CN102684415B - Wire cup indexing clutch device of winding machine - Google Patents

Abstract

The invention discloses a wire cup indexing clutch device of a winding machine, which comprises a lifting pin, a spring and a lifting pin sleeve. The wire cup indexing clutch device is characterized in that the lifting pin is arranged in the lifting pin sleeve; the spring is arranged between the lifting pin sleeve and the lifting pin; the side of the lifting pin sleeve, which is close to a wire cup placing seat, is provided with a slipping hole; the other side of the lifting pin sleeve is provided with a fixed bulge; a pin hole is formed on the fixed bulge; the lifting pin sleeve is fixed on a rotary table by a pin through the pin hole; the wire cup indexing clutch device also comprises a positioning pin and a positioning bolt; the position on the lifting pin, which corresponds to the slipping hole, is provided with a perforated hole which is radially arranged; one side of the perforated hole is provided with an accommodating hole; the other side of the perforated hole is provided with an inserted hole; the positioning bolt is in threaded connection with one end of the positioning pin; and the other end of the positioning pin is matched with a positioning groove on the wire cup placing seat by the slipping hole. According to the invention, by utilizing the matching of the positioning bolt and the positioning pin, the limit on the wire cup placing seat is implemented; the structure is simplified; the wire cup indexing clutch device is convenient to assemble; and the cost is reduced.

Description

The line cup calibration arrangement of clutch of coil winding machine

Technical field

the present invention relates to a kind of inductance coil coil winding machine, relate in particular to a kind of line cup calibration arrangement of clutch of coil winding machine, the device whether control line cup calibration is connected with rotation driving section.

Background technology

coil is one of requisite parts during motor is produced, and conventionally need to use coil winding machine and carry out coiling.In the course of processing of coil of stator of motor, first line cup is placed on the line cup placement rack of coil winding machine head below, electric machine rotation, after the transmission mechanism such as gear or Timing Belt drives coiling main shaft, be installed on the high speed turn thereupon of coiling main shaft below wire-winding unit, line is through cable tray, wire winding pole outlet mechanism outlet from wire-winding unit, be wound on the winding mould that is positioned at coiling main shaft below, the line winding is by falling on mould on the line cup of below, then by the driving mechanism of line cup calibration bottom, band moving-wire cup calibration rotates, change behind coiling position, continue coiling, until complete the winding operation of whole line cup.

above-mentioned line cup calibration is mainly made up of the line cup base being connected with rotating disk and the line cup that is carried in line cup base, line cup base is made up of line cup placement rack and calibration gear wheel, the calibration pinion of calibration gear wheel and workbench below is connected with a joggle, rotary cylinder rotates and just can drive calibration gear wheel to rotate together, realizes the rotation of line cup calibration.Because the rotation of rotary cylinder is wayward, in order to ensure the rotational angle of line cup calibration, between calibration gear wheel and calibration pinion, be provided with arrangement of clutch.

as shown in Figure 1, line cup calibration arrangement of clutch comprises body 1, be arranged at the ejector pin 2 in body 1, the keeper 3 that is installed on ejector pin 2 one sides, the top of ejector pin 2 is provided with spring 10, and this spring 10 is compressed by the gland 4 at top, body 1 one side flangings are provided with connecting hole, the corresponding connection hole of described gland 4 arranges screw, by screw 5, gland 4 and body 1 is connected and fixed with rotating disk 6 in the lump; The corresponding keeper of line cup placement rack 73 places offer the location notch 8 matching, in the time of non operating state, keeper 3 falls within location notch 8, has limited the circumferential degree of freedom of line cup placement rack 7, and when operating state, calibration pinion 12 is driven and is protruded upward work top by lift cylinder, peak at the bottom of ejector pin 2, ejector pin 2 is Compress Spring 10 upwards, and keeper 3 leaves location notch 8, calibration pinion 12 engages with calibration gear wheel 9, and line cup calibration 11 is just rotatable.

but as mentioned above, arrangement of clutch is to guarantee to wind the line the preparatory indispensable part in position, but its structure is comparatively complicated, and part is more, has increased on the one hand the assembling difficulty of whole line cup calibration, has also increased on the other hand production cost and maintenance cost.Therefore, guaranteeing, under the prerequisite of clutch effect, can to simplify this part-structure, to enhance productivity, reduce costs, need those skilled in the art person further to make great efforts improved direction.

Summary of the invention

the object of the invention is to provide a kind of line cup calibration arrangement of clutch of coil winding machine, by the improvement of structure, simplifies the structure, and has reduced assembling difficulty, has improved production efficiency, reduces production costs and maintenance cost simultaneously.

for achieving the above object, the technical solution used in the present invention is: a kind of line cup calibration arrangement of clutch of coil winding machine, comprise ejector pin, spring and ejector pin cover, Open Side Down for described ejector pin cover, described ejector pin is in described opening part stretches into this ejector pin cover, described spring is arranged between described ejector pin cover and described ejector pin, described ejector pin cover near line cup placement rack side is provided with slip hole, opposite side is provided with fixed lobe, described fixed lobe is provided with pin-and-hole, and described ejector pin cover is fixed on rotating disk through this pin-and-hole by pin; Also comprise an alignment pin and a bolt, the corresponding described slip hole of described ejector pin place is provided with the perforation of radial arrangement, one side of described perforation is provided with the accommodation hole coordinating with bolt head, the opposite side of described perforation is provided with the jack coordinating with described alignment pin, described bolt is spirally connected through described accommodation hole, perforation and described alignment pin one end, the other end of this alignment pin coordinates with the location notch on described line cup placement rack through described slip hole, and the length of described slip hole is greater than described clamping slot depth.

in technique scheme, the top of described ejector pin is provided with groove, and described spring one end is arranged in this groove, and the other end is butted on described ejector pin cover inner roof wall.

in technique scheme, on described line cup placement rack, be evenly distributed with 4 described location notchs.

the course of work of the present invention: (1) close state: alignment pin falls within the location notch of line cup placement rack, defines the circumferential degree of freedom of line cup placement rack; (2) from state: calibration pinion is driven and protruded upward work top by lift cylinder, peak at the bottom of ejector pin, make upwards Compress Spring of ejector pin, alignment pin is along moving on slip hole, leave location notch, cancel the restriction of alignment pin to line cup placement rack, calibration pinion engages with calibration gear wheel, and line cup calibration can rotate under the driving of rotary cylinder; After being rotated in place, lift cylinder drives calibration pinion to move down, and ejector pin is return under the reset force of Compress Spring, extensive combined state.

because technique scheme is used, the present invention compared with prior art has following advantages:

1. in the present invention, arrangement of clutch is made up of ejector pin cover, ejector pin, Compress Spring and alignment pin, bolt, slippage in slip hole by alignment pin on guide, realize with location notch on line cup placement rack from, close and coordinate, compared with structure in the past, simplify the structure, be convenient to assembling, and reduced cost;

2. in the present invention, alignment pin, bolt and Compress Spring all can adopt standard component, reduce the cost of manufacture of parts, thereby have reduced the production cost of whole device, are easier to realize.

Accompanying drawing explanation

fig. 1 is the structural representation in background technology;

fig. 2 uses status architecture schematic diagram in the embodiment of the present invention one;

fig. 3 is the schematic diagram of the embodiment of the present invention one center line cup base.

wherein: 1, body; 2, ejector pin; 3, keeper; 4, gland; 5, screw; 6, rotating disk; 7, line cup placement rack; 8, location notch; 9, calibration gear wheel; 10, spring; 11, line cup calibration; 12, calibration pinion; 101, ejector pin; 102, spring; 103, ejector pin cover; 104, alignment pin; 105, bolt; 106, slip hole; 107, fixed lobe; 109, pin; 110, rotating disk; 112, bolt head; 115, location notch; 116, groove; 117, line cup placement rack; 118, calibration pinion; 119, calibration gear wheel; 120, line cup calibration.

Embodiment

below in conjunction with drawings and Examples, the invention will be further described:

embodiment mono-: referring to Fig. 2, shown in 3, a kind of line cup calibration arrangement of clutch of coil winding machine, comprise ejector pin 101, spring 102, ejector pin cover 103, one alignment pin 104 and a bolt 105, Open Side Down for described ejector pin cover 103, described ejector pin 101 is in described opening part stretches into this ejector pin cover 103, described spring 102 is arranged between described ejector pin cover 103 and described ejector pin 101, described ejector pin overlaps 103 near line cup placement rack 117 sides and is provided with slip hole 106, opposite side is provided with fixed lobe 107, described fixed lobe 107 is provided with pin-and-hole, described ejector pin cover 103 is fixed on rotating disk 110 through this pin-and-hole by pin 109, the corresponding described slip hole of described ejector pin 101 106 places are provided with the perforation of radial arrangement, the left side of described perforation is provided with the accommodation hole coordinating with bolt head 112, the right side of described perforation is provided with the jack coordinating with described alignment pin 104, described bolt 105 is through described accommodation hole, perforation is spirally connected with described alignment pin 104 one end, the other end of this alignment pin 104 coordinates with the location notch 115 on described line cup placement rack 117 through described slip hole 106, the length of described slip hole 106 is greater than described location notch 115 degree of depth, so that alignment pin 104 departs from the restriction of location notch 115.

as shown in Figure 2, the top of described ejector pin 101 is provided with groove 116, and described spring 102 lower ends are arranged in this groove 116, and upper end is butted on described ejector pin and overlaps on 103 inner roof walls.As shown in Figure 3, on described line cup placement rack 117, be provided with 1 described location notch 115, multiple location notchs 115 also can be set as required, can reach and divide equally the wear rate of alignment pin 104 to location notch 115 by multiple location notchs 115 are set, in the time that certain location notch 115 weares and teares, can select other location notch 115 to substitute, increase the service life.

running: calibration pinion 118 is driven and protruded upward work top by lift cylinder (not shown), prop up the bottom of ejector pin 101, ejector pin 101 is moved up, and push Compress Spring 102, alignment pin 104, along moving on slip hole 106, leaves location notch 115 simultaneously, to the embedding of line cup placement rack 117 only cancels alignment pin 104, calibration pinion 118 engages with calibration gear wheel 119, and line cup calibration 120 can rotate under the driving of rotary cylinder (not shown); After being rotated in place, lift cylinder drives calibration pinion 118 to move down, and ejector pin 101 is return under the reset force of Compress Spring 102, extensive combined state.

Claims (3)

1. the line cup calibration arrangement of clutch of a coil winding machine, comprise ejector pin, spring and ejector pin cover, it is characterized in that: Open Side Down for described ejector pin cover, described ejector pin is in described opening part stretches into this ejector pin cover, described spring is arranged between described ejector pin cover and described ejector pin, and described ejector pin cover near line cup placement rack side is provided with slip hole, and opposite side is provided with fixed lobe, described fixed lobe is provided with pin-and-hole, and described ejector pin cover is fixed on rotating disk through this pin-and-hole by pin; Also comprise an alignment pin and a bolt, the corresponding described slip hole of described ejector pin place is provided with the perforation of radial arrangement, one side of described perforation is provided with the accommodation hole coordinating with bolt head, the opposite side of described perforation is provided with the jack coordinating with described alignment pin, described bolt is spirally connected through described accommodation hole, perforation and described alignment pin one end, the other end of this alignment pin coordinates with the location notch on described line cup placement rack through described slip hole, and the length of described slip hole is greater than described clamping slot depth.

2. the line cup calibration arrangement of clutch of coil winding machine according to claim 1, is characterized in that: the top of described ejector pin is provided with groove, and described spring one end is arranged in this groove, and the other end is butted on described ejector pin cover inner roof wall.

3. the line cup calibration arrangement of clutch of coil winding machine according to claim 1, is characterized in that: on described line cup placement rack, be evenly distributed with 4 described location notchs.

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