CN112170869A

CN112170869A - Intelligent lathe equipment

Info

Publication number: CN112170869A
Application number: CN202011038149.0A
Authority: CN
Inventors: 黄福商
Original assignee: Guangzhou Hengtaixin Enterprise Management Service Co ltd
Current assignee: Guangzhou Hengtaixin Enterprise Management Service Co ltd
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2021-01-05

Abstract

In order to solve the technical problem, the intelligent lathe equipment comprises an installation waste discharge device, a protection device, a feeding device and a clamping device, wherein other devices are installed through the installation waste discharge device, the waste is collected and is fixedly concentrated, the protection device protects the structure of the intelligent lathe equipment during machining, the feeding device drives the machining device to perform machining feeding, and the clamping device clamps and fixes the machining device and other functions, and is characterized in that: the protection device is fixedly installed inside the installation waste discharging device, the feeding device is fixedly installed on the protection device, and the clamping device is fixedly installed on the feeding device.

Description

Intelligent lathe equipment

Technical Field

The invention relates to lathe equipment, in particular to intelligent lathe equipment.

Background

The development of the current times cannot help the machines, changes the mode of the machines after the industrial revolution, but the machines are combined by parts, so that the intelligent lathe equipment is invented.

Disclosure of Invention

The invention relates to intelligent lathe equipment, in particular to intelligent lathe equipment.

As a further optimization of the technical solution, the installation waste discharge device of the intelligent lathe apparatus according to claim 1 comprises a housing, a collection funnel, a discharge nozzle, an arc-shaped sliding groove, a rotating shaft, a pushing plate, an arc-shaped spring, and a discharge baffle, wherein the collection funnel is fixedly installed on the housing, the discharge nozzle is fixedly installed on the collection funnel, the arc-shaped sliding groove is arranged inside the discharge nozzle, the rotating shaft is rotatably installed inside the discharge nozzle, the pushing plate is fixedly installed on the rotating shaft, the arc-shaped spring is fixedly installed on the pushing plate, and the discharge baffle is fixedly installed on the rotating shaft.

As a further optimization of the technical scheme, the protection device of the intelligent lathe equipment comprises a mounting groove, a mounting square column, a control shaft, a bevel gear, a rotating column, a receiving bevel gear, a connecting cross shaft, a rotating lead screw, a cross hole, a control conical column, a moving seat, a pushing column, a second spring and a control sliding block, wherein the mounting groove is fixedly arranged on a shell, the mounting square column and the control shaft are rotatably arranged on the mounting square column, the bevel gear is fixedly arranged on the control shaft, the bevel gear is rotatably arranged inside the mounting square column, the rotating column is rotatably arranged inside the mounting square column, the receiving bevel gear is fixedly arranged on the rotating column, the receiving bevel gear is meshed with the bevel gear, the connecting cross shaft is fixedly arranged on the rotating column, the connecting cross shaft is slidably arranged inside the cross hole, the rotating lead screw is arranged inside the mounting square column, and the cross hole, the installation of control toper post is fixed on rotating the lead screw, removes a slidable mounting inside the installation square column, promotes the post installation and fixes on removing the seat, promotes post slidable mounting inside the control sliding block, and spring two is installed inside the control sliding block, and control sliding block slidable mounting is inside promoting the post, control sliding block and mounting groove cooperation.

As a further optimization of the technical scheme, the feeding device of the intelligent lathe equipment comprises a first movable mounting seat, a first rotary lead screw, a first movable internal thread column, a second movable mounting seat, a second rotary lead screw, a second movable internal thread column and a movable base, wherein the first movable mounting seat is fixedly installed on a square mounting column, the first rotary lead screw is rotatably installed on the first movable mounting seat, the first movable internal thread column is slidably installed on the first movable mounting seat, the first movable internal thread column is in threaded fit with the first rotary lead screw, the second movable mounting seat is fixedly installed on the first movable internal thread column, the second rotary lead screw is rotatably installed on the second movable mounting seat, the second movable internal thread column is movably installed on the second movable mounting seat, the second movable internal thread column is in threaded fit with the second rotary lead screw, and the movable base is fixedly installed on the second movable internal thread column.

As a further optimization of the technical scheme, the clamping device of the intelligent lathe equipment comprises a motor, an installation clamping seat, a rotary inner face toothed ring, an anti-reverse rotation ring, a clamping groove, a first rotary shaft, a straight face bevel gear, a second rotary shaft, a second bevel gear, a transmission conical face toothed ring, a rotary conical face toothed disc, a third rotary shaft, a fourth rotary screw, a receiving bevel gear, a sliding clamping groove, a sliding inner thread block, a third rotary toothed ring, a second mounting seat, a limiting clamping plate, a control shaft, a second arc spring and a receiving gear, wherein the motor is fixedly arranged on a movable base, the installation clamping seat is fixedly arranged on the motor, the rotary inner face toothed ring is rotatably arranged on the installation clamping seat, the anti-reverse rotation ring is fixedly arranged on the rotary inner face toothed ring, the clamping groove is arranged on the anti-reverse rotation ring, the first rotary shaft is rotatably arranged on the installation clamping seat, the straight face bevel gear is fixedly arranged on the first rotary shaft, the straight face bevel gear is, a second rotating shaft is rotatably arranged on the mounting clamping seat, a second bevel gear is fixedly arranged on the second rotating shaft, the second bevel gear is meshed with a second driving conical surface toothed ring, the second driving conical surface toothed ring is fixedly arranged on a second rotating conical surface toothed disc, the second rotating conical surface toothed disc is meshed with a receiving bevel gear, the third rotating conical surface toothed disc is fixedly arranged on a third rotating shaft, the third rotating shaft is rotatably arranged on the mounting clamping seat, the fourth rotating screw is rotatably arranged on the mounting clamping seat, the receiving bevel gear is fixedly arranged on a fourth rotating screw, a sliding clamping groove is formed in the mounting clamping seat, a sliding inner thread block is slidably arranged on the sliding clamping groove, the sliding inner thread block is in threaded fit with the fourth rotating screw, the third rotating gear is rotatably arranged on the mounting clamping seat, the third rotating gear is meshed with the receiving gear, the second mounting seat is fixedly arranged on the mounting clamping seat, a limiting clamping plate is fixedly arranged, and the second arc-shaped spring is fixedly arranged on the limiting clamping plate and the second mounting seat, and the receiving gear is fixedly arranged on the control shaft.

As a further optimization of the technical scheme, the number of the mounting grooves of the protection device of the intelligent lathe equipment is two, the control shaft is provided with a self-locking motor, the number of the rotating column, the receiving bevel gear, the connecting cross shaft, the rotating lead screw, the cross hole and the control conical column is two, and the number of the moving seat, the pushing column, the spring II and the control sliding block is four.

As a further optimization of the technical scheme, the feeding device of the intelligent lathe equipment comprises a first rotating lead screw and a second rotating lead screw which are both provided with control self-locking motors.

The intelligent lathe equipment has the beneficial effects that:

the invention relates to intelligent lathe equipment, in particular to intelligent lathe equipment, which realizes the functions of installing other devices through installing a waste discharge device, collecting waste materials and intensively fixing the waste materials, protecting the structure of the intelligent lathe equipment during processing by a protection device, driving a processing device to perform processing feeding by a feeding device, clamping and fixing a processing device by a clamping device and the like.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural diagram of the installation waste discharge device of the present invention.

Fig. 5 is a second structural diagram of the installation waste discharge device of the present invention.

Fig. 6 is a third schematic structural view of the installation waste discharge device of the present invention.

Fig. 7 is a fourth structural view of the installation waste discharge device of the present invention.

Fig. 8 is a first schematic structural diagram of a protection device according to the present invention.

Fig. 9 is a second schematic structural diagram of the protection device of the present invention.

Fig. 10 is a third schematic structural diagram of the protection device of the present invention.

Fig. 11 is a fourth schematic structural diagram of the protection device of the present invention.

Fig. 12 is a schematic structural view of the feeding device of the present invention.

Fig. 13 is a first structural diagram of the clamping device of the present invention.

Fig. 14 is a second structural diagram of the chucking device of the present invention.

Fig. 15 is a third schematic structural view of the clamping device of the present invention.

Fig. 16 is a fourth structural schematic diagram of the clamping device of the present invention.

In the figure: installing the waste discharge apparatus 1; a housing 1-1; a collection funnel 1-2; 1-3 of a discharge nozzle; 1-4 arc sliding grooves; 1-5 of a rotating shaft; pushing the plate 1-6; 1-7 of an arc spring; 1-8 parts of a discharge baffle; a protection device 2; mounting grooves 2-1; mounting a square column 2-2; a control shaft 2-3; 2-4 parts of bevel gears; 2-5 of a rotating column; receiving bevel gears 2-6; 2-7 of a connecting cross shaft; rotating the lead screw 2-8; 2-9 parts of cross holes; controlling the conical column to be 2-10; 2-11 of a movable seat; 2-12 of a pushing column; 2-13 parts of a second spring; control sliders 2-14; a feeding device 3; moving the first mounting seat 3-1; rotating the first lead screw 3-2; moving the first internal thread column 3-3; moving the second mounting seat 3-4; rotating the second screw rod by 3-5; moving the second internal thread column 3-6; 3-7 of a mobile base; a chucking device 4; a motor 4-1; installing a card holder 4-2; rotating the inner face toothed ring 4-3; 4-4 of an anti-reversion ring; 4-5 of a clamping groove; 4-6 of a first rotating shaft; 4-7 of a straight bevel gear; 4-8 of a second rotating shaft; 4-9 parts of a bevel gear II; 4-10 parts of a transmission conical surface toothed ring; rotating a conical fluted disc 4-11; rotating the third 4-12 times; rotating the filament four 4-13; receiving bevel gears 4-14; 4-15 of a sliding clamping groove; sliding the internal thread blocks 4-16; rotating a third gear ring 4-17; mounting seats II 4-18; 4-19 parts of a limiting clamping plate; 4-20 of a control shaft; 4-21 parts of a second arc-shaped spring; receiving the gears 4-22.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems described above with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, an intelligent lathe apparatus includes a waste discharging device 1, a protecting device 2, a feeding device 3, and a clamping device 4, wherein the waste discharging device is installed to install other devices and collect waste materials and fix the waste materials together, the protecting device protects a structure of the intelligent lathe apparatus during machining, the feeding device drives a machining device to perform machining feeding, and the clamping device clamps and fixes a machining device, and the intelligent lathe apparatus is characterized in that: the protection device 2 is fixedly installed inside the installation waste discharge device 1, the feeding device 3 is fixedly installed on the protection device 2, and the clamping device 4 is fixedly installed on the feeding device 3.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and further described in this embodiment, and the smart lathe apparatus according to claim 1 is characterized in that: the waste discharge device 1 comprises a shell 1-1, a collecting funnel 1-2, a discharge nozzle 1-3, an arc-shaped sliding groove 1-4, a rotating shaft 1-5, a pushing plate 1-6, an arc-shaped spring 1-7 and a discharge baffle 1-8, wherein the turned waste can leak into the discharge nozzle 1-3 through the collecting funnel 1-2 of the waste discharge device 1, when the materials in the discharge nozzle 1-3 are accumulated to a certain amount, the arc-shaped spring 1-7 can not bear the weight of the discharge baffle 1-8 and the waste, the discharge baffle 1-8 can rotate around the rotating shaft 1-5, the waste can be discharged through the discharge nozzle 1-3, the collecting funnel 1-2 is fixedly arranged on the shell 1-1, the discharge nozzle 1-3 is fixedly arranged on the collecting funnel 1-2, the arc-shaped sliding grooves 1-4 are arranged inside the discharge nozzles 1-3, the rotating shafts 1-5 are rotatably arranged inside the discharge nozzles 1-3, the pushing plates 1-6 are fixedly arranged on the rotating shafts 1-5, the arc-shaped springs 1-7 are fixedly arranged on the pushing plates 1-6, and the discharge baffle plates 1-8 are fixedly arranged on the rotating shafts 1-5. The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the present embodiment further describes the present embodiment, where the protection device 2 includes a mounting groove 2-1, a mounting square column 2-2, a control shaft 2-3, a bevel gear 2-4, a rotating column 2-5, a receiving bevel gear 2-6, a connecting cross shaft 2-7, a rotating lead screw 2-8, a cross hole 2-9, a control tapered column 2-10, a moving seat 2-11, a pushing column 2-12, a spring two 2-13, and a control sliding block 2-14, and the protection device 2 is first adjusted according to the hardness of the processed material, a motor associated with the control shaft 2-3 drives the control shaft 2-3 to rotate, the control shaft 2-3 drives the bevel gear 2-4 to rotate, the bevel gears 2-4 drive the receiving bevel gears 2-6 to rotate, the receiving bevel gears 2-6 drive the rotating columns 2-5 to rotate, the rotating columns 2-5 drive the connecting cross shafts 2-7 to rotate, the connecting cross shafts 2-7 drive the rotating lead screws 2-8 to rotate through cross holes 2-9, the rotating lead screws 2-8 move inside the mounting square columns 2-2 due to the matching of the rotating lead screws 2-8 and the mounting square columns 2-2, the rotating lead screws 2-8 drive the control tapered columns 2-10 to move, the movable seats 2-11 move due to the shape of the control tapered columns 2-10, the movable seats 2-11 push the control sliding blocks 2-14 to move and the mounting grooves 2-1 to generate different friction forces by pushing the columns 2-12 and the springs two 2-13, when the operation cannot be carried out, the mounting groove 2-1 and the control sliding block 2-14 slide, the mounting groove 2-1 is fixedly arranged on the shell 1-1, the mounting square column 2-2 and the control shaft 2-3 are rotatably arranged on the mounting square column 2-2, the bevel gear 2-4 is fixedly arranged on the control shaft 2-3, the bevel gear 2-4 is rotatably arranged inside the mounting square column 2-2, the rotating column 2-5 is rotatably arranged inside the mounting square column 2-2, the receiving bevel gear 2-6 is fixedly arranged on the rotating column 2-5, the receiving bevel gear 2-6 is meshed with the bevel gear 2-4, the connecting cross shaft 2-7 is fixedly arranged on the rotating column 2-5, the connecting cross shaft 2-7 is slidably arranged inside the cross hole 2-9, the rotary screw rod 2-8 is installed inside the installation square column 2-2, the cross hole 2-9 is arranged on the rotary screw rod 2-8, the control conical column 2-10 is installed and fixed on the rotary screw rod 2-8, the moving seat 2-11 is installed inside the installation square column 2-2 in a sliding mode, the pushing column 2-12 is installed and fixed on the moving seat 2-11, the pushing column 2-12 is installed inside the control sliding block 2-14 in a sliding mode, the spring II 2-13 is installed inside the control sliding block 2-14, the control sliding block 2-14 is installed inside the pushing column 2-12 in a sliding mode, and the control sliding block 2-14 is matched with the installation groove 2-1.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16. the feeding device 3 includes a first movable mounting seat 3-1, a first rotary screw rod 3-2, a first movable internal threaded column 3-3, a second movable mounting seat 3-4, a second rotary screw rod 3-5, a second movable internal threaded column 3-6, and a movable base 3-7, the first movable internal threaded column 3-3 is driven by the first rotary screw rod 3-2 of the feeding device 3 to change the position of the first movable internal threaded column 3-3 in the transverse direction of the feeding device 3, and then the position of the second rotary screw rod 3-5 is changed to the position of the second rotary screw rod 3-5 by rotating the first rotary screw rod 3-5, so as to change the position of the movable base 3-7, and then the turning of the object to be processed instead of turning is performed by contacting with a cutter and a, the first movable mounting base 3-1 is fixedly mounted on the square mounting column 2-2, the first rotary lead screw 3-2 is rotatably mounted on the first movable mounting base 3-1, the first movable internal threaded column 3-3 is slidably mounted on the first movable mounting base 3-1, the first movable internal threaded column 3-3 is in threaded fit with the first rotary lead screw 3-2, the second movable mounting base 3-4 is fixedly mounted on the first movable internal threaded column 3-3, the second rotary lead screw 3-5 is rotatably mounted on the second movable mounting base 3-4, the second movable internal threaded column 3-6 is movably mounted on the second movable mounting base 3-4, the second movable internal threaded column 3-6 is in threaded fit with the second rotary lead screw 3-5, and the second movable base 3-7 is fixedly mounted on the second movable internal threaded column 3-6.

The fifth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 and 16 for describing the embodiment, the embodiment further describes the embodiment, wherein the clamping device 4 comprises a motor 4-1, a mounting seat 4-2, a rotating inner face gear ring 4-3, an anti-reverse rotation ring 4-4, a clamping groove 4-5, a rotating shaft I4-6, a straight face bevel gear 4-7, a rotating shaft II 4-8, a bevel gear II 4-9, a transmission conical face gear ring 4-10, a rotating conical face gear disc 4-11, a rotating rear third 4-12, a rotating wire IV 4-13, a receiving bevel gear 4-14, a sliding clamping groove 4-15, a sliding inner thread block 4-16, a rotating gear ring III 4-17, a mounting seat II 4-18, a sliding groove 4-4, 4-19 parts of a limiting clamping plate, 4-20 parts of a control shaft, 4-21 parts of an arc spring II and 4-22 parts of a receiving gear, then the inner face gear ring 4-3 drives the straight face bevel gear 4-7 to rotate through the rotation of the rotating clamping device 4, the straight face bevel gear 4-7 drives the bevel gear II 4-9 to rotate, and the bevel gear II 4-9 drives the transmission conical face gear ring 4-10 to rotate. The transmission conical face gear ring 4-10, the transmission conical face gear ring 4-10 drives the rotation conical face gear disc 4-11 to rotate, the rotation conical face gear disc 4-11 drives the receiving bevel gear 4-14 to rotate, the receiving bevel gear 4-14 drives the rotation wire 4-13 to rotate, the rotation wire 4-13 enables the sliding inner thread block 4-16 to move inside the sliding blocking groove 4-15, then an object to be processed is clamped, the anti-reverse rotation ring 4-4 and the rotation inner face gear ring 4-3 rotate together and then push the limiting blocking plate 4-19 downwards, but the limiting blocking plate 4-19 rotates reversely, when the rotation in the required direction is carried out, the rotation gear ring three 4-17 rotates to drive the receiving gear 4-22 to rotate, the receiving gear 4-22 drives the control shaft 4-20 to rotate, the control shaft 4-20 drives the limit clamping plate 4-19 to rotate, the limit clamping plate 4-19 can freely rotate and rotate the inner face gear ring 4-3 without being matched with the clamping groove 4-5, the motor 4-1 is installed and fixed on the moving base 3-7, the installation clamping seat 4-2 is installed and fixed on the motor 4-1, the rotating inner face gear ring 4-3 is installed and fixed on the installation clamping seat 4-2 in a rotating way, the anti-reverse rotation ring 4-4 is installed and fixed on the rotating inner face gear ring 4-3, the clamping groove 4-5 is arranged on the anti-reverse rotation ring 4-4, the rotating shaft I4-6 is installed and fixed on the installation clamping seat 4-2 in a rotating way, the straight face bevel gear 4-7 is installed and fixed on the rotating shaft I4-6, the straight face bevel gear 4-7 is respectively meshed with the rotating inner face gear ring 4-3 and the bevel, a second rotating shaft 4-8 is rotatably arranged on the mounting clamping seat 4-2, a second bevel gear 4-9 is fixedly arranged on the second rotating shaft 4-8, the second bevel gear 4-9 is meshed with a transmission conical surface toothed ring 4-10, the transmission conical surface toothed ring 4-10 is fixedly arranged on a rotating conical surface toothed disc 4-11, the rotating conical surface toothed disc 4-11 is meshed with a receiving bevel gear 4-14, the rotating conical surface toothed disc 4-11 is fixedly arranged on a third rotating shaft 4-12, the third rotating shaft 4-12 is rotatably arranged on the mounting clamping seat 4-2, a fourth rotating wire 4-13 is rotatably arranged on the mounting clamping seat 4-2, the receiving bevel gear 4-14 is fixedly arranged on a fourth rotating wire 4-13, a sliding clamping groove 4-15 is arranged on the mounting clamping seat 4-2, and a sliding inner thread block 4-16 is slidably arranged on the sliding clamping groove 4-15, the sliding internal thread block 4-16 is in threaded fit with the rotating thread block 4-13, the rotating gear ring three 4-17 is rotatably installed on the installation clamping seat 4-2, the rotating gear ring three 4-17 is meshed with the receiving gear 4-22, the installation seat II 4-18 is fixedly installed on the installation clamping seat 4-2, the limiting clamping plate 4-19 is fixedly installed on the control shaft 4-20, the control shaft 4-20 is rotatably installed on the installation seat II 4-18, the arc-shaped spring II 4-21 is fixedly installed on the limiting clamping plate 4-19 and the installation seat II 4-18, and the receiving gear 4-22 is fixedly installed on the control shaft 4-20.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the present embodiment further describes the third embodiment, where the number of the mounting slots 2-1 of the protection device 2 is two, the control shaft 2-3 is provided with a self-locking motor, the number of the rotating columns 2-5, the receiving bevel gears 2-6, the connecting cross shafts 2-7, the rotating lead screws 2-8, the cross holes 2-9, and the control tapered columns 2-10 is two, and the number of the moving seats 2-11, the pushing columns 2-12, the springs 2-13, and the control sliding blocks 2-14 is four.

The seventh embodiment:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, in which the feeding device 3 includes a first rotary lead screw 3-2 and a second rotary lead screw 3-5 both provided with a control self-locking motor.

The working principle of the invention is as follows:

an intelligent lathe device has the working principle that whether the connection condition between devices meets requirements is checked before the intelligent lathe device is used, firstly, a protection device 2 is adjusted according to the hardness of a processed material, a matched motor of a control shaft 2-3 drives the control shaft 2-3 to rotate, the control shaft 2-3 drives a bevel gear 2-4 to rotate, the bevel gear 2-4 drives a receiving bevel gear 2-6 to rotate, the receiving bevel gear 2-6 drives a rotating column 2-5 to rotate, the rotating column 2-5 drives a connecting cross shaft 2-7 to rotate, the connecting cross shaft 2-7 drives a rotating lead screw 2-8 to rotate through a cross hole 2-9, the rotating lead screw 2-8 moves inside an installing square column 2-2 due to the matching of the rotating lead screw 2-8 and the installing square column 2-2, the control conical column 2-10 is driven to move by rotating the lead screw 2-8, the movable seat 2-11 is driven to move by controlling the shape of the conical column 2-10, the movable seat 2-11 can drive the control sliding block 2-14 to move and the mounting groove 2-1 to generate different friction forces by driving the pushing column 2-12 and the spring II 2-13, then the straight bevel gear 4-7 is driven to rotate by the inner face gear ring 4-3 through the rotation of the rotating clamping device 4, the straight bevel gear 4-7 drives the bevel gear II 4-9 to rotate, and the bevel gear II 4-9 drives the transmission conical face gear ring 4-10 to rotate. The transmission conical face gear ring 4-10, the transmission conical face gear ring 4-10 drives the rotation conical face gear disc 4-11 to rotate, the rotation conical face gear disc 4-11 drives the receiving bevel gear 4-14 to rotate, the receiving bevel gear 4-14 drives the rotation wire 4-13 to rotate, the rotation wire 4-13 enables the sliding inner thread block 4-16 to move inside the sliding blocking groove 4-15, then an object to be processed is clamped, the anti-reverse rotation ring 4-4 and the rotation inner face gear ring 4-3 rotate together and then push the limiting blocking plate 4-19 downwards, but the limiting blocking plate 4-19 rotates reversely, when the rotation in the required direction is carried out, the rotation gear ring three 4-17 rotates to drive the receiving gear 4-22 to rotate, the receiving gear 4-22 drives the control shaft 4-20 to rotate, the control shaft 4-20 drives the limiting clamping plate 4-19 to rotate, the limiting clamping plate 4-19 can freely rotate and rotate the inner face gear ring 4-3 without being matched with the clamping groove 4-5, then the rotating screw rod I3-2 of the feeding device 3 drives the moving inner thread column I3-3 to change the transverse position of the feeding device 3, then the rotating screw rod II 3-5 is changed into the rotating screw rod II 3-5 so as to change the position of the moving base 3-7, then the moving base is in contact with a cutter and in a reverse direction to turn a substitute processed object, when the substitute processing object cannot be processed, the mounting groove 2-1 and the control sliding block 2-14 can slide, then the turned waste material can be leaked into the discharging nozzle 1-3 through the collecting hopper 1-2 of the waste material discharging device 1, when a certain amount of material is accumulated in the discharge nozzle 1-3, the curved spring 1-7 cannot bear the weight of the discharge flapper 1-8 and the waste material, the discharge flapper 1-8 rotates around the rotation shaft 1-5 and the waste material is discharged through the discharge nozzle 1-3.

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

1. The utility model provides an intelligent lathe equipment, is including installation waste discharge device (1), protection device (2), feeding device (3), chucking device (4), its characterized in that: the protection device (2) is fixedly installed inside the installation waste discharging device (1), the feeding device (3) is fixedly installed on the protection device (2), and the clamping device (4) is fixedly installed on the feeding device (3).

2. The smart lathe apparatus according to claim 1, wherein: the installation waste discharge device (1) comprises a shell (1-1), a collection funnel (1-2), a discharge nozzle (1-3), an arc-shaped sliding groove (1-4), a rotating shaft (1-5), a push plate (1-6), an arc-shaped spring (1-7) and a discharge baffle (1-8), wherein the collection funnel (1-2) is fixedly installed on the shell (1-1), the discharge nozzle (1-3) is fixedly installed on the collection funnel (1-2), the arc-shaped sliding groove (1-4) is arranged inside the discharge nozzle (1-3), the rotating shaft (1-5) is rotatably installed inside the discharge nozzle (1-3), the push plate (1-6) is fixedly installed on the rotating shaft (1-5), the arc-shaped spring (1-7) is fixedly installed on the push plate (1-6), the discharging baffle plates (1-8) are fixedly arranged on the rotating shafts (1-5).

3. The smart lathe apparatus according to claim 1, wherein: the protection device (2) comprises a mounting groove (2-1), a mounting square column (2-2), a control shaft (2-3), a bevel gear (2-4), a rotating column (2-5), a receiving bevel gear (2-6), a connecting cross shaft (2-7), a rotating lead screw (2-8), a cross hole (2-9), a control conical column (2-10), a moving seat (2-11), a pushing column (2-12), a spring II (2-13) and a control sliding block (2-14), wherein the mounting groove (2-1) is fixedly arranged on a shell (1-1), the mounting square column (2-2) and the control shaft (2-3) are rotatably arranged on the mounting square column (2-2), and the bevel gear (2-4) is fixedly arranged on the control shaft (2-3), the bevel gears (2-4) are rotatably arranged inside the mounting square column (2-2), the rotating columns (2-5) are rotatably arranged inside the mounting square column (2-2), the receiving bevel gears (2-6) are fixedly arranged on the rotating columns (2-5), the receiving bevel gears (2-6) are meshed with the bevel gears (2-4), the connecting cross shafts (2-7) are fixedly arranged on the rotating columns (2-5), the connecting cross shafts (2-7) are slidably arranged inside cross holes (2-9), the rotating screw rods (2-8) are arranged inside the mounting square column (2-2), the cross holes (2-9) are arranged on the rotating screw rods (2-8), the control conical columns (2-10) are fixedly arranged on the rotating screw rods (2-8), and the moving seats (2-11) are slidably arranged inside the mounting square column (2-2), the pushing columns (2-12) are fixedly installed on the moving seats (2-11), the pushing columns (2-12) are installed inside the control sliding blocks (2-14) in a sliding mode, the springs (2-13) are installed inside the control sliding blocks (2-14), the control sliding blocks (2-14) are installed inside the pushing columns (2-12) in a sliding mode, and the control sliding blocks (2-14) are matched with the installation grooves (2-1).

4. The smart lathe apparatus according to claim 1, wherein: the feeding device (3) comprises a first movable mounting seat (3-1), a first rotary lead screw (3-2), a first movable internal thread column (3-3), a second movable mounting seat (3-4), a second rotary lead screw (3-5), a second movable internal thread column (3-6) and a movable base (3-7), wherein the first movable mounting seat (3-1) is fixedly arranged on the square mounting column (2-2), the first rotary lead screw (3-2) is rotatably arranged on the first movable mounting seat (3-1), the first movable internal thread column (3-3) is slidably arranged on the first movable mounting seat (3-1), the first movable internal thread column (3-3) is in threaded fit with the first rotary lead screw (3-2), and the second movable mounting seat (3-4) is fixedly arranged on the first movable internal thread column (3-3), the rotating screw rod II (3-5) is rotatably arranged on the moving mounting base II (3-4), the moving internal thread column II (3-6) is movably arranged on the moving mounting base II (3-4), the moving internal thread column II (3-6) is in threaded fit with the rotating screw rod II (3-5), and the moving base (3-7) is fixedly arranged on the moving internal thread column II (3-6).

5. The smart lathe apparatus according to claim 1, wherein: the clamping device (4) comprises a motor (4-1), an installation clamping seat (4-2), a rotating inner face gear ring (4-3), an anti-reverse rotation ring (4-4), a clamping groove (4-5), a rotating shaft I (4-6), a straight bevel gear (4-7), a rotating shaft II (4-8), a bevel gear II (4-9), a transmission conical face gear ring (4-10), a rotating conical face fluted disc (4-11), a rotating shaft III (4-12), a rotating wire IV (4-13), a receiving bevel gear (4-14), a sliding clamping groove (4-15), a sliding inner thread block (4-16), a rotating gear ring III (4-17), an installation seat II (4-18), a limiting clamping plate (4-19), a control shaft (4-20), A second arc spring (4-21) and a receiving gear (4-22), wherein the motor (4-1) is fixedly arranged on the movable base (3-7), the mounting clamping seat (4-2) is fixedly arranged on the motor (4-1), the rotating inner face gear ring (4-3) is rotatably arranged on the mounting clamping seat (4-2), the anti-reverse rotation ring (4-4) is fixedly arranged on the rotating inner face gear ring (4-3), the clamping groove (4-5) is arranged on the anti-reverse rotation ring (4-4), the rotating shaft I (4-6) is rotatably arranged on the mounting clamping seat (4-2), the straight bevel gear (4-7) is fixedly arranged on the rotating shaft I (4-6), and the straight bevel gear (4-7) is respectively engaged with the rotating inner face gear ring (4-3) and the bevel gear II (4-9), a second rotating shaft (4-8) is rotatably arranged on the mounting clamping seat (4-2), a second bevel gear (4-9) is fixedly arranged on the second rotating shaft (4-8), the second bevel gear (4-9) is meshed with a second transmission conical surface toothed ring (4-10), the second transmission conical surface toothed ring (4-10) is fixedly arranged on a second rotating conical surface toothed disc (4-11), the second rotating conical surface toothed disc (4-11) is meshed with a receiving bevel gear (4-14), the second rotating conical surface toothed disc (4-11) is fixedly arranged on a third rotating shaft (4-12), the third rotating shaft (4-12) is rotatably arranged on the mounting clamping seat (4-2), a fourth rotating wire (4-13) is rotatably arranged on the mounting clamping seat (4-2), and the receiving bevel gear (4-14) is fixedly arranged on the fourth rotating wire (4-13), a sliding clamping groove (4-15) is arranged on the mounting clamping seat (4-2), a sliding inner thread block (4-16) is slidably mounted on the sliding clamping groove (4-15), the sliding inner thread block (4-16) is in threaded fit with a rotating thread block II (4-13), a rotating gear ring III (4-17) is rotatably mounted on the mounting clamping seat (4-2), a rotating gear ring III (4-17) is meshed with a receiving gear (4-22), a mounting seat II (4-18) is fixedly mounted on the mounting clamping seat (4-2), a limiting clamping plate (4-19) is fixedly mounted on a control shaft (4-20), the control shaft (4-20) is rotatably mounted on a mounting seat II (4-18), an arc-shaped spring II (4-21) is fixedly mounted on the limiting clamping plate (4-19) and the mounting seat II (4-18), the receiving gear (4-22) is fixedly arranged on the control shaft (4-20).

6. The smart lathe apparatus according to claim 3, wherein: the number of the mounting grooves (2-1) of the protection device (2) is two, the control shaft (2-3) is provided with a self-locking motor, the number of the rotating columns (2-5), the receiving bevel gears (2-6), the connecting cross shafts (2-7), the rotating lead screws (2-8), the cross holes (2-9) and the control conical columns (2-10) is two, and the number of the moving seats (2-11), the number of the pushing columns (2-12), the number of the springs (2-13) and the number of the control sliding blocks (2-14) are four.

7. The smart lathe apparatus according to claim 4, wherein: the feeding device (3) comprises a first rotary lead screw (3-2) and a second rotary lead screw (3-5) which are both provided with a control self-locking motor.