CN110788374B

CN110788374B - Cleaning and milling equipment for hardware casing tool

Info

Publication number: CN110788374B
Application number: CN201911093937.7A
Authority: CN
Inventors: 余秀梅; 王井祥
Original assignee: Zhejiang Zhilin Machinery Co ltd
Current assignee: Zhejiang Zhilin Machinery Co.,Ltd.
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-11-17
Anticipated expiration: 2039-11-11
Also published as: CN110788374A

Abstract

The invention relates to the field of hardware, in particular to a cleaning and milling device for a hardware casing tool. The middle-end fixing frame assembly can carry the hardware sleeve, and the hardware sleeve is convenient to process; the push rod assembly can push the hardware sleeve, so that the hardware sleeve can be conveniently processed; can realize milling the clearly of five metals sheathed tube through the cutting assembly, can collect the iron fillings that the assembly realized producing in the course of working and retrieve through iron fillings. The device comprises a middle-end fixing frame assembly, a push rod assembly, a cutting assembly, an iron scrap collecting assembly, a first transmission belt and a middle-end driving swing rod, wherein the distance between a first bearing sliding column and a second bearing sliding column can be adjusted according to actual conditions, and the device is convenient to adapt to hardware sleeves of different specifications; the iron fillings that the clear milling process produced fall into through rectangle fretwork groove and collect the frame, input awl tooth one and rotate, drive the rotation of awl tooth axle G through transmission awl tooth, and then drive the drive roller through drive belt one and rotate.

Description

Cleaning and milling equipment for hardware casing tool

Technical Field

The invention relates to the field of hardware, in particular to a cleaning and milling device for a hardware casing tool.

Background

The hardware sleeve is a common basic raw material in hardware tools, but the hardware sleeve of a hardware sleeve tool can only be milled by a milling device with specified specifications, and the functions are single.

Disclosure of Invention

The invention aims to provide a cleaning and milling device for a hardware sleeve tool, which can realize the transportation of a hardware sleeve by a middle-end fixed frame assembly and is convenient for the processing of the hardware sleeve; the push rod assembly can push the hardware sleeve, so that the hardware sleeve can be conveniently processed; can realize milling the clearly of five metals sheathed tube through the cutting assembly, can collect the iron fillings that the assembly realized producing in the course of working and retrieve through iron fillings.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a clear equipment of milling of five metals sleeve pipe instrument, includes middle-end mount assembly, push rod assembly, cutting assembly, iron fillings collection assembly, drive belt one, middle-end drive pendulum rod, its characterized in that: the middle-end fixing frame assembly is connected with the push rod assembly, the cutting assembly is connected with the middle-end fixing frame assembly, the middle-end fixing frame assembly is connected with the scrap iron collecting assembly, the first transmission belt is connected with the scrap iron collecting assembly, and the middle-end driving swing rod is connected with the middle-end fixing frame assembly.

As a further optimization of the technical scheme, the invention relates to a cleaning and milling device of a hardware casing tool, wherein a middle-end fixing frame assembly comprises a middle-end fixing frame main body, a rectangular hollow groove, a first fixing plate, a first fixing frame, a second fixing plate, a third fixing plate, a hinged frame, a fixing boss, a second fixing frame, a third fixing frame, a fourth fixing frame, a fifth fixing frame, a sixth fixing frame, a seventh fixing frame, a portal frame, a middle-end sliding column push spring, an eighth fixing frame, a ninth fixing frame, a first outer frame, a material roller, an input motor, a first input conical tooth, a transmission conical tooth, a conical tooth shaft G, a second input conical tooth, a third conical tooth, a fourth conical tooth and a conical tooth shaft A, the rectangular hollow groove is connected with the middle-end fixing frame main body, the first fixing frame is connected with the middle-end fixing frame main body, the second fixing frame is connected with the middle-end fixing frame main body, the hinged frame is connected with a middle-end fixing frame main body, a fixing boss is connected with a middle-end fixing frame main body, a fixing frame two is connected with the middle-end fixing frame main body, a fixing frame four is connected with the middle-end fixing frame main body, a fixing frame three is connected with the fixing frame four, a fixing frame five is connected with the middle-end fixing frame main body, a fixing frame six is connected with the middle-end fixing frame main body, a fixing frame seven is connected with the middle-end fixing frame main body, a door type frame is connected with the middle-end fixing frame main body, a middle-end sliding column is connected with the door type frame, a middle-end sliding column pushing spring is connected with the middle-end sliding column, a fixing frame eight, a fixing frame nine is connected with the middle-end fixing frame main body, an outer frame one is connected with a fixing plate one, a material roller is connected with an outer frame one, an input motor is connected with the fixing boss, the transmission bevel gear is connected with a bevel gear shaft G, the bevel gear shaft G is connected with the hinged rack, a bevel gear III is connected with a bevel gear shaft A, a bevel gear IV is connected with the bevel gear shaft A, and the bevel gear shaft A is connected with the fixed rack in a three-phase mode.

As a further optimization of the technical scheme, the cleaning and milling equipment for the hardware casing tool, disclosed by the invention, is characterized in that a matching motor a is arranged on the middle-end fixing frame main body.

As a further optimization of the technical scheme, the invention relates to a cleaning and milling device of a hardware sleeve tool, wherein the push rod assembly comprises a bearing plate, a push rod A, a driving rotating rod, a connecting column, a rectangular boss, a bevel gear shaft A, a bevel gear five, a middle end sliding shaft I, a bevel gear six, a connecting rod I, a sliding frame, a bevel gear seven, a sliding sleeve, a middle end push spring A and a limiting plate, the connecting column is connected with the rectangular boss and the push rod A, the sliding frame is connected with a middle end fixing frame body, the sliding frame is connected with the bearing plate, the sliding frame and the middle end fixing frame body are provided with the spring A, the driving rotating rod is connected with the connecting column, the bevel gear shaft A is connected with the driving rotating rod, the bevel gear five is connected with the bevel gear shaft A, the bevel gear six is connected with the bevel gear five, the middle end sliding shaft I is connected with the bevel gear six, the sliding sleeve is connected with the bevel gear seven and the, the push spring A is connected with the first middle-end sliding shaft, the limiting plate is connected with the first middle-end sliding shaft, the fixing frame nine is connected with the bevel gear shaft A, the fixing frame eight is connected with the first middle-end sliding shaft, and the rectangular boss is connected with the first fixing frame.

As a further optimization of the technical scheme, the cutting assembly of the cleaning and milling equipment for the hardware casing tool comprises a middle-end rectangular outer frame, a bearing sliding column I, a bearing sliding column II, a driving hinge rod, a lower-end sliding rod, a rear-side rectangular rod, an upper side column, a trapezoidal sliding block, a side-wall clamping groove, an inner-end clamp, a clamp push spring, a cleaning and milling roller, a rectangular rotating frame, a clutch tooth I, a clutch tooth II, a fixed straight tooth I, a straight tooth II, a differential roller shaft, a differential outer frame, a differential rectangular sliding block, a middle-end transmission shaft I, a differential bevel tooth II, a cross section I, a connecting transmission rod II, a cross section II, a driving N-shaped frame I, a differential bevel tooth III, a differential bevel tooth IV, a differential bevel tooth V, a cross section III, a connecting transmission rod IV, a cross section IV, a driving N, A clutch push spring, a first bearing sliding column and a second bearing sliding column are connected with a middle-end rectangular outer frame, a driving hinged rod is connected with the first bearing sliding column, the second bearing sliding column is connected with the first bearing sliding column, a lower end sliding rod is connected with the driving hinged rod, a rear-side rectangular rod is connected with the middle-end rectangular outer frame, a trapezoidal sliding block is connected with the rear-side rectangular rod, an upper side column is connected with the rear-side rectangular rod, a side wall clamping groove is connected with the middle-end rectangular outer frame, an inner end clamp is connected with the lower end sliding rod, a clamp push spring is connected with the lower end sliding rod, an inner end clamp is connected with the side wall clamping groove, a cleaning and milling roller is connected with a rectangular rotating frame, a clutch tooth I is connected with the rectangular rotating frame, a clutch push spring is connected with the rectangular rotating frame, a clutch tooth I is connected with a clutch tooth II, a fixing straight tooth I is connected with a clutch tooth, the second straight tooth is connected with the first rectangular rod at the rear side, the first clutch tooth is connected with the first clutch tooth and the rectangular rod at the rear side, the sixth fixing frame is connected with the trapezoidal sliding block, the second straight tooth is connected with the sixth fixing frame, the sixth fixing frame is connected with the first clutch tooth through a clutch push spring, the differential roller is connected with a differential roller shaft, the differential roller shaft is connected with a differential rectangular slider, the differential rectangular slider is connected with a differential outer frame, the first middle-end transmission shaft is connected with the differential outer frame, the second transmission belt is connected with the first middle-end transmission shaft, the second transmission belt is connected with the differential roller shaft, the differential rectangular slider is connected with a middle-end sliding column, the first differential bevel tooth is connected with the second differential bevel tooth, the second differential bevel tooth is connected with the second fixing frame, the first cross joint is connected with the second differential bevel tooth, the first connecting transmission rod is connected with the first cross joint, the second, the driving N-shaped frame I is connected with the cross-shaped section II, the driving N-shaped frame I is connected with the middle-end transmission shaft I, the differential bevel gear III is connected with the differential bevel gear I, the differential bevel gear IV is connected with the differential bevel gear I, the differential bevel gear III and the differential bevel gear IV are connected with the differential bevel gear V, the differential bevel gear V is connected with the differential bevel gear I, the cross-shaped section III is connected with the connecting transmission rod III in a three-phase mode, the connecting transmission rod III is connected with the connecting transmission rod IV, the connecting transmission rod IV is connected with the cross-shaped section IV, the cross-shaped section IV is connected with the driving N-shaped frame II, the driving N-shaped frame II is connected with the milling roller, the differential bevel gear I is connected with the bevel gear III, and the middle.

According to the technical scheme, the milling equipment comprises a scrap iron collecting assembly, a side wall rectangular sliding groove, a prismatic sliding rod, a deflector rod, a middle end pushing spring E, a driving roller and an annular groove, wherein the scrap iron collecting assembly comprises a collecting outer frame, the side wall rectangular sliding groove, the prismatic sliding rod, the deflector rod, the middle end pushing spring E, the driving roller and the annular groove, the collecting outer frame is connected with the side wall rectangular sliding groove, the prismatic sliding rod is connected with the annular groove, the annular groove is connected with the driving roller, the driving roller is connected with the collecting outer frame, the deflector rod is connected with the prismatic sliding rod, the middle end pushing spring E is connected with the prismatic sliding rod, a first driving belt is connected with the driving roller, the first driving belt is.

The invention discloses a cleaning and milling device for a hardware casing tool, which has the beneficial effects that:

according to the cleaning and milling equipment for the hardware casing tool, the distance between the bearing sliding column I and the bearing sliding column II can be adjusted according to actual conditions, and hardware casings of different specifications can be conveniently adapted; the iron fillings that the clear milling process produced fall into through rectangle fretwork groove and collect the frame, input awl tooth rotates, drive the awl tooth axle G through the transmission awl tooth and rotate, and then drive the driving roller through drive belt one and rotate, and then drive the ring channel motion, and then drive the prism slide bar through the ring channel and slide at lateral wall rectangle spout, and then through the reciprocating motion of prism slide bar in lateral wall rectangle spout and then accomplish the gathering of iron fillings in collecting the frame, and then accomplish the clearance to iron fillings.

Drawings

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

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of a middle mount assembly according to the present invention;

FIG. 4 is a schematic structural diagram of a middle mount assembly according to the present invention;

FIG. 5 is a third schematic view of the middle fixing frame assembly according to the present invention;

FIG. 6 is a fourth schematic view of the middle fixing frame assembly according to the present invention;

FIG. 7 is a first schematic view of the putter assembly of the present invention;

FIG. 8 is a second structural view of the putter assembly of the present invention;

FIG. 9 is a first schematic view of a cutting assembly according to the present invention;

FIG. 10 is a second schematic view of the cutting assembly of the present invention;

FIG. 11 is a third schematic view of the cutting assembly of the present invention;

FIG. 12 is a fourth schematic view of the cutting assembly of the present invention;

FIG. 13 is a fifth schematic view of the cutting assembly of the present invention;

FIG. 14 is a six schematic view of the cutting assembly of the present invention;

FIG. 15 is a seventh schematic view of the cutting assembly of the present invention;

FIG. 16 is a structural schematic diagram eight of the cutting assembly of the present invention;

FIG. 17 is a first schematic view of the scrap iron collecting assembly of the present invention;

FIG. 18 is a second schematic view of the scrap iron collecting assembly of the present invention.

In the figure: a middle-end fixing frame assembly 1; a middle fixing frame main body 1-1; a rectangular hollow groove 1-2; 1-3 of a first fixing plate; 1-4 of a first fixing frame; a second fixing plate 1-5; fixing plates III 1-6; hinge brackets 1-7; 1-8 of a fixed boss; a second fixing frame 1-9; 1-10 parts of a fixing frame; a fourth fixing frame 1-11; a fifth fixing frame 1-12; six fixed frames 1-13; a fixing frame seven 1-14; 1-15 of a portal frame; 1-16 of middle sliding column; a middle sliding column push spring 1-17; eight fixed frames 1-18; nine 1-19 of fixed mount; 1-20 parts of an outer frame; 1-21 parts of material rollers; input motors 1-22; inputting a first bevel gear 1-23; 1-24 parts of transmission bevel gear; a bevel gear shaft G1-25; inputting a second bevel gear 1-26; 1-27 parts of bevel gear III; 1-28 parts of bevel gear; a bevel gear axis A1-29; a push rod assembly 2; a bearing plate 2-1; a push rod A2-2; driving the rotating rod 2-3; connecting columns 2-4; 2-5 of rectangular bosses; a bevel gear axis A2-6; 2-7 parts of bevel gear five; 2-8 of a middle sliding shaft I; 2-9 parts of bevel gear; 2-10 parts of a first connecting rod; a sliding frame 2-11; 2-12 parts of bevel gear seven; 2-13 of a sliding sleeve; the middle end push spring A2-14; 2-15 parts of a limiting plate; a cutting assembly 3; a middle rectangular outer frame 3-1; 3-2 of a bearing sliding column; a second bearing sliding column 3-3; driving the hinge rod 3-4; a lower end sliding rod 3-5; 3-6 of rear rectangular rods; 3-7 parts of upper side column; 3-8 parts of a trapezoidal sliding block; side wall slots 3-9; 3-10 parts of inner end clips; 3-11 parts of a clip push spring; 3-12 parts of milling roller; 3-13 of a rectangular rotating frame; clutch teeth I3-14; clutch teeth II 3-15; 3-16 parts of a fixed straight tooth I; 3-17 parts of straight teeth II; differential rollers 3-18; 3-19 parts of differential roll shaft; 3-20 parts of differential outer frame; 3-21 parts of differential rectangular slider; a middle transmission shaft I3-22; 3-23 of a differential bevel gear I; 3-24 parts of differential bevel gear II; ten bytes one 3-25; connecting the first transmission rod 3-26; connecting a second transmission rod 3-27; twelve bytes 3-28; driving the N-shaped frame I3-29; 3-30 parts of differential bevel gear; differential bevel gear four 3-31; 3-32 parts of differential bevel gear; three to 33 decabytes; connecting a third transmission rod 3-34; connecting a driving rod IV 3-35; fourteen-bytes 3-36; driving the second N-type frame 3-37; a second transmission belt 3-38; clutch push spring 3-39; the scrap iron collecting assembly 4; collecting an outer frame 4-1; a side wall rectangular chute 4-2; 4-3 of prismatic slide bars; 4-4 of a deflector rod; a middle end push spring E4-5; drive rollers 4-6; 4-7 of annular groove; a first transmission belt 5; the middle end drives a swing rod 6.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following description of the present embodiment with reference to fig. 1 to 18 shows a cleaning and milling device for a hardware casing tool, which includes a middle-end fixing frame assembly 1, a push rod assembly 2, a cutting assembly 3, an iron scrap collecting assembly 4, a first transmission belt 5, and a middle-end driving swing rod 6, and is characterized in that: the middle-end fixing frame assembly 1 is connected with the push rod assembly 2, the cutting assembly 3 is connected with the middle-end fixing frame assembly 1, the middle-end fixing frame assembly 1 is connected with the scrap iron collecting assembly 4, the transmission belt I5 is connected with the scrap iron collecting assembly 4, and the middle-end driving swing rod 6 is connected with the middle-end fixing frame assembly 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-18, and the embodiment further describes the first embodiment, where the middle-end fixing frame assembly 1 includes a middle-end fixing frame main body 1-1, a rectangular hollow groove 1-2, a fixing plate 1-3, a fixing frame 1-4, a fixing plate two 1-5, a fixing plate three 1-6, a hinge frame 1-7, a fixing boss 1-8, a fixing frame two 1-9, a fixing frame three 1-10, a fixing frame four 1-11, a fixing frame five 1-12, a fixing frame six 1-13, a fixing frame seven 1-14, a door-shaped frame 1-15, a middle-end sliding column 1-16, a middle-end sliding column push spring 1-17, a fixing frame eight 1-18, a fixing frame nine 1-19, an outer frame one 1-20, a material roller 1-21, An input motor 1-22, an input bevel gear 1-23, a transmission bevel gear 1-24, a bevel gear shaft G1-25, an input bevel gear II 1-26, a bevel gear III 1-27, a bevel gear IV 1-28, a bevel gear shaft A1-29, a rectangular hollow groove 1-2 is connected with a middle end fixing frame main body 1-1, a fixing plate I1-3 is connected with the middle end fixing frame main body 1-1, a fixing frame I1-4 is connected with the middle end fixing frame main body 1-1, a fixing plate II 1-5 is connected with the middle end fixing frame main body 1-1, a fixing plate III 1-6 is connected with the fixing plate II 1-5, a hinge frame 1-7 is connected with the middle end fixing frame main body 1-1, a fixing boss 1-8 is connected with the middle end fixing frame main body 1-1, the second fixing frame 1-9 is connected with the middle fixing frame main body 1-1, the fourth fixing frame 1-11 is connected with the middle fixing frame main body 1-1, the third fixing frame 1-10 is connected with the fourth fixing frame 1-11, the fifth fixing frame 1-12 is connected with the middle fixing frame main body 1-1, the sixth fixing frame 1-13 is connected with the middle fixing frame main body 1-1, the seventh fixing frame 1-14 is connected with the middle fixing frame main body 1-1, the door-shaped frame 1-15 is connected with the middle fixing frame main body 1-1, the middle sliding column 1-16 is connected with the door-shaped frame 1-15, the middle sliding column push spring 1-17 is connected with the middle sliding column 1-16, the eighth fixing frame 1-18 and the ninth fixing frame 1-19 are connected with the middle fixing frame main body 1-1, the outer frame I1-20 is connected with the fixing plate I1-3, the material rollers 1-21 are connected with the outer frame I1-20, the input motor 1-22 is connected with the fixing boss 1-8, the input bevel gear I1-23 is connected with the input motor 1-22, the input bevel gear II 1-26 is connected with the input motor 1-22, the input bevel gear I1-23 is connected with the transmission bevel gear 1-24, the transmission bevel gear 1-24 is connected with the bevel gear shaft G1-25, the bevel gear shaft G1-25 is connected with the hinge frame 1-7, the bevel gear III 1-27 is connected with the bevel gear shaft A1-29, the bevel gear IV 1-28 is connected with the bevel gear shaft A1-29, and the bevel gear shaft A1-29 is connected with the fixing frame III 1-10.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 18, and the present embodiment further describes the first embodiment, and a matching motor a is disposed on the middle end fixing frame main body 1-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 18, and the embodiment further describes the first embodiment, the push rod assembly 2 includes a bearing plate 2-1, a push rod a2-2, a driving rotating rod 2-3, a connecting column 2-4, a rectangular boss 2-5, a bevel gear shaft a2-6, a bevel gear five 2-7, a middle end sliding shaft one 2-8, a bevel gear six 2-9, a connecting rod one 2-10, a sliding frame 2-11, a bevel gear seven 2-12, a sliding sleeve 2-13, a middle end push spring a2-14, and a limiting plate 2-15, the connecting column 2-4 and the rectangular boss 2-5 are connected with the push rod a2-2, the sliding frame 2-11 is connected with a middle end fixing frame body 1-1, the sliding frame 2-11 is connected with the bearing plate 2-1, the sliding frame 2-11 and the middle end fixing frame main body 1-1 are provided with a spring A, the driving rotating rod 2-3 is connected with a connecting column 2-4, the bevel gear shaft A2-6 is connected with the driving rotating rod 2-3, the bevel gear five 2-7 is connected with the bevel gear shaft A2-6, the bevel gear six 2-9 is connected with the bevel gear five 2-7, the middle end sliding shaft one 2-8 is connected with the bevel gear six 2-9, the sliding sleeve 2-13 is connected with the bevel gear seven 2-12, the bevel gear seven 2-12 is connected with the middle end sliding shaft one 2-8, the push spring A2-14 is connected with the middle end sliding shaft one 2-8, the limit plate 2-15 is connected with the middle end sliding shaft one 2-8, the fixing frame nine 1-19 is connected with the bevel gear shaft A2-6, the fixing frame eight 1-18 is connected with the middle end sliding shaft one 2-8, the rectangular bosses 2-5 are connected with the first fixing frame 1-4.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 18, and the present embodiment further describes the first embodiment, where the cutting assembly 3 includes a middle-end rectangular outer frame 3-1, a first load-bearing strut 3-2, a second load-bearing strut 3-3, a drive hinge rod 3-4, a lower-end slide rod 3-5, a rear-side rectangular rod 3-6, an upper side column 3-7, a trapezoidal slide block 3-8, a side-wall slot 3-9, an inner-end clip 3-10, a clip push spring 3-11, a cleaning and milling roller 3-12, a rectangular rotating frame 3-13, a first clutch tooth 3-14, a second clutch tooth 3-15, a first fixed straight tooth 3-16, a second straight tooth 3-17, a differential roller 3-18, a differential roller shaft 3-19, a differential outer frame 3-20, a differential rectangular slider 3-21, a differential roller 3-18, a differential roller shaft, 3-22 parts of a middle-end transmission shaft I, 3-23 parts of a differential bevel gear I, 3-24 parts of a differential bevel gear II, 3-25 parts of a cross joint I, 3-26 parts of a connecting transmission rod I, 3-27 parts of a connecting transmission rod II, 3-28 parts of a cross joint II, 3-29 parts of a driving N-shaped frame I, 3-30 parts of a differential bevel gear III, 3-31 parts of a differential bevel gear IV, 3-32 parts of a differential bevel gear IV, 3-33 parts of a cross joint III, 3-34 parts of a connecting transmission rod IV, 3-35 parts of a cross joint IV, 3-36 parts of a driving N-shaped frame II, 3-38 parts of a transmission belt II, 3-39 parts of a clutch push spring, 3-2 parts of a bearing sliding column I, 3-3 parts of a bearing sliding column II and 3-1 parts of a middle-end rectangular outer frame, 3-4 parts, the second bearing sliding column 3-3 is connected with the first bearing sliding column 3-2, the lower end sliding rod 3-5 is connected with the driving hinged rod 3-4, the rear side rectangular rod 3-6 is connected with the middle end rectangular outer frame 3-1, the trapezoidal sliding block 3-8 is connected with the rear side rectangular rod 3-6, the upper side column 3-7 is connected with the rear side rectangular rod 3-6, the side wall clamping groove 3-9 is connected with the middle end rectangular outer frame 3-1, the inner end clamping hook 3-10 is connected with the lower end sliding rod 3-5, the clamping push spring 3-11 is connected with the lower end sliding rod 3-5, the inner end clamping hook 3-10 is connected with the side wall clamping groove 3-9, the cleaning and milling roller 3-12 is connected with the rectangular rotating frame 3-13, the clutch tooth 3-14 is connected with the rectangular rotating frame 3-13, the clutch push spring 3-39 is connected with the rectangular rotating frame 3-13, the clutch tooth I3-14 is connected with the clutch tooth II 3-15, the fixed straight tooth I3-16 is connected with the clutch tooth II 3-15, the straight tooth II 3-17 is connected with the fixed straight tooth I3-16, the rectangular rotating frame 3-13 is connected with the rear rectangular rod 3-6, the straight tooth II 3-17 is connected with the rear rectangular rod 3-6, the clutch tooth I3-14 is connected with the clutch tooth I3-14 and the rear rectangular rod 3-6, the fixed frame six 1-13 is connected with the trapezoidal sliding block 3-8, the straight tooth II 3-17 is connected with the fixed frame six 1-13, the fixed frame six 1-13 is connected with the clutch tooth I3-14 through the clutch push spring 3-39, the differential roller 3-18 is connected with the differential roller shaft 3-19, the differential roll shafts 3-19 are connected with differential rectangular sliders 3-21, the differential rectangular sliders 3-21 are connected with differential outer frames 3-20, the middle end transmission shafts 3-22 are connected with the differential outer frames 3-20, the transmission belts 3-38 are connected with the middle end transmission shafts 3-22, the transmission belts 3-38 are connected with the differential roll shafts 3-19, the differential rectangular sliders 3-21 are connected with the middle end sliding columns 1-16, the differential conical teeth one 3-23 are connected with the differential conical teeth two 3-24, the differential conical teeth two 3-24 are connected with the fixed frames two 1-9, the cross sections one 3-25 are connected with the differential conical teeth two 3-24, the connecting transmission rods one 3-26 are connected with the cross sections one 3-25, the connecting transmission rods two 3-27 are connected with the connecting transmission rods one 3-26, the connecting transmission rod two 3-27 is connected with the cross section two 3-28, the driving N-shaped frame one 3-29 is connected with the middle end transmission shaft one 3-22, the differential bevel gear three 3-30 is connected with the differential bevel gear one 3-23, the differential bevel gear four 3-31 is connected with the differential bevel gear one 3-23, the differential bevel gear three 3-30, the differential bevel gear four 3-31 is connected with the differential bevel gear five 3-32, the differential bevel gear five 3-32 is connected with the differential bevel gear one 3-23, the cross section three 3-33 is connected with the connecting transmission rod three 3-34, the connecting transmission rod three 3-34 is connected with the connecting transmission rod four 3-35, the connecting transmission rod four 3-35 is connected with the cross section four 3-36, the cross fourth 3-36 is connected with the driving N-shaped frame II 3-37, the driving N-shaped frame II 3-37 is connected with the milling roller 3-12, the differential bevel gear I3-23 is connected with the bevel gear III 1-27, and the middle driving swing rod 6 is connected with the upper side column 3-7;

the distance between the first bearing sliding column 3-2 and the second bearing sliding column 3-3 can be adjusted according to actual conditions, hardware sleeves of different specifications can be conveniently adapted, the lower end sliding rod 3-5 is manually pushed, the lower end sliding rod 3-5 is made to slide on the middle end rectangular outer frame 3-1 and is connected with the inner end clamp 3-10 in a matched mode through the side wall clamping groove 3-9, the lower end sliding rod 3-5 is located, the lower end sliding rod 3-5 slides through the side wall clamping groove 3-9 and drives the hinge rod 3-4 to drive the first bearing sliding column 3-2 and the second bearing sliding column 3-3 to simultaneously move towards two sides along the middle end rectangular outer frame 3-1, and therefore the hardware sleeves of different specifications can be conveniently adapted.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-18, and the embodiment further describes the first embodiment, the scrap iron collecting assembly 4 includes a collecting outer frame 4-1, a side wall rectangular chute 4-2, a prismatic sliding bar 4-3, a deflector rod 4-4, a middle end push spring E4-5, a driving roller 4-6, and an annular groove 4-7, the collecting outer frame 4-1 is connected with the side wall rectangular chute 4-2, the prismatic sliding bar 4-3 is connected with the annular groove 4-7, the annular groove 4-7 is connected with the driving roller 4-6, the driving roller 4-6 is connected with the collecting outer frame 4-1, the deflector rod 4-4 is connected with the prismatic sliding bar 4-3, and the middle end push spring E4-5 is connected with the prismatic sliding bar 4-3, the first transmission belt 5 is connected with the driving rollers 4-6, the first transmission belt 5 is connected with the bevel gear shaft G1-25, and the collection outer frame 4-1 is connected with the middle-end fixing frame main body 1-1;

scrap iron generated in the milling process falls into the collecting outer frame 4-1 through the rectangular hollow groove 1-2, the input bevel gear 1-23 rotates, the transmission bevel gear 1-24 drives the bevel gear shaft G1-25 to rotate, the driving roller 4-6 is driven to rotate through the driving belt 5, the annular groove 4-7 is driven to move, the prismatic sliding rod 4-3 is driven to slide in the side wall rectangular sliding groove 4-2 through the annular groove 4-7, and the scrap iron is gathered in the collecting outer frame 4-1 through the reciprocating motion of the prismatic sliding rod 4-3 in the side wall rectangular sliding groove 4-2, so that the scrap iron is cleaned.

The invention relates to a cleaning and milling device for a hardware casing tool, which has the working principle that: when the hardware sleeve is used, the hardware sleeve to be processed is placed on the first outer frame 1-20, the hardware sleeve slides downwards along the first outer frame 1-20 under the action of the hardware sleeve, and the friction force between the hardware sleeve and the first outer frame 1-20 can be reduced by the material rollers 1-21; the hardware sleeve is separated from the outer frame I1-20 and falls onto the bearing plate 2-1, the bearing plate 2-1 drives the bearing plate 2-1 to slide downwards along the middle end fixing frame main body 1-1 under the action of the gravity of the hardware sleeve, and compresses the spring A between the bearing plate 2-1 and the middle end fixing frame main body 1-1, at the moment, the bearing plate 2-1 drives the connecting rod I2-10 to move, the sliding sleeve 2-13 drives the bevel gear seven 2-12 to slide on the middle end sliding shaft I2-8 through the connecting rod I2-10, and simultaneously compresses the middle end push spring A2-14, finally, the bevel gear seven 2-12 is meshed and driven with the output bevel gear C on the output shaft of the matched motor A, further drives the middle end sliding shaft I2-8 to rotate, and is meshed and driven with the bevel gear five 2-7 through the bevel gear six 2-9, the bevel gear shaft A2-6 is driven to rotate, the rotating rod 2-3 is driven to drive the push rod A2-2 to move through the connecting column 2-4, the rectangular boss 2-5 is driven to slide along the first fixing frame 1-4, the hardware sleeve is driven to be separated from the bearing plate 2-1 through the push rod A2-2, the hardware sleeve falls into the third fixing plate 1-6, falls into the second fixing plate 1-5 along the third fixing plate 1-6, slides downwards along the upper surface of the second fixing plate 1-5 through the second fixing plate 1-5, the pipe wall of the hardware sleeve falls between the first bearing sliding column 3-2, the second bearing sliding column 3-3 and the milling cleaning roller 3-12, and under the action of the gravity of the hardware sleeve, the first bearing sliding column 3-2 and the second bearing sliding column 3-3 drive the rectangular outer frame 3-1 at the middle end to slide along the sixth fixing frame 1 through the trapezoidal sliding block 3-8 -13 slides and further drives the second straight teeth 3-17 to rotate, and further drives the first fixed straight teeth 3-16 through the second straight teeth 3-17 and drives the second clutch teeth 3-15 to rotate, and further drives the first clutch teeth 3-14 to rotate through the second clutch teeth 3-15, and further drives the rectangular rotating frame 3-13 to slide along the sixth fixed frame 1-13 through the first clutch teeth 3-14 and drives the cleaning roller 3-12 to slide downwards and contact with the inner wall of the hardware sleeve, when the cleaning roller 3-12 contacts with the inner wall of the hardware sleeve, the cleaning roller 3-12 does not move along with the downwards movement of the hardware sleeve, so that the first clutch teeth 3-14 are separated from the second clutch teeth 3-15, and the first bearing sliding columns 3-2, the second bearing sliding columns 3-3 and the cleaning roller 3-12 are prevented from generating motion interference, simultaneously starting the input motor 1-22 and driving the input bevel gear II 1-26 to rotate so as to drive the differential bevel gear I3-23 to rotate, driving the differential bevel gear II 3-24 and the differential bevel gear V3-32 respectively through the differential bevel gear III 3-30 and the differential bevel gear IV 3-31, driving the milling roller 3-12 to rotate through the differential bevel gear II 3-24 and the N-type frame II 3-37 through the crossed gear III 3-33, the connecting transmission rod III 3-34, the connecting transmission rod IV 3-35, the crossed gear IV 3-36 and the connecting transmission rod IV 3-37 under the action of gravity damping in the device, and when the differential bevel gear II 3-24 drives the milling roller 3-12 to rotate through the crossed gear I3-25, the connecting transmission rod I3-26, the connecting transmission rod II 3-27, The cross section of the second 3-28 joint drives the N-shaped frame of the first 3-29 joint to drive the middle transmission shaft of the first 3-22 joint to rotate, and further drives the differential roll shaft of the second 3-38 joint to rotate, and further drives the differential roller of the first 3-18 joint to rotate, through the speed difference between the differential roller of the second 3-18 joint and the cleaning roller of the second 3-12 joint, the outer wall of the hardware sleeve is conveniently cleaned and milled, and further the cleaning and milling process of the device is completed; the distance between the first bearing sliding column 3-2 and the second bearing sliding column 3-3 can be adjusted according to actual conditions, hardware sleeves with different specifications can be conveniently adapted, the lower end sliding rod 3-5 is manually pushed, the lower end sliding rod 3-5 is made to slide on the middle end rectangular outer frame 3-1 and is connected with the inner end clamp 3-10 in a matched mode through the side wall clamping groove 3-9, the lower end sliding rod 3-5 is positioned, the lower end sliding rod 3-5 slides through the hinge rod 3-4 and drives the first bearing sliding column 3-2 and the second bearing sliding column 3-3 to simultaneously move towards two sides along the middle end rectangular outer frame 3-1, and therefore the hardware sleeves with different specifications can be conveniently adapted; scrap iron generated in the milling process falls into the collecting outer frame 4-1 through the rectangular hollow groove 1-2, the input bevel gear 1-23 rotates, the transmission bevel gear 1-24 drives the bevel gear shaft G1-25 to rotate, the driving roller 4-6 is driven to rotate through the driving belt 5, the annular groove 4-7 is driven to move, the prismatic sliding rod 4-3 is driven to slide in the side wall rectangular sliding groove 4-2 through the annular groove 4-7, and the scrap iron is gathered in the collecting outer frame 4-1 through the reciprocating motion of the prismatic sliding rod 4-3 in the side wall rectangular sliding groove 4-2, so that the scrap iron is cleaned.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims

1. The utility model provides a clear equipment of milling of five metals sleeve pipe instrument, includes middle-end mount assembly (1), push rod assembly (2), cutting assembly (3), iron fillings collection assembly (4), drive belt (5), middle-end drive pendulum rod (6), its characterized in that: the middle-end fixing frame assembly (1) is connected with the push rod assembly (2), the cutting assembly (3) is connected with the middle-end fixing frame assembly (1), the middle-end fixing frame assembly (1) is connected with the scrap iron collecting assembly (4), the first transmission belt (5) is connected with the scrap iron collecting assembly (4), and the middle-end driving swing rod (6) is connected with the middle-end fixing frame assembly (1);

the middle-end fixing frame assembly (1) comprises a middle-end fixing frame main body (1-1), a rectangular hollow groove (1-2), a first fixing plate (1-3), a first fixing frame (1-4), a second fixing plate (1-5), a third fixing plate (1-6), a hinged frame (1-7), a fixing boss (1-8), a second fixing frame (1-9), a third fixing frame (1-10), a fourth fixing frame (1-11), a fifth fixing frame (1-12), a sixth fixing frame (1-13), a seventh fixing frame (1-14), a door-shaped frame (1-15), a middle-end sliding column (1-16), a middle-end sliding column push spring (1-17), an eighth fixing frame (1-18), a ninth fixing frame (1-19), a first outer frame (1-20), The material roller (1-21), the input motor (1-22), the input bevel gear I (1-23), the transmission bevel gear (1-24), the bevel gear shaft G (1-25), the input bevel gear II (1-26), the bevel gear III (1-27), the bevel gear IV (1-28) and the bevel gear shaft A (1-29), the rectangular hollow groove (1-2) is connected with the middle end fixing frame main body (1-1), the fixing plate I (1-3) is connected with the middle end fixing frame main body (1-1), the fixing frame I (1-4) is connected with the middle end fixing frame main body (1-1), the fixing plate II (1-5) is connected with the middle end fixing frame main body (1-1), the fixing plate III (1-6) is connected with the fixing plate II (1-5), the hinge frame (1-7) is connected with the middle end fixing frame main body (1-1), the fixing boss (1-8) is connected with the middle-end fixing frame main body (1-1), the fixing frame II (1-9) is connected with the middle-end fixing frame main body (1-1), the fixing frame IV (1-11) is connected with the middle-end fixing frame main body (1-1), the fixing frame III (1-10) is connected with the fixing frame IV (1-11), the fixing frame V (1-12) is connected with the middle-end fixing frame main body (1-1), the fixing frame VI (1-13) is connected with the middle-end fixing frame main body (1-1), the fixing frame VII (1-14) is connected with the middle-end fixing frame main body (1-1), the door-shaped frame (1-15) is connected with the middle-end fixing frame main body (1-1), the middle-end sliding column (1-16) is connected with the door-shaped frame (1-15), the middle sliding column push spring (1-17) is connected with the middle sliding column (1-16), the fixed frame eight (1-18) and the fixed frame nine (1-19) are connected with the middle fixed frame main body (1-1), the outer frame I (1-20) is connected with the fixed plate I (1-3), the material roller (1-21) is connected with the outer frame I (1-20), the input motor (1-22) is connected with the fixed boss (1-8), the input bevel gear I (1-23) is connected with the input motor (1-22), the input bevel gear II (1-26) is connected with the input motor (1-22), the input bevel gear I (1-23) is connected with the transmission bevel gear (1-24), the transmission bevel gear (1-24) is connected with the bevel gear shaft G (1-25), the bevel gear shaft G (1-25) is connected with the hinged frame (1-7), the bevel gear III (1-27) is connected with the bevel gear shaft A (1-29), the bevel gear IV (1-28) is connected with the bevel gear shaft A (1-29), and the bevel gear shaft A (1-29) is connected with the fixed frame III (1-10);

the push rod assembly (2) comprises a bearing plate (2-1), a push rod A (2-2), a driving rotating rod (2-3), a connecting column (2-4), a rectangular boss (2-5), a bevel gear shaft A (2-6), a bevel gear five (2-7), a middle end sliding shaft I (2-8), a bevel gear six (2-9), a connecting rod I (2-10), a sliding frame (2-11), a bevel gear seven (2-12), a sliding sleeve (2-13), a middle end push spring A (2-14) and a limiting plate (2-15), the connecting column (2-4) and the rectangular boss (2-5) are connected with the push rod A (2-2), the sliding frame (2-11) is connected with a middle end fixing frame main body (1-1), the sliding frame (2-11) is connected with the bearing plate (2-1), the sliding frame (2-11) and the middle end fixing frame main body (1-1) are provided with a spring A, the driving rotating rod (2-3) is connected with the connecting column (2-4), the bevel gear shaft A (2-6) is connected with the driving rotating rod (2-3), the bevel gear V (2-7) is connected with the bevel gear shaft A (2-6), the bevel gear VI (2-9) is connected with the bevel gear V (2-7), the middle end sliding shaft I (2-8) is connected with the bevel gear VI (2-9), the sliding sleeve (2-13) is connected with the bevel gear V (2-12), the bevel gear V (2-12) is connected with the middle end sliding shaft I (2-8), the push spring A (2-14) is connected with the middle end sliding shaft I (2-8), the limit plate (2-15) is connected with the middle end sliding shaft I (2-8), the fixing frame nine (1-19) is connected with the bevel gear shaft A (2-6), the fixing frame eight (1-18) is connected with the middle end sliding shaft I (2-8), and the rectangular boss (2-5) is connected with the fixing frame I (1-4);

the cutting assembly (3) comprises a middle-end rectangular outer frame (3-1), a bearing sliding column I (3-2), a bearing sliding column II (3-3), a driving hinge rod (3-4), a lower-end sliding rod (3-5), a rear-side rectangular rod (3-6), an upper side column (3-7), a trapezoidal sliding block (3-8), a side wall clamping groove (3-9), an inner-end clamp (3-10), a clamp push spring (3-11), a milling roller (3-12), a rectangular rotating frame (3-13), a clutch tooth I (3-14), a clutch tooth II (3-15), a fixed straight tooth I (3-16), a straight tooth II (3-17), a differential roller (3-18), a differential roller shaft (3-19), a differential outer frame (3-20), and a clutch tooth II (3-15), The transmission device comprises differential rectangular sliders (3-21), a middle-end transmission shaft I (3-22), differential bevel gears I (3-23), differential bevel gears II (3-24), a cross section I (3-25), a connecting transmission rod I (3-26), a connecting transmission rod II (3-27), cross section II (3-28), a driving N-shaped frame I (3-29), differential bevel gears III (3-30), differential bevel gears IV (3-31), differential bevel gears V (3-32), cross section III (3-33), a connecting transmission rod III (3-34), a connecting transmission rod IV (3-35), cross section IV (3-36), a driving N-shaped frame II (3-37), a transmission belt II (3-38), a clutch push spring (3-39), a bearing sliding column I (3-2), A second bearing sliding column (3-3) is connected with the middle-end rectangular outer frame (3-1), a driving hinged rod (3-4) is connected with a first bearing sliding column (3-2), a second bearing sliding column (3-3) is connected with the first bearing sliding column (3-2), a lower-end sliding rod (3-5) is connected with the driving hinged rod (3-4), a rear-side rectangular rod (3-6) is connected with the middle-end rectangular outer frame (3-1), a trapezoidal sliding block (3-8) is connected with the rear-side rectangular rod (3-6), an upper side column (3-7) is connected with the rear-side rectangular rod (3-6), a side-wall clamping groove (3-9) is connected with the middle-end rectangular outer frame (3-1), and an inner-end clamp (3-10) is connected with the lower-end sliding rod (3-5), a clip push spring (3-11) is connected with a lower end sliding rod (3-5), an inner end clip (3-10) is connected with a side wall clamping groove (3-9), a milling cleaning roller (3-12) is connected with a rectangular rotating frame (3-13), a clutch tooth I (3-14) is connected with the rectangular rotating frame (3-13), a clutch push spring (3-39) is connected with the rectangular rotating frame (3-13), the clutch tooth I (3-14) is connected with a clutch tooth II (3-15), a fixed straight tooth I (3-16) is connected with a clutch tooth II (3-15), a straight tooth II (3-17) is connected with a fixed straight tooth I (3-16), the rectangular rotating frame (3-13) is connected with a rear side rectangular rod (3-6), the straight tooth II (3-17) is connected with the rear side rectangular rod (3-6), the clutch teeth I (3-14) and the clutch teeth I (3-14) are connected with a rear rectangular rod (3-6), the fixed frame six (1-13) is connected with a trapezoidal sliding block (3-8), the straight teeth II (3-17) is connected with the fixed frame six (1-13), the fixed frame six (1-13) is connected with the clutch teeth I (3-14) through a clutch push spring (3-39), the differential rollers (3-18) are connected with the differential roll shafts (3-19), the differential roll shafts (3-19) are connected with the differential rectangular sliders (3-21), the differential rectangular sliders (3-21) are connected with the differential outer frame (3-20), the middle end transmission shafts I (3-22) are connected with the differential outer frame (3-20), the transmission belts II (3-38) are connected with the middle end transmission shafts I (3-22), a second transmission belt (3-38) is connected with a differential roll shaft (3-19), a differential rectangular slider (3-21) is connected with a middle end sliding column (1-16), a first differential bevel gear (3-23) is connected with a second differential bevel gear (3-24), the second differential bevel gear (3-24) is connected with a second fixed frame (1-9), a first cross section (3-25) is connected with the second differential bevel gear (3-24), a first connecting transmission rod (3-26) is connected with the first cross section (3-25), a second connecting transmission rod (3-27) is connected with the first connecting transmission rod (3-26), the second connecting transmission rod (3-27) is connected with the second cross section (3-28), and the first N-shaped frame (3-29) is driven to be connected with the second cross section (3-28), the driving N-shaped frame I (3-29) is connected with the middle end transmission shaft I (3-22), the differential bevel gear III (3-30) is connected with the differential bevel gear I (3-23), the differential bevel gear IV (3-31) is connected with the differential bevel gear I (3-23), the differential bevel gear III (3-30) and the differential bevel gear IV (3-31) are connected with the differential bevel gear V (3-32), the differential bevel gear V (3-32) is connected with the differential bevel gear I (3-23), the cross joint III (3-33) is connected with the connecting transmission rod III (3-34), the connecting transmission rod III (3-34) is connected with the connecting transmission rod IV (3-35), the connecting transmission rod IV (3-35) is connected with the cross joint IV (3-36), the cross joint IV (3-36) is connected with the driving N-shaped frame II (3-37), the driving N-shaped frame II (3-37) is connected with the milling and cleaning roller (3-12), the differential bevel gear I (3-23) is connected with the bevel gear III (1-27), and the middle-end driving swing rod (6) is connected with the upper side column (3-7);

the scrap iron collecting assembly (4) comprises a collecting outer frame (4-1), a side wall rectangular sliding groove (4-2), a prismatic sliding rod (4-3), a deflector rod (4-4), a middle end push spring E (4-5), a driving roller (4-6) and an annular groove (4-7), wherein the collecting outer frame (4-1) is connected with the side wall rectangular sliding groove (4-2), the prismatic sliding rod (4-3) is connected with the annular groove (4-7), the annular groove (4-7) is connected with the driving roller (4-6), the driving roller (4-6) is connected with the collecting outer frame (4-1), and the deflector rod (4-4) is connected with the prismatic sliding rod (4-3), the middle end push spring E (4-5) is connected with the prismatic sliding rod (4-3), the transmission belt I (5) is connected with the driving roller (4-6), the transmission belt I (5) is connected with the bevel gear shaft G (1-25), and the collecting outer frame (4-1) is connected with the middle end fixing frame main body (1-1).

2. The hardware casing tool milling equipment according to claim 1, wherein: the middle-end fixing frame main body (1-1) is provided with a matched motor A.