CN112642911B - Non-module control spinning equipment for air inlet of fan and application method of non-module control spinning equipment - Google Patents

Abstract

The invention discloses a non-module control spinning device for a fan air inlet, which comprises a supporting roller, a pressing roller, a spinning disc, a sixth telescopic rod, a first telescopic rod, a fixed seat, a second telescopic rod, a fixed frame arranged on the second telescopic rod, a driving piece arranged on the fixed frame, an oiling device arranged on the fixed frame, a driving device arranged on the fixed frame, an oil supply device arranged on the fixed frame and a dismounting device arranged at one end of the driving device, wherein the fixed frame is provided with a first elastic piece; the oiling device comprises a first moving frame arranged on the fixed frame, a first moving block arranged on the first moving frame, a connecting plate arranged on one side of the first moving block, an oiling piece arranged on the connecting plate, a first oil inlet groove arranged on the first moving block, a second oil inlet groove arranged on the connecting plate and a connecting pipe used for connecting the first oil inlet groove and the second oil inlet groove.

Description

Non-module control spinning equipment for air inlet of fan and application method of non-module control spinning equipment

Technical Field

The invention belongs to the field of spinning equipment, and particularly relates to a non-module control spinning equipment for an air inlet of a fan and a use method thereof.

Background

When the existing spinning equipment processes a workpiece, lubricating oil is generally required to be smeared on the surface of the workpiece, and the workpiece processing effect is improved, but the existing equipment generally requires manual smearing of the lubricating oil on the workpiece, so that the labor cost is increased, and the processing efficiency is reduced.

Disclosure of Invention

The invention provides the non-module control spinning equipment for the air inlet of the fan, which is used for reducing the labor cost and increasing the processing efficiency, so as to overcome the defects of the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the non-module control spinning equipment for the air inlet of the fan comprises a supporting roller, a pressing roller arranged on one side of the supporting roller, a spinning disc arranged on one side of the supporting roller, a sixth telescopic rod arranged on the spinning disc, a first telescopic rod arranged on the pressing roller, a fixed seat arranged on one side of the supporting roller, a second telescopic rod arranged on the fixed frame, a fixed frame arranged on the second telescopic rod, a driving piece arranged on the fixed frame, an oiling device arranged on the fixed frame, a driving device arranged on the fixed frame, an oil supply device arranged on the fixed frame and a dismounting device arranged at one end of the driving device; the oiling device comprises a first moving frame arranged on the fixed frame, a first moving block arranged on the first moving frame, a connecting plate arranged on one side of the first moving block, an oiling piece arranged on the connecting plate, a first oil inlet groove arranged on the first moving block, a second oil inlet groove arranged on the connecting plate, and a connecting pipe used for connecting the first oil inlet groove and the second oil inlet groove; the driving piece and the driving device are arranged in a matched mode, the first moving block can move relative to the first moving frame, the first moving frame is of a C-shaped structure, and the connecting plate can rotate relative to the first moving block.

According to the invention, through the arrangement of the oiling piece, after the workpiece is fixed through the supporting roller and the pressing roller, the second telescopic rod is extended to drive the fixing frame to move, so that the oiling piece is attached to the surface of the workpiece, then the first telescopic rod is rotated to drive the pressing roller and the workpiece to rotate, so that the oiling piece rotates along the workpiece, meanwhile, the first moving block moves along the first moving frame, so that the oiling piece is driven to move outwards along the workpiece, the oiling operation is carried out on the surface of the workpiece in the process of moving the oiling piece, and the oiling piece is matched with the rotation of the workpiece, so that the oiling piece uniformly smears the surface of the workpiece, the lubricating oil smearing effect is improved, the labor cost is reduced, and the machining efficiency is improved; through the setting of connecting pipe, after the work piece is contacted to the oiling piece, with lubricating oil input to first oil feeding groove, connecting pipe, second oil feeding groove and third oil feeding groove in proper order, lubricating oil enters into on the oiling piece afterwards to smear the work piece through the oiling piece, stability when having increased the oil feed, when the connecting plate produced the rotation simultaneously, can guarantee the connection between first oil feeding groove and the second oil feeding groove through the connecting pipe, avoided the condition that lubricating oil spills, stability when having increased equipment use.

The oiling device further comprises an inclined part arranged on the first moving block, a third telescopic rod used for connecting the inclined part and the connecting plate, a first elastic piece arranged in the third telescopic rod, and a first connecting wire used for connecting the first moving block and the third telescopic rod, wherein one end of the first connecting wire penetrates through the inclined part; the third telescopic rod is hinged with the connecting plate; through the setting of first connecting wire, when the oiling piece carries out the oiling to the work piece, stir first connecting wire and drive the third telescopic link and shrink to drive the third telescopic link under the elasticity of first elastic component and reset, make the one end that the third telescopic link drove the connecting plate rotate, and then make the oiling piece produce and rotate, thereby make the oiling piece can swing from top to bottom, and carry out even smearing to the work piece at oiling piece swing from top to bottom's in-process, increased the effect of oiling.

The oiling device further comprises a sliding groove arranged on the first movable frame, an opening arranged at one end of the sliding groove, a sliding block arranged on the sliding groove, a toggle plate arranged at one end of the sliding block and a plurality of control components arranged at one side of the sliding block; the control assembly comprises a through groove arranged on the sliding groove, an inclined groove arranged on one side of the through groove, a fourth telescopic rod arranged on the sliding block, a second elastic piece arranged in the fourth telescopic rod, a limit buckle arranged on the fourth telescopic rod, a limit ring arranged on the limit buckle, a rotating frame arranged on the fourth telescopic rod, a rotating wheel arranged on the rotating frame, a plurality of driving grooves arranged on the rotating wheel, a moving groove arranged on the sliding block, a limiting block arranged on the moving groove, a connecting rod used for connecting the limiting block and the limit ring, a third elastic piece used for connecting the limiting block and the moving groove, and a second connecting line used for connecting the limiting block and the fourth telescopic rod, wherein one end of the second connecting line penetrates through the sliding block; the sliding block can move relative to the sliding groove, the poking plate can move relative to the opening, the plurality of control components are identical in structure and symmetrically arranged, the inclined groove and the connecting rod are arranged in a matched mode, the limiting ring can move relative to the limiting buckle, the rotating wheel can rotate relative to the rotating frame, the driving groove and the first connecting wire are arranged in a matched mode, the limiting block can move relative to the moving groove, the connecting rod and the limiting block are connected in a hinged mode, and the connecting rod and the limiting ring are connected in a hinged mode; through the arrangement of the driving groove, when the first connecting wire is required to be stirred, the stirring plate is pushed to drive the sliding block to move along the sliding groove, so that the connecting rod is separated from the position of the inclined groove, then the limiting block moves along the moving groove under the pulling action of the third elastic piece, and drives the connecting rod to lift obliquely upwards, so as to push the limiting ring to move upwards, and then the limiting ring drives the fourth telescopic rod to stretch, so that the rotating wheel moves upwards and buckles the first connecting wire into the driving groove, and meanwhile, when the first moving block starts to move, the first connecting wire can contact with a plurality of rotating wheels and a plurality of driving grooves and pull the first connecting wire for a plurality of times under the blocking of the driving grooves, so that the oiling piece swings up and down for a plurality of times, the stability and convenience of the oiling piece in swinging up and down are improved, and the oiling effect is improved; when the up-down swinging state of the oiling piece is not needed, the stirring plate is pushed again to drive the sliding block to reset, so that the connecting rod is blocked by the inclined groove to rotate, meanwhile, the limiting block can work the second connecting wire when being driven by the connecting rod to reset, and the fourth telescopic rod is simultaneously driven to shrink through the second connecting wire and the connecting wire, so that the situation that the fourth telescopic rod is inclined under the tensile force of the connecting rod due to the fact that the connecting rod cannot drive the fourth telescopic rod to shrink is avoided, the service life of the equipment is prolonged, and the maintenance cost of the equipment is reduced; through setting up of spacing ring and spacing knot, when the connecting rod drove the fourth telescopic link and shrink or extend, the spacing ring can remove one end distance for spacing knot, has avoided the connecting rod and the easy damaged condition of spacing ring junction that the tight fit led to between spacing ring and the spacing knot.

The oil supply device comprises a second moving frame arranged on the fixed frame, a second moving block arranged on the second moving frame, a guide rod arranged on the fixed frame and one end of which penetrates through the second moving block, a baffle ring arranged at one end of the second moving frame, a support ring arranged at one side of the baffle ring, a cavity arranged in the support ring, a fourth elastic piece arranged in the cavity, a storage pipe used for connecting the support ring and the second moving block, and an oil outlet arranged at one end of the support ring; the second moving frame is of a C-shaped structure, the second moving block can move relative to the second moving frame, the second moving block can move relative to the guide rod, lubricating oil is stored in the storage pipe, the storage pipe and the supporting ring are made of elastic materials, and a valve is arranged on the oil outlet; through the setting of storage pipe, when the oiling piece carries out the oiling operation to the work piece, synchronous start second movable block removes for the second removes the frame for the second movable block extrudes the storage pipe at the in-process that removes, and extrudes the lubricating oil in the storage pipe through the oil-out, and in later will the lubricating oil transmission of extrusion to first oil inlet groove, increased the oil supply stability when oiling piece uses, the mode of oil supply is carried out to oiling piece to the storage pipe through second movable block extrusion simultaneously, increased stability and the accuracy of oil supply.

The oil supply device further comprises a guide assembly arranged on the second movable frame; the guide assembly comprises two guide grooves formed in the second moving frame, a plurality of guide rings formed in the guide grooves, a plurality of fifth elastic pieces respectively used for connecting the guide rings, a ring groove formed in the second moving block, a storage groove formed in one side of the second moving frame, four guide wheels formed in one end of the storage groove, a plurality of guide protruding blocks formed in the guide wheels, four transmission rods respectively penetrating through the four guide wheels, transmission grooves formed in the guide rods, a transmission belt formed in the transmission grooves and one end of which is connected to the second moving block, and a transmission wheel formed in one side of the transmission belt and one end of which is connected to the storage groove; the guide ring can move relative to the guide groove, the guide ring and the annular groove are arranged in a matched mode, the guide wheels can rotate relative to the storage groove, the ends of the four transmission rods are respectively engaged in a meshed mode, the transmission belt can move relative to the transmission groove, the transmission wheel can rotate relative to the storage groove, the transmission wheel and one of the four guide wheels are arranged in a matched mode, and the transmission wheel and the transmission belt are arranged in a matched mode; through the arrangement of the guide wheels and the guide lugs, when the second moving block moves, the transmission belt is pushed to move along the transmission groove, the transmission wheel is driven to rotate when the transmission belt moves, then the guide wheels are driven to rotate through the cooperation of the transmission wheel and one of the guide wheels, after one of the guide wheels starts to rotate, the other guide wheels are driven to rotate through the meshing cooperation among the plurality of transmission rods, so that when the second moving block extrudes the storage pipe, the guide wheels synchronously start to rotate, the position where the storage pipe is extruded to shrink can move into the storage groove under the guiding action of the guide wheels, the shrinkage position of the storage pipe can not outwards deviate, the situation that the storage pipe is separated from the second moving frame due to the outward deviation of the shrinkage position of the storage pipe is avoided, and the stability of the equipment in use is improved; through the arrangement of the guide ring, when the second moving block extrudes the storage pipe, the storage pipe contracts towards the storage pipe under the guide action of the guide ring, so that the condition that the storage pipe bends outwards is avoided, the stability of the storage pipe in use is improved, and when the second moving block moves to the position of the guide ring, the guide ring is buckled into the annular groove and then moves by the second moving block, and the condition that interference is generated between the guide ring and the second moving block is avoided; through the setting of guide lug, when the leading wheel is to the storage pipe when leading, can strengthen the guiding effect of leading wheel through the guide lug, avoided producing the condition that skidding and lead to between leading wheel and the storage pipe can't lead to the storage pipe, increased the guiding effect of leading wheel.

The oil supply device further comprises an oil inlet component arranged on the support ring; the oil inlet assembly comprises an oil inlet pipe penetrating through the support ring and the second movable frame, an adjusting wheel sleeved on the oil inlet pipe and one side of which is connected to the second movable frame, a shielding block arranged on the support ring, an air pipe penetrating through the support ring and the second movable frame, a limit groove arranged on the air pipe, a pushing block arranged in the air pipe and a supporting plate used for connecting the pushing block and the oil inlet pipe; the oil inlet pipe can move relative to the second moving frame, the oil inlet pipe can move relative to the supporting ring, the oil inlet pipe and the shielding block are arranged in a matched mode, a valve is arranged at one end of the oil inlet pipe, the adjusting wheel can rotate relative to the second moving frame, the adjusting wheel is in threaded connection with the oil inlet pipe, one end of the air pipe is communicated with the cavity, the pushing block can move relative to the air pipe, and the supporting plate can move relative to the limiting groove; through the setting of ejector pad, when needs add lubricating oil to the storage intraductal, rotate the regulating wheel and drive the oil feed pipe through the threaded connection between regulating wheel and the oil feed pipe and upwards remove, make the one end of oil feed pipe break away from the position of hiding the dog, simultaneously carry out the fuel feeding through the oil feed pipe to the storage intraductal, after the lubricating oil reserves in the storage intraductal is full of, the oil feed pipe continues the fuel feeding and makes the support ring receive the extrusion and produce the compression, make the gaseous extrusion of intracavity to the trachea and promote the ejector pad and remove downwards, and then drive the oil feed pipe through the backup pad and remove downwards, after the position that the oil feed pipe removed to hiding the dog simultaneously the ejector pad is blocked up by the shadow piece and is stopped carrying out the fuel feeding to the storage intraductal, make the oil feed pipe can the automatic stop to the fuel feeding operation of storage pipe, convenience when having increased equipment use, can exist certain space between ejector pad and spacing groove simultaneously after removing to tracheal bottom, make outside air enter into trachea and cavity from the space, the cavity is re-inflated, the use of supporting ring has been made things convenient for the follow-up.

The driving device comprises a driving rod arranged on the fixing frame, a first arc-shaped block used for connecting the driving rod with the first moving block, and a second arc-shaped block used for connecting the driving rod with the second moving block; the first arc-shaped block is in threaded connection with the driving rod, and the second arc-shaped block is in threaded connection with the driving rod; through the setting of actuating lever, when first movable block and second movable block need be removed, start the actuating member and drive the actuating lever and rotate, drive first arc piece and second arc piece through threaded connection and rotate along the actuating lever afterwards, increased the synchronism when first movable block and second movable block remove, guaranteed the oiling piece and can carry out stable fuel feeding to it through the second movable block when using.

The dismounting device comprises a baffle plate arranged on a first movable frame, a dismounting groove arranged on the baffle plate, a third arc-shaped block used for connecting the first movable block and the first arc-shaped block, a guide groove arranged on the first arc-shaped block, a clamping plate used for connecting the first arc-shaped block and the third arc-shaped block, a plurality of clamping grooves arranged on the first arc-shaped block, a plurality of fifth telescopic rods arranged on the third arc-shaped block, a plurality of clamping blocks respectively arranged on the fifth telescopic rods, a plurality of sixth elastic pieces respectively used for connecting the fifth telescopic rods and the third arc-shaped block, a plurality of third connecting lines penetrating through the third arc-shaped block, a plurality of connecting blocks respectively arranged on the third connecting lines, a plurality of grooves arranged on the third arc-shaped block, a dismounting block arranged on one side of the baffle plate, a plurality of jacking blocks arranged on one end of the dismounting block, a plurality of rotating plates arranged on the dismounting block, a plurality of pressing pieces arranged on the dismounting block and positioned on one end of the rotating plate, and a convex strip arranged on the other end of the rotating plate; the first moving block and the dismounting groove are arranged in a matched mode, the clamping plate can move relative to the guide groove, the clamping block and the clamping groove are arranged in a matched mode, the third connecting line can move relative to the third arc-shaped block, the top block and the connecting block are arranged correspondingly, the rotating plate can rotate relative to the dismounting block, and the convex strips and the grooves are arranged in a matched mode; through the arrangement of the disassembly blocks, when the first movable block and the oiled piece are required to be disassembled, the disassembly blocks are pushed to the disassembly groove, in the process of moving the disassembly blocks, the jacking blocks can contact one side of the connecting blocks and drive the connecting blocks to move through the jacking blocks, then the connecting blocks pull the third connecting lines and drive the fifth telescopic rods to shrink through the third connecting lines, so that the clamping blocks are separated from the clamping grooves, then the pressing blocks are pressed to enable one end of the rotating plate to rotate towards the inner side of the disassembly blocks, meanwhile, the other side of the rotating plate rotates towards the outer side of the disassembly blocks, the convex strips are buckled into the grooves, and then the disassembly blocks are pulled under the condition of pressing the pressing pieces, so that the disassembly blocks drive the first movable blocks to move outwards, and convenience in the disassembly of the first movable blocks is improved; through the setting of cardboard and guide way, when third arc piece and first arc piece interconnect, can increase the stability of being connected between first arc piece and the third arc piece through the mode that the cardboard was detained to the guide way in.

The invention also discloses a use method of the modulus-free control spinning equipment for the air inlet of the fan, which comprises the following steps:

1) Placing the workpiece on a support roller;

2) The first telescopic rod drives the pressing roller to fix the workpiece;

3) Rotating the first telescopic rod and driving the workpiece to rotate;

4) Coating lubricating oil on the workpiece by using an oiling device;

5) And spinning the workpiece by using a spinning disc.

In summary, the invention has the following advantages: reduces labor cost and increases processing efficiency.

Drawings

Fig. 1 is a schematic structural view of a spinning apparatus of the present invention.

Fig. 2 is a schematic structural diagram of the oiling device of the present invention.

Fig. 3 is a front view of the oiling device of the present invention.

Fig. 4 is a cross-sectional view of fig. 3 taken along line A-A in accordance with the present invention.

Fig. 5 is an enlarged view of a portion of fig. 4 a in accordance with the present invention.

Fig. 6 is an enlarged view of a portion of fig. 5 a in accordance with the present invention.

Fig. 7 is a cross-sectional view of fig. 3 taken along line B-B in accordance with the present invention.

Fig. 8 is an enlarged view of a portion of fig. 7 a in accordance with the present invention.

Fig. 9 is an enlarged view of a portion of fig. 8 in accordance with the present invention.

Fig. 10 is a cross-sectional view of fig. 3 taken along line C-C in accordance with the present invention.

Fig. 11 is an enlarged view of a portion of fig. 10 a in accordance with the present invention.

Fig. 12 is a partial enlarged view of the present invention at B in fig. 10.

Fig. 13 is an enlarged view of a portion of fig. 10C in accordance with the present invention.

Fig. 14 is a partial enlarged view of the present invention at D in fig. 10.

Fig. 15 is a side view of the present invention.

Fig. 16 is a cross-sectional view of fig. 15 taken along line D-D in accordance with the present invention.

Fig. 17 is an enlarged view of a portion of fig. 16 a in accordance with the present invention.

Fig. 18 is an enlarged view of a portion of fig. 17 a in accordance with the present invention.

Fig. 19 is a partial enlarged view of the present invention at B in fig. 16.

Fig. 20 is an enlarged view of a portion of fig. 16C in accordance with the present invention.

Fig. 21 is a partial enlarged view of the present invention at D in fig. 16.

Fig. 22 is a general assembly view of embodiment 2 of the present invention.

Fig. 23 is a block diagram of the infeed mechanism of the present invention.

Fig. 24 is a structural view of a main rotating member of the present invention.

Fig. 25 is a structural view of the hydraulic locking mechanism of the present invention.

FIG. 26 is a block diagram of the spinning wheel and tool post portion of the present invention.

Fig. 27 is a structural view of the vertical lift mechanism of the present invention.

Detailed Description

In order to enable those skilled in the art to better understand the present invention, the following description will make clear and complete descriptions of the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-27;

example 1:

a non-module control spinning device for a fan air inlet comprises a supporting roller 1, a pressing roller 11 arranged on one side of the supporting roller, a spinning disc 12 arranged on one side of the supporting roller, a sixth telescopic rod 13 arranged on the spinning disc, a first telescopic rod 14 arranged on the pressing roller, a fixed seat 15 arranged on one side of the supporting roller, a second telescopic rod 16 arranged on the fixed frame, a fixed frame 17 arranged on the second telescopic rod, a driving piece 18 arranged on the fixed frame, an oiling device 2 arranged on the fixed frame, a driving device 3 arranged on the fixed frame, an oil supply device 4 arranged on the fixed frame and a dismounting device 5 arranged at one end of the driving device; the spinning disc is in the prior art, the sixth telescopic rod is an air rod driven by the air pump, the first telescopic rod is an air rod driven by the air pump, the second telescopic rod is an air rod driven by the air pump, and the driving piece is a motor.

The oiling device 2 comprises a first moving frame 21 arranged on the fixed frame, a first moving block 22 arranged on the first moving frame, a connecting plate 23 arranged on one side of the first moving block, an oiling piece 24 arranged on the connecting plate, a first oil inlet groove 25 arranged on the first moving block, a second oil inlet groove 26 arranged on the connecting plate, and a connecting pipe 27 for connecting the first oil inlet groove and the second oil inlet groove; the driving piece and the driving device are arranged in a matched mode, the first moving block can move relative to the first moving frame, the first moving frame is of a C-shaped structure, and the connecting plate can rotate relative to the first moving block; the oiling piece is a hairbrush, and the connecting pipe is a hose.

The oiling device 2 further comprises an inclined part 28 arranged on the first moving block, a third telescopic rod 29 used for connecting the inclined part and the connecting plate, a first elastic piece 20 arranged in the third telescopic rod, and a first connecting wire 201 used for connecting the first moving block and the third telescopic rod, and one end of which is penetrated on the inclined part; the third telescopic rod is hinged with the connecting plate; the first elastic piece is a spring, and the first connecting wire is a steel wire.

The oiling device 2 further comprises a chute 202 arranged on the first movable frame, an opening 203 arranged at one end of the chute, a sliding block 204 arranged on the chute, a toggle plate 205 arranged at one end of the sliding block, and a plurality of control components arranged at one side of the sliding block; the control assembly comprises a through groove 206 arranged on the sliding groove, an inclined groove 207 arranged on one side of the through groove, a fourth telescopic rod 208 arranged on the sliding block, a second elastic piece 209 arranged in the fourth telescopic rod, a limit buckle 210 arranged on the fourth telescopic rod, a limit ring 211 arranged on the limit buckle, a rotating frame 212 arranged on the fourth telescopic rod, a rotating wheel 213 arranged on the rotating frame, a plurality of driving grooves 214 arranged on the rotating wheel, a moving groove 215 arranged on the sliding block, a limit block 216 arranged on the moving groove, a connecting rod 217 for connecting the limit block and the limit ring, a third elastic piece 218 for connecting the limit block and the moving groove, and a second connecting wire 219 for connecting the limit block and the fourth telescopic rod and one end of which is penetrated on the sliding block; the sliding block can move relative to the sliding groove, the stirring plate can move relative to the opening, the plurality of control components are identical in structure and symmetrically arranged, the inclined groove can block snow on the connecting rod, the limiting ring can move relative to the limiting buckle, the rotating wheel can rotate relative to the rotating frame, the driving groove can stir the first connecting wire, the limiting block can move relative to the moving groove, the connecting rod is in hinged connection with the limiting block, and the connecting rod is in hinged connection with the limiting ring; the second elastic piece is a spring, the third elastic piece is a spring, and the second connecting wire is a steel wire.

The oil supply device 4 comprises a second moving frame 41 arranged on the fixed frame, a second moving block 42 arranged on the second moving frame, a guide rod 43 arranged on the fixed frame and one end of which penetrates through the second moving block, a baffle ring 44 arranged at one end of the second moving frame, a support ring 45 arranged at one side of the baffle ring, a cavity 46 arranged in the support ring, a fourth elastic piece 47 arranged in the cavity, a storage pipe 48 used for connecting the support ring and the second moving block, and an oil outlet 49 arranged at one end of the support ring; the second moving frame is of a C-shaped structure, the second moving block can move relative to the second moving frame, the second moving block can move relative to the guide rod, lubricating oil is stored in the storage pipe, the storage pipe and the supporting ring are made of rubber, and a valve is arranged on the oil outlet; the fourth elastic piece is a spring, the oil outlet and the first oil inlet groove are connected through a hose, and lubricating oil extruded from the oil outlet can be conveniently transported into the first oil inlet groove through the hose.

The oil supply device 4 further comprises a guide component arranged on the second movable frame; the guiding assembly comprises two guiding grooves 40 arranged on the second moving frame, a plurality of guiding rings 401 arranged on the guiding grooves, a plurality of fifth elastic pieces 402 respectively used for connecting the guiding rings, a ring groove 403 arranged on the second moving block, a storage groove 404 arranged on one side of the second moving frame, four guiding wheels 405 arranged on one end of the storage groove, a plurality of guiding convex blocks 406 arranged on the guiding wheels, four transmission rods 407 respectively penetrating through the four guiding wheels, a transmission groove 408 arranged on the guiding rods, a transmission belt 409 arranged on the transmission groove and one end of which is connected with the second moving block, and a transmission wheel 410 arranged on one side of the transmission belt and one end of which is connected with the storage groove; the guide ring can move relative to the guide groove, the guide ring can be buckled into the annular groove, the guide wheels can rotate relative to the storage groove, the ends of the four transmission rods are respectively engaged and matched pairwise, the transmission belt can move relative to the transmission groove, the transmission wheel can rotate relative to the storage groove, the transmission wheel is meshed with one of the four guide wheels, and the transmission wheel is meshed with the transmission belt; the fifth elastic piece is a spring.

The oil supply device 4 further comprises an oil inlet component arranged on the support ring; the oil inlet assembly comprises an oil inlet pipe 411 penetrating through the support ring and the second movable frame, an adjusting wheel 412 sleeved on the oil inlet pipe and one side of which is connected to the second movable frame, a shielding block 413 arranged on the support ring, an air pipe 414 penetrating through the support ring and the second movable frame, a limit groove 415 arranged on the air pipe, a pushing block 416 arranged in the air pipe, and a supporting plate 417 used for connecting the pushing block and the oil inlet pipe; the oil inlet pipe can move relative to the second movable frame, the oil inlet pipe can move relative to the support ring, the oil inlet pipe and the shielding block are arranged in a matched mode, a valve is arranged at one end of the oil inlet pipe, the adjusting wheel can rotate relative to the second movable frame, the adjusting wheel is in threaded connection with the oil inlet pipe, one end of the air pipe is communicated with the cavity, the pushing block can move relative to the air pipe, and the supporting plate can move relative to the limiting groove.

The driving device 3 comprises a driving rod 31 arranged on the fixed frame, a first arc-shaped block 32 used for connecting the driving rod and the first moving block, and a second arc-shaped block 33 used for connecting the driving rod and the second moving block; the first arc-shaped block is in threaded connection with the driving rod, and the second arc-shaped block is in threaded connection with the driving rod; the driving rod is driven by the motor to rotate.

The dismounting device 5 comprises a baffle plate 51 arranged on a first moving frame, a dismounting groove 52 arranged on the baffle plate, a third arc-shaped block 53 used for connecting the first moving block and the first arc-shaped block, a mounting groove 54 arranged on the first arc-shaped block, a clamping plate 55 used for connecting the first arc-shaped block and the third arc-shaped block, a plurality of clamping grooves 56 arranged on the first arc-shaped block, a plurality of fifth telescopic rods 57 arranged on the third arc-shaped block, a plurality of clamping blocks 58 respectively arranged on the fifth telescopic rods, a plurality of sixth elastic pieces 59 respectively used for connecting the fifth telescopic rods and the third arc-shaped block, a plurality of third connecting wires 50 penetrating through the third arc-shaped block, a plurality of connecting blocks 501 respectively arranged on the third connecting wires, a plurality of grooves 502 arranged on the third arc-shaped block, a plurality of dismounting blocks 503 arranged on one side of the baffle plate, a plurality of top blocks 504 arranged on one end of the dismounting block, a plurality of rolling blocks 505 arranged on the dismounting plate, a plurality of rolling plates 506 arranged on the rolling plates, and rolling plates 506 arranged on the other end of the rolling plates; the first moving block can penetrate through the dismounting groove, the clamping plate can move relative to the mounting groove, the clamping block can be buckled into the clamping groove, the third connecting line can move relative to the third arc-shaped block, the top block and the connecting block are correspondingly arranged, the rotating plate can rotate relative to the dismounting block, and the raised strips can be buckled into the grooves; the sixth elastic piece is a spring, the third connecting wire is a steel wire, and the pressing piece is made of rubber.

The invention also discloses a use method of the modulus-free control spinning equipment for the air inlet of the fan, which comprises the following steps:

1) Placing the workpiece on the support roller 1;

2) The first telescopic rod drives the pressing roller 11 to fix the workpiece;

3) Rotating the first telescopic rod 14 and driving the workpiece to rotate;

4) Coating lubricating oil on the workpiece by using the oiling device 2;

5) The work piece is spin-machined using spin-plate 12.

Example 2:

the non-module control spinning equipment for the air inlet of the fan comprises a machine tool base 963, wherein the top surface of the machine tool base is a workbench 961, and a bottom-up main rotating mechanism, a top-down locking hydraulic mechanism and a bottom-up hydraulic pushing mechanism 964 (used for pushing out formed and cut products) are arranged on the workbench 961; a transverse feeding mechanism is arranged on the workbench 961, a vertical lifting mechanism is arranged on the movable panel 926 of the transverse feeding mechanism, and a rotating wheel 929 and a cutting knife rest 928 are arranged on the movable panel 913 of the lifting mechanism; the electric appliance control system comprises a control box, a digital display control panel, a contactor, a servo power amplifier and a PLC controller.

The infeed mechanism is composed of a servo motor 922, a speed reducer 921, a coupling 920, a fixed base 925, a rectangular slide 919, nuts 918, linear guide 924, a movable panel 926, a transverse screw rod support 916, a transverse ball screw 923, and the like.

The main rotation member is composed of a servo motor 965, a speed reducer 955, a second timing pulley 959, a timing belt 958, a first timing pulley 957, a third lock nut 956, a third adjustment sleeve 951, a second adjustment sleeve 950, a second lock nut 949, a first adjustment sleeve 948, a bearing housing 954, a second deep groove ball bearing 953, NN-series bearings 952, a drive shaft gland 947, a drive shaft 946, a connection flange holder 945, a connection sleeve 944, a fixing plate 943, a positioning pin 942, a die plate 41, and the like.

The main rotation is transmitted to a main shaft by a servo motor 965 direct-connected speed reducer 955 through a synchronous belt 958, the main shaft drives a template 941 to rotate through a flange connection disc 945, a connection sleeve 944 and a fixing plate 943 by means of bolt connection, and two positioning pins 942 on the template rotate through two positioning hole belts cut on a disc blank 960; the upper part of the main shaft component is provided with a double-row cylindrical roller bearing (an inner hole is a conical hole) and a pair of deep groove ball bearings, and the lower part of the main shaft component is provided with a double-row cylindrical roller bearing (the inner hole is a conical hole), and the radial force and the axial force during spinning of the equipment are borne together through the main shaft gland 947, the second lock nut 949, the third 956 lock nut, the second adjusting sleeve 950 and the third adjusting sleeve 951 which are axially fixed.

The hydraulic locking mechanism consists of a hydraulic cylinder 930, a pull rod 931, a pull rod upper limit opening block 932, a hydraulic cylinder piston rod 933, a combined supporting seat 934, a plane bearing 935, a first deep groove ball bearing 936, a first locking nut 937, a first adjusting sleeve 948, a movable rotating shaft 938, an upper pressing plate 939, a central positioning shaft 940 and the like.

The spinning roller and tool rest portion is composed of an indexing mechanism 927 (including a servo motor, a worm gear and the like, which are purchased externally), a cutting tool rest 928, a spinning roller 929 and the like.

The vertical lifting mechanism comprises a servo motor 97, a speed reducer 98, a mounting seat 99, a coupler 910, a linear guide rail 911, a vertical lifting ball screw 912, a movable panel 913, a rectangular slide seat 914, a nut 915, a vertical screw rod supporting seat 917 and the like.

The outer diameter of the tire mold 941 is made according to the inner diameter of the horn mouth of the air inlet of the fan so as to ensure that the matching size of the spin-out product is accurate, and meanwhile, the mold is made of Cr12 and heat-treated HRC55-58.

The movable shaft 938, the upper pressing plate 939 and the central positioning shaft 940 are connected into a whole through bolts, when the vertical locking hydraulic mechanism moves downwards, the central positioning shaft 940 is pressed into a central large positioning hole of the linear cutting on the disc blank 960, the upper pressing plate 939 presses the upper surface of the disc blank 960, and the plane bearing 935 bears axial force along with the lower main rotation, and the two deep groove ball bearings bear radial force; the hydraulic lever 933 and the combination holder 934 can only move up and down with the hydraulic cylinder.

The lateral feeding is directly connected with a speed reducer 921 by a servo motor 922, and drives a lateral feeding ball screw 923 to rotate through a coupler 920, so that a driving nut 918, a movable panel 926 connected with the driving nut, and a lateral feeding mechanism connected with the movable panel 926 are driven to advance and retreat, and further a rotating wheel 929 and a tool rest 928 are driven to advance and retreat.

The vertical lifting mechanism is directly connected with the speed reducer 98 by the servo motor 97, drives the vertical lifting feeding ball screw 912 to rotate by the coupler 920, and drives the nut 915, the movable panel 913 connected with the nut, and the indexing mechanism 927 connected with the movable panel 913, so as to drive the lifting feeding of the rotating wheel 929 and the tool rest 928.

The indexing mechanism adopts a servo motor to drive a worm and a worm wheel, so that the tool rest rotates according to instructions and is fixed by a locking device, and spinning and cutting functions are realized.

The radius of the R arc of the spinning wheel is smaller than that of any section of the air inlet, and the transverse (X axis) and vertical (Z axis) displacement of the spinning wheel is controlled by PLC programming.

The application method of the non-module control spinning equipment for the air inlet of the fan comprises the following steps:

1) Step one, preparing: the ring blank 960 is arranged under a plasma cutting machine, the diameter of the center circle and the diameters of two positioning holes are respectively matched with the center positioning shaft 940 and the two positioning pins 942, and the diameter of the outer circle is determined by the lofting size; meanwhile, an operator performs PLC programming according to the product drawing;

2) Step two, clamping and rotating the disc blank: the disc blank material is arranged on two positioning pins 942, a vertical hydraulic cylinder is started to move downwards, a central positioning shaft 940 is pressed into a central large positioning hole of the disc blank 960 in a linear cutting way, and an upper pressing plate 939 presses the upper surface of the disc blank 960; starting a main rotation button, and rotating the upper shaft, the lower shaft and the disc blank together at a speed of 20-30 rp;

3) Step three, starting a spinning program to operate, namely sequentially carrying out spinning motion on a device spinning roller from the edge of a clamping plate die from near to far, repeating the motion for a plurality of times, and cutting off the top of an air inlet at a clamping plate 941 by a cutting-off knife after the spinning roller and the cutting-off knife rest spin 90 or 180 degrees when the product is completely formed as required by a drawing, wherein the air inlet falls onto a pushing plate supported by two hydraulic cylinders on a workbench; then the pressing hydraulic cylinders move upwards, the two pushing hydraulic cylinders push out of the air inlet through the pushing plate, and then the product is taken out manually.

The non-module control spinning machine for the air inlet of the fan and the use method thereof in the embodiment 2 are adopted, so that the procedures of splicing, cone rolling, welding, shaping and the like after the air inlet is fed in the conventional process are omitted, the manufacturing cost is reduced, and the labor intensity of workers is reduced; because the special tire template with the same size as the air inlet is arranged on the equipment, the key size accuracy of the product is ensured, the air leakage loss of the fan product is reduced, and the product performance is improved; the equipment has no mould cost investment, adopts a digital control technology, not only comprises advanced technology content, but also has good economic benefit.

The specific working principle is as follows: after the workpiece is fixed by the support roller 1 and the pressing roller 11, the second telescopic rod 16 is extended to drive the fixing frame 17 to move, so that the oiling piece 24 is attached to the surface of the workpiece, then the first telescopic rod 14 is rotated to drive the pressing roller 11 and the workpiece to rotate, so that the oiling piece 24 rotates along the workpiece, and meanwhile, the driving piece 18 drives the first moving block 22 and the second moving block 42 to move, wherein the first moving block 22 moves along the first moving frame 21, so that the oiling piece 24 is driven to move outwards along the workpiece, oiling operation is performed on the surface of the workpiece in the moving process of the oiling piece 24, and the oiling piece 24 is matched with the rotation of the workpiece, so that the surface of the workpiece is uniformly smeared; when the oiling piece 24 is used for oiling a workpiece, the first connecting wire 201 is shifted to drive the third telescopic rod 29 to shrink, and the third telescopic rod 29 is driven to reset under the elasticity of the first elastic piece 20, so that the third telescopic rod 29 drives one end of the connecting plate 23 to rotate, and further the oiling piece 24 is enabled to rotate, so that the oiling piece 24 can swing up and down, and the workpiece is uniformly smeared in the process of swinging up and down of the oiling piece 24; when the oiling piece 24 performs oiling operation on a workpiece, the second moving block 42 is synchronously started to move relative to the second moving frame 41, so that the second moving block 42 extrudes the storage pipe 48 in the moving process, extrudes lubricating oil in the storage pipe 48 through the oil outlet 49, and then transmits the extruded lubricating oil into the first oil inlet groove 25; when the first moving block 22 and the oiling member 24 need to be disassembled, the disassembling block 503 is pushed to the position of the disassembling groove 52, in the moving process of the disassembling block 503, the top block 504 contacts one side of the connecting block 501 and drives the connecting block 501 to move through the top block 504, then the connecting block 501 pulls the third connecting line 50 and drives the fifth telescopic rod 57 to shrink through the third connecting line 50, the clamping block 58 is separated from the clamping groove 56, then the pressing block 506 is pressed to enable one end of the rotating plate 505 to rotate towards the inner side of the disassembling block 503, meanwhile the other side of the rotating plate 505 rotates towards the outer side of the disassembling block 503, the convex strips 507 are buckled into the grooves 502, and then the disassembling block 503 is pulled under the condition that the pressing block 506 is pressed, so that the disassembling block 503 drives the first moving block 22 to move outwards.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

Claims (7)

1. A non-module control spinning device for a fan air inlet comprises a supporting roller (1), a pressing roller (11) arranged on one side of the supporting roller, a spinning disc (12) arranged on one side of the supporting roller, a sixth telescopic rod (13) arranged on the spinning disc, a first telescopic rod (14) arranged on the pressing roller, a fixed seat (15) arranged on one side of the supporting roller, a second telescopic rod (16) arranged on the fixed seat (15), a fixing frame (17) arranged on the second telescopic rod, a driving piece (18) arranged on the fixing frame, an oiling device (2) arranged on the fixing frame, a driving device (3) arranged on the fixing frame, an oil supply device (4) arranged on the fixing frame and a dismounting device (5) arranged at one end of the driving device; the method is characterized in that: the oiling device (2) comprises a first movable frame (21) arranged on the fixed frame, a first movable block (22) arranged on the first movable frame, a connecting plate (23) arranged on one side of the first movable block, an oiling piece (24) arranged on the connecting plate, a first oil inlet groove (25) arranged on the first movable block, a second oil inlet groove (26) arranged on the connecting plate, and a connecting pipe (27) used for connecting the first oil inlet groove and the second oil inlet groove; the driving piece and the driving device are arranged in a matched mode, the first moving block can move relative to the first moving frame, the first moving frame is of a C-shaped structure, and the connecting plate can rotate relative to the first moving block;

The oiling device (2) further comprises an inclined part (28) arranged on the first moving block, a third telescopic rod (29) used for connecting the inclined part and the connecting plate, a first elastic piece (20) arranged in the third telescopic rod, and a first connecting wire (201) used for connecting the first moving block and the third telescopic rod, and one end of which is penetrated through the inclined part; the third telescopic rod is hinged with the connecting plate;

the oiling device (2) further comprises a sliding groove (202) arranged on the first movable frame, an opening (203) arranged at one end of the sliding groove, a sliding block (204) arranged on the sliding groove, a toggle plate (205) arranged at one end of the sliding block, and a plurality of control components arranged at one side of the sliding block; the control assembly comprises a through groove (206) formed in the sliding groove, an inclined groove (207) formed in one side of the through groove, a fourth telescopic rod (208) formed in the sliding block, a second elastic piece (209) formed in the fourth telescopic rod, a limit buckle (210) formed in the fourth telescopic rod, a limit ring (211) formed in the limit buckle, a rotating frame (212) formed in the fourth telescopic rod, a rotating wheel (213) formed in the rotating frame, a plurality of driving grooves (214) formed in the rotating wheel, a moving groove (215) formed in the sliding block, a limiting block (216) formed in the moving groove, a connecting rod (217) used for connecting the limiting block and the limiting ring, a third elastic piece (218) used for connecting the limiting block and the fourth telescopic rod, and a second connecting wire (219) with one end penetrating through the sliding block; the sliding block can move relative to the sliding groove, the poking plate can move relative to the opening, the plurality of control components are identical in structure and symmetrically arranged, the inclined groove and the connecting rod are arranged in a matched mode, the limiting ring can move relative to the limiting buckle, the rotating wheel can rotate relative to the rotating frame, the driving groove and the first connecting wire are arranged in a matched mode, the limiting block can move relative to the moving groove, the connecting rod and the limiting block are connected in a hinged mode, and the connecting rod and the limiting ring are connected in a hinged mode;

When the oiling piece (24) is used for oiling a workpiece, the first connecting wire (201) is shifted to drive the third telescopic rod (29) to shrink, and the third telescopic rod (29) is driven to reset under the elastic force of the first elastic piece (20), so that the third telescopic rod (29) drives one end of the connecting plate (23) to rotate, the oiling piece (24) is further rotated, the oiling piece (24) can swing up and down, and the workpiece is uniformly smeared in the process of swinging up and down of the oiling piece (24).

2. The fan inlet modulus-less controlled spinning apparatus of claim 1, wherein: the oil supply device (4) comprises a second movable frame (41) arranged on the fixed frame, a second movable block (42) arranged on the second movable frame, a guide rod (43) arranged on the fixed frame and one end of which penetrates through the second movable block, a baffle ring (44) arranged at one end of the second movable frame, a support ring (45) arranged at one side of the baffle ring, a cavity (46) arranged in the support ring, a fourth elastic piece (47) arranged in the cavity, a storage tube (48) used for connecting the support ring and the second movable block, and an oil outlet (49) arranged at one end of the support ring; the second movable frame is of a C-shaped structure, the second movable block can move relative to the second movable frame, the second movable block can move relative to the guide rod, lubricating oil is stored in the storage pipe, the storage pipe and the support ring are made of elastic materials, and a valve is arranged on the oil outlet.

3. The fan inlet modulus-less controlled spinning apparatus of claim 2, wherein: the oil supply device (4) further comprises a guide assembly arranged on the second movable frame; the guide assembly comprises two guide grooves (40) formed in the second moving frame, a plurality of guide rings (401) formed in the guide grooves, a plurality of fifth elastic pieces (402) respectively used for connecting the guide rings, a ring groove (403) formed in the second moving block, a storage groove (404) formed in one side of the second moving frame, four guide wheels (405) formed in one end of the storage groove, a plurality of guide protruding blocks (406) formed in the guide wheels, four transmission rods (407) respectively formed in the four guide wheels in a penetrating mode, a transmission groove (408) formed in the guide rods, a transmission belt (409) formed in the transmission groove and connected with the second moving block at one end, and a transmission wheel (410) formed in one side of the transmission belt and connected with the storage groove at one end; the guide ring can move relative to the guide groove, the guide ring and the annular groove are in matched arrangement, the guide wheels can rotate relative to the storage groove, the ends of the four transmission rods are in meshed engagement with each other, the transmission belt can move relative to the transmission groove, the transmission wheel can rotate relative to the storage groove, one of the transmission wheel and the four guide wheels is in matched arrangement, and the transmission wheel and the transmission belt are in matched arrangement.

4. The fan inlet modulus-less controlled spinning apparatus of claim 2, wherein: the oil supply device (4) further comprises an oil inlet component arranged on the support ring; the oil inlet assembly comprises an oil inlet pipe (411) penetrating through the support ring and the second movable frame, an adjusting wheel (412) sleeved on the oil inlet pipe and one side of which is connected to the second movable frame, a shielding block (413) arranged on the support ring, an air pipe (414) penetrating through the support ring and the second movable frame, a limiting groove (415) arranged on the air pipe, a pushing block (416) arranged in the air pipe, and a supporting plate (417) used for connecting the pushing block and the oil inlet pipe; the oil inlet pipe can move relative to the second movable frame, the oil inlet pipe can move relative to the support ring, the oil inlet pipe and the shielding block are arranged in a matched mode, a valve is arranged at one end of the oil inlet pipe, the adjusting wheel can rotate relative to the second movable frame, the adjusting wheel is in threaded connection with the oil inlet pipe, one end of the air pipe is communicated with the cavity, the pushing block can move relative to the air pipe, and the supporting plate can move relative to the limiting groove.

5. The fan inlet modulus-less controlled spinning apparatus of claim 2, wherein: the driving device (3) comprises a driving rod (31) arranged on the fixed frame, a first arc-shaped block (32) used for connecting the driving rod and the first moving block, and a second arc-shaped block (33) used for connecting the driving rod and the second moving block; the first arc-shaped block is in threaded connection with the driving rod, and the second arc-shaped block is in threaded connection with the driving rod.

6. The fan inlet modulus-less controlled spinning apparatus of claim 5, wherein: the dismounting device (5) comprises a baffle plate (51) arranged on a first moving frame, a dismounting groove (52) arranged on the baffle plate, a third arc-shaped block (53) used for connecting the first moving block and the first arc-shaped block, an installation groove (54) arranged on the first arc-shaped block, a clamping plate (55) used for connecting the first arc-shaped block and the third arc-shaped block, a plurality of clamping grooves (56) arranged on the first arc-shaped block, a plurality of fifth telescopic rods (57) arranged on the third arc-shaped block, a plurality of clamping blocks (58) respectively arranged on the fifth telescopic rods, a plurality of sixth elastic pieces (59) respectively used for connecting the fifth telescopic rods and the third arc-shaped block, a plurality of third connecting lines (50) penetrating through the third arc-shaped block, a plurality of connecting blocks (501) respectively arranged on the third connecting lines, a plurality of grooves (502) arranged on the third arc-shaped block, a plurality of dismounting blocks (503) arranged on one side of the baffle plate, a plurality of top blocks (504) arranged on one end of the dismounting block, a plurality of protruding strips (506) arranged on one end of the baffle plate, a plurality of protruding strips (506) arranged on the rotating plate (507) arranged on the rotating plate and a plurality of rotating plate (507) arranged on the rotating plate). The first movable block with the dismantlement groove is the cooperation setting, the cardboard can for the mounting groove removes, the fixture block with the draw-in groove is the cooperation setting, the third connecting wire can for the third arc piece removes, the kicking block with the connecting block is corresponding setting, the rotor plate can for the dismantlement piece rotates, the sand grip with the recess is the cooperation setting.

7. A method for using the modular-free controlled spinning device for the air inlet of the fan according to any one of claims 1 to 6, which is characterized in that: the method comprises the following steps:

1) Placing the workpiece on a support roller (1);

2) The first telescopic rod drives the pressing roller (11) to fix the workpiece;

3) Rotating the first telescopic rod (14) and driving the workpiece to rotate;

4) Coating lubricating oil on the workpiece by using an oiling device (2);

5) A work is spin-machined using a spin-plate (12).

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