CN113084260B - Processing equipment for spherical cavity or quasi-spherical cavity of hub mold - Google Patents

Abstract

The invention relates to the field of hub die processing, in particular to a processing device for a spherical cavity or a quasi-spherical cavity of a hub die. The spherical cavity or the similar spherical cavity of the hub mould can be processed, and the sphere diameter and the sphere radian can be adjusted. The device comprises a fixing assembly, a cavity processing assembly and a power assembly, wherein the fixing assembly is connected with the power assembly in a matched mode, and the cavity processing assembly is connected with the power assembly in a matched mode. And then through one-way separation and reunion kelly one with to the one-way cooperation rotation of separation and reunion kelly two avoid, one-way separation and reunion kelly one with to the one-way rotation of separation and reunion kelly two effective, one-way separation and reunion kelly one with to the separation and reunion kelly two one-way rotation effective can make the ball footpath that sword one and sword two can cut change, one-way separation and reunion kelly one with to the separation and reunion kelly two between ineffective function interference of avoiding of relative antiport.

Description

Processing equipment for spherical cavity or quasi-spherical cavity of hub mold

Technical Field

The invention relates to the field of hub die processing, in particular to processing equipment for a spherical cavity or a quasi-spherical cavity of a hub die.

Background

The processing equipment of the spherical cavity or the spheroidal cavity of the hub die is a common equipment in the field of hub die processing, but the function of the processing equipment of the spherical cavity or the spheroidal cavity of the general hub die is single.

Disclosure of Invention

The invention aims to provide a processing device of a spherical cavity or a sphere-like cavity of a hub die, which can process the spherical cavity or the sphere-like cavity of the hub die and can adjust the sphere diameter and the sphere radian.

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

the utility model provides a processing equipment of spherical cavity of wheel hub mould or quasi-spherical cavity, includes fixed subassembly, cavity processing subassembly, power component, fixed subassembly is connected with the power component cooperation, and cavity processing subassembly is connected with the power component cooperation.

As a further optimization of the technical scheme, the invention relates to a processing device for a spherical cavity or a quasi-spherical cavity of a hub mold, wherein a fixing component comprises an outer end sleeve, a fixing slider, a fixing round wheel, a rectangular sliding groove, a spiral sliding groove, a back plate, a spherical clamping rod pushing spring and a spherical clamping groove, the rectangular sliding groove is formed in the outer end sleeve, the fixing slider is connected with the rectangular sliding groove in a sliding manner, the fixing round wheel is connected with the fixing slider in a rotating manner, the fixing slider is connected with the spiral sliding groove in a sliding manner, the spiral sliding groove is formed in the back plate, the back plate is connected with the outer end sleeve in a rotating manner, the spherical clamping rod is connected with the back plate in a sliding manner, the spherical clamping rod pushing spring is arranged between the spherical clamping rod and the back plate, the spherical clamping rod is connected with the spherical clamping groove in a matching manner, and the spherical clamping groove is formed in the inner end of the outer end sleeve.

As a further optimization of the technical scheme, the invention relates to a processing device of a spherical cavity or a quasi-spherical cavity of a hub mold, wherein a cavity processing assembly comprises a middle end bracket, a first driving rotary table, a first cutting edge connecting rod, a first connecting rod rotating rod, a first bevel gear shaft, a first bevel gear, a second bevel gear, a third bevel gear, a fourth bevel gear, a fifth bevel gear, a sixth bevel gear, a second driving rotary table, a seventh bevel gear, an eighth bevel gear, a ninth bevel gear, a first straight gear, a tenth bevel gear, a manual driving rod, a first bevel gear shaft sleeve, a second bevel gear shaft, a second connecting rod rotating rod, a second cutting edge connecting rod, a first connecting sleeve, a second connecting sleeve, a third bevel gear shaft, a first matching clamping rod pushing spring, a second cutting edge, a first one-way clutch clamping rod, a second one-way clutch clamping rod, a pushing spring and a hinge bracket, wherein the first cutting edge is connected with the first driving rotary table in a sliding manner, one end of the first cutting edge connecting rod is connected with the first cutting edge in a hinge manner, the other end of the first cutting edge connecting rod is hinged with the first connecting rod rotating rod, the first connecting rod rotating rod is fixedly connected with the first bevel gear shaft, the second bevel gear is fixedly connected with the first bevel gear shaft, one end of the first bevel gear shaft sleeve is fixedly connected with the first driving turntable, the other end of the first bevel gear shaft sleeve is fixedly connected with the first bevel gear, the first bevel gear shaft sleeve is rotatably connected with the middle end bracket, the first bevel gear shaft is rotatably connected with the first bevel gear shaft sleeve, the third bevel gear is in meshing transmission with the second bevel gear, the third bevel gear is fixedly connected with the second connecting sleeve, the second connecting sleeve is rotatably connected with the first connecting sleeve, the first connecting sleeve is fixedly connected with the fourth connecting sleeve, the fourth bevel gear is in meshing transmission with the first bevel gear, the fifth bevel gear is in meshing transmission with the third bevel gear, the sixth bevel gear is in meshing transmission with the fourth bevel gear, one end of the second bevel gear shaft is fixedly connected with the fifth bevel gear, and the other end of the second connecting rod rotating rod, one end of a bevel gear shaft sleeve II is fixedly connected with a bevel gear II, the other end of the bevel gear shaft sleeve II is fixedly connected with a driving turntable II, the bevel gear shaft sleeve II is rotatably connected with a middle end bracket, the bevel gear shaft II is rotatably connected with a bevel gear shaft sleeve II, one end of a connecting rod rotating rod II is fixedly connected with a bevel gear shaft II, the other end of the connecting rod rotating rod II is hinged with a cutting edge connecting rod II, the cutting edge connecting rod II is hinged with a cutting edge II, the cutting edge II is slidably connected with the driving turntable II, a bevel gear nine is rotatably connected with the middle end bracket, a straight gear I is fixedly connected with a bevel gear nine, the bevel gear nine is in meshing transmission with a bevel gear seven, the bevel gear seven is fixedly connected with a connecting sleeve I, a bevel gear eight is fixedly connected with a connecting sleeve II, and the bevel gear eight is in meshing transmission with the bevel gear ten, the bevel gear shaft III is rotatably connected with the middle end support, the bevel gear shaft III is fixedly connected with a manual driving rod, the manual driving rod is connected with a first matching clamping rod in a matching mode, the first matching clamping rod is connected with the middle end support in a sliding mode, a first matching clamping rod push spring is arranged between the first matching clamping rod and the middle end support, a second one-way clutch clamping rod is fixedly connected with the bevel gear, the first one-way clutch clamping rod is connected with a second one-way clutch clamping rod in a matching mode, the first one-way clutch clamping rod is connected with the bevel gear shaft III in a sliding mode, the first one-way clutch clamping rod push spring is connected with the first one-way clutch clamping rod in a sleeved mode, the first one-way clutch clamping rod push spring is arranged between the first one-way clutch clamping rod and the bevel gear shaft III, the second one-way clutch clamping rod is rotatably connected with a hinged frame, and the hinged frame is fixedly connected with the middle end support.

As a further optimization of the technical scheme, the invention relates to a processing device of a spherical cavity or a quasi-spherical cavity of a hub die, wherein a power assembly comprises a power underframe, a slide bar bracket I, a lower end rotating rod I, a transmission belt I, a belt wheel I, a lower end auxiliary rod, a driving belt wheel, a driving belt, a driving roller, a bidirectional circulating groove, a matching roller wheel, a roller wheel rotating frame, a rack bar bracket, a tension spring I, a driving rack bar, a limiting rod I, a limiting rod II, a manual straight tooth, a lower end rack I, a lower end rack II, an upper end fixing rod and a rectangular groove, the slide bar bracket I is connected with the power underframe in a sliding manner, the lower end rotating rod I is connected with the slide bar bracket in a rotating manner, the belt wheel I is fixedly connected with the lower end rotating rod I, the transmission belt wheel I is connected with the belt wheel I in a matching manner, the lower end auxiliary rod is connected with the power underframe in a rotating manner, the driving belt wheel is fixedly connected with the lower end auxiliary rod, one end of a driving belt is connected with a driving belt wheel in a matching way, a lower end rotating rod I is connected with a lower end auxiliary rod in a sliding way in a matching way, a driving roller is connected with a power underframe in a rotating way, a bidirectional circulating groove is formed in the driving roller, a matching roller is connected with the bidirectional circulating groove in a matching way, the matching roller is connected with a roller rotating frame in a rotating way, an upper end fixing rod is fixedly connected with the roller rotating frame, the roller rotating frame is connected with a rack rod support in a rotating way, one end of a tension spring I is connected with the rack rod support, the other end of the tension spring I is connected with an upper end fixing rod, a driving rack rod is fixedly connected with the rack rod support, a rectangular groove is formed in the power underframe, a lower end rack II is connected with the rectangular groove in a sliding way, a lower end rack II is fixedly connected with a limiting rod I, a manual straight tooth is rotatably connected at the inner end of the rectangular groove, the lower end rack I is connected with the rectangular groove in a sliding way, the lower end rack I is fixedly connected with the limiting rod II, and a middle end support is fixedly connected with the power underframe, the back plate is rotatably connected with the power chassis, the first transmission belt is connected with the back plate in a matching mode, the first driving belt is connected with the driving rollers in a matching mode, and the first straight teeth are meshed with the driving rack rods for transmission.

As the technical scheme is further optimized, the contact surface of the first lower rotating rod and the lower auxiliary rod is non-circular.

As a further optimization of the technical scheme, according to the processing equipment for the spherical cavity or the quasi-spherical cavity of the hub die, the driving roller is externally connected with a matched motor a, and the matched motor a is arranged on the power underframe.

The processing equipment for the spherical cavity or the quasi-spherical cavity of the hub die has the beneficial effects that:

the invention relates to a processing device of a spherical cavity or a quasi-spherical cavity of a hub die, which aims to avoid functional interference between processing when the sphere diameter which can be cut by a first carving edge and a second carving edge is changed and processing of reciprocating swing of the first carving edge and the second carving edge, and further avoid the functional interference by one-way matching and rotating of a one-way clutch clamping rod I and a clutch clamping rod II.

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 schematic view of the overall structure of the present invention;

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

FIG. 4 is a first schematic structural view of the fixing member 1 of the present invention;

FIG. 5 is a second structural view of the fixing assembly 1 of the present invention;

FIG. 6 is a first schematic structural view of the cavity machining assembly 2 of the present invention;

FIG. 7 is a second structural view of the cavity machining assembly 2 of the present invention;

FIG. 8 is a third schematic structural view of the cavity machining assembly 2 of the present invention;

FIG. 9 is a fourth schematic structural view of the cavity machining assembly 2 of the present invention;

FIG. 10 is a first schematic structural view of the power assembly 3 of the present invention;

FIG. 11 is a second schematic structural view of the power assembly 3 of the present invention;

fig. 12 is a third structural schematic diagram of the power assembly 3 of the present invention.

In the figure: a fixed component 1; an outer end sleeve 1-1; 1-2 of a fixed slider; 1-3 of a fixed round wheel; 1-4 rectangular chutes; 1-5 of a spiral chute; 1-6 of a back plate; 1-7 parts of a spherical clamping rod; 1-8 parts of a spherical clamping rod push spring; 1-9 parts of a spherical clamping groove; a cavity machining assembly 2; 2-1 of a middle bracket; driving the first rotating disc 2-2; 2-3 of a first carving edge; 2-4 of a nicking edge connecting rod; a first connecting rod rotating rod 2-5; 2-6 parts of a bevel gear shaft I; 2-7 of a first bevel gear; 2-8 parts of a second bevel gear; 2-9 parts of bevel gear III; 2-10 parts of bevel gear; 2-11 parts of bevel gear five; 2-12 parts of bevel gear; driving the second rotating disc 2-13; 2-14 parts of bevel gear seven; eight 2-15 of bevel gear; nine 2-16 bevel teeth; 2-17 parts of straight teeth I; ten 2-18 parts of bevel gear; a manual drive lever 2-19; 2-20 parts of a first bevel gear shaft sleeve; 2-21 parts of a bevel gear shaft sleeve II; 2-22 parts of a second bevel gear shaft; a second connecting rod rotating rod 2-23; 2-24 of a nicking edge connecting rod; connecting a first sleeve 2-25; connecting the second sleeve 2-26; 2-27 parts of a bevel gear shaft III; 2-28 of a first matching clamping rod; 2-29 of a push spring matched with the clamping rod; 2-30 parts of a second carving edge; a one-way clutch clamping rod I; a one-way clutch clamping rod II; the one-way clutch clamping rod pushes the spring; a hinged frame; a power assembly 3; a power chassis 3-1; 3-2 parts of a sliding rod bracket I; a lower end rotating rod I3-3; 3-4 parts of a first transmission belt; 3-5 of a first belt wheel; 3-6 parts of lower auxiliary rod; a drive pulley 3-7; 3-8 of a driving belt; drive rollers 3-9; 3-10 parts of a bidirectional circulation tank; matching with rollers 3-11; 3-12 roller rotating frames; rack bar brackets 3-13; 3-14 parts of a first tension spring; driving the rack bar 3-15; 3-16 parts of a first limiting rod; 3-17 parts of a second limiting rod; 3-18 parts of manual straight teeth; the lower end of the rack I is 3-19; 3-20 parts of a lower rack; fixing rods 3-21 at the upper end; rectangular slots 3-22.

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 fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying way, a spring retainer ring groove is arranged on the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to realize the axial fixation of the bearing and realize the rotation; the sliding connection refers to the connection through the sliding of the sliding block in a sliding groove or a guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes this embodiment with reference to fig. 1 to 12, and a processing apparatus for a spherical cavity or a quasi-spherical cavity of a hub mold includes a fixing component 1, a cavity processing component 2, and a power component 3, where the fixing component 1 is connected to the power component 3 in a matching manner, and the cavity processing component 2 is connected to the power component 3 in a matching manner.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, where the fixing assembly 1 includes an outer end sleeve 1-1, a fixing slider 1-2, a fixing circular wheel 1-3, a rectangular sliding slot 1-4, a spiral sliding slot 1-5, a back plate 1-6, a spherical clamping rod 1-7, a spherical clamping rod pushing spring 1-8, and a spherical clamping groove 1-9, where the rectangular sliding slot 1-4 is disposed on the outer end sleeve 1-1, the fixing slider 1-2 is slidably connected with the rectangular sliding slot 1-4, the fixing circular wheel 1-3 is rotatably connected with the fixing slider 1-2, the fixing slider 1-2 is slidably connected with the spiral sliding slot 1-5, the spiral sliding slot 1-5 is disposed on the back plate 1-6, the back plate 1-6 is rotatably connected with the outer end sleeve 1-1, the spherical clamping rod 1-7 is slidably connected with the back plate 1-6, the spherical clamping rod pushing spring 1-8 is disposed between the spherical clamping rod 1-7 and the back plate 1-6, the spherical clamping rod 1-7 is engaged with the spherical clamping groove 1-9, and the inner end of the spherical clamping sleeve 1-9.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-12, the cavity processing assembly 2 comprises a middle end bracket 2-1, a first driving rotary disc 2-2, a first graver 2-3, a first graver connecting rod 2-4, a first connecting rod rotary rod 2-5, a first bevel gear shaft 2-6, a first bevel gear 2-7, a second bevel gear 2-8, a third bevel gear 2-9, a fourth bevel gear 2-10, a fifth bevel gear 2-11, a sixth bevel gear 2-12, a second driving rotary disc 2-13, a seventh bevel gear seven 2-14, an eighth bevel gear 2-15, a ninth bevel gear 2-16, a first straight gear 2-17, a tenth bevel gear 2-18, a manual driving rod 2-19, a first bevel gear shaft sleeve 2-20, a second bevel gear shaft sleeve 2-21, a second bevel gear shaft 2-22, a second connecting rod rotary rod 2-23, a second graver connecting rod 2-24, a first connecting sleeve 2-25, a second connecting sleeve 2-26, a third bevel gear shaft sleeve 2-21, a second bevel gear shaft sleeve 2-22, a second bevel gear shaft sleeve 2-24, a one-way push rod, a one-push spring, a one-way clutch rod, a one-push rod, a one-way clutch rod, a one-push spring, a one-push rod, the first engraving blade 2-3 is connected with the first driving turntable 2-2 in a sliding mode, one end of a first engraving blade connecting rod 2-4 is hinged with the first engraving blade 2-3, the other end of the first engraving blade connecting rod 2-4 is hinged with a first connecting rod rotating rod 2-5, the first connecting rod rotating rod 2-5 is fixedly connected with a first bevel gear shaft 2-6, a second bevel gear 2-8 is fixedly connected with the first bevel gear shaft 2-6, one end of a first bevel gear shaft sleeve 2-20 is fixedly connected with the first driving turntable 2-2, the other end of the first bevel gear shaft sleeve 2-20 is fixedly connected to a first bevel gear 2-7, the first bevel gear shaft sleeve 2-20 is rotatably connected with a middle end bracket 2-1, the first bevel gear shaft 2-6 is rotatably connected with the first bevel gear shaft sleeve 2-20, a third bevel gear 2-9 is in meshing transmission with a second bevel gear 2-8, the third bevel gear 2-9 is fixedly connected with a second connecting sleeve 2-26, the second connecting sleeve 2-26 is rotatably connected with a first connecting sleeve 2-25, the first connecting sleeve 2-25 is rotatably connected with the middle end bracket 2-1, a fourth bevel gear 2-10 is fixedly connected with the first connecting sleeve 2-25, a fourth bevel gear 2-10 is in meshing transmission with the first bevel gear 2-7, a fifth bevel gear 2-11 is in meshing transmission with the third bevel gear 2-9, and a sixth bevel gear 2-12 is in meshing transmission with a fourth bevel gear 2-10, one end of a conical tooth shaft II 2-22 is fixedly connected with a conical tooth V2-11, the other end of the conical tooth shaft II 2-22 is fixedly connected with a connecting rod rotating rod II 2-23, one end of a conical tooth shaft sleeve II 2-21 is fixedly connected with a conical tooth VI 2-12, the other end of the conical tooth shaft sleeve II 2-21 is fixedly connected with a driving rotating disk II 2-13, the conical tooth shaft sleeve II 2-21 is rotatably connected with a middle end bracket 2-1, the conical tooth shaft II 2-22 is rotatably connected with the conical tooth shaft sleeve II 2-21, one end of the connecting rod rotating rod II 2-23 is fixedly connected with the conical tooth shaft II 2-22, the other end of the connecting rod rotating rod II 2-23 is hinged with a cutting edge connecting rod II 2-24, the cutting edge connecting rod II 2-24 is hinged with a cutting edge II 2-30, the cutting edge II 2-30 is connected with the driving rotating disk II 2-13 in a sliding manner, the bevel gear nine 2-16 is rotationally connected with the middle end support 2-1, the straight tooth I2-17 is fixedly connected with the bevel gear nine 2-16, the bevel gear nine 2-16 is in meshing transmission with the bevel gear seven 2-14, the bevel gear seven 2-14 is fixedly connected with the connecting sleeve I2-25, the bevel gear eight 2-15 is fixedly connected with the connecting sleeve II 2-26, the bevel gear eight 2-15 is in meshing transmission with the bevel gear ten 2-18, the bevel gear shaft III 2-27 is rotationally connected with the middle end support 2-1, the bevel gear shaft III 2-27 is fixedly connected with the manual driving rod 2-19, the manual driving rod 2-19 is in matching connection with the matching clamping rod I2-28, the matching clamping rod I2-28 is in sliding connection with the middle end support 2-1, the matching clamping rod I2-29 is arranged between the matching clamping rod I2-28 and the middle end support 2-1, the one-way clutch clamping rod II is fixedly connected with the bevel gear ten 2-18, the one-way clutch clamping rod I is in matching connection with the middle end support, the one-way clutch clamping rod I is in sliding connection with the one-way clutch rod II, the one-way clutch rod I27 is fixedly connected with the one-way clutch rod II, and the one-way clutch rod I2-way clutch rod is fixedly connected with the one-way clutch rod and the one-way clutch rod I2-way clutch rod, and the one-2-way clutch rod;

in order to avoid functional interference between processing when the diameter of a ball which can be cut by the first carving edge 2-3 and the second carving edge 2-30 changes and processing of reciprocating swing of the first carving edge 2-3 and the second carving edge 2-30, one-way matching rotation of the first one-way clutch clamping rod and the second one-way clutch clamping rod is avoided, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in one direction effectively, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in opposite directions ineffectively, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in one direction effectively, the diameter of the ball which can be cut by the first carving edge 2-3 and the second carving edge 2-30 changes, and the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in opposite directions ineffectively to avoid functional interference.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, wherein the power assembly 3 comprises a power chassis 3-1, a first sliding rod support 3-2, a first lower rotating rod 3-3, a first transmission belt 3-4, a first belt pulley 3-5, a second lower auxiliary rod 3-6, a driving belt 3-7, a driving belt 3-8, a driving roller 3-9, a two-way circulating slot 3-10, a matching roller 3-11, a roller rotating frame 3-12, a rack rod support 3-13, a first tension spring 3-14, a driving rack rod 3-15, a first limit rod 3-16, a second limit rod 3-17, a manual straight gear 3-18, a first lower rack 3-19, a second lower rack 3-20, an upper fixing rod 3-21 and a rectangular slot 3-22, the first sliding rod 3-2 is connected with the power chassis 3-1 in a sliding manner, the first lower rotating rod 3-3 is connected with the first sliding rod 3-2, the first pulley 3-5 is connected with the first lower rotating rod 3-3, the first lower rotating rod 3-3 is connected with the driving belt pulley 3-4, the driving belt 3-6 is connected with the driving roller 3-7, the driving roller 3-6 is connected with the driving belt pulley 3-9, the matched rollers 3-11 are matched and connected with the bidirectional circulating grooves 3-10, the matched rollers 3-11 are rotatably connected with roller rotating frames 3-12, the upper end fixing rods 3-21 are fixedly connected with the roller rotating frames 3-12, the roller rotating frames 3-12 are rotatably connected with rack rod brackets 3-13, one ends of first tension springs 3-14 are connected with the rack rod brackets 3-13, the other ends of first tension springs 3-14 are connected with the upper end fixing rods 3-21, the driving rack rods 3-15 are fixedly connected with the rack rod brackets 3-13, the rectangular grooves 3-22 are arranged on the power chassis 3-1, second lower end racks 3-20 are slidably connected with the rectangular grooves 3-22, the second lower end racks 3-20 are fixedly connected with the first limiting rods 3-16, the manual straight teeth 3-18 are rotatably connected with the inner ends of the rectangular grooves 3-22, the first lower end racks 3-19 are slidably connected with the rectangular grooves 3-22, the first lower end racks 3-19 are fixedly connected with the second limiting rods 3-17, the middle end brackets 2-1 are fixedly connected with the power brackets 3-1, the first-6 are rotatably connected with the driving back plates 3-1, and the driving belts are matched and meshed with the driving back plates 2-6, and the driving belts 3-1 are connected with the driving back plates 2-1 and the driving racks 3-6.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, in which the contact surface between the lower rotating rod one 3-3 and the lower auxiliary rod 3-6 is non-circular.

The sixth specific implementation mode:

the present embodiment is described with reference to fig. 1 to 12, and the present embodiment further describes the first embodiment, the driving roller 3-9 is externally connected with a matching motor a, and the matching motor a is arranged on the power chassis 3-1.

The invention relates to a processing device of a spherical cavity or a quasi-spherical cavity of a hub die, which has the working principle that:

when in use, the driving roller 3-9 is started to be externally connected with the matched motor A, so that the driving roller 3-9 is driven to rotate, the driving belt 3-8 is driven to move through the driving roller 3-9, the driving belt wheel 3-7 is driven to move through the driving belt 3-8, the lower auxiliary rod 3-6 is driven to rotate through the driving belt wheel 3-7, the lower rotary rod 3-3 is driven to rotate through the lower auxiliary rod 3-6, the belt wheel 3-5 is driven to rotate through the lower rotary rod 3-3, the transmission belt wheel 3-4 is driven to rotate through the belt wheel 3-5, the back plate 1-6 is driven to rotate through the transmission belt wheel 3-4, the spherical clamping rod 1-7 is driven to rotate through the back plate 1-6, the outer end 1-1 is driven to rotate through the spherical clamping rod 1-7 and the spherical clamping groove 1-9, the outer end 1-1 is driven to rotate, the outer end 1-4 is driven to move through the rectangular sliding groove 1-4, the fixed sliding groove 1-2 is driven to move, and the fixed sliding wheel 1-2 is driven to move through the fixed sliding groove 1-3, and the fixed wheel hub is driven to rotate; meanwhile, the back plate 1-6 and the outer end sleeve 1-1 can be relatively rotated, so that the back plate 1-6 drives the spiral chute 1-5 to move, the fixed slider 1-2 is driven to slide along the rectangular chute 1-4 through the spiral chute 1-5, the relative distance among the fixed sliders 1-2 is changed, and the hubs with different specifications can be conveniently fixed; meanwhile, the first sliding rod support 3-2 is pushed, the fixed hub and the first engraving blade 2-3 and the second engraving blade 2-30 are driven by the first sliding rod support 3-2, the driving roller 3-9 rotates to drive the bidirectional circulation groove 3-10 to move, the matching roller 3-11 is driven by the bidirectional circulation groove 3-10 to move, the matching roller 3-11 slides along the tangential direction through the bidirectional circulation groove 3-10, the roller rotating frame 3-12 is driven by the matching roller 3-11 to move, the rack bar support 3-13 is driven by the roller rotating frame 3-12 to move, the rack bar support 3-13 drives the driving rack bar 3-15 to move, and the straight teeth one 2-17 is driven by the driving rack bar 3-15 to rotate, the bevel teeth nine 2-16 are driven to rotate by the straight teeth I2-17, the bevel teeth seven 2-14 are driven to rotate by the bevel teeth nine 2-16, the connecting sleeve I2-25 is driven to rotate by the bevel teeth seven 2-14, the bevel teeth IV 2-10 are driven to rotate by the connecting sleeve I2-25, the bevel teeth IV 2-10 respectively drive the bevel teeth I2-7 and the bevel teeth VI 2-12 to rotate, the driving rotating disc I2-2 and the driving rotating disc II 2-13 are respectively driven to simultaneously rotate, the cutting edges I2-3 and the cutting edges II 2-30 are simultaneously driven to simultaneously rotate, and a spherical or quasi-spherical cavity is conveniently formed on the fixed hub; meanwhile, when the upper end fixing rod 3-21 is in contact with the first limiting rod 3-16 or the second limiting rod 3-17, the direction of the upper end fixing rod 3-21 is changed, the direction of the roller rotating frame 3-12 is changed under the driving of the upper end fixing rod 3-21, the direction of the matching roller 3-11 is changed along the axial movement direction of the driving roller 3-9, and meanwhile, the first engraving blade 2-3 and the second engraving blade 2-30 rotate reversely through the disclosed transmission relation, so that secondary processing of a spherical or quasi-spherical cavity is realized; meanwhile, the second limiting rod 3-17 is manually rotated, and the first lower-end rack 3-19 and the second lower-end rack 3-20 are driven to simultaneously move towards two sides through the second limiting rod 3-17, so that the distance between the first limiting rod 3-16 and the second limiting rod 3-17 is changed, the range of the reciprocating swing angle between the first engraving edge 2-3 and the second engraving edge 2-30 is changed, and cavities with different radians are conveniently formed; simultaneously, manually rotating a manual driving rod 2-19, further driving a third bevel gear shaft 2-27 to rotate through the manual driving rod 2-19, further driving a first one-way clutch clamping rod to move through the third bevel gear shaft 2-27, further driving a second one-way clutch clamping rod to move through the first one-way clutch clamping rod, further driving a tenth bevel gear 2-18 to rotate through the second one-way clutch clamping rod, further driving a eighth bevel gear 2-15 to rotate through the tenth bevel gear 2-18, further driving a second connecting sleeve 2-26 to rotate through the eighth bevel gear 2-15, further driving a third bevel gear 2-9 to rotate through the second bevel gear 2-9, further driving a second bevel gear 2-8 and a fifth bevel gear 2-11 to simultaneously rotate through the third bevel gear 2-9, further driving a first bevel gear shaft 2-6 and a second bevel gear shaft 2-22 to rotate respectively, further driving a first connecting rod 2-5 and a second connecting rod 2-23 to move respectively, further driving a first connecting rod 2-4 and a second connecting rod 2-24 to rotate respectively, and further driving a first 2-3-30 and a second bevel blade to slide respectively to make the first cutting edge and second cutting ball blade to change the diameter; in order to avoid functional interference between processing when the diameter of a ball which can be cut by the first carving edge 2-3 and the second carving edge 2-30 changes and processing of reciprocating swing of the first carving edge 2-3 and the second carving edge 2-30, one-way matching rotation of the first one-way clutch clamping rod and the second one-way clutch clamping rod is avoided, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in one direction effectively, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in opposite directions ineffectively, the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in one direction effectively, the diameter of the ball which can be cut by the first carving edge 2-3 and the second carving edge 2-30 changes, and the first one-way clutch clamping rod and the second one-way clutch clamping rod rotate in opposite directions ineffectively to avoid functional interference.

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

Claims (3)

1. The utility model provides a processing equipment of spherical cavity of wheel hub mould or quasi-spherical cavity, includes fixed subassembly (1), cavity processing subassembly (2), power component (3), its characterized in that: the fixed component (1) is connected with the power component (3) in a matching way, and the cavity processing component (2) is connected with the power component (3) in a matching way;

the fixing component (1) comprises an outer end sleeve (1-1), a fixing slider (1-2), a fixing round wheel (1-3), a rectangular sliding groove (1-4), a spiral sliding groove (1-5), a back plate (1-6), a spherical clamping rod (1-7), a spherical clamping rod push spring (1-8) and a spherical clamping groove (1-9), the rectangular sliding groove (1-4) is arranged on the outer end sleeve (1-1), the fixed slider (1-2) is connected with the rectangular sliding groove (1-4) in a sliding mode, the fixed round wheel (1-3) is connected with the fixed slider (1-2) in a rotating mode, the fixed slider (1-2) is connected with the spiral sliding groove (1-5) in a sliding mode, the spiral sliding groove (1-5) is arranged on the back plate (1-6), the back plate (1-6) is connected with the outer end sleeve (1-1) in a rotating mode, the spherical clamping rod (1-7) is connected with the back plate (1-6) in a sliding mode, the spherical clamping rod push spring (1-8) is arranged between the spherical clamping rod (1-7) and the back plate (1-6), the spherical clamping rod (1-7) is connected with the spherical clamping groove (1-9) in a matching mode, and the spherical clamping groove (1-9) is arranged at the inner end of the sleeve (1-1);

the cavity processing assembly (2) comprises a middle end support (2-1), a first driving rotary disc (2-2), a first cutting edge (2-3), a first cutting edge connecting rod (2-4), a first connecting rod rotary rod (2-5), a first conical gear shaft (2-6), a first conical gear (2-7), a second conical gear (2-8), a third conical gear (2-9), a fourth conical gear (2-10), a fifth conical gear (2-11), a sixth conical gear (2-12), a second driving rotary disc (2-13), a seventh conical gear (2-14), an eighth conical gear (2-15), a ninth conical gear (2-16), a first straight gear (2-17), a tenth conical gear (2-18), a manual driving rod (2-19), a first conical gear shaft sleeve (2-20), a second conical gear shaft sleeve (2-21), a second conical gear shaft (2-22), a second connecting rod rotary rod (2-23), a second cutting edge connecting rod (2-24), a first connecting sleeve (2-25), a second connecting sleeve (2-25), a first conical gear shaft sleeve (2-20), a second conical gear shaft sleeve (2-21), a first clutch rod (2-24), a first clutch rod (27-23), a second clutch rod (2-24), a first clutch rod (28-24), a second clutch rod (28-24), a one-30) and a one-2-30 one-2-15) and one-15) one-2-15) matching one-15) clutch rod, a one-15) and one-15, the one-way clutch clamping rod pushing spring and the hinged frame are characterized in that a first nicking edge (2-3) is connected with a first driving rotary disk (2-2) in a sliding mode, one end of a first nicking edge connecting rod (2-4) is connected with the first nicking edge (2-3) in a hinged mode, the other end of the first nicking edge connecting rod (2-4) is connected with a first connecting rod rotating rod (2-5) in a hinged mode, a first connecting rod rotating rod (2-5) is fixedly connected with a first bevel gear shaft (2-6), a second bevel gear (2-8) is fixedly connected with a first bevel gear shaft (2-6), one end of the first bevel gear shaft sleeve (2-20) is fixedly connected to the first driving rotary disk (2-2), the other end of the first bevel gear shaft sleeve (2-20) is fixedly connected to a first bevel gear shaft (2-7), the first bevel gear shaft sleeve (2-20) is rotatably connected with a middle end support (2-1), the first bevel gear shaft (2-6) is rotatably connected with the first bevel gear shaft sleeve (2-20), a third bevel gear (2-9) is fixedly connected with a second bevel gear sleeve (2-10), and a fourth bevel gear sleeve (26-2) is fixedly connected to a sleeve (25), bevel gear four (2-10) is in meshing transmission with bevel gear one (2-7), bevel gear five (2-11) is in meshing transmission with bevel gear three (2-9), bevel gear six (2-12) is in meshing transmission with bevel gear four (2-10), one end of a bevel gear shaft II (2-22) is fixedly connected with bevel gear five (2-11), the other end of the bevel gear shaft II (2-22) is fixedly connected with a connecting rod rotating rod II (2-23), one end of a bevel gear shaft sleeve II (2-21) is fixedly connected with bevel gear six (2-12), the other end of the bevel gear shaft sleeve II (2-21) is fixedly connected with a driving rotating disk II (2-13), a second bevel gear shaft sleeve (2-21) is rotationally connected with the middle end bracket (2-1), a second bevel gear shaft (2-22) is rotationally connected with the second bevel gear shaft sleeve (2-21), one end of a second connecting rod rotating rod (2-23) is fixedly connected with the second bevel gear shaft (2-22), the other end of the second connecting rod rotating rod (2-23) is hinged with a second graver connecting rod (2-24), the second graver connecting rod (2-24) is hinged with a second graver (2-30), the second graver (2-30) is slidably connected with a second driving turntable (2-13), and a ninth bevel gear (2-16) is rotationally connected with the middle end bracket (2-1), a first straight tooth (2-17) is fixedly connected with a ninth bevel gear (2-16), the ninth bevel gear (2-16) is in meshing transmission with a seventh bevel gear (2-14), the seventh bevel gear (2-14) is fixedly connected with a first connecting sleeve (2-25), an eighth bevel gear (2-15) is fixedly connected with a second connecting sleeve (2-26), an eighth bevel gear (2-15) is in meshing transmission with a tenth bevel gear (2-18), a third bevel gear shaft (2-27) is rotationally connected with a middle end bracket (2-1), a third bevel gear shaft (2-27) is fixedly connected with a manual driving rod (2-19), the manual driving rod (2-19) is in matching connection with a first matching clamping rod (2-28), a first matching clamping rod (2-28) is in sliding connection with a middle end bracket (2-1), a first matching clamping rod push spring (2-29) is arranged between the first matching clamping rod (2-28) and the middle end bracket (2-1), a second matching clamping rod is fixedly connected with a second clamping rod (2-18), a first one-way clutch rod is in matching with a first one-way clutch rod, a third one-way clutch rod is connected with a one-way clutch rod (27) and a one-way clutch rod, a one-way clutch rod is arranged between the first one-way clutch rod, a one-way clutch rod (2-way clutch rod is connected with a one-way clutch rod (2-26), the one-way clutch clamping rod II is rotationally connected with the hinged frame, and the hinged frame is fixedly connected with the middle-end support (2-1);

the power assembly (3) comprises a power underframe (3-1), a sliding rod support I (3-2), a lower end rotating rod I (3-3), a transmission belt I (3-4), a belt wheel I (3-5), a lower end auxiliary rod (3-6), a driving belt wheel (3-7), a driving belt (3-8), a driving roller (3-9), a bidirectional circulating groove (3-10), a matching roller (3-11), a roller rotating frame (3-12), a rack rod support (3-13), a tension spring I (3-14), a driving rack rod (3-15), a limiting rod I (3-16), a limiting rod II (3-17), a manual straight tooth (3-18), a lower end rack I (3-19), a lower end rack II (3-20), an upper end fixing rod (3-21) and a rectangular groove (3-22), the sliding rod support I (3-2) is in sliding connection with the power underframe (3-1), the lower end rotating rod I (3-3) is rotatably connected with the sliding rod support I (3-2), the sliding rod I (3-3) is fixedly connected with the sliding rod (3-5), the transmission belt wheel I (3-5) is fixedly connected with the belt wheel I (3-4), the lower end auxiliary rod (3-6) is rotationally connected with the power chassis (3-1), the driving belt wheel (3-7) is fixedly connected with the lower end auxiliary rod (3-6), one end of the driving belt (3-8) is connected with the driving belt wheel (3-7) in a matching way, the lower end rotating rod I (3-3) is connected with the lower end auxiliary rod (3-6) in a sliding matching way, the driving roller (3-9) is rotationally connected with the power chassis (3-1), the bidirectional circulating groove (3-10) is arranged on the driving roller (3-9), the matching roller (3-11) is connected with the bidirectional circulating groove (3-10) in a matching way, the matching roller (3-11) is rotationally connected with the roller rotating frame (3-12), the upper end fixing rod (3-21) is fixedly connected with the roller rotating frame (3-12), the roller rotating frame (3-12) is rotationally connected with the rack rod bracket (3-13), one end of the tension spring I (3-14) is connected with the rack rod bracket (3-13), the other end of the tension spring I (3-14) is fixedly connected with the rack rod bracket (3-1, the driving belt (3-6) is arranged on the rack rod bracket (3-1), a second lower-end rack (3-20) is connected with the rectangular groove (3-22) in a sliding mode, the second lower-end rack (3-20) is fixedly connected with a first limiting rod (3-16), a manual straight tooth (3-18) is connected to the inner end of the rectangular groove (3-22) in a rotating mode, a first lower-end rack (3-19) is connected with the rectangular groove (3-22) in a sliding mode, a first lower-end rack (3-19) is fixedly connected with a second limiting rod (3-17), a middle-end support (2-1) is fixedly connected with a power chassis (3-1), a back plate (1-6) is connected with the power chassis (3-1) in a rotating mode, a first transmission belt (3-4) is connected with the back plate (1-6) in a matching mode, a driving belt (3-8) is connected with a driving roller (3-9) in a matching mode, and a first straight tooth (2-17) is meshed with the driving rack rod (3-15) in a transmission mode.

2. The apparatus for processing a spherical cavity or a quasi-spherical cavity of a hub mold according to claim 1, wherein: the contact surface of the lower end rotating rod I (3-3) and the lower end auxiliary rod (3-6) is non-circular.

3. The apparatus for processing a spherical cavity or a quasi-spherical cavity of a hub mold according to claim 1, wherein: the driving rollers (3-9) are externally connected with a matched motor A, and the matched motor A is arranged on the power chassis (3-1).

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