CN112517678A

CN112517678A - Shaping system for internal and external machining of vehicle hub

Info

Publication number: CN112517678A
Application number: CN202011366399.7A
Authority: CN
Inventors: 彭松桂; 李丽
Original assignee: Hunan Product Source Machinery Manufacturing Co ltd
Current assignee: Hunan Product Source Machinery Manufacturing Co ltd
Priority date: 2020-11-29
Filing date: 2020-11-29
Publication date: 2021-03-19

Abstract

The invention provides an internal and external machining and shaping system for a vehicle hub, which comprises an inner ring machining seat and a turnover seat, wherein the inner ring machining seat and the turnover seat are arranged below an inner ring machining machine, a hinged support is arranged at the top of the inner ring machining seat, one end of the turnover seat is hinged to the hinged support, a lateral limiting rod is movably arranged on the turnover seat positioned at one end of a supporting leg, a positioning area is formed between the installed lateral limiting rod and a positioning plate, a first pushing cylinder is arranged at the top of the turnover seat above the hinged support, the positioning plate is arranged on a piston rod of the first pushing cylinder, and a turnover assembly is arranged on the inner ring machining seat at one side of the turnover seat; the hinged support outside below is equipped with linear module, installs wheel hub bearing subassembly on linear module's the slider, and linear module output top is equipped with the periphery processing machine. Can process inside and outside the wheel hub in proper order after this scheme of adoption, its processing is effectual, degree of automation is high.

Description

Shaping system for internal and external machining of vehicle hub

Technical Field

The invention relates to the technical field of vehicle hub production, in particular to an internal and external machining and shaping system for a vehicle hub.

Background

The hub is a rotating part of a wheel core, wherein the wheel core is connected with the inner profile steel of the tire through a stand column, namely a metal part which supports the center of the tire and is arranged on a shaft. Also called rim, steel ring, wheel and tyre bell. The hub is of various kinds according to diameter, width, molding mode and material. Wheel hub need carry out the plastic to inner circle and surface when production, and the current is that the material loading plastic processing is carried out again to outer periphery processing machine department through the transfer car after the inner ring processing again, and this kind of mode process is complicated, and the operation degree of difficulty is big, and is efficient.

Disclosure of Invention

The invention aims to provide a shaping system for machining the inside and the outside of a vehicle hub, which has high efficiency and a compact structure.

In order to achieve the purpose, the technical scheme provided by the invention is as follows: a shaping system for machining the inside and outside of a vehicle hub comprises an inner ring machining seat and a turnover seat, wherein the inner ring machining seat is arranged below an inner ring machining machine, a hinged seat is arranged at the top of the inner ring machining seat, one end of the turnover seat is movably hinged to the hinged seat through a hinged shaft, a supporting leg is arranged at the bottom of the other end of the turnover seat, a lateral limiting rod is movably arranged on the turnover seat at one end of the supporting leg, a positioning area is formed between the mounted lateral limiting rod and the positioning plate, a first pushing cylinder is arranged at the top of the turnover seat above the hinged seat, the positioning plate is arranged on a piston rod of the first pushing cylinder, and a turnover assembly is arranged on the inner ring machining seat at one; the hinged support outside below is equipped with linear module, installs wheel hub bearing subassembly on linear module's the slider, and linear module output top is equipped with the periphery processing machine.

The hub supporting assembly comprises a hub supporting assembly, a hub shaping frame, a power gear, a motor, a transmission shaft; the both sides of the periphery plastic frame top other end are fixed with the bearing axle seat, the bearing axle seat top is equipped with the recessed bearing axle groove that forms, movable mounting has the loose axle between two bearing axle grooves, movable riding wheel is installed at the loose axle both ends, the loose axle tip forms the bearing end after passing movable riding wheel, the bearing end is by bearing axle groove bearing, install the top wheel subassembly on the periphery plastic frame between bearing frame and the bearing axle seat, the top wheel subassembly is connected with the loose axle, fixed riding wheel, form the support hub district between the movable riding wheel, support hub position is below upset subassembly output.

The top wheel assembly comprises a top wheel cylinder, two fixed sleeves and a top wheel shaft, wherein the two fixed sleeves are fixed on two sides of a peripheral shaping frame respectively, central lines of the two fixed sleeves after fixation are located on the same straight line, the end parts of the top wheel shaft are movably sleeved in the corresponding fixed sleeves, a top wheel support rod is fixedly connected to the middle part of the top wheel shaft, the top wheel support rod is connected with the middle part of a movable shaft, one end of the top wheel cylinder is hinged to the lower part of the peripheral shaping frame, the other end of the top wheel cylinder is upwards inclined and hinged to the middle part of the top wheel support rod, the two fixed supporting wheels are respectively located at two ends of the synchronous shaft, and supporting teeth are distributed on one opposite side of.

The turnover component comprises a cross beam and a sliding seat, wherein the cross beam is horizontally arranged on one side of the top of the inner ring machining seat, an inwards concave transverse sliding groove is formed in the cross beam on one side of the turnover seat, the sliding seat is movably embedded in the transverse sliding groove, a second pushing cylinder is arranged on the top of the inner ring machining seat at one end of the cross beam, a piston rod of the second pushing cylinder is connected with the sliding seat, the top and the bottom of the inner side of the transverse sliding groove are respectively expanded to form a limiting groove, the top and the bottom of the inner end of the sliding seat are respectively expanded to form a limiting plate, and the limiting plates are movably embedded in; a vertical beam is fixed on the sliding seat on one side of the overturning seat, a vertical chute is arranged on the vertical beam on one side of the overturning seat, a swing arm is vertically fixed on the top of the overturning seat on one side of the vertical beam, a pulley is movably mounted on the top of the swing arm, the mounted pulley is movably embedded in the vertical chute, the vertical beams on two sides of an opening of the vertical chute extend relatively to form a limiting edge, and the mounted pulley is limited by the limiting edge; the length direction of the transverse sliding groove is consistent with that of the cross beam, and the length direction of the vertical sliding groove is consistent with that of the vertical beam; the central line of the transverse sliding groove and the central line of the vertical sliding groove are in a cross shape, a lateral limiting rod hole which penetrates through the overturning seat from top to bottom is formed in the middle of one end of the supporting leg, and the lower portion of the lateral limiting rod is movably inserted into the supporting rod hole.

After the scheme is adopted, the hub is placed at the top of the overturning seat in the positioning area, one side of the hub is in contact with the lateral limiting rod, the piston rod of the first pushing cylinder extends out to drive the positioning plate to abut against the other side of the hub, the hub is clamped and positioned by the positioning plate and the lateral limiting rod, then inner ring shaping processing is carried out by an inner ring processing machine (shaping machine), after the processing is finished, the second pushing cylinder sends the hub into the hub bearing assembly, the hub is supported by the fixed supporting wheel and the movable supporting wheel, after the supporting, peripheral shaping processing is carried out by a peripheral processing machine (shaping machine), and after the processing is finished, output is carried out.

Drawings

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

Fig. 2 is a schematic view of the installation of the vertical chute of the present invention.

FIG. 3 is a schematic view of the top wheel assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings, in which preferred embodiments of the invention are: the shaping system for the internal and external machining of the vehicle hub comprises an inner ring machining seat 1 and a turnover seat 2 which are installed below an inner ring machining machine, wherein a hinged support 3 is installed at the top of the inner ring machining seat 1, one end of the turnover seat 2 is movably hinged to the hinged support 3 through a hinged shaft, a supporting leg 4 is installed at the bottom of the other end of the turnover seat 2, a lateral limiting rod 5 is movably installed on the turnover seat 2 located at one end of the supporting leg 4, a positioning area is formed between the installed lateral limiting rod 5 and the positioning plate 7, a first pushing cylinder 6 is installed at the top of the turnover seat 2 above the hinged support 3, the positioning plate 7 is installed on a piston rod of the first pushing cylinder 6, and a turnover assembly is installed on the inner ring machining seat 1 on one side of the turnover; linear module is equipped with to 3 outside outsides of free bearing, installs wheel hub bearing subassembly on the slider of linear module, and linear module output top is equipped with the periphery processing machine.

The wheel hub supporting assembly comprises a peripheral shaping frame 101, wherein bearing seats 102 are fixed on two sides of one end of the top of the peripheral shaping frame 101, a synchronizing shaft 103 is movably arranged between the two bearing seats 102, one end of the synchronizing shaft 103 penetrates through the bearing seats 102 to be connected with a power gear, the power gear is driven by a corresponding motor to rotate, and a fixed riding wheel 104 is arranged on the synchronizing shaft 103 between the two bearing seats 102; the both sides of the periphery shaping frame 101 top other end are fixed with bearing axle seat 105, bearing axle seat 105 top is equipped with recessed bearing axle groove 106 that forms, movable mounting has loose axle 107 between two bearing axle grooves 106, movable riding wheel 108 is installed at loose axle 107 both ends, the loose axle 107 tip forms the bearing end after passing movable riding wheel 108, the bearing end is by bearing axle groove 106 bearing, install the top wheel subassembly on the periphery shaping frame 101 between bearing frame 102 and the bearing axle seat 105, the top wheel subassembly is connected with loose axle 107, fixed riding wheel 104, form between the movable riding wheel 108 and hold in the palm the hub district, it is below in upset subassembly output side to hold in the hub district.

The top wheel subassembly is including top wheel cylinder 109, fixed cover 1010, top wheel axle 1011, wherein, fixed cover 1010 is two, fix respectively in periphery shaping frame 101 both sides, two fixed cover 1010 central lines after fixing are located same straight line, top wheel axle 1011 tip activity suit is in corresponding fixed cover 1010, top wheel axle 1011 middle part fixedly connected with top wheel branch 1012, top wheel branch 1012 is connected with loose axle 107 middle part, top wheel cylinder 109 one end articulates in periphery shaping frame 101 lower part, top wheel cylinder 109 other end slope upwards is articulated with top wheel branch 1012 middle part, fixed riding wheel 104 is two, be located synchronizing shaft 103 both ends respectively, fixed riding wheel 104, the relative one side of activity riding wheel 108 all is the toper distribution and has support tooth 1013.

The overturning assembly comprises a cross beam 8 and a sliding seat 10, wherein the cross beam 8 is horizontally arranged on one side of the top of the inner ring processing seat 1, a concave transverse sliding groove 9 is arranged on the cross beam 8 on one side of the overturning seat 2, the sliding seat 10 is movably embedded in the transverse sliding groove 9, a second pushing cylinder 11 is arranged on the top of the inner ring processing seat 1 at one end of the cross beam 8, a piston rod of the second pushing cylinder 11 is connected with the sliding seat 10, limiting grooves 16 are formed by expanding the top and the bottom of the inner side of the transverse sliding groove 9, limiting plates are formed by expanding the top and the bottom of the inner end of the sliding seat 10, and the limiting plates are movably embedded in the corresponding limiting; a vertical beam 15 is fixed on the sliding seat 10 positioned on one side of the turnover seat 2, a vertical sliding groove 12 is arranged on the vertical beam 15 positioned on one side of the turnover seat 2, a swing arm 13 is vertically fixed on the top of the turnover seat 2 positioned on one side of the vertical beam 15, a pulley 14 is movably installed on the top of the swing arm 13, the installed pulley 14 is movably embedded in the vertical sliding groove 12, the vertical beams 15 on two sides of an opening of the vertical sliding groove 12 extend relatively to form a limiting edge, and the installed pulley 14 is limited by the limiting edge; the length direction of the transverse sliding chute 9 is consistent with that of the cross beam 8, and the length direction of the vertical sliding chute 12 is consistent with that of the vertical beam 15; the central line of the transverse sliding groove 9 and the central line of the vertical sliding groove 12 are in a cross shape, the middle part of the overturning seat 2 positioned at one end of the supporting leg 4 is provided with a lateral limiting rod hole which penetrates up and down, and the lower part of the lateral limiting rod 5 is movably inserted in the supporting rod hole.

When the inner ring shaping processing is carried out, a piston rod of the second pushing cylinder extends out in an initial state, the pulley is positioned at the lower part of the vertical sliding groove, the bottom of the supporting leg is abutted against the inner ring processing seat, the overturning seat is in a horizontal state, the piston rod of the first pushing cylinder contracts, and the positioning area is at the maximum value; the wheel hub is placed at the top of the turnover seat in the positioning area, one side of the wheel hub is in contact with the lateral limiting rod, a piston rod of the first pushing cylinder extends out to drive the positioning plate to abut against the other side of the wheel hub, the wheel hub is clamped and positioned with the lateral limiting rod through the positioning plate, after positioning, the piston rod of the second pushing cylinder contracts to pull the sliding seat to move, the sliding seat drives the vertical beam to move synchronously, the vertical beam further pulls the pulley to move towards the upper part of the vertical sliding groove, the pulley drives the turnover seat to turn upwards by taking a hinge shaft as a center through a swing arm, the turnover seat drives the wheel hub to turn synchronously, after turning in place, at the moment, the first pushing cylinder and the positioning plate are both positioned in the wheel hub area, both sides of the outer peripheral surface of the wheel hub are supported by corresponding fixed supporting wheels and movable supporting wheels, the piston rod of the first pushing cylinder contracts, the lateral, the piston rod of the second pushing cylinder extends out to drive the sliding seat to move so as to reset the overturning seat, at the moment, the wheel hub is supported by the fixed riding wheel and the movable riding wheel, the linear module drives the outer periphery shaping frame to move to the lower part of the outer periphery processing machine, the outer periphery processing machine carries out shaping processing on the surface of the wheel hub, and during the shaping processing,

the motor is arranged on the periphery shaping frame, the driving gear is arranged on the motor transmission shaft and is meshed with the power gear, the motor drives the driving gear to rotate, the driving gear drives the power gear to rotate, the power gear synchronously drives the two fixed supporting wheels to rotate through a synchronizing shaft, the fixed supporting wheels drive the wheel hub to rotate through supporting teeth while rotating, the movable supporting wheels are driven by the wheel hub to synchronously rotate, so that all parts on the periphery of the wheel hub are uniformly shaped and processed, after the supporting teeth are adopted, the friction force between the supporting wheels and the wheel hub is increased, the contact surface between the supporting wheels and the wheel hub is reduced, after the shaping of the wheel hub is finished, a piston rod of a top wheel cylinder extends out to drive a movable end (connected end with the movable shaft) of a top wheel supporting rod to move upwards, the movable shaft moves upwards through the movable supporting wheels synchronously, the movable supporting wheels lift the wheel hub on the side, and the wheel hub is supported by the, the top wheel cylinder continues to rise, and under the rotation fit of the fixed riding wheel, the wheel hub rolls out of the fixed riding wheel and is guided out through the external guide plate, and the processing is completed.

Claims

1. The utility model provides an inside and outside processing plastic system of vehicle wheel hub which characterized in that: the inner ring machining device comprises an inner ring machining seat (1) and a turning seat (2) which are arranged below an inner ring machining machine, wherein a hinged support (3) is arranged at the top of the inner ring machining seat (1), one end of the turning seat (2) is movably hinged to the hinged support (3) through a hinged shaft, a supporting leg (4) is arranged at the bottom of the other end of the turning seat (2), a lateral limiting rod (5) is movably arranged on the turning seat (2) positioned at one end of the supporting leg (4), a positioning area is formed between the mounted lateral limiting rod (5) and a positioning plate (7), a first pushing cylinder (6) is arranged at the top of the turning seat (2) above the hinged support (3), the positioning plate (7) is arranged on a piston rod of the first pushing cylinder (6), and a turning assembly is arranged on the inner ring machining seat (1) on one side of the turning seat; the outside below of free bearing (3) is equipped with linear module, installs wheel hub bearing subassembly on linear module's the slider, and linear module output top is equipped with the periphery processing machine.

2. The vehicle hub inner and outer machining and shaping system according to claim 1, wherein: the wheel hub bearing assembly comprises a hub bearing assembly peripheral shaping frame (101), wherein bearing seats (102) are fixed on two sides of one end of the top of the peripheral shaping frame (101), a synchronizing shaft (103) is movably mounted between the two bearing seats (102), one end of the synchronizing shaft (103) penetrates through the bearing seats (102) to be connected with a power gear, the power gear is driven by a corresponding motor to rotate, and a fixed riding wheel (104) is mounted on the synchronizing shaft (103) between the two bearing seats (102); the both sides of periphery shaping frame (101) top other end are fixed with bearing axle seat (105), bearing axle seat (105) top is equipped with recessed bearing axle groove (106) that form, movable mounting has loose axle (107) between two bearing axle grooves (106), movable riding wheel (108) are installed at loose axle (107) both ends, movable axle (107) tip passes movable riding wheel (108) back and forms the bearing end, the bearing end is by bearing axle groove (106) bearing, install the top wheel subassembly on periphery shaping frame (101) between bearing frame (102) and the bearing axle seat (105), the top wheel subassembly is connected with loose axle (107), fixed riding wheel (104), form between the movable riding wheel (108) and hold in the palm the hub district, it is below in upset subassembly output side to hold in the hub district.

3. The vehicle hub inner and outer machining and shaping system according to claim 1, wherein: the top wheel assembly comprises two top wheel cylinders (109), two fixed sleeves (1010) and a top wheel shaft (1011), wherein the two fixed sleeves (1010) are fixed on two sides of a peripheral shaping frame (101) respectively, the central lines of the two fixed sleeves (1010) after being fixed are located on the same straight line, the end parts of the top wheel shaft (1011) are movably sleeved in the corresponding fixed sleeves (1010), the middle parts of the top wheel shaft (1011) are fixedly connected with top wheel supporting rods (1012), the top wheel supporting rods (1012) are connected with the middle parts of movable shafts (107), one end of each top wheel cylinder (109) is hinged to the lower part of the peripheral shaping frame (101), the other end of each top wheel cylinder (109) inclines upwards to be hinged to the middle parts of the top wheel supporting rods (1012), two fixed supporting wheels (104) are located at two ends of a synchronous shaft (103) respectively, the fixed supporting wheels (104) and supporting teeth (1013) are distributed on one side, which the.

4. The vehicle hub inner and outer machining and shaping system according to claim 1, wherein: the turnover component comprises a cross beam (8) and a sliding seat (10), wherein the cross beam (8) is horizontally arranged on one side of the top of the inner ring processing seat (1), the cross beam (8) positioned on one side of the turnover seat (2) is provided with an inwards concave transverse sliding groove (9), the sliding seat (10) is movably embedded in the transverse sliding groove (9), the top of the inner ring processing seat (1) at one end of the cross beam (8) is provided with a second pushing cylinder (11), a piston rod of the second pushing cylinder (11) is connected with the sliding seat (10), the top and the bottom of the inner side of the transverse sliding groove (9) are respectively expanded to form a limiting groove (16), the top and the bottom of the inner end of the sliding seat (10) are respectively expanded to form a limiting plate, and the limiting plates are movably embedded in; a vertical beam (15) is fixed on the sliding seat (10) positioned on one side of the turnover seat (2), a vertical sliding groove (12) is arranged on the vertical beam (15) positioned on one side of the turnover seat (2), a swing arm (13) is vertically fixed on the top of the turnover seat (2) positioned on one side of the vertical beam (15), a pulley (14) is movably mounted at the top of the swing arm (13), the mounted pulley (14) is movably embedded in the vertical sliding groove (12), the vertical beams (15) on two sides of an opening of the vertical sliding groove (12) extend relatively to form a limiting edge, and the mounted pulley (14) is limited by the limiting edge; the length direction of the transverse sliding chute (9) is consistent with that of the cross beam (8), and the length direction of the vertical sliding chute (12) is consistent with that of the vertical beam (15); the central line of the transverse sliding groove (9) and the central line of the vertical sliding groove (12) are in a cross shape, the middle part of the overturning seat (2) positioned at one end of the supporting leg (4) is provided with a lateral limiting rod hole which penetrates through the upper part and the lower part of the lateral limiting rod (5) is movably inserted in the supporting rod hole.