CN100494531C

CN100494531C - Adapter between motor and spinning and weaving machine

Info

Publication number: CN100494531C
Application number: CNB03101013XA
Authority: CN
Inventors: 埃德蒙·舒勒; 迪特马尔·格赖斯
Original assignee: Rieter Ingolstadt Spinnereimaschinenbau AG
Current assignee: Rieter Ingolstadt Spinnereimaschinenbau AG
Priority date: 2002-01-12
Filing date: 2003-01-06
Publication date: 2009-06-03
Anticipated expiration: 2023-01-06
Also published as: EP1327706B1; DE50212784D1; EP1327706A2; CN1432675A; EP1327706A3; DE10200958A1

Abstract

The present invention relates to an adapter which has a flange (11) connected to the motor (3), a machine side flange (10, 10') connected to a weaving machine, an adapting shaft (20, 40, 31) with one side connected with the motor shaft (5) and another side connected to the rotation support member of the weaving machine and a braking assembly (2, 2'). The rotation support member of the weaving machine can be braked and/or locked by the action to the adapting shaft (20, 40, 31) by the braking assembly.

Description

Adaptive device between motor and the weaving loom

Technical field

The present invention relates to a kind of adaptive device, have by flange and be connected to motor motor particularly on the weaving loom, wherein the axle of motor and weaving loom spool is connected.

Background technology

In habitual motor-driven textile machine such as drawing frame, the brake assemblies that axle is produced braking action installs on its motor.When normal running was interrupted, during as current interruptions, releasing braking device was so that by the corresponding axle of brake assemblies braking.In brake assemblies, the brake(-holder) block that is connected with axle is arranged between two brake block, and the gap size between brake block and brake(-holder) block must be regulated so exactly, promptly reaches braking effect completely when braking, and friction do not occur when brake off between brake block and brake(-holder) block.For brake off, the electromagnet of brake assemblies must be switched on all the time, and axle can rotate like this.Because brake assemblies is arranged on the motor, the heat that its electromagnet produces can pass on its motor.In order to keep in repair its brake assemblies or motor, they two all must be changed or pull down.Changing brake assemblies or motor also will need to change other parts, and this is supporting because of them each other.

Summary of the invention

The purpose of this invention is to provide a kind of device of brake assemblies or have the weaving loom of this device, simplified the maintenance or the installation of brake assemblies or motor.

According to the present invention, in order to brake weaving loom, plug-in mounting has the adaptive device of brake assemblies between the axle of the rotation supporting part of weaving loom and motor.Its rotation supporting part preferred axes, gear, driving wheel or similarity piece.Its adaptive device comprises motor side flange that is connected with motor flange and the machine side flange that is connected with the weaving loom flange.Therefore, its adaptive device has the cooperation function between motor and the weaving loom, also has the braking function of braking by brake assemblies.In order to safeguard or change its motor, can simply it be pulled down from adaptive device, and for example replace, with the reduction expense as single assembly.And in order to safeguard its brake assemblies, it is taken out between motor and weaving loom, keep in repair and change.Like this, will not change with motor by brake assemblies, and do not need to regulate brake assemblies according to the motor of pulling down.On the contrary, under the situation that does not influence motor, can be replaced with its brake assemblies new.

Iff regulating the rotating speed of its weaving loom by being contained in motor on the adaptive device, as passing through planetary gear mechanism in the drawing frame, can lock its adaptive shaft by brake assemblies, its weaving loom is in non-adjusting operation, when weaving loom is in operation but not regulates operation, can change motor or keep in repair.

The motor flange of its adaptive device and machine flange can be changed, like this, can be according to the model of different weaving looms or institute's use motor, undertaken simply adaptively by changing corresponding adaptive device, and needn't change other parts of adaptive device.For example, when having changed size for connection, carry out simple fit by the adaptive flange of changing the motor side that adapts with another motor size, and help the reduction expense if a kind of motor is replaced with another kind of motor.

If its adaptive flange only is connected to each other by its bridge piece, form a kind of Open architecture, so that the adaptive device of packing into is safeguarded or adjusted.Simultaneously, help by radiation and heat loss through convection.

In useful especially structure, its adaptive shaft has the compensation coupling device of brake axle and rotational fixation.Compensate axially not overlapping between its motor shaft and the weaving arbor by its compensation coupling device, prevent between axle, to occur deformation force.For this reason, its adaptive shaft can be divided into brake portion and compensation coupling unit or by independently brake axle connected to one another with independently compensate coupling device two parts and constitute.

Brake(-holder) block by its brake assemblies rationally is connected with the shape of brake axle, transmits brake force in rotation direction, and the moving axially property by its brake(-holder) block, needn't regulate the gap of the brake(-holder) block between brake disc and the keep plate in the both sides of brake(-holder) block.Also corresponding be bearing on the brake axle of a brake disc can be substituted its brake(-holder) block, wherein have on the plate of braking layer or the brake disc that dish acts on such supporting.

Its compensation coupling device is arranged between brake axle or brake assemblies and the motor, reduced on the one hand to pass to heat on the motor from brake assemblies, can not increase the load of its compensation coupling device on the other hand when braking owing to the swing load of weaving loom, its compensation coupling device only bears the issuable torque of motor.By the groove of a plurality of axially spaced-aparts perpendicular to axis is set on coupling device in its compensation, can make its compact conformation, expense reduces.Useful is, one or more grooves certain angle that staggers each other is arranged on circumferencial direction.

At the machine side one pinion is set by its adaptive shaft, can its rotation be delivered on the gear of weaving loom by its adaptive device.The coupling of asking of the adaptive shaft of adaptive device and motor can adopt any-mode as realizing by compensation coupling device or snap ring.Therefore, in the time of on motor, needn't being provided for keeping in repair motor on its motor shaft driving groove that extrude and that be used to assemble.Because motor needn't be provided with the pinion that is suitable for weaving loom, therefore, has simplified the use of different series standard electromotor.

The present invention also provides a kind of weaving loom, has above-mentioned adaptive device.

Description of drawings

With reference to the accompanying drawings embodiments of the invention are further described.Wherein:

Fig. 1 shows first embodiment of adaptive device, and it is connected on the axle of weaving loom;

Fig. 2 shows second embodiment of adaptive device, and it has the pinion of a driving weaving loom.

The specific embodiment

Fig. 1 shows the view of the disassembled state of the first embodiment adaptive device, and its adaptive device 1 comprises that a brake assemblies 2 and is connected motor 3 on its adaptive device 1 by flange.Its adaptive device 1 has the adaptive flange 11 that an adaptive flange 10 and that is positioned at the machine side is positioned at motor side, and they are by drawing bolt 12 to be connected to each other.The adaptive flange 10 of machine side is screwed to it by screw 13 and draws on the bolt 12, and the adaptive flange 11 of motor side is screwed on the opposition side that draws bolt 12 by screw 14.Be screwed on the machine flange of unshowned textile machine such as carding machine or drawing frame by its adaptive flange 10 of the screw on the adaptive flange 10 of machine side.Adaptive flange 10 is replaceable, according to the adaptive flange of going up different size of different types.The adaptive flange 11 of its motor side is connected with the motor flange 4 of motor 3 by bolt 6.The adaptive flange 11 of motor side can be changed equally, can be suitable for motor in different model by changing adaptive flange.

Its brake assemblies 2 is positioned between the adaptive flange 10,11.Its brake assemblies 2 has a brake assemblies axle 20, one STATEMENT OF FEDERALLY SPONSORED 21 by counter-sunk screw its not rotatable being screwed on it relatively.On the periphery of its STATEMENT OF FEDERALLY SPONSORED 21, form cam ring or ring gear.Promote a brake(-holder) block 22 or braking core by its ring gear, at the internal gear with the ring gear complementation of STATEMENT OF FEDERALLY SPONSORED 21 of having in interior week of its brake(-holder) block.Between the internal gear of the ring gear of STATEMENT OF FEDERALLY SPONSORED 21 and brake(-holder) block 22, leave the gap,, make between brake(-holder) block 22 and the STATEMENT OF FEDERALLY SPONSORED 21 relative to the coupling of not rotating so that braking so that its brake(-holder) block 22 moves axially on its STATEMENT OF FEDERALLY SPONSORED 21.By its STATEMENT OF FEDERALLY SPONSORED 21 is connected on the brake assemblies axle 20, the brake force that affacts on the brake(-holder) block 22 passes on the brake assemblies axle 20 by STATEMENT OF FEDERALLY SPONSORED 21.

Be fixed on the adaptive flange 10 by the electromagnet 24 of bolt 26 brake assemblies 2.By the distance between spacing bolt 25 adjusting adaptive flanges 10 of its machine side and the electromagnet 24.Its bolt 26 passes the hole in its spacing bolt 25.Its spacing bolt 25 can be affixed with electromagnet or by being threaded, and makes that bolt can be regulated the distance between adaptive flange 10 of machine side and the electromagnet by screwing the spacing on the electromagnet.

Simultaneously, its spacing bolt 25 can play the effect to latch plate 23 guiding, by with spring between the electromagnet 24 its latch plate 23 being separated at latch plate 23 with electromagnet 24.By excitation, its latch plate 23 is pulled to electromagnet if electromagnet is switched on.Between the inboard of latch plate 23 and the adaptive flange 10 of machine side, its brake(-holder) block 22 is set.When latch plate 23 is pulled to electromagnet during by excitation, between its latch plate 23 and adaptive flange 10, leave the gap that brake(-holder) block 22 is freely rotated at its electromagnet 24.On the contrary, if electromagnet 24 is by excitation, its latch plate 23 is pressed and away from its electromagnet, the final like this brake force that is delivered on the brake assemblies axle 20 affacts on the side end face of its brake(-holder) block 22 towards the direction of adaptive flange 10.After electromagnet 24 being fixed on the adaptive flange 10, by the support ring 27 of packing in the gap that its brake(-holder) block 22 is set, impurity can not enter brake clearance or can not drop to the outside by the impurity that brake(-holder) block 22 produces like this.

Its brake assemblies axle 20 is axle sleeve shape and has groove in its motor 3 one sides, so that its brake assemblies axle 20 is accepted motor shaft 5 in motor 3 one sides.After brake assemblies axle 20 being shifted on the motor shaft 5 onto the back or being pushed motor shaft 5 in the brake assemblies axle 20, its brake assemblies axle 20 is fixed on the motor shaft 5 by snap ring 30.Load onto at the other end of brake assemblies axle 20 rotational fixation compensation coupling device 31 snap ring 32 and realize being rotatably connected by clamping.The compensation coupling device 31 of its rotational fixation has compensated the rotating shaft of textile machine and the axial dislocation between brake assemblies axle 20 or the motor 3.The axle of textile machine and compensation arrangement 31 ask be rotatably connected by same snap ring 33 realizations.

Make its brake assemblies axle 20 pass

adaptive flange

10 and 11 and the opening of latch plate 23 and electromagnet 24 have radial clearance, with by in adaptive device 1, move its brake assemblies axle 20 can small electromotor axle 5 with respect to the axial dipole field of the symmetry axis of flange 10,11.When its adaptive device 1 of dismounting, under the situation of other cooperation that does not influence its adaptive device, just brake assemblies axle 20 or its can be compensated coupling device 31 from wherein extracting out.

By 2 of its brake assemblies directly are connected with the adaptive flange 10 of machine side, when the rotating mass of its machine of braking, has only transmission of torque to the adaptive flange 10 of machine side.The adaptive flange 11 of its motor side does not bear load, so twisting resistance can not pass on the motor 3.In electromagnet 24 excitations and adstante febre, its heat passes on the adaptive flange 10 of machine side by spacing bolt 25, bolt 26 and support ring 27.Useful is, it draws the height of bolt 12 to select like this, makes to keep a distance or the working clearance between the adaptive flange 11 of the rear side of electromagnet 24 and motor side.Between its electromagnet 24 and adaptive flange 11 or motor 3, can not produce direct heat conduction like this, thereby specified heat can not pass on its motor 3 from electromagnet 24.

The brake clearance size of brake assemblies needn't be changed, just motor 3 can be changed.Equally, can change adaptive device 1, and needn't readjust the gap size that when packing into and dismantle brake assemblies, has regulated in active side.This is to realize by being rigidly connected between machine shaft and brake assemblies axle 20.Its adaptive device 1 also can install in the system that does not also have brake apparatus so far.

Fig. 2 shows second embodiment of adaptive device 1 '.In this embodiment, part is identical or close with the adaptive device 1 of first embodiment, and the Reference numeral of this part is identical.Different with first embodiment are described below.In its adaptive device 1 ', brake assemblies axle 40 has pinion 41 in the machine side.The gear (not shown) engagement of its pinion 41 and textile machine is by the motor-driven textile machine and regulate the rotating speed of its textile machine.Two

bearings

42,43 is set on its brake assemblies axle 40, and its middle (center) bearing 42,43 is fixed in the bearing holder (housing, cover) 44 of adaptive flange 10 ' of machine side again.Therefore, here the adaptive flange of its machine side 10 ' as the support flange of brake assemblies axle 40.

Brake assemblies 2 ' is changed into respect to the first embodiment brake assemblies 2, with the adaptive flange 10 ' of machine side a keep plate 28 is set apart.This keep plate makes the relative brake(-holder) block 22 of its latch plate work.Adaptive flange 10 ' that limits by bearing 42,43 and bearing holder (housing, cover) 44 by 28 compensation of this keep plate and the distance between the brake assemblies 2 '.Separate by spacer ring 45 and bearing 42,43 with the STATEMENT OF FEDERALLY SPONSORED 21 of brake assemblies axle 40 rotational fixation.Simultaneously, its spacer ring 45 has sealed bearing 42,43 the entering and avoided lubricant in the

bearing

42,43 to influence the work of brake(-holder) block 22 on the contrary of impurity when preventing work.

In its adaptive device 1 ', the compensation coupling device 31 of its rotational fixation is arranged between the motor side of motor shaft 5 and brake assemblies axle 40.In order to be connected with motor shaft 5, its snap ring 32 blocks thereon, and in order to be connected with brake assemblies axle 40, its snap ring 33 is stuck in the end of its motor side.When textile machine being braked by brake assemblies 2 ', can not exert an influence to the braking moment of its textile machine effect to compensation coupling device 31, the structure of its coupling device is definite like this, and it accepts the torque capacity that is produced by motor 3.

In second embodiment, do not need pinion 41 is pulled down or by interference fit it loaded onto from motor shaft 5 in order to change with repairing motor 3.By using adaptive device 1 or 1 ', when utilizing motor 3 to regulate the rotating speed of textile machine, need when motor 3 breaks down, an additional device or parts not locked onto on the axle that is driven by its motor 3.Lock its brake assemblies axle 20 or 40 by discharging (or work, for unaccounted embodiment) brake assemblies 2 or 2 ', to avoid uncontrollable rotation of driven shaft.For example, 20 or 40 can be by locking it so that worked on non-adjusting pattern by the drawing frame of speed governing when the operate as normal.

Claims

1. adaptive device, comprise the motor side flange (11) that is connected with motor (3),

The machine side flange (10 that is connected with weaving loom, 10 '), that the one side is connected with motor shaft (5) and adaptive shaft (20 that opposite side is connected with the rotation supporting part of weaving loom, 40,31) and brake assemblies (2,2 '), by its brake assemblies to its adaptive shaft (20,40,31) work is in order to the rotation supporting part of braking and/or locking machine, it is characterized in that, described adaptive device is arranged on the control transmission device of weaving loom, and the flange (10 of flange of described adaptive device motor side (11) and machine side, 10 ') only be connected to each other brake assemblies (2 by bridge piece (12), 2 ') directly and the flange (10 of machine side, 10 ') link to each other.

2. adaptive device as claimed in claim 1 is characterized in that, described rotation supporting part is axle or gear.

3. as the adaptive device of claim 1 or 2, it is characterized in that: the flange (10,10 ') of flange of its motor side (11) and/or machine side is removable.

4. adaptive device as claimed in claim 1 is characterized in that, its adaptive shaft (20,40,31) partial rotational at least is bearing on the flange (10,10 ') of machine one side.

5. adaptive device as claimed in claim 1 is characterized in that, its adaptive shaft (20,40,31) comprises brake axle (20,40) and compensation coupling device (31), and its brake assemblies (2,2 ') installs on the brake axle (20,40).

6. adaptive device as claimed in claim 5 is characterized in that, its brake axle (40) is arranged on the machine side, and compensation coupling device (31) is arranged on motor side.

7. as the adaptive device of claim 5 or 6, it is characterized in that its compensation coupling device (31) has the groove of a plurality of axially spaced-aparts vertical with rotating shaft.

8. adaptive device as claimed in claim 5, it is characterized in that, its brake assemblies (2,2 ') has brake(-holder) block (22) or brake disc, its brake(-holder) block of rotation direction (22) or brake disc shape reasonably with adaptive shaft particularly brake axle (20,40) combine and can move axially.

9. adaptive device as claimed in claim 1 is characterized in that, its brake assemblies (2,2 ') comprises keep plate (23) and at least one second keep plate (10,28) of electromagnet (24), at least one first fexible bias pressure.

10. adaptive device as claimed in claim 1 is characterized in that, its adaptive shaft (40) has pinion (41) at the machine side end.

11. weaving loom is characterized in that, has as the described adaptive device of one of above-mentioned claim.