CN203921847U - Rotor feeding device - Google Patents

Abstract

The utility model relates to machine field, be particularly related to rotor automatic chamfering machine rotor feeding device, comprise carrier bar conveyer and for storing the hopper of rotor, described carrier bar conveyer comprises the belt conveyor and the driver element that drives belt conveyor cycle rotation that is fixed in frame and forms closed loop, low and its low side in described high one end, belt conveyor one end is placed in hopper, described belt conveyor is provided with the blend stop that tilts and arrange in short transverse, the frame of blend stop low side side is provided with the riser of arranging along belt heights direction, the upper end of this riser extends formation discharging trough toward the outer side, in the process of belt conveyor cycle rotation, rotor in hopper can be driven and leave hopper by the blend stop on belt conveyor, then rotor slides into blend stop and riser joint along blend stop.When rotor is promoted to the upper end of riser owing to there is no blocking rotor and will rolling out to chamfering machine along discharging trough of riser, thereby realized the automatic charging of chamfering machine, this apparatus structure is simple, efficiency is higher.

Description

Rotor feeding device

Technical field

The utility model relates to machine field, particularly rotor automatic chamfering machine rotor feeding device.

Background technology

Cage rotor comprises the cylindric iron core and the aluminium ring that is fixed on iron core two ends of circular silicon steel sheet stack addition, and aluminium ring is to be compressed on iron core by die casting.Due to jagged and overlap on the cylinder end face of rotor after die casting, in order to remove burr and overlap, need to carry out chamfering to rotor cylinder end face.Be to use special purpose lathe to carry out chamfering at present, need operative employee's M/C, working strength is large and quality is unstable, inefficiency.If but want to realize the automatic chamfering of rotor, must first solve the problem of rotor automatic charging.

Summary of the invention

The purpose of this utility model is to provide a kind of simple in structure, the rotor feeding device that work efficiency is high.

For achieving the above object, the utility model has adopted following technical scheme: a kind of rotor feeding device, comprise carrier bar conveyer and for storing the hopper of rotor, described carrier bar conveyer comprises the belt conveyor and the driver element that drives belt conveyor cycle rotation that is fixed in frame and forms closed loop, low and its low side in described high one end, belt conveyor one end is placed in hopper, described belt conveyor is provided with the blend stop that tilts and arrange in short transverse, the frame of blend stop low side side is provided with the riser of arranging along belt heights direction, the upper end of this riser extends formation discharging trough toward the outer side.

Owing to adopting above technical scheme, in the process of belt conveyor cycle rotation, the rotor in hopper can be driven and leave hopper by the blend stop on belt conveyor, and then rotor slides into blend stop and riser joint along blend stop, and along with belt conveyor upwards promotes gradually.When rotor is promoted to the upper end of riser owing to there is no blocking rotor and will rolling out to chamfering machine along discharging trough of riser, thereby realized the automatic charging of chamfering machine, this apparatus structure is simple, cost is low, efficiency is higher.

Accompanying drawing explanation

Fig. 1 and 2 is all structural representations of the present utility model.

The specific embodiment

A kind of rotor feeding device, comprise carrier bar conveyer 10 and for storing the hopper 20 of rotor 30, described carrier bar conveyer 10 comprises the belt conveyor 12 and the driver element that drives belt conveyor 12 cycle rotations that is fixed in frame 11 and forms closed loop, low and its low side in described belt conveyor 12 high one end, one end is placed in hopper 20, described belt conveyor 12 is provided with the blend stop 14 that tilts and arrange in short transverse, the frame 11 of blend stop 14 low side sides is provided with the riser 15 of arranging along belt conveyor 12 short transverses, the upper end of this riser 15 extends formation discharging trough 16 toward the outer side.In conjunction with Fig. 1, specifically describe, belt conveyor 12 is in tilted layout from top to bottom, blend stop 14 is towards riser 15 lopsidedness, the surface of the inwall of blend stop 14, riser 15 and belt conveyor 12 encloses the region that can hold rotor 30, rotor 30 can steadily rest in this region, drive unit drives belt conveyor 12 cycle rotations, and first belt conveyor 12 moves from bottom to top gradually, then after walking around vertex, move gradually from top to bottom, belt conveyor 12 is according to above-mentioned mobile loopy moving again.At belt conveyor 12 from bottom to top in moving process, rotor in hopper 20 30 can be blocked and stay on blend stop 14 by the blend stop 14 on belt conveyor 12 and follow blend stop 14 and leave hopper 20, and then rotor 30 slides into blend stop 14 and riser 15 along blend stop 14 and joins in region.When rotor 30 is promoted to the upper end of riser 15 owing to there is no blocking rotor 30 and will rolling out along discharging trough 16 of riser 15, the exit end of discharging trough 16 connects chamfering machine, thereby has realized the automatic charging of chamfering machine, and this apparatus structure is simple, cost is low, and efficiency is higher.

Described riser 15 is provided with near the plate face of blend stop 14 1 sides the baffle plate 17 that is parallel to belt conveyor 12, and this baffle plate 17 coincide with the spacing of belt conveyor 12 and the thickness of rotor 30.The thickness of rotor refers to that rotor is along the thickness of its axis direction, and baffle plate 17 is a bit larger tham the thickness of rotor with the spacing of belt conveyor 12, as long as can hold rotor 30.As shown in Figure 2, the rotor of tilted-putted belt conveyor 12 on can anti-stopping dam 14 towards after drop, blend stop 14 can prevent that rotor from dropping downwards, 15 of risers can prevent that rotor from dropping from the low side of blend stop 14, baffle plate 17 can stop rotor to drop forward.When blend stop 14 has just started to leave hopper 20, rotor 30 on it is not likely abutting on belt conveyor 12 tightly, if there is such situation very likely to drop at the process rotor 30 of belt conveyor 12 upward movements, and being set, baffle plate 17 just can in the process of blend stop 14 low sides slips, carry out righting-oriented rotor 30 at rotor 30, rotor 30 abutting on supporting board 121 tightly when rotor slides into the region that blend stop 14, riser 15 and baffle plate 17 enclose, and this attitude is also convenient to the later stage and is entered discharging trough 16.

Described belt conveyor 12 is spliced along its rotation direction successively by polylith supporting board 121, and supporting board 121 connects driver element.Supporting board 121 is rectangular plate, not yielding, can support for rotor 30 provides failure-free, and 121 1 of supporting boards are spliced into belt conveyor 12 by another piece, and this structure guarantees that the supporting board 121 with certain rigidity can smooth and easyly rotate.

As shown in Figure 2, described baffle plate 17 is triangular plate, and edges of boards of baffle plate 17 are fixed on riser 15, and the bight of baffle plate 17 overhangs in the place ahead of belt conveyor 12.This structure can be guaranteed the smooth and easy rolling of rotor 30, avoids blocking rotor 30.

Described frame 11 comprises that the underframe 111 of horizontal arrangement is located at the rectangular frame 112 on underframe 111 with standing, this rectangular frame 112 is in tilted layout from top to bottom and its lower end fixedly connects on underframe 111, angle between rectangular frame 112 and underframe 111 is acute angle, between the upper end of rectangular frame 112 and underframe 111, be provided with pipe link 113, described riser 15 is arranged and is fixed on this length limit along the long limit of rectangular frame 112.Rectangular frame 112 provides failure-free attachment point for belt conveyor 12.Because being similar to, belt conveyor 12 is laid on rectangular frame 112, its integrality is consistent with rectangular frame 112, rectangular frame 112 is in tilted layout from top to bottom and just can have realized being in tilted layout of belt conveyor 12 so, the belt conveyor 12 of this structure can provide support upwards for rotor 30, can reduce the possibility dropping of transport process rotor 30.

Described hopper 20 comprises the vertical side plate 21 that two block gaps are arranged in parallel and is connected to the front apron 22 between vertical sidewall 21, two blocks of vertical side plates 21 are separately fixed on two long limits of rectangular frame 112, the low side of described belt conveyor 12 is positioned at the below of hopper 20, the lower end of front apron 22 is greater than the thickness of blend stop 14 near belt conveyor 12 and spacing between the two, this distance guarantees that front apron 22 do not interfere the motion of blend stop 14 and rotor can from hopper 20, not drop, and is configured for storing the bucket-shaped region of rotor 30 between two vertical side plates 21, front apron 22 and belt conveyor 12.

The bottom land of described discharging trough 16 is in tilted layout from top to bottom.Be the low side of discharging trough 16 in the state of overhanging, the low side of discharging trough 16 is used for connecting automatic chamfering machine feed well, the rotor that is positioned at discharging trough 16 only relies on the effect of gravity just can along bottom land, be rolled to smoothly the feed well of automatic chamfering machine.

Described rectangular frame 112 sets out a side of hopper 16 lower than opposite side, if make the smooth and easy rotation of supporting board 121, the plate of supporting board 121 is wide unsuitable excessive, cause the angle of inclination of blend stop 14 not enough, and rectangular frame 112 is arranged to low belt conveyor 12 integral body that can make of the high side of a side, there is certain angle of inclination, add the angle of inclination of blend stop 14 and just can guarantee that the rotor on blend stop 14 is rolled to riser 15 places smoothly.

Described driver element comprises two groups of chain gear units 18 that are arranged in parallel and motor 13, described chain gear unit comprises driving and driven sprocket wheel and the messenger chain of winding on driving and driven sprocket wheel, between the drive sprocket of two groups of chain gear units, be connected with active rotating shaft 18a, between two groups of driven sprockets, be connected with driven spindle 18b, driving and driven rotating shaft 18a, 18b are all fixed between two long limits of rectangular frame 112 and form with it normal-running fit, the two ends of supporting board 121 are separately fixed on the messenger chain of respective side, and motor 13 drives active rotating shaft 18a to rotate.

Claims (8)

1. a rotor feeding device, it is characterized in that: comprise carrier bar conveyer (10) and for storing the hopper (20) of rotor (30), described carrier bar conveyer (10) comprises that being fixed on frame (11) goes up and form the belt conveyor (12) of closed loop and the driver element of driving belt conveyor (12) cycle rotation, low and its low side in high one end, described belt conveyor (12) one end is placed in hopper (20), described belt conveyor (12) is provided with the blend stop (14) that tilts and arrange in short transverse, the frame (11) of blend stop (14) low side side is provided with the riser (15) of arranging along belt conveyor (12) short transverse, the upper end of this riser (15) extends formation discharging trough (16) toward the outer side.

2. rotor feeding device according to claim 1, it is characterized in that: described riser (15) is provided with near the plate face of blend stop (14) one sides the baffle plate (17) that is parallel to belt conveyor (12), this baffle plate (17) coincide with the spacing of belt conveyor (12) and the thickness of rotor (30).

3. rotor feeding device according to claim 1 and 2, is characterized in that: described belt conveyor (12) is spliced along its rotation direction successively by polylith supporting board (121), and supporting board (121) connects driver element.

4. rotor feeding device according to claim 2, it is characterized in that: described baffle plate (17) is triangular plate, it is upper that edges of boards of baffle plate (17) are fixed on riser (15), and the bight of baffle plate (17) overhangs in the place ahead of belt conveyor (12).

5. rotor feeding device according to claim 3, it is characterized in that: described frame (11) comprises the underframe (111) of horizontal arrangement and vertical is located at the rectangular frame (112) on underframe (111), this rectangular frame (112) is in tilted layout from top to bottom and its lower end fixedly connects on underframe (111), angle between rectangular frame (112) and underframe (111) is acute angle, between the upper end of rectangular frame (112) and underframe (111), be provided with pipe link (113), described riser (15) is arranged and is fixed on this length limit along the long limit of rectangular frame (112).

6. rotor feeding device according to claim 5, it is characterized in that: described hopper (20) comprises the vertical side plate (21) that two block gaps are arranged in parallel and is connected to the front apron (22) between vertical side plate (21), two blocks of vertical side plates (21) are separately fixed on two long limits of rectangular frame (112), the low side of described belt conveyor (12) is positioned at the below of hopper (20), the lower end of front apron (22) is greater than the thickness of blend stop (14) near belt conveyor (12) and spacing between the two, two blocks of vertical side plates (21), between front apron (22) and belt conveyor (12), be configured for storing the bucket-shaped region of rotor (30).

7. rotor feeding device according to claim 6, is characterized in that: the bottom land of described discharging trough (16) is in tilted layout from top to bottom.

8. rotor feeding device according to claim 5, is characterized in that: described rectangular frame (112) sets out a side of hopper (16) lower than opposite side.