CN203086317U - Combined adjusting mechanism of coupling machine - Google Patents
Combined adjusting mechanism of coupling machine Download PDFInfo
- Publication number
- CN203086317U CN203086317U CN 201320050293 CN201320050293U CN203086317U CN 203086317 U CN203086317 U CN 203086317U CN 201320050293 CN201320050293 CN 201320050293 CN 201320050293 U CN201320050293 U CN 201320050293U CN 203086317 U CN203086317 U CN 203086317U
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- locating piece
- axle
- shaft
- pad
- adjusted
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Abstract
The utility model relates to a combined adjusting mechanism of a coupling machine. The combined adjusting mechanism comprises a magnetic conductive rotor and a permanent magnet rotor, wherein the magnetic conductive rotor and the permanent magnet rotor are in magnetic connection and are rotated simultaneously. The magnetic conductive rotor includes two rotating plates that are connected by a plurality of adjusting units; and the adjusting units can be used for rotatable fine adjustment of the distance between the two rotating plates. A positioning block is arranged at the shaft center of the magnetic conductive rotor and is fixed on one of the rotating plates; a rotating shaft portion is locked at the positioning block; a plurality of locking screws are arranged around the rotating shaft portion; a gasket is inserted between the rotating shaft portion and the positioning block and the locking screws pass through the gasket and then are fixed on the positioning block; and the gasket is used to adjust the distance between the rotating shaft and the positioning block. With utilization of the combined adjusting mechanism, the combination and fine adjustment work of the magnetic conductive rotor can be completed rapidly and simply without the need to disassemble lots of screws, thereby simplifying the adjusting process.
Description
Technical field
The utility model relates to a kind of structure of simplifying axle-linked machine disassembly and assembly action, and structure is adjusted in a kind of combination of axle-linked machine specifically, can satisfy the demand that the user adjusts the axle-linked machine structure easily, reduces task complexity.
Background technology
General permanent magnetism axle-linked machine mainly is to be the magnetic conduction rotor of material by copper or aluminium, and the p-m rotor two parts with strong magnets are formed.The magnetic conduction rotor mainly is fixed on the motor drive shaft, and p-m rotor then is fixed on the bearing axle, gapped between magnetic conduction rotor and p-m rotor (being commonly referred to as air gap).So the meeting that is connected of motor and load changes soft (magnetic) connection into by original hard (machinery) connection, and the output torque that just can reach on the bearing axle by the air gap of regulating between magnetic conduction rotor and p-m rotor changes, and changes thereby reach load speed.
Permanent magnetism shaft coupling function is significantly improved the service performance of system, before starting load by permanent magnetism axle-linked machine CD-ROM drive motor No Load Start, not only reduced the starting current of motor and reduced to the thermal shock load of motor and to the influence of electric power system, thereby saves energy and the working life that prolongs motor, and very effectively reduced when starting drive system to the destructive tension force of belt conveyor, eliminated the concussion that produces when conveyer starts, can also alleviate the suffered startup of drive system itself significantly impacts, prolong belt, the useful life of critical components such as idle pulley, promoted the safe and reliable operation of equipment, effectively reduced maintenance of equipment and fault time cost.So be compared to traditional axle-linked machine, the permanent magnetism axle-linked machine provides more progressive structure really, and has practical value.
Yet the structure of traditional permanent magnetism axle-linked machine still exists shortcoming to have much room for improvement when practical application, for example when adjusting air gap, often can't carry out smoothly, and need expend great amount of manpower and time.Its subject matter is that traditional permanent magnetism axle-linked machine mostly is large-scale mechanical structure, and its component units is quite complicated, and especially magnetic conduction rotor used screw quantity when assembling is surprising especially.When we will adjust air gap, must dismantle the member of this magnetic conduction rotor earlier, often need a large amount of screw of dismounting earlier this moment, because screw is the small-sized assembly of ignoring easily, in unloading process, the accident of loss takes place probably, the difficulty when causing traditional permanent magnetism axle-linked machine to re-assembly.
Learn that thus the combination of traditional permanent magnetism axle-linked machine is adjusted structure and still had shortcoming, and remains to be improved.
The utility model content
Main purpose of the present utility model is to provide a kind of combination of axle-linked machine to adjust structure, and combination, fine setting work that it can fast simplely finish this magnetic conduction rotor need not to dismantle a large amount of screws, simplify adjustment process.
Another purpose of the present utility model is to provide a kind of combination of axle-linked machine to adjust structure, and it can be avoided dropping of screw or lose, and increases the efficient of work and reduces maintenance cost.
For achieving the above object, the utility model adopts following technical scheme:
Structure is adjusted in a kind of combination of axle-linked machine, comprise magnetic conduction rotor and p-m rotor, make this magnetic conduction rotor be connected rotation simultaneously with magnetic with p-m rotor, this magnetic conduction rotor includes two rotating disks, combine the distance between this two rotating disk of the rotatable fine setting of this adjustment unit with a plurality of adjustment units around this two rotating disk; This magnetic conduction rotor axis is provided with locating piece, this locating piece is fixed in wherein on the rotating disk, this locating piece locking has shaft, be provided with a plurality of locking screws around this shaft, be plugged with pad between this shaft and this locating piece, make this locking screw pass this pad and be locked on this locating piece, adjust this shaft with respect to the distance between this locating piece by this pad.
This adjustment unit includes backstay and adjusting lever, this backstay and adjusting lever are arranged at respectively on two rotating disks, placed screw rod in this backstay and the adjusting lever, this screw rod penetrates two rotating disks, and be equipped with nut in this screw rod end, be benchmark with this backstay during operation, rotate this adjusting lever and promote two rotating disks and move mutually, to change the distance between this two rotating disk.
This adjusting lever is provided with scale, with the distance between this two rotating disk of accurate fine setting.This adjusting lever is provided with side cut, and convenient wrench is inserted in and is rotated.
This pad is semicircle, and its position that contacts this locking screw when planting is provided with short slot, inserts between this shaft and the locating piece from outside in order to this pad.
This shaft is provided with set screw, is provided with location hole with respect to this pad, makes this set screw place this location hole and this pad is positioned between this locating piece and this shaft.Be locked on this rotating disk with a plurality of fixed screws around this locating piece, need unclamp this fixed screw on this rotating disk so that this locating piece is dismantled.This adjustment unit is distributed in around two rotating disks.
Advantage of the present utility model and beneficial effect are:
1. the utility model can fast simplely be finished combination, the fine setting work of this magnetic conduction rotor, need not to dismantle a large amount of locking screws, simplifies adjustment process.
2. the utility model is avoided dropping of locking screw or is lost, and increases the efficient of work and reduces maintenance cost.
Description of drawings
Fig. 1 is a magnetic conduction rotor embodiment stereogram of the present utility model;
Figure 1A is the A part enlarged drawing of Fig. 1;
Fig. 2 is the end view of Fig. 1;
Fig. 2 A is the B part enlarged drawing of Fig. 2;
Fig. 2 B is the C part enlarged drawing of Fig. 2;
Fig. 3 is a shaft three-dimensional exploded view of the present utility model.
Wherein: 1 is the magnetic conduction rotor, and 10,11 is rotating disk, and 12 is adjustment unit, 121 is backstay, and 122 is adjusting lever, and 123 is screw rod, 124 is nut, and 125 for cutting edge, and 13 is locating piece, 131 is fixed screw, and 14 is shaft, and 15 is locking screw, 16 is set screw, and 2 is p-m rotor, and 3 is pad, 31 is short slot, and 32 is location hole.
Embodiment
As shown in Figure 1 to Figure 3, structure is adjusted in the combination that is a kind of axle-linked machine of the utility model, it mainly includes magnetic conduction rotor 1 and p-m rotor 2, between this magnetic conduction rotor 1 and the p-m rotor 2 air gap is arranged, and makes this magnetic conduction rotor 1 be connected, rotate simultaneously with magnetic with p-m rotor 2.
This magnetic conduction rotor 1 includes two rotating disks 10,11, combines the distance between this this two rotating disk 10,11 of adjustment unit 12 rotatable fine settings with a plurality of adjustment unit 12 around this two rotating disk 10,11.This magnetic conduction rotor 1 axle center is provided with locating piece 13, this locating piece 13 is fixed in wherein on the rotating disk 10, these locating piece 13 lockings have shaft 14, are plugged with pad 3 between this shaft 14 and the locating piece 13, to finely tune the distance of this shaft 14 with respect to this rotating disk 10,11.
Whereby, when this axle-linked machine will be adjusted air gap, must adjust the distance between this two rotating disk 10,11, but when moving this rotating disk 10, will inevitably have influence on the position of this locating piece 13 of being positioned on this rotating disk 10 and shaft 14, thus must dismounting this locating piece 13 and shaft 14, treat that these rotating disk 10 adjustment finish after, adjust the distance of this locating piece 13 and shaft 14 more simultaneously and load onto, to finish the adjustment of air gap.
Relevant adjustment mode, this adjustment unit 12 includes backstay 121 and adjusting lever 122, this backstay 121 is arranged at respectively on two rotating disks 10,11 with adjusting lever 122, placed screw rod 123 in this backstay 121 and the adjusting lever 122, this screw rod 123 penetrates two rotating disks 10,11, and is equipped with nut 124 in these screw rod 123 ends.When the user need adjust between this two rotating disk 10,11 apart from the time, at first unclamp this nut 124 (need not removal), be benchmark with this backstay 121 then, rotate this adjusting lever 122 and be adjusted at distance on this screw rod 123, and make this adjusting lever 122 promote to make two rotating disks 10,11 to relatively move to adjust distance, again this nut 124 that locks is then finished the air gap adjustment work between this two rotating disk 10,11.
During the practice operation, the user unclamps all nuts 124 around this magnetic conduction rotor 1, adjust in a small amount of this adjustment unit 12 of this magnetic conduction rotor 1 upper, middle and lower choice of location then, after these a small amount of these adjustment unit 12 adjustment are finished, again all the other these adjustment units 12 are all locked, adjust with the distance of accurately finishing fast between this two rotating disk 10,11.
Also can be provided with scale (scheming not shown) on this adjusting lever 122, with the distance between this two rotating disk 10,11 of accurate fine setting.And this adjusting lever 122 is provided with and cuts edge 125, can general spanner be inserted in to be rotated convenient working.
Above-mentioned this two rotating disk 10,11 adjust apart from the time, need loosen this locating piece 13 in addition, be locked on this rotating disk 10,11 with a plurality of fixed screws 131 around this locating piece 13, when this rotating disk 10,11 adjust apart from the time, can unclamp this fixed screw 131 (need not removal) earlier, carry out air gap adjustment work then.
In addition, around this shaft 14, be provided with a plurality of locking screws 15, make this locking screw 15 pass this pad 3 and this shaft 14 is fixed on this locating piece 13, and adjust the distance of this shaft 14 with respect to this locating piece 13 by this pad 3.This pad 3 can be set to thin slice, and the visual demand of user is planted some simultaneously, to obtain required dimensional requirement.And this pad 3 is semicircle, and its position that contacts this locking screw 15 when planting is provided with short slot 31, inserts between this shaft 14 and the locating piece 13 from outside to make things convenient for this pad 3.
Whereby, when the distance of this shaft 14 needs to adjust, it at first unclamps this all locking screws 15, this shaft 14 is enlarged and this locating piece 13 between distance, be exposed to section between this locating piece 13 and this shaft 14 is inserted right quantity by the outside pad 3 at this locking screw 15 then, with these locking screw 15 lockings, it is fixing to clamp this pad 3 by this locating piece 13 and this shaft 14 at last.
In addition, this shaft 14 is provided with set screw, is provided with location hole with respect to this pad 3, by the location of this set screw and auxiliary this pad of this location hole.When this set screw inserts in this location hole, make this pad 3 be positioned unlikely coming off between this locating piece 13 and this shaft 14, this set screw must be unclamped and after withdrawing from this location hole, can carry out aforementioned action of loading and unloading this pad 3 by the outside.
Claims (8)
1. structure is adjusted in the combination of an axle-linked machine, includes magnetic conduction rotor and p-m rotor, makes this magnetic conduction rotor be connected, rotate simultaneously with magnetic with p-m rotor, it is characterized in that:
This magnetic conduction rotor has two rotating disks, is connected with a plurality of adjustment units around this two rotating disk, and this adjustment unit can be adjusted the distance between this two rotating disk;
This magnetic conduction rotor axis is provided with locating piece, this locating piece is fixed in wherein on the rotating disk, this locating piece locking has shaft, be provided with a plurality of locking screws around this shaft, between this shaft and this locating piece, be plugged with pad, make this locking screw pass this pad and be locked on this locating piece, adjust distance between this shaft and this locating piece by this pad.
2. structure is adjusted in the combination of axle-linked machine as claimed in claim 1, it is characterized in that: this adjustment unit includes backstay and adjusting lever, this backstay and adjusting lever are arranged at respectively on two rotating disks, placed screw rod in this backstay and the adjusting lever, this screw rod penetrates two rotating disks, and is equipped with nut in this screw rod end, is benchmark with this backstay during operation, rotate this adjusting lever and promote two rotating disks and move mutually, to change the distance between this two rotating disk.
3. structure is adjusted in the combination of axle-linked machine as claimed in claim 2, and it is characterized in that: this adjusting lever is provided with scale, with the distance between this two rotating disk of accurate fine setting.
4. structure is adjusted in the combination of axle-linked machine as claimed in claim 2, and it is characterized in that: this adjusting lever is provided with side cut, and convenient wrench is inserted in and is rotated.
5. structure is adjusted in the combination of axle-linked machine as claimed in claim 1, it is characterized in that: this pad is for semicircle, and its position that contacts this locking screw when planting is provided with short slot, inserts between this shaft and the locating piece from outside in order to this pad.
6. structure is adjusted in the combination of axle-linked machine as claimed in claim 1, it is characterized in that: this shaft is provided with set screw, be provided with location hole with respect to this pad, make this set screw place this location hole and this pad is positioned between this locating piece and this shaft.
7. structure is adjusted in the combination of axle-linked machine as claimed in claim 1, it is characterized in that: be locked on this rotating disk with a plurality of fixed screws around this locating piece, need unclamp this fixed screw so that this locating piece is dismantled on this rotating disk.
8. structure is adjusted in the combination of axle-linked machine as claimed in claim 1 or 2, and it is characterized in that: this adjustment unit is distributed in around two rotating disks.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320050293 CN203086317U (en) | 2013-01-30 | 2013-01-30 | Combined adjusting mechanism of coupling machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201320050293 CN203086317U (en) | 2013-01-30 | 2013-01-30 | Combined adjusting mechanism of coupling machine |
Publications (1)
Publication Number | Publication Date |
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CN203086317U true CN203086317U (en) | 2013-07-24 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201320050293 Expired - Fee Related CN203086317U (en) | 2013-01-30 | 2013-01-30 | Combined adjusting mechanism of coupling machine |
Country Status (1)
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CN (1) | CN203086317U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103973078A (en) * | 2013-01-30 | 2014-08-06 | 杰达电能科技股份有限公司 | Combination and adjustment structure of coupler |
CN104836415A (en) * | 2014-02-11 | 2015-08-12 | 中兴杰达电能科技股份有限公司 | Speed-adjustable permanent magnetic actuator |
-
2013
- 2013-01-30 CN CN 201320050293 patent/CN203086317U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103973078A (en) * | 2013-01-30 | 2014-08-06 | 杰达电能科技股份有限公司 | Combination and adjustment structure of coupler |
CN104836415A (en) * | 2014-02-11 | 2015-08-12 | 中兴杰达电能科技股份有限公司 | Speed-adjustable permanent magnetic actuator |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130724 Termination date: 20180130 |