CN113021000B - A integrative equipment of polishing of cutting for mirror holder - Google Patents

Abstract

The invention relates to a mirror bracket cutting device, in particular to a cutting and polishing integrated device for a mirror bracket, which comprises a cutting and grinding mechanism and a feeding and feeding mechanism, wherein the cutting and grinding mechanism can supply wires, the cutting and polishing integrated device can pull the wires and finish cutting and loosening the wires, the cutting and polishing integrated device can smoothly discharge materials, the cutting and grinding mechanism can finish collecting burrs polished by using discharging power, and the cutting and grinding mechanism is connected with the feeding and feeding mechanism.

Description

A cutting integrative equipment of polishing for mirror holder

Technical Field

The invention relates to a mirror bracket cutting device, in particular to a cutting and polishing integrated device for a mirror bracket.

Background

In mirror holder production, the former material wire rod of mirror holder need cut, produces the burr during the cutting easily, and this problem of solution that traditional technical means can not be fine needs polish alone, so designed a cutting integrative equipment of polishing for the mirror holder.

Disclosure of Invention

The invention mainly solves the technical problem of providing cutting and polishing integrated equipment for a mirror bracket, wherein the equipment can supply wires, pull the wires and finish cutting and loosening the wires, smoothly discharge the materials, and finish collecting polished burrs by using discharge power.

In order to solve the technical problem, the invention relates to a mirror bracket cutting device, in particular to a cutting and polishing integrated device for a mirror bracket.

The cutting and grinding mechanism is connected with the feeding mechanism.

As a further optimization of the technical scheme, the cutting and grinding mechanism of the cutting and grinding integrated equipment for the spectacle frame comprises a primary support frame, a cutting knife, a grinding plate, a knife holder, a movable shell, a transverse support rod, a lateral movement reset spring, a motor base, a motor, a coupling, a motor I, a belt shaft eccentric wheel, a belt shaft cam, a matching base, a reset spring, a connecting rod, a matching hole and a matching hole I, wherein the primary support frame is connected with the transverse support rod, the cutting knife is connected with the grinding plate, the cutting knife is connected with the knife holder, the knife holder is propped against the movable shell, the movable shell is provided with the matching hole I, the matching hole I is in sliding connection with the transverse support rod, the lateral movement reset spring is sleeved on the transverse support rod, one end of the lateral movement reset spring is connected with the movable shell, the other end of the lateral movement reset spring is connected with the primary support frame, the movable shell is connected with the motor base, and the motor base is connected with the motor, the motor links to each other with the shaft coupling, the shaft coupling links to each other with the belt shaft cam, the belt shaft cam rotates with movable housing to be connected, motor I links to each other with movable housing, motor I links to each other with the belt shaft eccentric wheel, the belt shaft eccentric wheel rotates with movable housing to be connected, the belt shaft cam contacts with the cooperation seat, the cooperation seat links to each other with the connecting rod, connecting rod and mating holes sliding connection, the mating holes sets up on movable housing, the connecting rod links to each other with the blade holder, reset spring overlaps on the connecting rod, the reset spring both ends are connected respectively on cooperation seat and movable housing.

As a further optimization of the technical scheme, the feeding and feeding mechanism of the cutting and polishing integrated equipment for the spectacle frame comprises a base, a platform with supporting legs, an inlet pipe, a pressure box, an ejection pipe, a connecting port, a secondary support, a wire inlet motor, a shaft disc, a threaded sleeve, a perforated deviation preventing seat, a supporting frame, a servo motor, a threaded hole movable seat, a wide track, a narrow track, a lead screw, a wide track I, a connecting seat, a limiting column, a reset spring I, a sliding hopper, a shaft eccentric wheel I, a vibration motor, a sliding cavity I, a telescopic air bag, a limiting column I, a pulley with a seat, a square column, a clamping plate, a supporting spring, an optical hole, an ejection one-way valve, a suction one-way valve and a sliding cavity II, wherein the base is connected with the platform with the supporting legs, the platform with the supporting legs is connected with the primary supporting frame, the inlet pipe is connected with the pressure box and communicated with the platform with the supporting legs, the pressure box is connected and communicated with the ejection pipe, a connecting port is arranged on a platform with supporting legs, an inlet pipe is inserted into the connecting port, the platform with supporting legs is connected with a secondary support, the secondary support is connected with a wire inlet motor, the wire inlet motor is connected with a shaft disc with a screw, the shaft disc with the screw is rotatably connected with the secondary support, the shaft disc with a hole is in threaded connection with a threaded sleeve, a deviation preventing seat with a hole is connected with the platform with supporting legs, a support frame is connected with the platform with supporting legs, a servo motor is connected with the support frame, a movable seat with a threaded hole is in threaded connection with a lead screw, a wide track, a narrow track and a wide track I are arranged on the support frame, the lead screw is rotatably connected with the support frame, the connecting seat is connected with the platform with supporting legs, the connecting seat is connected with a limiting column, a reset spring I is sleeved on the limiting column, two ends of the reset spring I are respectively connected with a sliding hopper and the connecting seat, an eccentric wheel I with a sliding hopper is rotatably connected with a vibrating motor, shock dynamo links to each other with the slip fill, slip chamber one sets up on the slip fill, flexible gasbag links to each other with the slip fill, flexible gasbag links to each other and communicates with the pressure tank, spacing post I links to each other with the support frame, spacing post I and threaded hole sliding seat sliding connection, the pulley of taking the seat contacts with the support frame, the pulley of taking the seat links to each other with the square column, the square column links to each other with the grip block, square column and grip block all with two sliding connection in slip chamber, slip chamber two sets up on the threaded hole sliding seat, supporting spring links to each other with the grip block, the unthreaded hole sets up on the slip fill, unthreaded hole and spacing post sliding connection, the setting of blowout check valve is intraductal in the blowout, the setting of suction check valve is intraductal in the admission pipe.

As a further optimization of the technical scheme, the cutting knife of the cutting and polishing integrated equipment for the spectacle frame is made of stainless steel.

The cutting and polishing integrated equipment for the mirror bracket has the beneficial effects that:

according to the cutting and polishing integrated equipment for the mirror bracket, wires can be supplied by the equipment, the equipment can pull the wires and complete cutting and loosening, the equipment can smoothly discharge materials, and the equipment can complete collection of polished burrs by using discharging power.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first structural schematic diagram of a cutting and polishing integrated device for a spectacle frame according to the invention.

Fig. 2 is a schematic structural diagram of a cutting and polishing integrated device for a mirror bracket according to the present invention.

Fig. 3 is a third structural schematic diagram of the cutting and polishing integrated device for the spectacle frame.

Fig. 4 is a fourth structural schematic diagram of the cutting and grinding integrated device for the spectacle frame.

Fig. 5 is a first structural schematic diagram of a cutting and grinding mechanism 1 of the cutting and grinding integrated device for the spectacle frame.

Fig. 6 is a second structural schematic diagram of a cutting and grinding mechanism 1 of the cutting and grinding integrated device for a spectacle frame according to the present invention.

Fig. 7 is a third schematic structural diagram of a cutting and grinding mechanism 1 of the cutting and grinding integrated device for a spectacle frame according to the present invention.

Fig. 8 is a first structural schematic diagram of a feeding mechanism 2 of the integrated cutting and polishing device for spectacle frames.

Fig. 9 is a second structural schematic diagram of the feeding mechanism 2 of the integrated cutting and polishing device for spectacle frames according to the present invention.

Fig. 10 is a third schematic structural diagram of a feeding mechanism 2 of the integrated cutting and grinding device for spectacle frames.

Fig. 11 is a fourth schematic structural diagram of a feeding mechanism 2 of the integrated cutting and polishing device for spectacle frames.

Fig. 12 is a schematic structural diagram five of a feeding mechanism 2 of the integrated cutting and polishing device for spectacle frames.

In the figure: a cutting and grinding mechanism 1; a primary support frame 1-1; 1-2 of a cutting knife; a grinding plate 1-3; 1-4 of a tool apron; 1-5 of a movable shell; 1-6 transverse supporting rods; a lateral shifting reset spring 1-7; 1-8 of a motor base; 1-9 of a motor; 1-10 parts of a coupler; motor I1-11; eccentric wheel with shaft 1-12; 1-13 of cam with shaft; 1-14 of a matching seat; 1-15 of a return spring; connecting rods 1-16; 1-17 of a matching hole; the matching hole I1-18; a feeding mechanism 2; a base 2-1; a platform 2-2 with support legs; an inlet pipe 2-3; 2-4 of a pressure tank; an ejection pipe 2-5; connecting ports 2-6; 2-7 of secondary support; 2-8 of a wire inlet motor; 2-9 of a reel with a shaft; 2-10 parts of a threaded sleeve; 2-11 parts of a porous deviation-preventing seat; 2-12 of a support frame; 2-13 of servo motor; 2-14 of a movable seat with a threaded hole; 2-15 parts of wide track; narrow tracks 2-16; 2-17 parts of a lead screw; wide rail I2-18; 2-19 parts of a connecting seat; 2-20 parts of a limiting column; a return spring I2-21; 2-22 of a sliding bucket; eccentric wheel with shaft I2-23; 2-24 of a vibration motor; 2-25 of a sliding cavity I; 2-26 of a telescopic air bag; a limiting column I2-27; 2-28 pulley with seat; 2-29 of square column; 2-30 parts of a clamping plate; supporting springs 2-31; 2-32 of a light hole; 2-33 of a jet check valve; suction check valves 2-34; and 2-35 sliding cavities.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present invention relates to a frame cutting device, and more specifically, to a cutting and polishing integrated device for a frame, which includes a cutting and polishing mechanism 1 and a feeding and feeding mechanism 2, wherein the device is capable of supplying a wire, drawing the wire and completing cutting and releasing the wire, smoothly discharging the wire, and collecting the polished burrs by using a discharging power.

The cutting and grinding mechanism 1 is connected with the feeding mechanism 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the present embodiment, where the cutoff grinding mechanism 1 includes a primary support frame 1-1, a cutoff knife 1-2, a grinding plate 1-3, a knife holder 1-4, a movable housing 1-5, a traverse bar 1-6, a side shift return spring 1-7, a motor holder 1-8, a motor 1-9, a coupling 1-10, a motor I1-11, a shaft-equipped eccentric wheel 1-12, a shaft-equipped cam 1-13, a mating holder 1-14, a return spring 1-15, a connecting rod 1-16, a mating hole 1-17, and a mating hole I1-18, the primary support frame 1-1 is connected to the traverse bar 1-6, the cutting-off tool 1-2 is connected with the grinding plate 1-3, the cutting-off tool 1-2 is connected with the tool apron 1-4, the tool apron 1-4 is propped against the movable shell 1-5, the movable shell 1-5 is provided with a matching hole I1-18, the matching hole I1-18 is connected with the transverse supporting rod 1-6 in a sliding way, the lateral movement reset spring 1-7 is sleeved on the transverse supporting rod 1-6, one end of the lateral movement reset spring 1-7 is connected with the movable shell 1-5, the other end of the lateral movement reset spring 1-7 is connected with the first-level supporting frame 1-1, the movable shell 1-5 is connected with the motor base 1-8, the motor base 1-8 is connected with the motor 1-9, the motor 1-9 is connected with the coupler 1-10, the coupler 1-10 is connected with the cam with the shaft 1-13, the cam with the shaft 1-13 is rotatably connected with the movable shell 1-5, the motor I1-11 is connected with the movable shell 1-5, the motor I1-11 is connected with the eccentric wheel with the shaft 1-12, the eccentric wheel with the shaft 1-12 is rotatably connected with the movable shell 1-5, the cam with the shaft 1-13 is contacted with the matching seat 1-14, the matching seat 1-14 is connected with the connecting rod 1-16, the connecting rod 1-16 is slidably connected with the matching hole 1-17, the matching hole 1-17 is arranged on the movable shell 1-5, the connecting rod 1-16 is connected with the tool apron 1-4, the return spring 1-15 is sleeved on the connecting rod 1-16, and two ends of the return spring 1-15 are respectively connected with the matching seat 1-14 and the movable shell 1-5.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and the embodiment further describes the embodiment, where the feeding mechanism 2 includes a base 2-1, a platform 2-2 with legs, an inlet pipe 2-3, a pressure tank 2-4, an outlet pipe 2-5, a connection port 2-6, a secondary support 2-7, an inlet wire motor 2-8, a reel 2-9 with a shaft, a threaded sleeve 2-10, an anti-deviation seat with holes 2-11, a support frame 2-12, a servo motor 2-13, a movable seat with threaded holes 2-14, a wide track 2-15, a narrow track 2-16, a lead screw 2-17, a wide track I2-18, a connection seat 2-19, 2-20 parts of a limiting column, I2-21 parts of a reset spring, 2-22 parts of a sliding bucket, I2-23 parts of an eccentric wheel with a shaft, 2-24 parts of a vibration motor, 2-25 parts of a sliding cavity I, 2-26 parts of a telescopic air bag, I2-27 parts of a limiting column, 2-28 parts of a pulley with a seat, 2-29 parts of a square column, 2-30 parts of a clamping plate, 2-31 parts of a supporting spring, 2-32 parts of a light hole, 2-33 parts of an ejection one-way valve, 2-34 parts of an suction one-way valve and 2-35 parts of a sliding cavity, 2-1 parts of a base is connected with a platform with supporting legs 2-2, 2-2 parts of the platform with supporting legs is connected with a first-stage supporting frame 1-1, 2-3 parts of an inlet pipe is connected and communicated with 2-4 parts of a pressure tank, 2-4 parts of the pressure tank is connected and communicated with 2-5 parts of the platform with supporting legs, a connecting port 2-6 is arranged on a platform 2-2 with supporting legs, an inlet pipe 2-3 is inserted into the connecting port 2-6, the platform 2-2 with supporting legs is connected with a secondary support 2-7, the secondary support 2-7 is connected with an inlet wire motor 2-8, the inlet wire motor 2-8 is connected with a shaft disc 2-9, the shaft disc 2-9 is rotatably connected with the secondary support 2-7, the shaft disc 2-9 is in threaded connection with a threaded sleeve 2-10, a perforated deviation preventing seat 2-11 is connected with the platform 2-2 with supporting legs, a supporting frame 2-12 is connected with the platform 2-2 with supporting legs, a servo motor 2-13 is connected with the supporting frame 2-12, a movable seat 2-14 with threaded holes is in threaded connection with a screw rod 2-17, a wide rail 2-15, a narrow rail 2-16 and a wide rail I2-18 are all arranged on the supporting frame 2-12, the screw rod 2-17 is rotatably connected with the support frame 2-12, the connecting seat 2-19 is connected with the landing leg platform 2-2, the connecting seat 2-19 is connected with the limiting post 2-20, the return spring I2-21 is sleeved on the limiting post 2-20, two ends of the return spring I2-21 are respectively connected with the sliding bucket 2-22 and the connecting seat 2-19, the shaft-mounted eccentric wheel I2-23 is rotatably connected with the sliding bucket 2-22, the vibration motor 2-24 is connected with the shaft-mounted eccentric wheel I2-23, the vibration motor 2-24 is connected with the sliding bucket 2-22, the sliding cavity I2-25 is arranged on the sliding bucket 2-22, the telescopic air bag 2-26 is connected with the sliding bucket 2-22, the telescopic air bag 2-26 is connected and communicated with the pressure box 2-4, the limiting post I2-27 is connected with the support frame 2-12, the limiting column I2-27 is connected with the movable seat 2-14 with the threaded hole in a sliding way, the pulley 2-28 with the seat is contacted with the supporting frame 2-12, the pulley 2-28 with the seat is connected with the square column 2-29, the square column 2-29 is connected with the clamping plate 2-30, the square column 2-29 and the clamping plate 2-30 are both connected with the sliding cavity II 2-35 in a sliding way, the sliding cavity II 2-35 is arranged on the movable seat 2-14 with the threaded hole, the supporting spring 2-31 is connected with the clamping plate 2-30, the unthreaded hole 2-32 is arranged on the sliding bucket 2-22, the unthreaded hole 2-32 is connected with the limiting column 2-20 in a sliding way, the ejecting one-way valve 2-33 is arranged in the ejecting pipe 2-5, the sucking one-way valve 2-34 is arranged in the inlet pipe 2-3, before the equipment is used, sleeving a wire rod disc on a belt shaft disc 2-9, screwing a thread sleeve 2-10 to fix the wire rod disc, drawing the free end of the wire rod to pass through a perforated deviation prevention seat 2-11 and preventing the wire rod from being arranged between clamping plates 2-30, continuously supplying the wire rod, driving the belt shaft disc 2-9 to rotate through the operation of a wire inlet motor 2-8, driving the wire rod disc with a fixed column to rotate through the belt shaft disc 2-9, wherein the rotation direction is anticlockwise seen from the thread sleeve 2-10 to the wire inlet motor 2-8, continuously supplying the wire rod, driving a lead screw 2-17 to rotate through a servo motor 2-13, driving a movable seat 2-14 with a thread hole to move through the lead screw 2-17, and driving a pulley 2-28 with a seat to move through the movable seat 2-14 with a thread hole, when the wide track 2-15 moves to the narrow track 2-16, the pulley 2-28 with the seat is extruded to drive the clamping plates 2-30 at the two sides to approach each other through the clamping plates 2-30, so that the wire is clamped and dragged, the wire moves towards the direction of the wide track I2-18 along with the clamping plates 2-30, then the motor 1-9 is operated to drive the coupler 1-10 to rotate for a half circle, the coupler 1-10 drives the cam 1-13 with the shaft to rotate, the cam 1-13 with the shaft presses the matching seat 1-14 downwards for a half circle, the matching seat 1-14 drives the cutter seat 1-4 to move downwards through the connecting rod 1-16, and the cutter seat 1-4 drives the cutting cutter 1-2 to move downwards to cut the wire, the grinding plate 1-3 can grind burrs generated by cutting in the cutting process, the running motor I1-11 can run to drive the eccentric wheel 1-12 with a shaft to rotate to form centrifugal force, the movable shell 1-5 can transversely reciprocate under the matching of the centrifugal force and the lateral movement return spring 1-7, so that the grinding plate 1-3 can transversely move to grind the burrs possibly existing in the transverse direction, the burrs are removed, at the moment, the pulley 2-28 with a seat moves to the wide track I2-18, the compressed support spring 2-31 can rebound, the clamping plate 2-30 is mutually far away, the ground wire is loosened, the wire falls down, then the servo motor 2-13 reversely runs to drive the movable seat 2-14 with a threaded hole to reset, the next clamping is facilitated, the eccentric wheel I2-23 with the shaft is driven to rotate by the running of the vibration motor 2-24, the rotation of the eccentric wheel I2-23 with the shaft can form a polarization force, and the sliding buckets 2-22 can reciprocate under the coordination of the polarization force and the return spring I2-21, so that the fallen wires can move smoothly, and the collection and the treatment of the subsequent process are facilitated; the equipment can collect the polished burrs by using discharge power, and the sliding buckets 2-22 can drive the telescopic air bags 2-26 to stretch and reset when reciprocating, so that pressure difference change in the pressure tank 2-4 can be caused, the burrs are sucked into the pressure tank 2-4 from the inlet pipe 2-3 through the suction one-way valves 2-34, then the burrs are pressurized and then flushed out of the ejection one-way valves 2-33 and ejected out of the ejection pipes 2-5, and accordingly burr scraps are prevented from being stopped on the landing leg platform 2-2 to influence subsequent process operation.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described with reference to the present embodiment, in which the cutting blade 1-2 is made of stainless steel.

The working principle of the device is as follows: the equipment can supply wires, before the equipment is used, the wire rod plate is sleeved on the spool plate 2-9, then the thread bush 2-10 is screwed to fix the wire rod plate, then the free end of the wire rod is pulled to pass through the hole deviation preventing seat 2-11 and is prevented from being arranged between the clamping plates 2-30, the subsequent continuous supply of the wire rod drives the spool plate 2-9 to rotate through the operation of the wire inlet motor 2-8, the spool plate 2-9 can drive the wire rod plate with the fixed column to rotate, the rotating direction is anticlockwise when the wire rod plate is seen from the thread bush 2-10 to the wire inlet motor 2-8, and therefore the wire rod can be continuously supplied; the equipment can draw wires and finish cutting and loosening the wires, the servo motor 2-13 is operated to drive the screw rod 2-17 to rotate, the screw rod 2-17 can drive the movable seat 2-14 with the threaded hole to move, the movable seat 2-14 with the threaded hole can drive the pulley 2-28 with the seat to move, when the wide track 2-15 moves to the narrow track 2-16, the pulley 2-28 with the seat is extruded to drive the clamping plates 2-30 at two sides to approach each other through the clamping plates 2-30, so that the wires are clamped and simultaneously dragged, the wires can move along with the clamping plates 2-30 to the direction of the wide track I2-18, then the motor 1-9 is operated to drive the coupler 1-10 to rotate for half cycle, and the coupler 1-10 can drive the cam 1-13 with the shaft to rotate, the cam 1-13 with the shaft rotates for half circle to press the matching seat 1-14 downwards, the matching seat 1-14 drives the tool apron 1-4 to move downwards through the connecting rod 1-16, the tool apron 1-4 drives the cutting tool 1-2 to move downwards to cut off the wire, the grinding plate 1-3 can grind burrs generated by cutting in the cutting process, the motor I1-11 is operated to drive the eccentric wheel 1-12 with the shaft to rotate to form centrifugal force, the movable shell 1-5 can do transverse reciprocating motion under the matching of the centrifugal force and the lateral shifting return spring 1-7, so that the grinding plate 1-3 can do transverse motion to grind the burrs possibly existing in the transverse direction, the burrs are removed, and at the moment, when the pulley 2-28 with the seat moves to the wide track I2-18, the compressed support spring 2-31 can rebound, the clamping plates 2-30 are far away from each other, so that the ground wire is loosened and falls down, and then the servo motors 2-13 are operated in a reverse direction to drive the movable seats 2-14 with the threaded holes to reset, so that the next clamping is facilitated; the device can discharge materials smoothly, the vibration motors 2-24 operate to drive the eccentric wheels I2-23 with shafts to rotate, the eccentric wheels I2-23 with shafts rotate to form a polarization force, and the sliding buckets 2-22 reciprocate under the coordination of the polarization force and the return springs I2-21, so that dropped wires move smoothly, and collection and subsequent process treatment are facilitated; the equipment can collect the burrs polished by using discharge power, the sliding buckets 2-22 can drive the telescopic air bags 2-26 to stretch and reset when reciprocating, so that the pressure difference in the pressure box 2-4 can be changed, the burrs are sucked into the pressure box 2-4 from the inlet pipe 2-3 through the suction one-way valves 2-34 and then are pressurized, the ejection one-way valves 2-33 are opened and ejected from the ejection pipes 2-5, and accordingly burr scraps are prevented from stopping on the platform 2-2 with the supporting legs to influence the subsequent process operation.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides an integrative equipment of cutting and polishing for mirror holder, is including cutting off grinding mechanism (1), feed feeding mechanism (2), its characterized in that: the cutting and grinding mechanism (1) is connected with the feeding mechanism (2);

the cutting and grinding mechanism (1) comprises a primary support frame (1-1), a cutting knife (1-2), a grinding plate (1-3), a knife holder (1-4), a movable shell (1-5), a transverse supporting rod (1-6), a lateral shifting reset spring (1-7), a motor base (1-8), a motor (1-9), a coupler (1-10), a motor I (1-11), a shaft-carrying eccentric wheel (1-12), a shaft-carrying cam (1-13), a matching base (1-14), a reset spring (1-15), a connecting rod (1-16), a matching hole (1-17) and a matching hole I (1-18), wherein the primary support frame (1-1) is connected with the transverse supporting rod (1-6), the cutting knife (1-2) is connected with the grinding plate (1-3), the cutting knife (1-2) is connected with the knife holder (1-4), the knife holder (1-4) is propped against the movable shell (1-5), the movable shell (1-5) is provided with a matching hole I (1-18), the matching hole I (1-18) is in sliding connection with the transverse supporting rod (1-6), the lateral movement reset spring (1-7) is sleeved on the transverse supporting rod (1-6), one end of the lateral movement reset spring (1-7) is connected on the movable shell (1-5), the other end of the lateral movement reset spring (1-7) is connected on the first-level supporting frame (1-1), the movable shell (1-5) is connected with the motor base (1-8), the motor base (1-8) is connected with the motor (1-9), the motor (1-9) is connected with the coupler (1-10), the shaft coupling (1-10) is connected with a cam with a shaft (1-13), the cam with a shaft (1-13) is rotationally connected with a movable shell (1-5), a motor I (1-11) is connected with the movable shell (1-5), the motor I (1-11) is connected with an eccentric wheel with a shaft (1-12), the eccentric wheel with a shaft (1-12) is rotationally connected with the movable shell (1-5), the cam with a shaft (1-13) is contacted with a matching seat (1-14), the matching seat (1-14) is connected with a connecting rod (1-16), the connecting rod (1-16) is slidably connected with a matching hole (1-17), the matching hole (1-17) is arranged on the movable shell (1-5), the connecting rod (1-16) is connected with a tool apron (1-4), the reset springs (1-15) are sleeved on the connecting rods (1-16), and two ends of the reset springs (1-15) are respectively connected to the matching seats (1-14) and the movable shell (1-5);

the feeding mechanism (2) comprises a base (2-1), a platform (2-2) with supporting legs, an inlet pipe (2-3), a pressure box (2-4), an ejection pipe (2-5), a connector (2-6), a secondary support (2-7), an inlet wire motor (2-8), a reel with a shaft (2-9), a threaded sleeve (2-10), a deviation preventing seat with holes (2-11), a support frame (2-12), a servo motor (2-13), a movable seat with threaded holes (2-14), a wide track (2-15), a narrow track (2-16), a lead screw (2-17), a wide track I (2-18), a connecting seat (2-19), a limiting column (2-20), a reset spring I (2-21), A sliding bucket (2-22), a belt shaft eccentric wheel I (2-23), a vibration motor (2-24), a sliding cavity I (2-25), a telescopic air bag (2-26), a limiting column I (2-27), a belt seat pulley (2-28), a square column (2-29), a clamping plate (2-30), a supporting spring (2-31), a unthreaded hole (2-32), a spraying one-way valve (2-33), a suction one-way valve (2-34) and a sliding cavity II (2-35), a base (2-1) is connected with a platform (2-2) with supporting legs, the platform (2-2) with supporting legs is connected with a primary supporting frame (1-1), an inlet pipe (2-3) is connected and communicated with a pressure box (2-4), the pressure box (2-4) is connected with the platform (2-2) with supporting legs, the pressure box (2-4) is connected and communicated with the ejection pipe (2-5), the connecting port (2-6) is arranged on the platform (2-2) with the supporting legs, the inlet pipe (2-3) is inserted into the connecting port (2-6), the platform (2-2) with the supporting legs is connected with the secondary support (2-7), the secondary support (2-7) is connected with the wire inlet motor (2-8), the wire inlet motor (2-8) is connected with the shaft disk (2-9), the shaft disk (2-9) is rotationally connected with the secondary support (2-7), the shaft disk (2-9) is in threaded connection with the threaded sleeve (2-10), the anti-deviation seat (2-11) with the holes is connected with the platform (2-2) with the supporting legs, the supporting frame (2-12) is connected with the platform (2-2) with the supporting legs, the servo motor (2-13) is connected with the support frame (2-12), the movable seat (2-14) with a threaded hole is in threaded connection with the lead screw (2-17), the wide track (2-15), the narrow track (2-16) and the wide track I (2-18) are all arranged on the support frame (2-12), the lead screw (2-17) is in rotational connection with the support frame (2-12), the connecting seat (2-19) is connected with the platform (2-2) with supporting legs, the connecting seat (2-19) is connected with the limiting column (2-20), the reset spring I (2-21) is sleeved on the limiting column (2-20), two ends of the reset spring I (2-21) are respectively connected with the sliding bucket (2-22) and the connecting seat (2-19), the eccentric wheel I (2-23) with a shaft is in rotational connection with the sliding bucket (2-22), the vibration motor (2-24) is connected with a belt shaft eccentric wheel I (2-23), the vibration motor (2-24) is connected with a sliding hopper (2-22), a sliding cavity I (2-25) is arranged on the sliding hopper (2-22), a telescopic air bag (2-26) is connected with the sliding hopper (2-22), the telescopic air bag (2-26) is connected and communicated with a pressure box (2-4), a limiting column I (2-27) is connected with a support frame (2-12), the limiting column I (2-27) is connected with a movable seat (2-14) with a threaded hole in a sliding way, a pulley (2-28) with a seat is contacted with the support frame (2-12), the pulley (2-28) with a seat is connected with a square column (2-29), the square column (2-29) is connected with a clamping plate (2-30), the square column (2-29) and the clamping plate (2-30) are in sliding connection with a sliding cavity II (2-35), the sliding cavity II (2-35) is arranged on a movable seat (2-14) with a threaded hole, the supporting spring (2-31) is connected with the clamping plate (2-30), the unthreaded hole (2-32) is arranged on the sliding hopper (2-22), the unthreaded hole (2-32) is in sliding connection with the limiting column (2-20), the ejecting check valve (2-33) is arranged in the ejecting pipe (2-5), and the sucking check valve (2-34) is arranged in the inlet pipe (2-3).

2. A cutting and grinding integrated device for a spectacle frame according to claim 1, wherein: the cutting knife (1-2) is made of stainless steel.

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