CN112355693B - Numerical control machining equipment with automatic material receiving and sending functions - Google Patents

Abstract

The invention relates to the technical field of numerical control machining, in particular to numerical control machining equipment with an automatic material receiving and sending function, which comprises a motor, wherein a blade is installed at the bottom of the motor, the motor is fixedly connected with the blade, a workbench is installed at the bottom of the blade, a base is installed at the bottom of the workbench and welded with the workbench, the back side of the base is welded with the motor, a controller is installed at one side of the base, the base and the controller are fixed through bolts, a fixing piece is installed inside the workbench and connected to the inside of the workbench in a sliding mode, and a conveying belt shell is installed at one side, away from the controller, of the base.

Description

Numerical control machining equipment with automatic material receiving and sending functions

Technical Field

The invention relates to the technical field of numerical control machining, in particular to numerical control machining equipment with an automatic material receiving and sending function.

Background

Numerical control machining, which is a machining method for machining parts on a numerical control machine tool, wherein the machining procedures of the numerical control machine tool and the traditional machine tool are consistent on the whole but obviously changed, the numerical control machining method for controlling the displacement of the parts and a cutter by using digital information is an effective way for solving the problems of variable part varieties, small batch, complex shape, high precision and the like and realizing high-efficiency and automatic machining, the numerical control machining refers to the machining which is carried out by using a control system to send instructions to enable the cutter to make various motions meeting the requirements, representing the technical requirements of the shape, the size and the like of a workpiece in the form of numbers and letters and the machining technological requirements, and generally refers to the technological process for machining the parts on the numerical control machine tool, and the numerical control machine tool is a machine tool controlled by a computer, a computer for controlling a machine tool, which is a general-purpose computer or a special-purpose computer, is generally called a numerical control system, the motion and auxiliary actions of the numerical control machine tool are controlled by instructions sent by the numerical control system, the instructions of the numerical control system are compiled by a programmer according to the material of a workpiece, machining requirements, the characteristics of the machine tool and an instruction format specified by the system, the numerical control system sends operation or termination information to a servo device and other functional components according to program instructions to control various motions of the machine tool, when a machining program of the part is finished, the machine tool is automatically stopped, any numerical control machine tool cannot work if no program instruction is input in the numerical control system, and the controlled actions of the machine tool generally comprise the starting and stopping of the machine tool; starting and stopping of the main shaft, and changing of the rotating direction and the rotating speed; direction, speed, manner of feed motion; selection of a cutter, compensation of length and radius; replacement of the tool, opening and closing of the coolant, etc.

However, after processing, the iron objects are taken out manually, so that potential safety hazards exist, and the fixation is troublesome, and the iron objects with different specifications are difficult to fix.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides the numerical control machining equipment with the automatic material receiving and sending function.

In order to achieve the purpose, the invention adopts the following technical scheme:

design a numerical control processing equipment with automatically, connect and send material function, including the motor, the blade is installed to the bottom of motor, motor and blade fixed connection, the workstation is installed to the bottom of blade, the base is installed to the bottom of workstation, base and workstation welding, the dorsal part and the motor welding of base, the controller is installed to one side of base, the base passes through the bolt fastening with the controller, the internally mounted of workstation has the mounting, mounting sliding connection is in the inside of workstation, the conveyer belt shell is installed to the base one side of keeping away from the controller, the support is installed to the bottom of conveyer belt shell, the conveyer belt shell passes through the bolt fastening with the support, the internally mounted of workstation has the second shifting chute, the internally mounted of workstation has the rotary disk, the rotary disk rotates and connects in the inside of workstation, the top of mounting installs the restriction piece, restriction piece sliding connection is in the inside of mounting, first gear is installed to the bottom of rotary disk, the second gear is installed to one side of first gear, first gear and second gear meshing, the internally mounted of workstation has the pinion rack, the pinion rack sliding connection is in the inside of workstation, the pinion rack meshes with the second gear, the third gear is installed to the one end of conveyer belt shell, the third gear is connected with the conveyer belt shell rotation, the surface mounting of third gear has the chain, the third gear meshes with the chain, the internally mounted of chain has the second rotary rod, second rotary rod and conveyer belt shell fixed connection, the connecting rod is installed at the top of chain, connecting rod and chain fixed connection, the mounting panel is installed at the top of connecting rod, the connecting rod is fixedly connected with the mounting plate, an ejector rod is installed on one side of the connecting rod, and the connecting rod is fixed with the ejector rod through a bolt.

Preferably, the workstation is the design of integral type with the second shifting chute, the axle cross sectional shape of workstation and second shifting chute combination is character cut in bas-relief, the inside of workstation corresponds the position of mounting and installs first shifting chute, the top sliding connection of mounting is in the inside of first shifting chute, the mounting matches with first shifting chute, first shifting chute is the design of integral type with the workstation.

Preferably, the inside of rotary disk corresponds the position of mounting and installs the extrusion groove, the bottom sliding connection of mounting is in the inside in extrusion groove, the extrusion groove is the integral type design with the rotary disk, the extrusion groove and mounting phase-match, the axial cross-sectional shape in extrusion groove is arc, first rotary rod is installed to the bottom of second gear, second gear and first rotary rod welding.

Preferably, the inside of workstation is installed with first fixture block, the workstation is the integral type design with first fixture block, first draw-in groove is installed to the inside position that corresponds first fixture block of pinion rack, first draw-in groove is the integral type design with the pinion rack, first draw-in groove and first fixture block phase-match, first fixture block sliding connection is in the inside of first draw-in groove, the internally mounted of first draw-in groove has first spring, the one end that first spring is close to first fixture block welds with first fixture block, the one end that first fixture block was kept away from to first spring welds with the pinion rack.

Preferably, the second fixture block is installed to bottom one side of restriction piece, the restriction piece is the integral type design with the second fixture block, the extension rod is installed at the top of second fixture block, the second fixture block welds with the extension rod, the internally mounted of extension rod has the recess, the extension rod is the integral type design with the recess, the axle sectional shape of recess is isosceles triangle, the drum is installed at the top of extension rod, drum and mounting fixed connection, the axle sectional shape of drum is ring shape, pop out the piece at the top of drum is installed, pop out the cross sectional shape of piece one end and be isosceles triangle.

Preferably, a second clamping groove is installed at a position, corresponding to a second clamping block, in the fixing part, the second clamping groove and the fixing part are designed in an integrated mode, the second clamping groove is matched with the second clamping block, the second clamping block is connected to the inside of the second clamping groove in a sliding mode, a second spring is installed in the second clamping groove, one end, close to the second clamping block, of the second spring is welded to the second clamping block, and one end, far away from the second clamping block, of the second spring is welded to the cylinder.

Preferably, the internally mounted of mounting panel has the electro-magnet, mounting panel and electro-magnet fixed connection, the wire is installed at the top of electro-magnet, the transmission piece is installed at the top that the electro-magnet passes through the wire, wire and transmission piece fixed connection, the power is installed at the top of wire, the transmission piece laminates with the power mutually.

Preferably, the spring is installed to the bottom of transmission piece, transmission piece and spring welding, the axle cross sectional shape of transmission piece is right trapezoid, the stripper bar is installed to one side of transmission piece, stripper bar sliding connection is in the inside of connecting rod, the axle cross sectional shape of stripper bar is right trapezoid, the extrusion piece is installed to the bottom of conveyer belt shell, the extrusion piece is the integral type design with the conveyer belt shell.

The invention provides numerical control processing equipment with an automatic material receiving and sending function, which has the beneficial effects that: extrude first fixture block through first spring, make first fixture block take the pinion rack to remove to the direction of keeping away from first gear, thereby make second gear antiport, thereby make first gear antiport, and first gear antiport takes rotary disk antiport, thereby make extrusion groove extrusion mounting, make the mounting remove in the inside of first shift groove, thereby add the iron article inside the mounting, then it is fixed with the workstation with the round hole on pinion rack surface through the cylinder, thereby make the mounting fixed, through dragging pop-up piece, remove the restriction piece, after reaching suitable position, loosen the pop-up piece, make the pop-up piece block into the inside of recess, thereby adjust the height of restriction piece, conveniently process, take out the cylinder of pinion rack and workstation inside after processing, the third gear takes the chain to rotate, thereby make the connecting rod move, so that the ejector rod at one side of the connecting rod extrudes the toothed plate, the toothed plate drives the second gear to rotate, the first gear is driven to rotate, the clamping of the fixing piece on the iron object is relieved, the iron object slides downwards, the power supply is contacted with the transmission piece, the wire connects the electromagnet with the transmission piece, the electromagnet generates magnetic force, the iron object is adsorbed, the iron object reaches the position of the extrusion block through the rotation of the chain, the containing box is placed at the bottom of the extrusion block, the extrusion block extrudes the extrusion rod to move the extrusion rod, the extrusion rod extrudes the transmission piece, the transmission piece is conveniently separated from the power supply, the electromagnet loses magnetism, the iron object on the surface of the electromagnet falls into the containing box, the invention has reasonable design and ingenious structure, and can be fixed according to the size of the iron object through the mutual matching among the structures, the fixing is more convenient, the processed iron object does not need to be taken manually, the fixing is safer, the market competitiveness is good, and the iron object is worthy of recommendation.

Drawings

FIG. 1 is a schematic view of a numerical control machining apparatus with an automatic material receiving and sending function according to the present invention;

FIG. 2 is a top view of a workbench of a numerical control machining apparatus with an automatic material receiving and sending function according to the present invention;

FIG. 3 is a top cross-sectional view of a numerical control machining apparatus table with an automatic material receiving and feeding function according to the present invention;

FIG. 4 is a cross-sectional view of a workbench of a numerical control machining device with an automatic material receiving and sending function according to the present invention;

FIG. 5 is a connection diagram of a fixing member and a limiting block of a numerical control machining device with an automatic material receiving and sending function according to the present invention;

FIG. 6 is a connection diagram of a second gear and a toothed plate of the numerical control machining equipment with the automatic material receiving and sending function, which is provided by the invention;

FIG. 7 is a sectional view of a conveyor belt housing of a numerical control machining apparatus with an automatic material receiving and feeding function according to the present invention;

FIG. 8 is a connection diagram of a connecting rod and a mounting plate of a numerical control machining device with an automatic material receiving and sending function provided by the invention;

fig. 9 is a bottom view of a conveyor belt housing of a numerical control processing device with an automatic material receiving and sending function according to the present invention.

In the figure: 1. a motor; 2. a blade; 3. a fixing member; 4. a work table; 5. a controller; 6. a base; 7. a conveyor belt housing; 8. a support; 9. a first moving slot; 10. a second moving slot; 11. rotating the disc; 12. extruding a groove; 13. a limiting block; 14. a first gear; 15. a second gear; 16. a first rotating rod; 17. a toothed plate; 18. a first card slot; 19. a first spring; 20. a first clamping block; 21. a second fixture block; 22. an extension rod; 23. a groove; 24. a second card slot; 25. a second spring; 26. a cylinder; 27. popping up a block; 28. a third gear; 29. a connecting rod; 30. a top rod; 31. an electromagnet; 32. a chain; 33. a second rotating rod; 34. mounting a plate; 35. a wire; 36. a transfer member; 37. a power source; 38. an extrusion stem; 39. a spring; 40. and extruding the block.

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.

Referring to fig. 1-9, a numerical control processing device with automatic material receiving and sending functions comprises a motor 1, a blade 2 is installed at the bottom of the motor 1, the motor 1 is fixedly connected with the blade 2, a workbench 4 is installed at the bottom of the blade 2, the workbench 4 and a second moving groove 10 are designed in an integrated mode, the shaft section of the combination of the workbench 4 and the second moving groove 10 is in a concave shape, a first moving groove 9 is installed in the corresponding position of a fixing part 3 in the workbench 4, the top of the fixing part 3 is slidably connected in the first moving groove 9, the fixing part 3 is matched with the first moving groove 9, the first moving groove 9 and the workbench 4 are designed in an integrated mode, and suction is convenient.

The inside mounting of workstation 4 has first fixture block 20, workstation 4 is the integral type design with first fixture block 20, first draw-in groove 18 is installed to the inside position that corresponds first fixture block 20 of pinion rack 17, first draw-in groove 18 is the integral type design with pinion rack 17, first draw-in groove 18 and first fixture block 20 phase-match, first fixture block 20 sliding connection is in the inside of first draw-in groove 18, the internally mounted of first draw-in groove 18 has first spring 19, first spring 19 is close to the one end and the welding of first fixture block 20, the one end that first fixture block 20 was kept away from to first spring 19 welds with pinion rack 17, increase the stability of removal, and it is fixed more firm.

Base 6 is installed to the bottom of workstation 4, base 6 and workstation 4 welding, the dorsal part and the welding of motor 1 of base 6, controller 5 is installed to one side of base 6, base 6 passes through the bolt fastening with controller 5, the internally mounted of workstation 4 has mounting 3, second draw-in groove 24 is installed to the inside position that corresponds second fixture block 21 of mounting 3, second draw-in groove 24 is the integral type design with mounting 3, second draw-in groove 24 and second fixture block 21 phase-match, second fixture block 21 sliding connection is in the inside of second draw-in groove 24, the internally mounted of second draw-in groove 24 has second spring 25, the one end and the welding of second fixture block 21 that second spring 25 is close to second fixture block 21, the one end and the drum 26 welding that second fixture block 21 was kept away from to second spring 25, it is more convenient to make the installation.

Fixing piece 3 sliding connection is in the inside of workstation 4, base 6 is kept away from one side of controller 5 and is installed conveyer belt shell 7, support 8 is installed to the bottom of conveyer belt shell 7, conveyer belt shell 7 passes through the bolt fastening with support 8, the internally mounted of workstation 4 has second shifting chute 10, the internally mounted of workstation 4 has rotary disk 11, extrusion groove 12 is installed to the inside position that corresponds fixing piece 3 of rotary disk 11, the bottom sliding connection of fixing piece 3 is in the inside of extrusion groove 12, extrusion groove 12 is the integral type design with rotary disk 11, extrusion groove 12 and fixing piece 3 phase-match, the axle cross-sectional shape of extrusion groove 12 is arc, first rotary rod 16 is installed to the bottom of second gear 15, second gear 15 and the welding of first rotary rod 16, it is more convenient to make fixed, and it is more stable to remove.

The rotating disc 11 is rotatably connected inside the workbench 4, the limiting block 13 is installed at the top of the fixing piece 3, the second clamping block 21 is installed on one side of the bottom of the limiting block 13, the limiting block 13 and the second clamping block 21 are designed in an integrated mode, the extension rod 22 is installed at the top of the second clamping block 21, the second clamping block 21 is welded with the extension rod 22, a groove 23 is installed inside the extension rod 22, the extension rod 22 and the groove 23 are designed in an integrated mode, the shaft section of the groove 23 is isosceles triangle, the cylinder 26 is installed at the top of the extension rod 22, the cylinder 26 is fixedly connected with the fixing piece 3, the shaft section of the cylinder 26 is circular ring-shaped, the pop-up block 27 is installed at the top of the cylinder 26, the cross section of one end of the pop-up block 27 is isosceles triangle, the stability of movement is improved, and the fixing is more convenient.

The limiting block 13 is slidably connected inside the fixing element 3, the first gear 14 is installed at the bottom of the rotating disc 11, the second gear 15 is installed at one side of the first gear 14, the first gear 14 is meshed with the second gear 15, the toothed plate 17 is installed inside the workbench 4, the toothed plate 17 is slidably connected inside the workbench 4, the toothed plate 17 is meshed with the second gear 15, the third gear 28 is installed at one end of the conveyor belt housing 7, the third gear 28 is rotatably connected with the conveyor belt housing 7, the chain 32 is installed on the outer surface of the third gear 28, the third gear 28 is meshed with the chain 32, the second rotating rod 33 is installed inside the chain 32, the second rotating rod 33 is fixedly connected with the conveyor belt housing 7, the connecting rod 29 is installed at the top of the chain 32, the connecting rod 29 is fixedly connected with the chain 32, the mounting plate 34 is installed at the top of the connecting rod 29, the electromagnet 31 is installed inside the mounting plate 34, the mounting plate 34 is fixedly connected with the electromagnet 31, the wire 35 is installed at the top of the electromagnet 31, the transmission piece 36 is installed at the top of the electromagnet 35, the transmission piece is fixedly connected with the transmission piece 36, and the power supply 37 is installed at the top of the wire 35, and the stability of the mobile power supply is increased.

Spring 39 is installed to the bottom of transmission piece 36, transmission piece 36 and spring 39 welding, the axle cross sectional shape of transmission piece 36 is right trapezoid, extrusion stem 38 is installed to one side of transmission piece 36, extrusion stem 38 sliding connection is in the inside of connecting rod 29, extrusion stem 38's axle cross sectional shape is right trapezoid, extrusion block 40 is installed to the bottom of conveyer belt shell 7, extrusion block 40 is the integral type design with conveyer belt shell 7, it is more convenient to make the removal, and it is more stable to remove.

The connecting rod 29 is fixedly connected with the mounting plate 34, the ejector rod 30 is installed on one side of the connecting rod 29, and the connecting rod 29 and the ejector rod 30 are fixed through bolts.

The working principle is as follows: the first latch 20 is pressed by the first spring 19, so that the first latch 20 carries the toothed plate 17 to move in a direction away from the first gear 14, thereby reversely rotating the second gear 15, and thus the first gear 14, and reversely rotating the first gear 14 with the rotating disk 11 reversely rotated, thereby causing the pressing groove 12 to press the fixing member 3, causing the fixing member 3 to move inside the first moving groove 9, thereby holding the iron object inside the fixing member 3, then the circular hole on the surface of the toothed plate 17 is fixed with the worktable 4 through a cylinder, so that the fixing piece 3 is fixed, by pulling the ejector 27, moving the limit piece 13, and after reaching the appropriate position, releasing the ejector 27, allowing the ejector 27 to snap into the interior of the groove 23, thereby adjusting the height of the limiting block 13, facilitating the processing, taking out the toothed plate 17 and the cylinder inside the workbench 4 after the processing, driving the chain 32 to rotate by the third gear 28, thereby moving the connecting rod 29, so that the push rod 30 at one side of the connecting rod 29 presses the tooth plate 17, the tooth plate 17 rotates with the second gear 15, thereby carrying the first gear 14 to rotate, thereby releasing the clamping of the fixing member 3 to the ferrous object, the ferrous object slides down, and the power source 37 is in contact with the transmitting member 36, the wire 35 connects the electromagnet 31 with the transmitting member 36, so that the electromagnet 31 generates a magnetic force to attract the iron object, and the iron object reaches the position of the pressing block 40 by the rotation of the chain 32, the containing box is placed at the bottom of the extrusion block 40, the extrusion block 40 extrudes the extrusion rod 38, the extrusion rod 38 moves, thereby causing the pressing rod 38 to press the transferring member 36, facilitating the separation of the transferring member 36 from the power source 37, thereby making electro-magnet 31 lose magnetism, the iron thing on electro-magnet 31 surface drops inside the containing box.

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 technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the novel concept thereof should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides a numerical control processing equipment with automatically, connect material feeding function, includes motor (1), its characterized in that, blade (2) are installed to the bottom of motor (1), motor (1) and blade (2) fixed connection, workstation (4) are installed to the bottom of blade (2), base (6) are installed to the bottom of workstation (4), base (6) and workstation (4) welding, the dorsal part and motor (1) welding of base (6), controller (5) are installed to one side of base (6), base (6) and controller (5) pass through the bolt fastening, the internally mounted of workstation (4) has mounting (3), mounting (3) sliding connection is in the inside of workstation (4), one side that controller (5) was kept away from in base (6) is installed conveyer belt shell (7), support (8) are installed to the bottom of conveyer belt shell (7), conveyer belt shell (7) and support (8) pass through fixed bolt, the internally mounted of workstation (4) has second movable trough (10), workstation (4) movable trough (11) are installed in movable table (11), and rotary table (11) top rotating block (13), the limiting block (13) is slidably connected in the inside of the fixing part (3), the first gear (14) is installed at the bottom of the rotating disc (11), the second gear (15) is installed at one side of the first gear (14), the first gear (14) is meshed with the second gear (15), the toothed plate (17) is installed inside the workbench (4), the toothed plate (17) is slidably connected in the inside of the workbench (4), the toothed plate (17) is meshed with the second gear (15), the third gear (28) is installed at one end of the conveyor belt housing (7), the third gear (28) is rotatably connected with the conveyor belt housing (7), the chain (32) is installed on the outer surface of the third gear (28), the third gear (28) is meshed with the chain (32), the second rotary rod (33) is installed inside the chain (32), the second rotary rod (33) is fixedly connected with the conveyor belt housing (7), the connecting rod (29) is installed at the top of the chain (32), the connecting rod (29) is fixedly connected with the chain (32), the mounting plate (29) is installed at one side of the connecting rod (29), and the ejector rod (34) is connected with the ejector pin (34), the connecting rod (29) and the ejector rod (30) are fixed through bolts.

2. The numerical control machining equipment with the automatic material receiving and sending function according to claim 1 is characterized in that the workbench (4) and the second moving groove (10) are designed in an integrated mode, the axial cross section of the combination of the workbench (4) and the second moving groove (10) is in a concave shape, a first moving groove (9) is installed in the position, corresponding to the fixing piece (3), of the inner portion of the workbench (4), the top of the fixing piece (3) is connected to the inner portion of the first moving groove (9) in a sliding mode, the fixing piece (3) is matched with the first moving groove (9), and the first moving groove (9) and the workbench (4) are designed in an integrated mode.

3. The numerical control machining equipment with the automatic material receiving and sending function according to claim 1 is characterized in that an extrusion groove (12) is installed in the rotating disc (11) at a position corresponding to the fixing piece (3), the bottom of the fixing piece (3) is slidably connected to the inside of the extrusion groove (12), the extrusion groove (12) and the rotating disc (11) are designed in an integrated mode, the extrusion groove (12) is matched with the fixing piece (3), the axial cross section of the extrusion groove (12) is in a circular arc shape, a first rotating rod (16) is installed at the bottom of the second gear (15), and the second gear (15) is welded with the first rotating rod (16).

4. The numerical control machining equipment with the automatic material receiving and sending function according to claim 1 is characterized in that a first clamping block (20) is installed inside the workbench (4), the workbench (4) and the first clamping block (20) are designed in an integrated manner, a first clamping groove (18) is installed inside the toothed plate (17) at a position corresponding to the first clamping block (20), the first clamping groove (18) and the toothed plate (17) are designed in an integrated manner, the first clamping groove (18) is matched with the first clamping block (20), the first clamping block (20) is connected inside the first clamping groove (18) in a sliding manner, a first spring (19) is installed inside the first clamping groove (18), one end, close to the first clamping block (20), of the first spring (19) is welded to the first clamping block (20), and one end, far away from the first clamping block (20), of the first spring (19) is welded to the toothed plate (17).

5. The numerical control machining equipment with the automatic material receiving and sending function according to claim 1 is characterized in that a second clamping block (21) is installed on one side of the bottom of the limiting block (13), the limiting block (13) and the second clamping block (21) are designed in an integrated mode, an extending rod (22) is installed at the top of the second clamping block (21), the second clamping block (21) is welded with the extending rod (22), a groove (23) is installed inside the extending rod (22), the extending rod (22) and the groove (23) are designed in an integrated mode, the shaft section of the groove (23) is in an isosceles triangle shape, a cylinder (26) is installed at the top of the extending rod (22), the cylinder (26) is fixedly connected with the fixing piece (3), the shaft section of the cylinder (26) is in an annular shape, an ejecting block (27) is installed at the top of the cylinder (26), and the section of one end of the ejecting block (27) is in an isosceles triangle shape.

6. The numerical control machining device with the automatic material receiving and sending function according to claim 5, wherein a second clamping groove (24) is installed in the fixing member (3) at a position corresponding to the second clamping block (21), the second clamping groove (24) and the fixing member (3) are designed in an integrated manner, the second clamping groove (24) is matched with the second clamping block (21), the second clamping block (21) is slidably connected to the inside of the second clamping groove (24), a second spring (25) is installed in the second clamping groove (24), one end, close to the second clamping block (21), of the second spring (25) is welded to the second clamping block (21), and one end, far away from the second clamping block (21), of the second spring (25) is welded to the cylinder (26).

7. The numerical control machining equipment with the automatic material receiving and sending function of claim 1, characterized in that, internally mounted of mounting panel (34) has electro-magnet (31), mounting panel (34) and electro-magnet (31) fixed connection, wire (35) are installed at the top of electro-magnet (31), transmission piece (36) is installed through the top of wire (35) in electro-magnet (31), wire (35) and transmission piece (36) fixed connection, power (37) are installed at the top of wire (35), transmission piece (36) and power (37) laminate mutually.

8. The numerical control machining equipment with the automatic material receiving and sending function according to claim 7 is characterized in that a spring (39) is installed at the bottom of the transfer piece (36), the transfer piece (36) is welded with the spring (39), the axial section of the transfer piece (36) is in a right trapezoid shape, an extrusion rod (38) is installed on one side of the transfer piece (36), the extrusion rod (38) is connected to the inside of the connecting rod (29) in a sliding mode, the axial section of the extrusion rod (38) is in a right trapezoid shape, an extrusion block (40) is installed at the bottom of the conveyor belt shell (7), and the extrusion block (40) and the conveyor belt shell (7) are designed in an integrated mode.

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