material pushing groove matched with the processing platform 209 is arranged on the outer surface of the movable column 305, and a telescopic groove matched with the first electric telescopic rod 302 and the second electric telescopic rod 303 is arranged inside the supporting block 301.
In this embodiment: starting the first electric telescopic rod 302 and the second electric telescopic rod 303, moving the first electric telescopic rod 302 to extrude the movable column 305, moving the second electric telescopic rod 303 to drive the material pushing plate 304 to move, and pushing the processed workpiece to move.
Please refer to fig. 2-4, a sliding groove matching with the movable column 305 is disposed inside the supporting column 208, a retracting groove matching with the retracting spring 306 is disposed inside the supporting column 208, and a resetting groove matching with the resetting column 307 is disposed inside the supporting column 208.
In this embodiment: the movable column 305 extrudes the contraction spring 306, the contraction spring 306 contracts to drive the movable column 305 to move, the movable column 305 moves to extrude the reset column 307, the reset column 307 drives the limiting plate 308 on one side to extrude the reset spring 309, the reset spring 309 contracts to drive the limiting plate 308 to move, the limiting plate 308 moves to drive the reset column 307 to move, the reset column 307 moves to drive the discharge plate 310 to move, and the discharge plate 310 moves to push out a processed workpiece from the inside of the processing platform 209.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.
Claims (7)
1. The utility model provides a CNC numerical control is from taking unloading mechanism processing equipment, its characterized in that includes:
the device comprises a device main body (1), wherein a material conveying belt (101) is arranged on one side of the device main body (1), a stripper plate (102) is arranged at one end of the device main body (1), and a processing mold (103) is arranged at the top end of the device main body (1);
the calibration mechanism (2) comprises a processing platform (209), wherein the calibration mechanism (2) is positioned at the top end of the equipment main body (1) and penetrates into the equipment main body (1) to drive the processing platform (209) and the processing die (103) to perform processing calibration operation;
the discharging mechanism (3) is located at the top end of the equipment main body (1) and at one end, far away from the discharging plate (102), of the equipment main body (1) and used for discharging the machined workpiece on the machining platform (209).
2. The CNC machining equipment with the feeding and discharging mechanism comprises the CNC machining equipment with the feeding and discharging mechanism, according to claim 1, wherein the calibration mechanism (2) comprises a first motor (201), a first transmission column (202), a first sliding screw rod (203), a first sliding block (204), a second motor (205), a second transmission column (206), a second sliding screw rod (207), a support column (208) and a machining platform (209), the first motor (201) is located at one end of the equipment main body (1), the first transmission column (202) is located at one end of the first motor (201) and penetrates through the inside of the equipment main body (1), the first sliding screw rod (203) is located inside the equipment main body (1) and located at one end of the first transmission column (202), the first sliding block (204) is located at the top end of the equipment main body (1) and penetrates through the inside of the equipment main body (1) and is sleeved with the outer wall of the first sliding screw rod (203), no. two motor (205) are located the inside of equipment main part (1), and are located one side of sliding block (204), No. two transmission post (206) are located one side of No. two motor (205) to run through the inside to sliding block (204), No. two slip lead screw (207) are located the inside of sliding block (204), and are located No. two transmission post (206) and keep away from one side of No. two motor (205), support column (208) are located the top of sliding block (204), and run through to the inside of sliding block (204) and cup joint with the outer wall of No. two slip lead screw (207), processing platform (209) are located the top of support column (208).
3. The CNC machining equipment with the self-feeding and discharging mechanism is characterized in that the discharging mechanism (3) comprises a supporting block (301), a first electric telescopic rod (302), a second electric telescopic rod (303), a material pushing plate (304), a movable column (305), a contraction spring (306), a reset column (307), a limiting plate (308), a reset spring (309) and a material discharging plate (310), the supporting block (301) is located at the top end of the equipment body (1) and located at one end of the machining platform (209), the first electric telescopic rod (302) is located at one end, close to the machining platform (209), of the supporting block (301), the second electric telescopic rod (303) is located at one end of the supporting block (301) and located above the first electric telescopic rod (302), and the material pushing plate (304) is located at one end, far away from the supporting block (301), of the second electric telescopic rod (303), the utility model discloses a processing platform, including activity post (305), shrink spring (306), limiting plate (308), reset spring (309), ejection of compact board (310), movable post (305) are located the one end of support column (208) to run through the inside to support column (208), shrink spring (306) are located movable post (305) and run through the inside one end that support column (208) are inside, reset post (307) are located the inside of support column (208), and are located the top of activity post (305), limiting plate (308) are located the one end of reset post (307), reset spring (309) are located the top of limiting plate (308), ejection of compact board (310) are located the top of processing platform (209), and run through to the inside of processing platform (209) and be connected with reset post (307).
4. The CNC machining equipment with the feeding and discharging mechanism comprises a CNC machining equipment with the feeding and discharging mechanism, and is characterized in that the first transmission column (202) is rotatably connected with the equipment main body (1) through a bearing, a moving groove matched with the first sliding block (204) is formed in the equipment main body (1), external threads are formed in the outer wall of the first sliding screw rod (203), and internal threads matched with the external threads of the first sliding screw rod (203) are formed in the inner wall of the first sliding block (204).
5. The CNC machining equipment with the feeding and discharging mechanism comprises a CNC machining equipment and is characterized in that a second transmission column (206) is rotatably connected with a first sliding block (204) through a bearing, a movable groove matched with a second motor (205) is formed in the equipment main body (1), sliding blocks are arranged at two ends of a supporting column (208), and a movable groove matched with the supporting column (208) is formed in the inner wall of the first sliding block (204).
6. The CNC machining equipment with the feeding and discharging mechanism comprises a machining platform (209), a placing groove matched with a workpiece is formed in the machining platform, a material pushing groove matched with the machining platform (209) is formed in the outer surface of the movable column (305), and telescopic grooves matched with a first electric telescopic rod (302) and a second electric telescopic rod (303) are formed in the supporting block (301).
7. The CNC machining equipment with the loading and unloading mechanism is characterized in that a sliding groove matched with a movable column (305) is formed in the supporting column (208), a contraction groove matched with a contraction spring (306) is formed in the supporting column (208), and a reset groove matched with a reset column (307) is formed in the supporting column (208).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122951886.6U CN216298678U (en) | 2021-11-29 | 2021-11-29 | CNC (computer numerical control) machining equipment with feeding and discharging mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122951886.6U CN216298678U (en) | 2021-11-29 | 2021-11-29 | CNC (computer numerical control) machining equipment with feeding and discharging mechanism |
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CN216298678U true CN216298678U (en) | 2022-04-15 |
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CN202122951886.6U Active CN216298678U (en) | 2021-11-29 | 2021-11-29 | CNC (computer numerical control) machining equipment with feeding and discharging mechanism |
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2021
- 2021-11-29 CN CN202122951886.6U patent/CN216298678U/en active Active
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