CN118106517A - Turning device is used in processing of inseparable hardware - Google Patents

Abstract

The invention relates to the technical field of turning devices, and discloses a turning device for processing compact hardware, which comprises a splash-proof component, wherein the top of the splash-proof component is movably connected with a workpiece positioning component, the top of the splash-proof component is fixedly connected with a workpiece positioning component, and the workpiece positioning component comprises a connecting positioning component; according to the invention, in the process of positioning the hardware raw materials by equipment, hardware to be positioned is placed at the top of the positioning circular plate, then the driving gear is driven to rotate by the operation of the third servo motor, the second pushing plate is driven to rotate relative to the positioning arc block by the cooperation between the driving gear and the toothed ring, and the pushing rod is pushed to be close to the inner side under the pushing of the arc pushing groove and the positioning of the first sliding groove, the second sliding groove and the positioning arc block, so that the four clamping blocks are driven to be close to the inner side to position the hardware positioned at the top of the positioning circular plate, and the quick positioning of the hardware is realized, thereby saving the time required by processing.

Description

Turning device is used in processing of inseparable hardware

Technical Field

The invention relates to the technical field of turning devices, in particular to a turning device for processing compact hardware.

Background

The in-process of processing is being carried out to inseparable hardware, needs to fix the hardware through positioner, then carries out cutting work to it, processes the outside of hardware to required precision, and in the hardware carries out turning in-process not only need rotate the hardware and carry out rotary processing and go out similar screw thread etc. also need fix a position the hardware and cut vertical or horizontal groove through cutting device.

The turning device for processing the existing hardware has some problems in the using process, and the turning device is specifically as follows:

Firstly, current turning device need fix a position the hardware through three claw positioning disk at the in-process that fixes a position, but need fix a position the hardware through the workman through appointed handle rotation three-jaw chuck at the in-process that fixes a position, be inconvenient for quick with the hardware location.

Secondly, current turning device is carrying out rotary machining and horizontal vertical processing, because of the difference of machining procedure, also different to the location demand of hardware, carry out horizontal or vertical processing in-process to the hardware, need guarantee to take place rotatoryly to the hardware after the location is accomplished, avoid carrying out the constant head tank that the grooving cutting in-process hardware takes place to rotate and lead to cutting out and expect inconsistent, can not guarantee processingquality.

Thirdly, current turning device can produce a large amount of metal fragments and splash at the in-process of processing, can produce harm to the operator, and inconvenient user's operation if set up the splash guard then be inconvenient for cleaning the metal fragments on equipment surface after the processing is accomplished.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a turning device for processing compact hardware, so as to solve the above-mentioned problems in the prior art.

The invention provides the following technical scheme: the utility model provides a turning device is used in processing of inseparable hardware, includes the splash guard assembly, the top swing joint of splash guard assembly has work piece locating component, the top fixedly connected with work piece locating component of splash guard assembly, work piece locating component is including connecting locating component, the top fixedly connected with U type supporting component of connecting locating component, the inboard fixedly connected with four-way locating component of U type supporting component, the fixed connection locating shaft that has cup jointed in the bottom of four-way locating component, the bottom fixedly connected with second bevel gear of connection locating shaft, the top fixedly connected with cutting sword subassembly of work piece locating component.

Further, the splash-proof assembly comprises a fixed bottom plate, the equal fixedly connected with supporting leg in the face of being close to in fixed bottom plate both sides, the first servo motor of top fixedly connected with of fixed bottom plate, the output shaft and the threaded rod transmission of first servo motor are connected, the lifter plate has been cup jointed in the outside activity of threaded rod, the square cover plate of top fixedly connected with of lifter plate, the top fixedly connected with backup pad of supporting leg, the first spacing ring of top fixedly connected with of backup pad, the first conical gear of top fixedly connected with of threaded rod.

Further, connect locating component includes the swivel becket, the equal fixedly connected with first support column in front and back at swivel becket top, the first arc of top fixedly connected with of first support column, the top fixedly connected with spliced pole of first arc, one side fixedly connected with second support column at swivel becket top, the top fixedly connected with second arc of second support column, the equal fixedly connected with first impeller plate in front and back of being close to at second arc top, one side fixedly connected with spring in the inside of first impeller plate, the opposite side fixedly connected with protruding sliding block of spring, the first limiting plate of top fixedly connected with of protruding sliding block, tooth draw-in groove has been seted up at the top of first limiting plate.

Further, U type supporting component includes first U type locating plate, first U type locating plate is positive to be close to top fixedly connected with second servo motor, the equal activity in being close to the top of the inboard front and back of first U type locating plate has cup jointed the rotation axis, the outside of rotation axis has fixedly cup jointed the second spacing ring, the inboard front and back of first U type locating plate is close to the first leading wheel of equal fixedly connected with in bottom, the inboard bottom fixedly connected with two second leading wheels of first U type locating plate, the outside fixedly connected with connecting rope of rotation axis.

Further, four to locating component includes the location plectane, the outside fixedly connected with location deflector of location plectane, four first sliding grooves have been seted up at the top of location plectane, the second sliding groove has been seted up at the top of location deflector, the inboard movable joint of second sliding groove has the clamp splice, the bottom fixedly connected with catch bar of clamp splice, the outside fixedly connected with second limiting plate of catch bar, two the inboard movable joint of second limiting plate has the second catch plate, the inboard movable sleeve of second catch plate has positioning bearing, the arc propelling movement groove has been seted up at the top of second catch plate, the ring gear has been fixedly sleeve jointed in the outside of second catch plate, the bottom fixedly connected with location arc piece of location plectane, the outside fixedly connected with third servo motor of location arc piece, the output shaft and the initiative gear drive of third servo motor are connected, the outside fixedly connected with third limiting plate of location arc piece.

Further, the cutting knife assembly comprises a fixed top plate, the two sides of the bottom of the fixed top plate, which are close to the back, are fixedly connected with third support columns, the bottom of the fixed top plate is fixedly connected with a hydraulic cylinder, the bottom of the hydraulic cylinder is fixedly connected with a hydraulic assembly, the bottom of the hydraulic assembly is fixedly connected with a second U-shaped positioning plate, the front of the second U-shaped positioning plate is fixedly connected with a fourth servo motor, and an output shaft of the fourth servo motor is in transmission connection with the cutter clamping assembly.

Further, the screw hole has been seted up at the top of lifter plate, the screw hole of lifter plate cooperatees with the screw thread in the threaded rod outside, be connected through bearing fixed connection between threaded rod and the backup pad, square breach has all been seted up at the four corners at lifter plate top, the square breach at lifter plate top cooperatees with the size of supporting leg, the inside size of first spacing ring cooperatees with the size of swivel becket, the tooth in the first conical gear outside intermeshes with the tooth in the second conical gear outside.

Further, the bottom of location plectane and the top fixed connection of connecting the locating shaft, the inboard of location arc piece and the outside fixed connection of connecting the locating shaft, circular locating hole has all been seted up to the front and back of first U type locating plate bottom, the outside fixed connection of first U type locating plate circular locating hole and spliced pole.

Further, the other end of the connecting rope is fixedly connected with the other side of the convex sliding block, the shape of the convex sliding block is matched with the inner size of the first pushing plate, the connecting rope is guided by the first guide wheel and the second guide wheel, a circular positioning hole is formed in the other side of the first pushing plate, and the diameter value of the connecting rope is matched with the diameter value of the circular positioning hole of the first pushing plate in a tolerance mode.

Further, the inner side of the positioning bearing is connected with the outer side of the connecting positioning shaft, the outer side of the second pushing plate is provided with a positioning groove, the positioning groove of the second pushing plate is fixedly sleeved with the inner side of the toothed ring, the width value of the arc pushing groove is in tolerance fit with the diameter value of the pushing rod, and the distance between the two second limiting plates is in tolerance fit with the thickness value of the second pushing plate.

The invention has the technical effects and advantages that:

1. According to the invention, in the process of positioning the hardware raw materials by equipment, hardware to be positioned is placed at the top of the positioning circular plate, then the driving gear is driven to rotate by the operation of the third servo motor, the second pushing plate is driven to rotate relative to the positioning arc block by the cooperation between the driving gear and the toothed ring, and the pushing rod is pushed to be close to the inner side under the pushing of the arc pushing groove and the positioning of the first sliding groove, the second sliding groove and the positioning arc block, so that the four clamping blocks are driven to be close to the inner side to position the hardware positioned at the top of the positioning circular plate, and the quick positioning of the hardware is realized, thereby saving the time required by processing.

2. According to the invention, in the process of rotating the hardware, the first servo motor works to drive the threaded rod to rotate and then drive the first conical gear to rotate, then under the cooperation of the lifting plate and the threaded rod, the lifting plate and the square cover plate are lifted under the positioning of the supporting leg on the lifting plate, no thread section exists on the outer side of the threaded rod, the lifting plate and the square cover plate can cover the outer side of the workpiece positioning assembly, and the harm of metal scraps splashing to workers in the processing process of the hardware can be avoided.

3. According to the invention, the second bevel gear is driven to rotate by the rotation of the first bevel gear, the positioning circular plate and the positioning arc block are driven to rotate and simultaneously the second pushing plate is driven to rotate, the U-shaped supporting component and the connecting positioning component are driven to rotate, the rotating ring is limited by the first limiting ring, the turning knife can be driven to process hardware by the working of the cutting knife component, in the process of transversely or longitudinally processing the hardware, the rotating shaft is driven to rotate by the second servo motor, the connecting positioning component is driven to rotate ninety degrees, the connecting rope is contracted in the rotating process, the convex sliding block is driven to move to the right side, the second bevel gear is clamped by the tooth clamping groove, the four-way positioning component cannot rotate, the angle of the U-shaped supporting component can be adjusted to achieve the adjustment of the rotation position of the four-way positioning component, the position of a workpiece can be adjusted according to actual requirements, and then the cutting equipment is used for cutting the hardware, so that the hardware is rotated or longitudinally and transversely processed, and the positioning device can meet various processing requirements.

4. According to the invention, after machining is finished, the threaded rod is driven to reversely rotate by the first servo motor, the lifting plate and the square cover plate can be rotated to descend in the process of rotating to the threaded notch of the lifting plate, then metal scraps at the top of the supporting plate can be cleaned, and a worker can clean the metal scraps generated in the turning process rapidly.

Drawings

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

FIG. 2 is a schematic diagram illustrating the operation of the overall splash guard assembly of the present invention.

Fig. 3 is a schematic cross-sectional view of the splash guard assembly of the present invention.

Fig. 4 is a schematic structural view of a workpiece positioning assembly according to the present invention.

Fig. 5 is a schematic structural diagram of a connection positioning assembly according to the present invention.

Fig. 6 is a schematic cross-sectional view of the connecting and positioning assembly of the present invention.

Fig. 7 is an enlarged schematic view of the structure of fig. 6 a according to the present invention.

Fig. 8 is a schematic structural diagram of a U-shaped support assembly according to the present invention.

Fig. 9 is a schematic cross-sectional view of a four-way positioning assembly according to the present invention.

Fig. 10 is a schematic view of a cutting insert assembly according to the present invention.

The reference numerals are: 1. a splash guard assembly; 101. a fixed bottom plate; 102. support legs; 103. a first servo motor; 104. a threaded rod; 105. a lifting plate; 106. a square cover plate; 107. a support plate; 108. a first stop collar; 109. a first bevel gear; 2. a workpiece positioning assembly; 201. connecting a positioning assembly; 2011. a rotating ring; 2012. a first support column; 2013. a first arcuate plate; 2014. a connecting column; 2015. a second support column; 2016. a second arcuate plate; 2017. a first push plate; 2018. a first limiting plate; 2019. tooth clamping grooves; 20110. a spring; 20111. a convex sliding block; 202. a U-shaped support assembly; 2021. the first U-shaped positioning plate; 2022. a second servo motor; 2023. a rotation shaft; 2024. a second limiting ring; 2025. a first guide wheel; 2026. a second guide wheel; 2027. a connecting rope; 203. a four-way positioning assembly; 2031. positioning a circular plate; 2032. positioning a guide plate; 2033. clamping blocks; 2034. a first sliding groove; 2035. a second sliding groove; 2036. a push rod; 2037. a second limiting plate; 2038. positioning a bearing; 2039. a second pushing plate; 20310. an arc-shaped pushing groove; 20311. a toothed ring; 20312. positioning an arc-shaped block; 20313. a third servo motor; 20314. a drive gear; 20315. a third limiting plate; 204. connecting a positioning shaft; 205. a second bevel gear; 3. a cutting blade assembly; 301. fixing the top plate; 302. a third support column; 303. a hydraulic cylinder; 304. a hydraulic assembly; 305. the second U-shaped positioning plate; 306. a fourth servo motor; 307. a tool clamping assembly.

Detailed Description

The embodiments of the present invention will be clearly and completely described below with reference to the drawings in the present invention, and the configurations of the structures described in the following embodiments are merely examples, and the turning device for machining a compact hardware according to the present invention is not limited to the structures described in the following embodiments, and all other embodiments obtained by a person having ordinary skill in the art without making any inventive effort are within the scope of the present invention.

Referring to fig. 1 to 10, the invention provides a turning device for processing tight hardware, which comprises a splash-proof component 1, wherein the top of the splash-proof component 1 is movably connected with a workpiece positioning component 2, the top of the splash-proof component 1 is fixedly connected with the workpiece positioning component 2, the workpiece positioning component 2 comprises a connecting positioning component 201, the top of the connecting positioning component 201 is fixedly connected with a U-shaped supporting component 202, the inner side of the U-shaped supporting component 202 is fixedly connected with a four-way positioning component 203, the bottom of the four-way positioning component 203 is fixedly sleeved with a connecting positioning shaft 204, the bottom of the connecting positioning shaft 204 is fixedly connected with a second bevel gear 205, and the top of the workpiece positioning component 2 is fixedly connected with a cutting knife component 3.

In a preferred embodiment, splash guard 1 includes fixed baseplate 101, the equal fixedly connected with supporting leg 102 in the front and back that is close to of fixed baseplate 101 both sides, the first servo motor 103 of top fixedly connected with of fixed baseplate 101, the output shaft and the threaded rod 104 transmission of first servo motor 103 are connected, the outside activity of threaded rod 104 has cup jointed lifter plate 105, the square cover plate 106 of top fixedly connected with of lifter plate 105, the top fixedly connected with backup pad 107 of supporting leg 102, the first conical gear 109 of top fixedly connected with of threaded rod 104, after the processing is accomplished, drive threaded rod 104 counter-rotation through first servo motor 103, can descend lifter plate 105 and square cover plate 106 rotation in the in-process of the screw thread breach of rotatory lifter plate 105, then can clear up the metal piece at backup pad 107 top, the metal piece that the in-process of the quick clean turning of workman of being convenient for produced, in the in-process of need carrying out rotary processing to the hardware, drive the threaded rod 104 rotation through first servo motor 103 then drives first conical gear 109 rotation, then under lifter plate 105 and 104 cooperation with 104, and the supporting leg 105, and the side plate 105 is located under the side 105 can be carried out the lift plate 105 and the side of the lift plate 106 and can be carried out the lift and can avoid the side of the metal piece to the side of the cage piece to the side of the lift plate 106 to the side of the lift plate, the metal piece is located in the lift plate 105 and can not have the side of the cage piece to the side of the lift plate 106.

In a preferred embodiment, the connection positioning assembly 201 includes a rotating ring 2011, the front and back sides of the top of the rotating ring 2011 are fixedly connected with a first support column 2012, the top of the first support column 2012 is fixedly connected with a first arc 2013, the top of the first arc 2013 is fixedly connected with a connecting column 2014, one side of the top of the rotating ring 2011 is fixedly connected with a second support column 2015, the top of the second support column 2015 is fixedly connected with a second arc 2016, the top of the second arc 2016 is close to the front and back sides and is fixedly connected with a first pushing plate 2017, one side of the inner portion of the first pushing plate 2017 is fixedly connected with a spring 20110, the other side of the spring 20110 is fixedly connected with a convex sliding block 20111, the top of the convex sliding block 20111 is fixedly connected with a first limiting plate 2018, and the top of the first limiting plate 2018 is provided with a tooth clamping groove 2019.

In a preferred embodiment, the U-shaped supporting component 202 includes a first U-shaped positioning plate 2021, a second servo motor 2022 is fixedly connected to the front surface of the first U-shaped positioning plate 2021 near the top, a rotating shaft 2023 is movably sleeved on the front surface and the back surface of the inner side of the first U-shaped positioning plate 2021 near the top, a second limiting ring 2024 is fixedly sleeved on the outer side of the rotating shaft 2023, a first guiding wheel 2025 is fixedly connected to the front surface and the back surface of the inner side of the first U-shaped positioning plate 2021 near the bottom, two second guiding wheels 2026 are fixedly connected to the inner side of the first U-shaped positioning plate 2021, a connecting rope 2027 is fixedly connected to the outer side of the rotating shaft 2023, the rotation of the first conical gear 109 drives the second conical gear 205 to rotate, then drives the positioning circular plate 2031 and the positioning arc block 20312 to rotate, and simultaneously drives the second pushing plate 2039 to rotate, then drives the U-shaped supporting component 202 and the connecting positioning component 201 to rotate, the first limiting ring 108 limits the rotating ring 2011, then the cutting knife assembly 3 works to drive the turning knife to process the hardware, in the process of transversely or longitudinally processing the hardware, the second servo motor 2022 works to drive the rotating shaft 2023 to rotate and then drive the connecting positioning assembly 201 to rotate ninety degrees, and in the rotating process, the connecting rope 2027 is contracted and then drive the convex sliding block 20111 to move to the right side, then the second bevel gear 205 is clamped by the tooth clamping groove 2019, the four-way positioning assembly 203 cannot rotate, the angle of the U-shaped supporting assembly 202 can be adjusted to adjust the rotating position of the four-way positioning assembly 203, the workpiece position can be conveniently adjusted according to actual requirements, then the cutting equipment is used for cutting the hardware, the hardware is rotated or longitudinally and transversely processed, the positioning device can meet various processing requirements.

In a preferred embodiment, the four-way positioning assembly 203 comprises a positioning circular plate 2031, a positioning guide plate 2032 is fixedly connected to the outer side of the positioning circular plate 2031, four first sliding grooves 2034 are formed in the top of the positioning circular plate 2031, a second sliding groove 2035 is formed in the top of the positioning guide plate 2032, a clamping block 2033 is movably clamped on the inner side of the second sliding groove 2035, a pushing rod 2036 is fixedly connected to the bottom of the clamping block 2033, two second limiting plates 2037 are fixedly connected to the outer side of the pushing rod 2036, a second pushing plate 2039 is movably clamped on the inner side of the two second limiting plates 2037, a positioning bearing 2038 is movably sleeved on the inner side of the second pushing plate 2039, an arc-shaped pushing groove 20310 is formed in the top of the second pushing plate 2039, a toothed ring 20311 is fixedly sleeved on the outer side of the second pushing plate 2039, a positioning arc-shaped block 20312 is fixedly connected to the bottom of the positioning circular plate 2031, the outer side of the positioning arc block 20312 is fixedly connected with a third servo motor 20313, the output shaft of the third servo motor 20313 is in transmission connection with a driving gear 20314, the outer side of the positioning arc block 20312 is fixedly connected with a third limiting plate 20315, in the process of positioning the hardware raw materials by equipment, the hardware to be positioned is placed at the top of a positioning circular plate 2031, then the driving gear 20314 is driven to rotate by the operation of the third servo motor 20313, the second pushing plate 2039 is driven to rotate relative to the positioning arc block 20312 by the cooperation between the driving gear 20314 and a toothed ring 20311, and the pushing rod 2036 is pushed to be close to the inner side under the pushing of the arc pushing groove 20310 and the positioning of the first sliding groove 2034, the second sliding groove 2035 and the positioning arc block 20312, then the four clamping blocks 2033 are driven to be close to the inner side to position the hardware positioned at the top of the positioning circular plate 2031, the quick positioning of the hardware is realized, thereby saving the time required for processing.

In a preferred embodiment, the cutting tool assembly 3 includes a fixed top plate 301, both sides of the bottom of the fixed top plate 301, which are close to the back surface, are fixedly connected with a third support column 302, the bottom of the fixed top plate 301 is fixedly connected with a hydraulic cylinder 303, the bottom of the hydraulic cylinder 303 is fixedly connected with a hydraulic assembly 304, the bottom of the hydraulic assembly 304 is fixedly connected with a second U-shaped positioning plate 305, the front surface of the second U-shaped positioning plate 305 is fixedly connected with a fourth servo motor 306, and an output shaft of the fourth servo motor 306 is in transmission connection with the tool clamping assembly 307.

In a preferred embodiment, the top of the lifting plate 105 is provided with a threaded hole, the threaded hole of the lifting plate 105 is matched with the threads on the outer side of the threaded rod 104, the threaded rod 104 is fixedly connected with the supporting plate 107 through a bearing, four corners of the top of the lifting plate 105 are provided with square notches, the square notches on the top of the lifting plate 105 are matched with the sizes of the supporting legs 102, the sizes of the inner side of the first limiting ring 108 are matched with the sizes of the rotating ring 2011, and the teeth on the outer side of the first conical gear 109 are meshed with the teeth on the outer side of the second conical gear 205.

In a preferred embodiment, the bottom of the positioning circular plate 2031 is fixedly connected with the top of the connecting positioning shaft 204, the inner side of the positioning arc block 20312 is fixedly connected with the outer side of the connecting positioning shaft 204, the front and back sides of the bottom of the first U-shaped positioning plate 2021 are provided with circular positioning holes, and the circular positioning holes of the first U-shaped positioning plate 2021 are fixedly connected with the outer side of the connecting column 2014.

In a preferred embodiment, the other end of the connecting rope 2027 is fixedly connected to the other side of the male slider 20111, the shape of the male slider 20111 is matched with the internal dimension of the first pushing plate 2017, the connecting rope 2027 is guided by the first guiding wheel 2025 and the second guiding wheel 2026, the other side of the first pushing plate 2017 is provided with a circular positioning hole, and the diameter value of the connecting rope 2027 is in tolerance fit with the diameter value of the circular positioning hole of the first pushing plate 2017.

In a preferred embodiment, the inner side of the positioning bearing 2038 is connected to the outer side of the connecting positioning shaft 204, the outer side of the second pushing plate 2039 is provided with a positioning groove, the positioning groove of the second pushing plate 2039 is fixedly sleeved on the inner side of the toothed ring 20311, the width value of the arc-shaped pushing groove 20310 is in tolerance fit with the diameter value of the pushing rod 2036, and the distance between the two second limiting plates 2037 is in tolerance fit with the thickness value of the second pushing plate 2039.

The working principle of the invention is as follows: in the process of positioning the hardware raw material by the equipment, the hardware to be positioned is placed on the top of the positioning circular plate 2031, then the driving gear 20314 is driven to rotate by the operation of the third servo motor 20313, the second pushing plate 2039 is driven to rotate relative to the positioning arc-shaped block 20312 by the cooperation between the driving gear 20314 and the toothed ring 20311, the pushing rod 2036 is pushed to the inside by the pushing of the arc-shaped pushing groove 20310 and the positioning arc-shaped block 20312 by the positioning of the first sliding groove 2034, the second sliding groove 2035 and the positioning arc-shaped block 20312, then the four clamping blocks 2033 are driven to the inside to be close to the hardware positioned on the top of the positioning circular plate 2031 for positioning, in the process of rotating the hardware to be processed, the threaded rod 104 is driven to rotate by the operation of the first servo motor 103, then the threaded rod 109 is driven to rotate by the cooperation of the lifting plates 105 and 104, the supporting leg 102 is used for positioning the lifting plate 105, the lifting plate 105 and the square cover plate 106 are lifted, and then lifted to the outer side of the threaded rod 104 without a thread section, the lifting plate 105 and the square cover plate 106 can cover the outer side of the workpiece positioning assembly 2, so that harm to workers caused by metal scraps splashing in the process of machining the hardware can be avoided, the rotation of the first bevel gear 109 drives the second bevel gear 205 to rotate, then drives the positioning circular plate 2031 and the positioning arc-shaped block 20312 to rotate and simultaneously drives the second pushing plate 2039 to rotate, then drives the U-shaped supporting assembly 202 and the connecting positioning assembly 201 to rotate, the rotating ring 2011 is limited by the first limiting ring 108, then the turning tool can be driven to machine the hardware by the working of the cutting tool assembly 3, in the process of transversely or longitudinally machining the hardware, the second servo motor 2022 works to drive the rotating shaft 2023 to rotate, then drives the connecting positioning assembly 201 to rotate ninety degrees, and in the process of rotating, the connecting rope 2027 is contracted, then drives the convex sliding block 20111 to move to the right side, then clamps the second bevel gear 205 through the tooth clamping groove 2019, the four-way positioning assembly 203 cannot rotate, the angle of the U-shaped supporting assembly 202 can be adjusted to adjust the rotating position of the four-way positioning assembly 203, the workpiece position is convenient to adjust according to actual requirements, then the hardware is cut through cutting equipment, after machining is finished, the first servo motor 103 drives the threaded rod 104 to reversely rotate, in the process of rotating a thread notch of the lifting plate 105, the lifting plate 105 and the square cover plate 106 can be rotated to descend, then metal chips at the top of the supporting plate 107 can be cleaned, and the workers can clean the metal chips generated in the process of turning quickly.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The utility model provides a cutting device is used in processing of inseparable hardware, includes splashproof subassembly (1), its characterized in that: the anti-splash device comprises an anti-splash component (1), and is characterized in that a workpiece positioning component (2) is movably connected to the top of the anti-splash component (1), the workpiece positioning component (2) is fixedly connected with the top of the anti-splash component (1) and comprises a connecting positioning component (201), a U-shaped supporting component (202) is fixedly connected to the top of the connecting positioning component (201), a four-way positioning component (203) is fixedly connected to the inner side of the U-shaped supporting component (202), a connecting positioning shaft (204) is fixedly sleeved at the bottom of the four-way positioning component (203), a second bevel gear (205) is fixedly connected to the bottom of the connecting positioning shaft (204), and a cutting knife component (3) is fixedly connected to the top of the workpiece positioning component (2).

2. The cutting device for machining tight hardware according to claim 1, wherein: splash-proof subassembly (1) is including PMKD (101), the equal fixedly connected with supporting leg (102) in the face of being close to in PMKD (101) both sides, the first servo motor (103) of top fixedly connected with of PMKD (101), the output shaft and the threaded rod (104) transmission of first servo motor (103) are connected, lifter plate (105) have been cup jointed in the outside activity of threaded rod (104), the top fixedly connected with square cover plate (106) of lifter plate (105), the top fixedly connected with backup pad (107) of supporting leg (102), the top fixedly connected with first spacing ring (108) of backup pad (107), the top fixedly connected with first conical gear (109) of threaded rod (104).

3. The cutting device for machining tight hardware according to claim 2, wherein: the connecting and positioning assembly (201) comprises a rotating ring (2011), a first support column (2012) is fixedly connected to the front side and the back side of the top of the rotating ring (2011), a first arc plate (2013) is fixedly connected to the top of the first support column (2012), a connecting column (2014) is fixedly connected to the top of the first arc plate (2013), a second support column (2015) is fixedly connected to one side of the top of the rotating ring (2011), a second arc plate (2016) is fixedly connected to the top of the second support column (2015), a first pushing plate (2017) is fixedly connected to the top of the second arc plate (2016) close to the front side and the back side, a spring (20110) is fixedly connected to one side of the inside of the first pushing plate (20110), a convex sliding block (20111) is fixedly connected to the other side of the spring, a first limiting plate (2018) is fixedly connected to the top of the convex sliding block (20111), and a tooth clamping groove (2019) is formed in the top of the first limiting plate (2018).

4. A cutting device for machining compact hardware as claimed in claim 3, wherein: the U-shaped supporting component (202) comprises a first U-shaped positioning plate (2021), a second servo motor (2022) is fixedly connected to the front side of the first U-shaped positioning plate (2021) close to the top, a rotating shaft (2023) is movably sleeved on the front side and the back side of the inner side of the first U-shaped positioning plate (2021) close to the top, a second limiting ring (2024) is fixedly sleeved on the outer side of the rotating shaft (2023), a first guide wheel (2025) is fixedly connected to the front side and the back side of the inner side of the first U-shaped positioning plate (2021) close to the bottom, two second guide wheels (2026) are fixedly connected to the bottom of the inner side of the first U-shaped positioning plate (2021), and a connecting rope (2027) is fixedly connected to the outer side of the rotating shaft (2023).

5. The cutting device for machining tight hardware according to claim 4, wherein: the four-way positioning assembly (203) comprises a positioning circular plate (2031), the outer side of the positioning circular plate (2031) is fixedly connected with a positioning guide plate (2032), four first sliding grooves (2034) are formed in the top of the positioning circular plate (2031), second sliding grooves (2035) are formed in the top of the positioning guide plate (2032), clamping blocks (2033) are movably clamped on the inner sides of the second sliding grooves (2035), pushing rods (2036) are fixedly connected to the bottoms of the clamping blocks (2033), two second limiting plates (2037) are fixedly connected to the outer sides of the pushing rods (2036), second pushing plates (2039) are movably clamped on the inner sides of the second limiting plates (2037), positioning bearings (2038) are movably sleeved on the inner sides of the second pushing plates (2039), tooth rings (20311) are fixedly sleeved on the outer sides of the second pushing plates (2039), two second pushing plates (2031) are fixedly connected to a third driving motor (20312), and a positioning output shaft (20312) is fixedly connected to the outer sides of the third driving motor (20312).

6. The cutting device for machining tight hardware according to claim 1, wherein: the cutting knife assembly (3) comprises a fixed top plate (301), wherein the two sides, close to the back, of the bottom of the fixed top plate (301) are fixedly connected with a third supporting column (302), the bottom of the fixed top plate (301) is fixedly connected with a hydraulic cylinder (303), the bottom of the hydraulic cylinder (303) is fixedly connected with a hydraulic assembly (304), the bottom of the hydraulic assembly (304) is fixedly connected with a second U-shaped locating plate (305), the front of the second U-shaped locating plate (305) is fixedly connected with a fourth servo motor (306), and an output shaft of the fourth servo motor (306) is in transmission connection with a cutter clamping assembly (307).

7. A cutting device for machining compact hardware as claimed in claim 3, wherein: threaded holes are formed in the top of the lifting plate (105), the threaded holes of the lifting plate (105) are matched with the threads on the outer side of the threaded rod (104), the threaded rod (104) is fixedly connected with the supporting plate (107) through a bearing, square gaps are formed in four corners of the top of the lifting plate (105), the square gaps of the top of the lifting plate (105) are matched with the sizes of the supporting legs (102), the sizes of the inner side of the first limiting ring (108) are matched with the sizes of the rotating ring (2011), and teeth on the outer side of the first conical gear (109) are meshed with teeth on the outer side of the second conical gear (205).

8. The cutting device for machining tight hardware according to claim 5, wherein: the bottom of location plectane (2031) is connected with the top fixed connection of connecting location axle (204), the inboard of location arc piece (20312) is connected with the outside fixed connection of connecting location axle (204), circular locating hole has all been seted up to the front and back of first U type locating plate (2021) bottom, the outside fixed connection of first U type locating plate (2021) circular locating hole and spliced pole (2014).

9. The cutting device for machining tight hardware according to claim 4, wherein: the other end of the connecting rope (2027) is fixedly connected with the other side of the convex sliding block (20111), the shape of the convex sliding block (20111) is matched with the inner size of the first pushing plate (2017), the connecting rope (2027) is guided by the first guide wheel (2025) and the second guide wheel (2026), a circular positioning hole is formed in the other side of the first pushing plate (2017), and the diameter value of the connecting rope (2027) is matched with the diameter value of the circular positioning hole of the first pushing plate (2017) in a tolerance mode.

10. The cutting device for machining tight hardware according to claim 5, wherein: the inner side of the positioning bearing (2038) is connected with the outer side of the connecting positioning shaft (204), a positioning groove is formed in the outer side of the second pushing plate (2039), the positioning groove of the second pushing plate (2039) is fixedly sleeved with the inner side of the toothed ring (20311), the width value of the arc pushing groove (20310) is in tolerance fit with the diameter value of the pushing rod (2036), and the distance between the two second limiting plates (2037) is in tolerance fit with the thickness value of the second pushing plate (2039).