CN219464856U - Automatic conveying device of automobile hub bearing outer ring milling machine - Google Patents

Abstract

The utility model relates to an automatic conveying device of an automobile hub bearing outer ring milling machine, which comprises an upper trough, a guide mechanism and a lower trough, wherein one end of the upper trough extends out of the milling machine, one end of the upper trough, which is positioned in the milling machine, is obliquely arranged downwards, the upper trough is used for self-conveying of hubs, the guide mechanism comprises a driving piece, a conveying piece and a fixing piece, the fixing piece is arranged corresponding to the milling machine, the driving piece is arranged close to the output end of the upper trough, the conveying piece is arranged right below the driving piece, the driving piece is used for conveying the hubs from the upper trough to the conveying piece, the conveying piece is used for fixedly processing the hubs to the fixing piece, and conveying the processed hubs to the lower trough, one end of the lower trough is arranged close to the conveying piece, the other end of the lower trough extends out of the milling machine, and one end of the lower trough, which extends out of the milling machine, is obliquely arranged downwards; the blanking groove is used for conveying the hub out of the milling machine by oneself. The utility model has the effects of improving the processing efficiency and reducing the working strength.

Description

Automatic conveying device of automobile hub bearing outer ring milling machine

Technical Field

The utility model relates to the field of milling of automobile hub bearings, in particular to an automatic conveying device of an automobile hub bearing outer ring milling machine.

Background

The hub is the part of the wheel center where the axle is mounted for supporting the tire. When the automobile hub outer ring is milled, the hub outer ring is usually manually placed on a clamping tool of a milling machine, the side wall of an inner diameter hole of the hub outer ring is machined through the milling cutter, a large amount of water is required to be sprayed out for cooling in the milling process, and in order to prevent water from splashing, the milling machine is required to be closed every time during machining. With respect to the above related art, the inventors consider that repeated door opening and door closing are required in the process of replacing the hub outer ring, and the machining efficiency is reduced.

Disclosure of Invention

In order to improve the machining efficiency and reduce the working strength, the utility model provides an automatic conveying device of an automobile hub bearing outer ring milling machine.

The utility model provides an automatic conveying device of an automobile hub bearing outer ring milling machine, which adopts the following technical scheme:

the automatic conveying device comprises an upper trough, a guide mechanism and a lower trough, wherein one end of the upper trough extends out of the milling machine, one end of the upper trough, which is positioned in the milling machine, is obliquely arranged downwards, the upper trough is used for self-conveying of hubs, the guide mechanism comprises a driving piece, a conveying piece and a fixing piece, the fixing piece is arranged corresponding to a milling cutter, the driving piece is arranged close to the output end of the upper trough, the conveying piece is arranged right below the driving piece, the driving piece is used for conveying the hubs from the upper trough to the conveying piece, the conveying piece is used for fixedly processing the hubs to the fixing piece, the processed hubs are conveyed to a lower trough, one end of the lower trough is arranged close to the conveying piece, the other end of the lower trough extends out of the milling machine, and one end of the lower trough, which extends out of the milling machine, is obliquely arranged downwards; the blanking groove is used for conveying the hub out of the milling machine by oneself.

Through adopting above-mentioned technical scheme, wheel hub rolls to driving piece department by oneself through the last silo of slope, and driving piece drives wheel hub and moves down to transport piece department, and transport piece is transported to the fixed part department with wheel hub and is fixed and process, and the wheel hub of processing completion is transported to down on the silo through transport piece, and outside the milling machine was transported out by oneself through the guide of the silo of slope, realized that the milling machine is in under the circumstances of closing the door, to milling machine automatic feeding and unloading, reduced intensity of labour, improved production efficiency.

Optionally, the driving piece includes loading board and loading cylinder, loading cylinder and the equal vertical setting of loading board, the piston rod tip fixedly connected with slider of loading cylinder, the top fixed connection of slider and loading board, the spout has been seted up vertically to milling machine inner wall correspondence loading cylinder, in slider sliding connection and the spout, loading board bottom fixedly connected with perpendicular to loading board's transport board, the transport board is close to the setting of material loading groove, loading cylinder is used for driving the transport board and transports to the transportation piece.

Through adopting above-mentioned technical scheme, the piston rod is stretched out to the material loading cylinder, and transport board and material loading groove one end are in same horizontal plane, and wheel hub rolls to the transport board through the guide of material loading groove, and the piston rod is retrieved to the material loading cylinder, and transport piece is transported wheel hub to transport piece department, has realized the preliminary transportation of wheel hub inside the milling machine.

Optionally, an arc-shaped groove is formed in the transport plate.

Through adopting above-mentioned technical scheme, the arc wall is used for increasing the area of contact of wheel hub and transport board, and wheel hub passes through the material loading groove and transports the joint in the arc wall when on the transport board, has strengthened the fixed ability of transport board, prevents that wheel hub from reciprocating the roll in the transport of transport board.

Optionally, the transportation piece includes the fixed plate that is close to the transportation board setting, and fixed plate fixed connection is on milling machine inner wall.

Through adopting above-mentioned technical scheme, wheel hub is through the direction of material loading groove, rolls and transports to the transport plate on, because inertia continues to roll, and the fixed plate plays and stops wheel hub to continue rolling effect, realizes the accurate joint of wheel hub in the arc wall of fixed plate.

Optionally, the baffle of vertical setting is fixedly connected with to the one end that the loading board is close to the material loading groove.

Through adopting above-mentioned technical scheme, the baffle plays and prevents that other wheel hubs from continuing the effect that rolls down in the material loading groove, and the wheel hub rolls down and retrieves the piston rod to the last back material loading cylinder of transportation board, and the material loading board drives transportation board and baffle and moves down and transport wheel hub to transportation department, and the baffle has blocked the delivery outlet of material loading groove simultaneously, and the material loading cylinder stretches out the piston rod, and the transportation board moves up the baffle and cancels the blocking to wheel hub, and next wheel hub rolls down on the transportation board.

Optionally, the mounting includes a fixed section of thick bamboo, and fixed section of thick bamboo one end fixedly connected with drives the piston rod of cylinder, and the cylinder body fixed connection of drive cylinder is on milling machine inner wall, and drive cylinder is used for driving fixed section of thick bamboo fixed hub.

Through adopting above-mentioned technical scheme, the transportation piece is transported to fixed section of thick bamboo department with wheel hub, and the actuating cylinder stretches out the piston rod, and fixed section of thick bamboo is pegged graft in wheel hub and is realized fixing, and milling cutter is to wheel hub processing, and the actuating cylinder withdraws the piston rod after the processing is accomplished, and fixed section of thick bamboo cancels pegging graft and fixed to wheel hub, and the transportation piece is transported wheel hub to in the silo down.

Optionally, the transportation piece includes motor and transportation frame, and transportation frame is vertical to be set up, and the output shaft fixed connection of transportation frame bottom and motor, the output shaft and the material loading cylinder setting of motor are in same vertical face, and the one end both sides fixedly connected with transport piece of motor output shaft are kept away from to the transportation frame.

Through adopting above-mentioned technical scheme, transport board drives wheel hub transportation and arrives transport frame department, and the transport piece of transport frame both sides is located the wheel hub both sides respectively, and the output shaft of motor drives transport frame around the output shaft rotation, and transport piece shifts out wheel hub from transport frame, continues the transportation of next step.

Optionally, the transportation piece includes two parallel deflector, and deflector one end is inclined in fixed section of thick bamboo setting, forms the transportation passageway between two deflector, and the transportation passageway is used for transporting wheel hub to fixed section of thick bamboo department fixedly with the transportation frame cooperation.

Through adopting above-mentioned technical scheme, the transport piece of wheel hub both sides promotes wheel hub from the transportation frame in the transportation passageway, and the transport piece is not fixed to wheel hub, and wheel hub transports fixed section of thick bamboo department through the direction effect of transportation passageway and fixes.

Optionally, the transportation piece still includes the flitch of fixed connection on milling machine inner wall, and flitch one end is located down the silo input port directly over, and the flitch is kept away from the one end and the deflector one end fixed connection of silo down, and the flitch slope sets up in the silo down.

Through adopting above-mentioned technical scheme, wheel hub is in fixed section of thick bamboo department processing completion back, and the output shaft counter-rotating of motor drives transportation frame and surrounds the output shaft rotation, and the transportation piece drives wheel hub and moves up along the transportation passageway, and transportation frame rotates and stops rotating under the vertical state, and wheel hub is from flitch landing to in the silo down, outside the direction transport milling machine of silo down.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a sectional view for highlighting the guide mechanism.

Fig. 3 is a sectional view for highlighting the feeding cylinder.

Fig. 4 is a schematic view of a structure for highlighting the transport block.

Reference numerals illustrate: 1. milling machine; 11. a hub; 12. a milling cutter; 2. feeding a trough; 3. a guide mechanism; 31. a driving member; 311. a feeding cylinder; 312. a loading plate; 313. a slide block; 314. a chute; 315. a baffle; 316. a transport plate; 317. an arc-shaped groove; 318. a fixing plate; 32. a transport member; 321. a transport rack; 322. a servo motor; 323. a transport block; 324. a guide plate; 325. a transport channel; 326. a blanking plate; 33. a fixing member; 331. a fixed cylinder; 332. a driving cylinder; 4. and discharging the material.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-3.

The embodiment of the utility model discloses an automatic conveying device of an automobile hub bearing outer ring milling machine. Referring to fig. 1, an automatic conveying device of an automobile hub bearing outer ring milling machine comprises an upper trough 2, a guide mechanism 3 and a lower trough 4, wherein the upper trough 2, the guide mechanism 3 and the lower trough 4 are all arranged on the milling machine 1; the feeding trough 2 is arranged above the guide mechanism 3, the discharging trough 4 is arranged below the guide mechanism 3, and the milling machine 1 is provided with a milling cutter 12; the guide mechanism 3 includes a driving member 31, a transporting member 32, and a fixing member 33, the transporting member 32 being disposed directly below the driving member 31, the fixing member 33 being disposed corresponding to the milling cutter 12. One side of the feeding groove 2 is fixedly connected to the inner wall of the milling machine 1, one end of the feeding groove 2 extends out of the milling machine 1, and the feeding groove 2 is obliquely arranged towards one end in the milling machine 1. The staff puts the wheel hub 11 that waits to process in last silo 2, and wheel hub 11 rolls to the driving piece 31 department in the milling machine 1 through the direction of last silo 2, and driving piece 31 transportation wheel hub 11 arrives transportation piece 32 department, and transportation piece 32 transports wheel hub 11 to the mounting 33 department fixed, milling cutter 12 processing wheel hub 11, and milling wheel hub 11 that finishes rolls out milling machine 1 through the direction of silo 4 under, under milling machine 1 need not the condition of repeatedly opening the door, realizes the automatic feeding and the unloading of wheel hub 11.

Referring to fig. 2 and 3, the driving member 31 includes a feeding cylinder 311 and a feeding plate 312, where the feeding cylinder 311 and the feeding plate 312 are both vertically disposed, the feeding cylinder 311 is disposed on one side of the inner wall of the milling machine 1 far away from the feeding groove 2, a cylinder body of the feeding cylinder 311 is fixedly connected to the inner wall of the milling machine 1, and a slider 313 is fixedly connected to an end portion of a piston rod of the feeding cylinder 311; a chute 314 is formed in the inner wall of the milling machine 1 and close to the feeding cylinder 311, and the chute 314 is vertically formed; the sliding block 313 is connected in the sliding groove 314 in a sliding way, and one end of the sliding block 313, which is far away from the end part of the piston rod of the feeding cylinder 311, is fixedly connected with the top end of the feeding plate 312; the feeding plate 312 is vertically arranged on one side, close to the feeding groove 2, of the inner wall of the milling machine 1, a baffle 315 is fixedly connected to one side, close to the feeding groove 2, of the feeding plate 312, and one end, close to the feeding groove 2, of the baffle 315 is vertically arranged; the bottom fixedly connected with transport plate 316 of material loading groove 2, transport plate 316 are close to the one end level setting of material loading groove 2, have offered arc wall 317 on the transport plate 316. The feeding cylinder 311 extends out of the piston rod, the piston rod pushes the sliding block 313 to move upwards in the sliding groove 314, so that the conveying plate 316 and the baffle 315 on the feeding plate 312 are driven to move upwards, the hub 11 rolls down onto the conveying plate 316 through the feeding groove 2 and is finally clamped in the arc-shaped groove 317 on the conveying plate 316, and at the moment, the baffle 315 is positioned right above one end of the feeding groove 2; after the hub 11 is fixed on the conveying plate 316, the feeding cylinder 311 withdraws the piston rod, the sliding block 313 moves downwards in the sliding groove 314 to drive the conveying plate 316 and the baffle 315 on the feeding plate 312 to move downwards, the conveying plate 316 conveys the hub 11 to the conveying member 32, the baffle 315 moves downwards to the end part of the feeding groove 2 to prevent the hub 11 from continuing to fall, the conveying member 32 removes the hub 11 from the conveying plate 316, and the feeding cylinder 311 drives the piston rod to repeat the process.

The transport member 32 includes a transport frame 321 and a servo motor 322; the servo motor 322 is horizontally arranged, and the servo motor 322 is fixedly connected to one side, close to the feeding cylinder 311, of the inner wall of the milling machine 1; the transport frame 321 is vertically arranged, and an output shaft of the servo motor 322 is fixedly connected to the bottom end of the transport frame 321; the top end of the transport frame 321 is round; two guide plates 324 are fixedly connected to the inner wall of the milling machine 1 near the top end of the transportation frame 321, the two guide plates 324 are arranged in parallel, and one end of the guide plate 324 far away from the transportation frame 321 is obliquely arranged downwards; a transport channel 325 is formed between the two guide plates 324; one end of the lower guide plate 324, which is close to the transportation frame 321, is fixedly connected with a blanking plate 326, the blanking plate 326 is fixedly connected to the inner wall of the milling machine 1, and the blanking plate 326 is obliquely arranged towards the down trough 4.

Referring to fig. 2 and 4, a transport block 323 is fixedly connected to both sides of the horizontal diameter direction of the top end of the transport frame 321.

Referring back to fig. 2 and 3, the fixing member 33 includes a fixing cylinder 331 and a driving cylinder 332; the fixed cylinder 331 is axially and horizontally arranged, and the fixed cylinder 331 is connected with the inner wall of the milling machine 1 in a sliding way; the driving cylinder 332 is horizontally arranged on one side of the inner wall of the milling machine 1, which is close to the feeding cylinder 311, and the end part of a piston rod of the driving cylinder 332 is fixedly connected with one end of the fixed cylinder 331. The transport plate 316 transports the hub 11 between two transport blocks 323 of the transport frame 321, the output shaft of the servo motor 322 rotates, the transport frame 321 rotates around the output shaft of the servo motor 322, the transport blocks 323 at the top end of the transport frame 321 are abutted against the hub 11 and push the hub 11 down into the transport channel 325 from the transport plate 316, the transport blocks 323 have no fixing effect on the hub 11, and the transport frame 321 rotates to drive the hub 11 to roll to the fixed cylinder 331 in the transport channel 325; the driving cylinder 332 stretches out the piston rod, pushes the fixed cylinder 331 at the end of the piston rod to be inserted into the hub 11 to realize fixation, the milling machine 1 mills the hub 11, the driving cylinder 332 withdraws the piston rod after the milling is completed, the fixed cylinder 331 cancels the insertion and fixation of the hub 11, the output shaft of the servo motor 322 drives the transportation frame 321 to rotate around the output shaft in the opposite direction, the transportation block 323 pushes the hub 11 to move upwards along the transportation channel 325, the transportation frame 321 stops rotating after rotating to the vertical direction, and the hub 11 automatically rolls down into the blanking groove 4 along the blanking plate 326.

One side of the blanking groove 4 is fixedly connected to the inner wall of the milling machine 1, one side of the blanking groove 4 extends out of the milling machine 1, and the blanking groove 4 is obliquely arranged towards one end extending out of the milling machine 1. The hub 11 after processing rolls down into the blanking groove 4, and rolls down to the outside of the milling machine 1 through the guidance of the blanking groove 4, and waits for the staff to receive the material.

The embodiment of the utility model provides an automatic conveying device for milling an outer ring of a bearing of an automobile hub 11, which is implemented by the following principle: the worker puts the hub 11 to be processed in the feeding groove 2, and the hub 11 rolls to the inside of the milling machine 1 through the guidance of the feeding groove 2. The feeding cylinder 311 extends out of the piston rod, the piston rod pushes the sliding block 313 to move upwards in the sliding groove 314, so that the conveying plate 316 and the baffle 315 on the feeding plate 312 are driven to move upwards, the hub 11 rolls down onto the conveying plate 316 through the feeding groove 2 and is finally clamped in the arc-shaped groove 317 on the conveying plate 316, and at the moment, the baffle 315 is positioned right above one end of the feeding groove 2; after the hub 11 is fixed on the conveying plate 316, the feeding cylinder 311 withdraws the piston rod, the sliding block 313 moves downwards in the sliding groove 314 to drive the conveying plate 316 and the baffle 315 on the feeding plate 312 to move downwards, the conveying plate 316 conveys the hub 11 between two conveying blocks 323 of the conveying frame 321, the baffle 315 moves downwards to the end part of the feeding groove 2 to prevent the hub 11 from continuing to fall, and the conveying frame 321 pushes the hub 11 from the conveying plate 316 to fall and then the feeding cylinder 311 drives the piston rod to repeat the process. The output shaft of the servo motor 322 rotates, the transport frame 321 rotates around the output shaft of the servo motor 322, the transport block 323 at the top end of the transport frame 321 abuts against the hub 11 and pushes the hub 11 to fall into the transport channel 325 from the transport plate 316, the transport block 323 has no fixing effect on the hub 11, and the transport frame 321 rotates to drive the hub 11 to roll to the fixed cylinder 331 in the transport channel 325; the driving cylinder 332 stretches out the piston rod, promotes the fixed section of thick bamboo 331 and the wheel hub 11 grafting of piston rod tip and realizes fixing, and milling machine 1 mills the processing to wheel hub 11, and the back driving cylinder 332 withdraws the piston rod to the processing completion, and fixed section of thick bamboo 331 cancels the grafting to wheel hub 11 in fixing, and servo motor 322's output shaft drives transportation frame 321 opposite direction and rotates around the output shaft, and transportation piece 323 pushes up the wheel hub 11 along transportation passageway 325, and transportation frame 321 stops rotating after rotating to vertical direction, and wheel hub 11 rolls down by oneself along blanking plate 326 in the blanking groove 4, rolls outside milling machine 1 through the guide of blanking groove 4, waits that the staff receives the material.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. An automatic conveying device of an automobile hub bearing outer ring milling machine is characterized in that: comprises an upper trough (2), a guiding mechanism (3) and a lower trough (4);

one end of the feeding groove (2) extends out of the milling machine (1), one end of the feeding groove (2) positioned in the milling machine (1) is arranged in a downward inclined mode, and the feeding groove (2) is used for self-conveying of the hub (11);

the guiding mechanism (3) comprises a driving piece (31), a conveying piece (32) and a fixing piece (33), wherein the fixing piece (33) is arranged corresponding to the milling cutter (12), the driving piece (31) is arranged close to the output end of the feeding groove (2), the conveying piece (32) is arranged right below the driving piece (31), the driving piece (31) is used for conveying the hub (11) from the feeding groove (2) to the conveying piece (32), the conveying piece (32) is used for conveying the hub (11) to the fixing piece (33) for fixing and processing, and the processed hub (11) is conveyed to the discharging groove (4);

one end of the blanking groove (4) is close to the conveying part (32), the other end of the blanking groove (4) extends out of the milling machine (1), one end of the blanking groove (4) extending out of the milling machine (1) is arranged in a downward inclined mode, and the blanking groove (4) is used for automatically conveying the hub (11) out of the milling machine (1).

2. The automatic conveying device of an automobile hub bearing outer ring milling machine according to claim 1, wherein: the driving piece (31) comprises a feeding plate (312) and a feeding cylinder (311), wherein the feeding cylinder (311) and the feeding plate (312) are vertically arranged, a sliding block (313) is fixedly connected to the end part of a piston rod of the feeding cylinder (311), the sliding block (313) is fixedly connected with the top end of the feeding plate (312), the inner wall of the milling machine (1) is vertically provided with a sliding groove (314) corresponding to the feeding cylinder (311), the sliding block (313) is slidingly connected in the sliding groove (314), a conveying plate (316) perpendicular to the feeding plate (312) is fixedly connected to the bottom end of the feeding plate (312), the conveying plate (316) is arranged close to the feeding groove (2), and the feeding cylinder (311) is used for driving the conveying plate (316) to move.

3. An automatic conveying device for an automobile hub bearing outer ring milling machine according to claim 2, wherein: an arc-shaped groove (317) is formed in the conveying plate (316).

4. An automatic conveying device for an automobile hub bearing outer ring milling machine according to claim 2, wherein: one side of the feeding plate (312) is provided with a fixing plate (318), and the fixing plate (318) is fixedly connected to the inner wall of the milling machine (1).

5. An automatic conveying device for an automobile hub bearing outer ring milling machine according to claim 2, wherein: one end of the feeding plate (312) close to the feeding groove (2) is fixedly connected with a baffle plate (315) which is vertically arranged.

6. The automatic conveying device of an automobile hub bearing outer ring milling machine according to claim 1, wherein: the fixing piece (33) comprises a fixing cylinder (331) and a driving air cylinder (332), one end of the fixing cylinder (331) is fixedly connected with a piston rod of the driving air cylinder (332), a cylinder body of the driving air cylinder (332) is fixedly connected to the inner wall of the milling machine (1), and the driving air cylinder (332) is used for driving the fixing cylinder (331) to fix the hub (11).

7. The automatic conveying device of an automobile hub bearing outer ring milling machine according to claim 1, wherein: the conveying piece (32) comprises a servo motor (322) and a conveying frame (321), wherein the conveying frame (321) is vertically arranged, the bottom end of the conveying frame (321) is fixedly connected with an output shaft of the servo motor (322), the output shaft of the servo motor (322) and the feeding cylinder (311) are arranged in the same vertical plane, and conveying blocks (323) are fixedly connected to two sides of one end, far away from the output shaft of the servo motor (322), of the conveying frame (321).

8. The automatic conveying device for an automobile hub bearing outer ring milling machine according to claim 7, wherein: the conveying piece (32) comprises two guide plates (324) which are arranged in parallel, a conveying channel (325) is formed between the two guide plates (324), and the conveying channel (325) is used for being matched with the conveying frame (321) to convey the hub (11) to the fixing barrel (331) for fixing.

9. The automatic conveying device of an automobile hub bearing outer ring milling machine according to claim 8, wherein: the conveying piece (32) further comprises a blanking plate (326) fixedly connected to the inner wall of the milling machine (1), one end of the blanking plate (326) is located right above the input port of the blanking groove (4), one end, away from the blanking groove (4), of the blanking plate (326) is fixedly connected with one end of the guide plate (324), and the blanking plate (326) is downwards arranged towards the inclination of the blanking groove (4).