CN204430384U - Wheel rim burr removing machine dead angle milling structure - Google Patents

Abstract

The utility model discloses a kind of wheel rim burr removing machine dead angle milling structure, its wheel rim burr removing machine includes a feed control device, one sniffer and a dead angle milling attachment, this feed control device has a unsettled slide, this slide can carry out being elevated and lateral displacement, and lifting simultaneously and lateral displacement and form oblique displacement, this sniffer is located on the slide of this feed control device, and angle switching can be carried out on slide, the wheel rim position for processing is corrected in order to detection, the slide that damned angular milling turning device is also located at this feed control device be arranged in parallel and interlock with sniffer, damned angular milling turning device is provided with a dead angle milling cutter, the welding bead burr coordinating the oblique displacement of slide to present oblique-feeding milling wheel rim clamping groove dead angle are switched in order to utilize the angle of "Left"-deviationist or Right deviation, accordingly, just simple and fast milling can remove the welding bead burr at wheel rim clamping groove dead angle, shorten process time, cut down finished cost, and product yields is high.

Description

Wheel rim burr removing machine dead angle milling structure

Technical field

The utility model relates to a kind of burr removing machine structure, espespecially a kind of wheel rim burr removing machine dead angle milling structure removing wheel rim clamping groove welding bead burr in order to milling.

Background technology

The manufacture method of Regular Bicycle wheel rim in prior art, mostly utilized by the metal of strip roll forming to be a positive circle, again this front/rear end is welded, to form a wheel rim, the welding bead of this its weld of wheel rim can produce burr, therefore need process again, the burr (welding slag) of this welding bead are removed, tradition removing method utilizes abrasive machine or electricity, pneumatic tool, with Artificial Control, by worn for the burr of wheel rim, to reach complete wheel rim profile, this kind of mode must spend longer process time, and process not easily, easily because of the careless mistake in work, cause staff injured, in addition, the processing of this wheel rim easily because of staff is improper, and increase product fraction defective, manufacturing cost is caused to improve.

For solving the problem, be have dealer to develop wheel rim burr removing machine, wheel rim burr removing machine of the prior art is mostly with vertical or cross feed and carry out in wheel rim by milling attachment, action is removed in the milling of outer rim welding bead burr, but, as shown in figure 14, Regular Bicycle wheel rim 10 section mostly generally takes the shape of the letter U, there is relative two side 101, this two side 101 inner face is from end toward the interior clamping groove 103 sequentially forming a tuck-pointed part 102 and a depression, this tuck-pointed part 102 is utilized to coordinate this clamping groove 103 to make bicycle rim 1 closely can fix combination with tire, therefore the clamping groove 103 of this depression can form the dead angle that existing wheel rim burr removing machine cannot carry out milling, so that need secondary operations be carried out, the welding bead burr of this clamping groove 103 can be removed, and longer process time must be spent, working (machining) efficiency is not good, processing cost is high, and the careless mistake easily because of staff when processing, cause the problem in person works's safety, and increase product fraction defective.

Utility model content

Because wheel rim welding bead burr of the prior art remove machine, need secondary operations be carried out, can by complete for the burr of wheel rim welding bead removal, working (machining) efficiency is low, processing cost is high, the problem that product fraction defective increases, and provides a kind of wheel rim burr removing machine dead angle of the present utility model milling structure.

The utility model provides a kind of wheel rim burr removing machine dead angle milling structure, its wheel rim burr removing machine comprises: a board, two railroads, one first milling attachment, one second milling attachment, one wheel rim clamping device, one wheel rim driving device, one feed control device, one sniffer and a dead angle milling attachment, wherein this board is placed on ground, this two railroad is located on board with the relative mode that staggers, this first milling attachment and the second milling attachment are located on this two railroad respectively, in order in milling wheel rim, the welding bead burr of outer rim, this wheel rim clamping device is in order to the clamping wheel rim for processing, this wheel rim driving device rotates together in order to drive wheel rim clamping device and clamping wheel rim thereof in good time,

This feed control device has a unsettled slide, this slide can coordinate screw rod to control to carry out being elevated and lateral displacement by CD-ROM drive motor, and can be elevated and lateral displacement and form oblique displacement simultaneously, this sniffer is located on the slide of this feed control device, and can carry out vertically downward on slide, left-leaning or Right deviation angle switches, the wheel rim position for processing is corrected in order to detection, on the slide that damned angular milling turning device is also located at this feed control device and and interlock parallel with sniffer, and angle switching can be carried out with sniffer on slide, damned angular milling turning device is provided with a dead angle milling cutter, the welding bead burr coordinating the oblique displacement of slide to present oblique-feeding milling wheel rim clamping groove dead angle are switched in order to utilize the angle of "Left"-deviationist or Right deviation.

As preferably, this feed control device has two columns, the spreader of an interlinked mechanism and a movable lifting is provided with between two columns, this spreader is provided with a unsettled slide, this slide has a vertical plane, and this slide can coordinate screw rod and auxiliary oil hydraulic cylinder of shoring to control to carry out being elevated and lateral displacement by CD-ROM drive motor.

As preferably, this sniffer is located on the vertical plane of the slide of this feed control device.

As preferably, this sniffer has two detectors that are extended and that retract.

As preferably, this sniffer is driven by a CD-ROM drive motor and carries out angle switching.

As preferably, damned angular milling turning device is located on the vertical plane of the slide of this feed control device.

As preferably, the dead angle milling cutter of damned angular milling turning device is by a CD-ROM drive motor driven rotary.

Compared with prior art, the beneficial effects of the utility model are:

1, it on slide, carries out Right deviation by dead angle milling attachment to switch with left-leaning angle, the welding bead burr at wheel rim clamping groove dead angle are removed with oblique-feeding milling, and the welding bead burr of wheel rim outer rim are removed by the first milling attachment milling, the welding bead burr of wheel rim inner edge are removed in second milling attachment milling, and the mechanization of wheel rim welding bead burr can be removed fast, process time is short, and working (machining) efficiency is good, processing cost reduces, and product yields is high.

2, it utilizes Right deviation to switch with left-leaning angle the welding bead burr coordinating oblique-feeding mode milling wheel rim clamping groove dead angle by dead angle milling attachment, and thus stroke is short, and can milling vertically and cross feed cannot the face of milling and corner.

Accompanying drawing explanation

Fig. 1 is the stereogram of the wheel rim burr removing machine of wheel rim burr removing machine dead angle of the present utility model milling structure.

Fig. 2 is the slide lifting displacement action schematic diagram of the feed control device of wheel rim burr removing machine dead angle of the present utility model milling structure.

Fig. 3 is the slide lateral displacement action schematic diagram of the feed control device of wheel rim burr removing machine dead angle of the present utility model milling structure.

Fig. 4 is the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure and another angle stereogram of dead angle milling attachment.

Fig. 5 is the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure and the side view of wheel rim part.

Fig. 6 is the side view that the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure detects wheel rim position vertically downward.

Fig. 7 is the front view that the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure detects wheel rim position vertically downward.

Fig. 8 is that the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure is with the front view of left-leaning angle detection wheel rim position.

Fig. 9 is that the sniffer of wheel rim burr removing machine dead angle of the present utility model milling structure is with the front view of Right deviation angle detection wheel rim position.

Figure 10 be wheel rim burr removing machine dead angle of the present utility model milling structure milling wheel rim in first utilize the action schematic diagram of left-leaning angular compliance oblique-feeding mode milling wheel rim side clamping groove welding bead burr before outer rim with dead angle milling attachment.

Figure 11 be wheel rim burr removing machine dead angle of the present utility model milling structure milling wheel rim in first utilize the action schematic diagram of Right deviation angular compliance oblique-feeding mode milling wheel rim opposite side clamping groove welding bead burr before outer rim with dead angle milling attachment.

Figure 12 be wheel rim burr removing machine dead angle of the present utility model milling structure milling wheel rim in utilize the action schematic diagram of left-leaning angular compliance oblique-feeding mode milling wheel rim side clamping groove welding bead burr after outer rim with dead angle milling attachment.

Figure 13 be wheel rim burr removing machine dead angle of the present utility model milling structure milling wheel rim in utilize the action schematic diagram of Right deviation angular compliance oblique-feeding mode milling wheel rim opposite side clamping groove welding bead burr after outer rim with dead angle milling attachment.

Figure 14 is the sectional drawing of Regular Bicycle wheel rim.

Description of reference numerals

1 board

2 railroads

21 mobile platforms

22 CD-ROM drive motors

23 screw rods

3 first milling attachments

31 CD-ROM drive motors

32 first cutters

4 second milling attachments

41 CD-ROM drive motors

42 second cutters

5 wheel rim clamping devices

6 wheel rim driving devices

7 feed control devices

71 columns

72 interlinked mechanisms

73 spreaders

74 slides

741 vertical planes

75 CD-ROM drive motors

76 screw rods

77 auxiliary shore oil hydraulic cylinder

8 sniffers

81 CD-ROM drive motors

82 detectors

9 dead angle milling attachments

91 CD-ROM drive motors

92 dead angle milling cutters

10 wheel rims

101 sidewalls

102 tuck-pointed parts

103 clamping grooves

1031 indent sides

1032 sinking bases

1033 corners

104 welding bead burr

Detailed description of the invention

Refer to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Figure 14, wheel rim burr removing machine dead angle of the present utility model milling structure, its wheel rim 10 section generally takes the shape of the letter U, there is relative two side 101, this two side 101 inner face sequentially forms tuck-pointed part 102 and a clamping groove 103 from end toward interior, this clamping groove 103 has an indent side 1031, sink to the bottom limit 1032 and once and be positioned at corner 1033 between this side 1031 and base 1032, this wheel rim 10 weld has welding bead burr 104, its wheel rim burr removing machine comprises: a board 1, two railroads 2, one first milling attachment 3, one second milling attachment 4, one wheel rim clamping device 5, one wheel rim driving device 6, one feed control device 7, one sniffer 8 and a dead angle milling attachment 9, wherein this board 1 is placed on ground, this two railroad 2 is located on board 1 with the relative mode that staggers, this two railroad 2 is respectively equipped with a mobile platform 21, this mobile platform 21 can coordinate screw rod 23 to control to carry out longitudinal direction and lateral displacement by CD-ROM drive motor 22, and can be elevated and lateral displacement and form oblique displacement simultaneously, this first milling attachment 3 is located on the mobile platform 21 of a railroad 2, this first milling attachment 3 is provided with one can by the first cutter 32 of CD-ROM drive motor 31 driven rotary, this first cutter 32 is wheel rim 10 outer rim milling cutter, this second milling attachment 4 is located on the mobile platform 21 of another railroad 2, make this first milling attachment 3 same with the second milling attachment 4 and two railroads 2 formed to stagger be oppositely arranged, this second milling attachment 4 is provided with one can by the second cutter 42 of CD-ROM drive motor 41 driven rotary, this second cutter 42 is wheel rim 10 inner edge milling cutter, this wheel rim clamping device 5 is arranged at two railroad 2 sides, in order to the clamping wheel rim 10 for processing, this wheel rim driving device 6 is arranged at wheel rim clamping device 5 side, rotate together with the wheel rim 10 for processing in order to drive wheel rim clamping device 5 in good time, this feed control device 7 has two columns 71, the spreader 73 of an interlinked mechanism 72 and a movable lifting is established between two columns 71, this spreader 73 is provided with a unsettled slide 74, this slide 74 has a vertical plane 741, this slide 74 can coordinate screw rod 76 and auxiliary oil hydraulic cylinder 77 of shoring to control to carry out being elevated and lateral displacement by CD-ROM drive motor 75, this sniffer 8 is located on the vertical plane 741 of the slide 74 of this feed control device 7, and can be undertaken vertically downward by CD-ROM drive motor 81 drive on slide 74, angle that is left-leaning or Right deviation switches, this sniffer 8 has two detectors 82 that are extended and that retract, wheel rim 10 position for processing is corrected in order to detection, damned angular milling turning device 9 is also located on the vertical plane 741 of the slide 74 of this feed control device 7, and damned angular bit turning device 9 be arranged in parallel and interlock with sniffer 8, and angle switching can be carried out with sniffer 6 on slide 7, damned angular milling turning device 9 is provided with one can by the dead angle milling cutter 92 of CD-ROM drive motor 91 driven rotary.

Carry out the removal of welding bead burr and add man-hour, please refer to Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10 and Figure 11, first the wheel rim 10 for processing is placed in wheel rim clamping device 5 clamping, the welding bead burr 104 of wheel rim 10 are made to be positioned on the downside of sniffer 8, control sniffer 8 to carry out vertically downward, angle that is left-leaning and Right deviation switches, and in vertically downward, stretching out with two detectors 82 respectively when "Left"-deviationist or Right deviation is butted on wheel rim 10, wheel rim 10 position is corrected with 3 detections, control damned angular milling turning device 9 again to carry out left-leaning switching with the angle of Right deviation, when "Left"-deviationist or Right deviation, drive the dead angle milling cutter 92 of damned angular milling turning device 9 in oblique-feeding mode by the oblique displacement of slide 74 of feed control device 7 respectively, the indent side 1031 of the clamping groove 103 of two side 101 inner face of wheel rim 10 is removed in milling, the welding bead burr 104 of sinking base 1032 and corner 1033, and when milling, coordinate the rotation being driven wheel rim clamping device 5 by wheel rim driving device 6, and then interlock rotates for the wheel rim 10 processed, the angle of this rotation is within 5 degree, and the welding bead burr 104 in the clamping groove 103 of two side 101 inner face of wheel rim 10 are removed in complete milling, wheel rim clamping device 5 is driven to rotate by wheel rim driving device 6 again, and then interlock rotates for the wheel rim 1 processed, wheel rim 10 welding bead burr 104 are made to be positioned between the first cutter 32 of the first milling attachment 3 and the second cutter 42 of the second milling attachment 4, removed the welding bead burr 104 of wheel rim 10 outer rim and inner edge more respectively with relative milling by this first cutter 32 and the second cutter 42, and cooperation drives wheel rim clamping device 5 to rotate by wheel rim driving device 6 when milling, and then interlock rotates for the wheel rim 10 processed, the angle of this rotation is within 5 degree, and the welding bead burr 104 of wheel rim 10 outer rim and inner edge are removed in complete milling, namely processing is completed.

In addition, also can be as shown in FIG. 12 and 13, after sniffer 8 detects correction wheel rim 10 position, the welding bead burr 104 of wheel rim 10 outer rim and inner edge are first removed with the second cutter 42 milling of the first cutter 32 of the first milling attachment 3 and the second milling attachment 4, recycling dead angle milling attachment 9 carries out left-leaning switching with the angle of Right deviation and coordinates oblique-feeding mode, with the welding bead burr 104 of the indent side 1031 of the clamping groove 103 of two side 101 inner face of dead angle milling cutter 92 milling removal wheel rim 10, sinking base 1032 and corner 1033.

By the structure of above-mentioned specific embodiment, following beneficial effect can be obtained:

1. wheel rim burr removing machine dead angle of the present utility model milling structure, it on slide 74, carries out Right deviation by dead angle milling attachment 9 to switch with left-leaning angle, coordinate the welding bead burr 104 at clamping groove 103 dead angle of removing wheel rim 10 with oblique-feeding milling, and the welding bead burr 104 of wheel rim 10 outer rim are removed by the first milling attachment 3 milling, the welding bead burr 104 of wheel rim 10 inner edge are removed in second milling attachment 4 milling, and welding bead burr 104 mechanization of wheel rim 10 can be removed fast, reach process time short, working (machining) efficiency is good, processing cost reduces, the effect that product yields is high.

2. wheel rim burr removing machine dead angle of the present utility model milling structure, it utilizes Right deviation to switch the welding bead burr 104 at clamping groove 103 dead angle coordinating oblique-feeding mode milling wheel rim 10 with left-leaning angle by dead angle milling attachment 9, thus stroke is short, and can milling vertical with cross feed cannot the face of milling and corner, promote to make practicality.

Claims (7)

1. a wheel rim burr removing machine dead angle milling structure, its wheel rim burr removing machine comprises: a board, two railroads, one first milling attachment, one second milling attachment, one wheel rim clamping device, one wheel rim driving device, one feed control device, one sniffer and a dead angle milling attachment, wherein this board is placed on ground, this two railroad is located on board with the relative mode that staggers, this first milling attachment and the second milling attachment are located on this two railroad respectively, in order in milling wheel rim, the welding bead burr of outer rim, this wheel rim clamping device is in order to the clamping wheel rim for processing, this wheel rim driving device rotates together in order to drive wheel rim clamping device and clamping wheel rim thereof in good time, it is characterized in that:

This feed control device has a unsettled slide, this slide can coordinate screw rod to control to carry out being elevated and lateral displacement by CD-ROM drive motor, and can be elevated and lateral displacement and form oblique displacement simultaneously, this sniffer is located on the slide of this feed control device, and can carry out vertically downward on slide, left-leaning or Right deviation angle switches, the wheel rim position for processing is corrected in order to detection, damned angular milling turning device is also located on the slide of this feed control device, and damned angular milling turning device and sniffer be arranged in parallel and interlock, and angle switching can be carried out with sniffer on slide, damned angular milling turning device is provided with a dead angle milling cutter, the welding bead burr coordinating the oblique displacement of slide to present oblique-feeding milling wheel rim dead angle are switched in order to utilize the angle of "Left"-deviationist or Right deviation.

2. wheel rim burr removing machine dead angle according to claim 1 milling structure, it is characterized in that, this feed control device has two columns, the spreader of an interlinked mechanism and a movable lifting is provided with between two columns, this spreader is provided with a unsettled slide, this slide has a vertical plane, and this slide can coordinate screw rod and auxiliary oil hydraulic cylinder of shoring to control to carry out being elevated and lateral displacement by CD-ROM drive motor.

3. wheel rim burr removing machine dead angle according to claim 2 milling structure, it is characterized in that, this sniffer is located on the vertical plane of the slide of this feed control device.

4. wheel rim burr removing machine dead angle according to claim 1 milling structure, is characterized in that, this sniffer has two detectors that are extended and that retract.

5. wheel rim burr removing machine dead angle according to claim 1 milling structure, is characterized in that, this sniffer is driven by a CD-ROM drive motor and carries out angle switching.

6. wheel rim burr removing machine dead angle according to claim 2 milling structure, it is characterized in that, damned angular milling turning device is located on the vertical plane of the slide of this feed control device.

7. wheel rim burr removing machine dead angle according to claim 1 milling structure, is characterized in that, the dead angle milling cutter of damned angular milling turning device is by a CD-ROM drive motor driven rotary.