CN109787450A - A kind of coupling structure of achievable rotating machinery dynamic replacement - Google Patents

Abstract

The present invention relates to a kind of coupling structures, and in particular to a kind of coupling structure of achievable rotating machinery dynamic replacement, including intermediate sleeve, orientation barrel and permanent magnet clutch；The drive end of permanent magnet clutch is mounted in rotating machinery rotary shaft, and driven end is mounted in driven rotary shaft, and intermediate sleeve is connected on the locating flange of rotating machinery, and orientation barrel is mounted on the locating flange of driven equipment；There are the radial clearance of complete cycle, drive end and driven ends between the drive end and driven end of permanent magnet clutch transmits torque, driven end circumferentially continuous rotation while can be axial static by non-contacting magnetic force.Solve existing coupling structure cannot achieve rotating machinery in operation integral replacing the technical issues of.For nuclear power field certain rotating machinerys such as motor occur operating it is abnormal when, provide a kind of coupling structure of integral replacing, avoiding rotating machinery and continuing to be operating only haltingly leads to disorderly closedown, improves security of system.

Description

A kind of coupling structure of achievable rotating machinery dynamic replacement

Technical field:

The present invention relates to a kind of coupling structures, and in particular to a kind of coupling structure of achievable rotating machinery dynamic replacement.

Background technique:

It is continuously run for a long time in needs such as nuclear power field certain rotating machinerys such as motor, oil pump, does not allow to anticipate outside turn(a)round Outer shutdown can also have certain rotating machinerys and abnormal operating occur, need although these rotating machinerys take redundancy backup Integral replacing is carried out under its shaft operating condition.By taking motor as an example, motor is joined with by drive apparatus using plum blossom elasticity The connection of axis device, becomes larger when operating exception such as bear vibration occurs in motor, can make plum blossom bullet in operating condition axial movement motor Property shaft coupling disengage, but cannot achieve plum blossom yielding coupling after replacing new motor and recombine.It can be real so designing one kind The coupling structure of existing rotating machinery dynamic replacement is very necessary.

Summary of the invention:

The object of the present invention is to provide a kind of coupling structure for the rotating machinerys such as motor, oil pump integral replacing in operation, Solve existing coupling structure cannot achieve rotating machinery in operation integral replacing the technical issues of.For the certain of nuclear power field When operating exception occurs in rotating machinery such as motor, a kind of coupling structure of integral replacing is provided, rotating machinery is avoided and continues band Disease operating leads to disorderly closedown, improves security of system.

The technical solution adopted by the present invention are as follows: a kind of coupling structure of achievable rotating machinery dynamic replacement, the connection Structure includes intermediate sleeve, orientation barrel and permanent magnet clutch；The drive end of the permanent magnet clutch is mounted on rotating machinery rotation On axis, driven end is mounted in driven rotary shaft, and intermediate sleeve is connected on the locating flange of rotating machinery, guiding Bucket is mounted on the locating flange of driven equipment, and orientation barrel can constitute close cylindrical surface with intermediate sleeve and be used cooperatively.

Further, there are the radial clearance of complete cycle, drive ends between the drive end and driven end of the permanent magnet clutch Torque, driven end circumferentially continuous rotation while can be axial static are transmitted by non-contacting magnetic force with driven end.

Further, the size of the orientation barrel and intermediate sleeve axial overlap be greater than permanent magnet clutch drive end, from Moved end magnetic pole overlapping dimension, orientation barrel and intermediate sleeve diametrical direction, which are constituted, to be fitted close, and orientation barrel can mention for intermediate sleeve For circumferential registration and axial movement guiding.

Further, described orientation barrel one end has 2 positioning spigots, and the other end is cylinder barrel shaped, one of positioning The connection of the locating flange of seam allowance and driven equipment, another positioning spigot are connect with intermediate sleeve.

Further, the both ends of the intermediate sleeve are respectively provided with 1 locating flange, and middle part is cylindrical drum；One positioning The seam allowance of flange and orientation barrel forms cooperation, another locating flange and rotating machinery locating flange, which are formed, to be cooperated；Intermediate sleeve The cylindrical drum and orientation barrel at middle part, which are formed, to be cooperated.

Further, the intermediate sleeve is installed on the locating flange of rotating machinery by attachment bolt, and orientation barrel is logical Attachment bolt is crossed to be mounted on the locating flange of driven equipment.

It further, further include two groups of attachment bolts, orientation barrel and intermediate sleeve can not be axial when tightening first group of bolt It moves and rotates in a circumferential direction, orientation barrel and intermediate sleeve can move axially and rotate in a circumferential direction when unclamping first group of attachment bolt；It twists Intermediate sleeve and rotating machinery can not move axially and rotate in a circumferential direction when tight second group of bolt, unclamp second group of attachment bolt when in Between sleeve and rotating machinery can move axially and rotate in a circumferential direction.

Beneficial effects of the present invention: a kind of connection for the rotating machinerys such as motor, oil pump integral replacing in operation is provided Binding structure, solve existing coupling structure cannot achieve rotating machinery in operation integral replacing the technical issues of.For nuclear power neck When operating exception occurs in certain rotating machinerys in domain such as motor, a kind of coupling structure of integral replacing is provided, rotation is avoided and sets Lead to disorderly closedown for continuing to be operating only haltingly, improves security of system.Original motor seam allowance flange is substituted using sleeve flange It is replaced for motor and realizes guiding, plum blossom yielding coupling is substituted using Permanent Magnet Clutch, realizes dynamic axial clutch and torsion pass, And then the dynamic replacement process of rotating machinery.

Detailed description of the invention:

Fig. 1 is the gearbox drive schematic diagram with 2 rotating machinerys (driving motor) and plum blossom yielding coupling；

Fig. 2 is the schematic diagram of Fig. 1 replacement rotating machinery M2；

Fig. 3 is plum blossom yielding coupling outline drawing；

Fig. 4 is the gearbox drive schematic diagram using 2 rotating machinerys (driving motor) and permanent magnet clutch；

Fig. 5 is the structure principle chart of permanent magnet clutch in Fig. 4；

Fig. 6 is the step 1 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Fig. 7 is the step 2 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Fig. 8 is the step 3 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Fig. 9 is the step 4 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Figure 10 is the step 5 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Figure 11 is the step 6 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Figure 12 is the step 7 schematic diagram for replacing rotating machinery M2 in Fig. 4；

Figure 13 is the step 8 schematic diagram for replacing rotating machinery M2 in Fig. 4.

Specific embodiment:

Embodiment one

Referring to each figure, a kind of coupling structure of achievable rotating machinery dynamic replacement, the coupling structure include intermediate sleeve 35, Orientation barrel 36 and permanent magnet clutch 50；The drive end 51 of the permanent magnet clutch 50 is mounted in rotating machinery rotary shaft, from Moved end 52 is mounted in driven rotary shaft, and intermediate sleeve 35 is connected on the locating flange of rotating machinery, and orientation barrel 36 is pacified On the locating flange of driven equipment, orientation barrel can constitute close cylindrical surface with intermediate sleeve and be used cooperatively；It is described forever There are the radial clearance 53 of complete cycle, drive end 51 and driven ends 52 to pass through between the drive end 51 and driven end 52 of magnet coupler 50 Non-contacting magnetic force transmits torque, circumferentially continuous rotation while can be axial static of driven end 52；The orientation barrel 36 and centre The size of 35 axial overlap of sleeve is greater than the drive end of permanent magnet clutch 50, driven end magnetic pole overlapping dimension, orientation barrel and centre Sleeve diameter direction, which is constituted, to be fitted close, and orientation barrel can provide circumferential registration and axial movement guiding for intermediate sleeve；It is described 36 one end of orientation barrel has 2 positioning spigots, and the other end is cylinder barrel shaped, and one of positioning spigot and driven equipment are determined Position flanged joint, another positioning spigot are connect with intermediate sleeve 35；The both ends of the intermediate sleeve 35 are respectively provided with 1 positioning Flange, middle part are cylindrical drum；The seam allowance of one locating flange and orientation barrel 36, which is formed, to be cooperated, another locating flange is set with rotation Standby locating flange forms cooperation；The cylindrical drum and orientation barrel 36 at 35 middle part of intermediate sleeve form and cooperate；The intermediate sleeve 35 is logical It crosses attachment bolt to be installed on the locating flange of rotating machinery, orientation barrel 36 is mounted on determining for driven equipment by attachment bolt On the flange of position；Further include two groups of attachment bolts, when tightening first group of bolt orientation barrel and intermediate sleeve can not move axially and week To rotation, orientation barrel and intermediate sleeve can move axially and rotate in a circumferential direction when unclamping first group of attachment bolt；Tighten second group Intermediate sleeve and rotating machinery can not move axially and rotate in a circumferential direction when bolt, unclamp second group of attachment bolt when intermediate sleeve and Rotating machinery can move axially and rotate in a circumferential direction.

In figure include rotating machinery M1-10 and rotating machinery M2-11, rotating machinery M3-12, plum blossom yielding coupling 20, Elastomer 21, plum blossom yielding coupling active end flanges 22, the driven end flanges 23 of plum blossom yielding coupling, support flange 30, branch Hold the right seam allowance 31 of flange, the left seam allowance 32 of support flange, intermediate sleeve 35, orientation barrel 36, orientation barrel guide surface 37, right seam allowance Connect bolt 40, left seam allowance connection bolt 41, orientation barrel bolt 42, permanent magnet clutch 50, permanent magnet clutch drive end 51, The driven end 52 of permanent magnet clutch, the radial clearance 53 of permanent magnet clutch, pinion gear 60, gear wheel 70, gear wheel shaft coupling 80, slave equipment 90, pinion gear turn to 100 and gear wheel steering 101.

In Fig. 1, rotating machinery M1-10 and rotating machinery M2-11 drive pinion gear by plum blossom yielding coupling 20 simultaneously 60. rotation, pinion gear 60 are engaged with gear wheel 70,90 continuous rotation of slave equipment is driven by gear wheel shaft coupling 80.One Possible direction of rotation, pinion gear turn to 100 and turn to 101 to gear wheel.Slave equipment 90 does not allow non-programmed halt, rotation Equipment M1-10 is mutually backups with rotating machinery M2-11, and when rotating machinery M2-11 occurs abnormal, rotating machinery M1-10 is taken over Vice versa for rotating machinery M2-11 work.

In Fig. 2, when there is abnormal need with rotating machinery M3 substitution in rotating machinery M2, it is necessary to take rotating machinery M1 and The method that rotating machinery M2 all shuts down replacement rotating machinery M3.Slave equipment 90 stops rotating at this time, and security of system is significantly It reduces.

Fig. 3 expresses the structure of plum blossom yielding coupling 20.Plum blossom yielding coupling 20 is joined by 21 plum blossom elasticity of elastomer Driven 23 three parts of the end flanges composition of axis device active end flanges 22, plum blossom yielding coupling.Due to plum blossom elastomer 21 and plum blossom The driven end flanges 23 of yielding coupling be all it is petal, replace rotating machinery M3 when if rotating machinery M1 also operating if plum blossom bullet The driven end flanges of property shaft coupling cannot achieve the mutual of elastomer and the driven end flanges of plum blossom yielding coupling also in continuous rotation Alignment and insertion, therefore rotating machinery M1 and rotating machinery M2 must all be shut down when replacement rotating machinery M3, it can only be in plum blossom The driven end flanges of yielding coupling and plum blossom yielding coupling active end flanges stationary state realize elastomer and plum blossom elasticity connection The driven end flanges of axis device being mutually aligned and being embedded in, and complete replacement rotating machinery M3.

Plum blossom yielding coupling 20, the drive end and equipment of permanent magnet clutch 50 are substituted using permanent magnet clutch 50 in Fig. 4 Rotating machinery M2 is connected, and driven end is connected with pinion gear, there are the radial clearance of complete cycle between active part and secondary part, by In the guiding role of orientation barrel, active part and secondary part can't be in contact when rotating machinery M2 is moved axially, directly Orientation barrel is removed to rotating machinery M2.The intermediate sleeve on rotating machinery M2, right seam allowance connection bolt 40, permanent magnetism connection will be mounted on Axis device active part, is reinstalled on rotating machinery M3, and reassemble, so that it may complete rotating machinery M3 substitution rotating machinery M2.

The magnetic pole arrangement that Fig. 5 expresses the structure of permanent magnet clutch 50 and simplifies.Permanent magnet clutch 50 is by permanent magnet clutch active End, permanent magnet clutch driven end composition, there are the radial clearances of complete cycle between powered phase and driven end.Plum blossom yielding coupling is logical It crosses elastomer and transmits torque between plum blossom yielding coupling active end flanges and the driven end flanges of plum blossom yielding coupling, it is each to connect There are material contacts between part.Permanent magnet clutch transmits torque by invisible magnetic force between active part and secondary part.It is main There is no material contacts between dynamic part and secondary part.Since there are N grades and S grades of phase between active part and secondary part Mutually attract, N grade and N grade and S grade are mutually exclusive with S grades, therefore when active part rotates, secondary part follows rotation, master Secondary part follows movement when dynamic part moves axially, and when active part axial movement, secondary part can keep axial static Only and circle rotation.

Fig. 6-Figure 13 expresses the dynamic process of rotating machinery M3 replacement rotating machinery M2, and rotating machinery M1 remains company Continuous rotation.

Fig. 6, orientation barrel bolt 42 of dismantling.

Fig. 7 moves axially rotating machinery M2, and driven end, which is connected in pinion gear, keeps axial static circle rotation.Remaining Part follows rotating machinery M2 while moving axially.

Fig. 8 continues to move axially rotating machinery M2, and driven end is just axially offset with powered phase, but orientation barrel is still sent out Wave guiding role.

Fig. 9 continues to move axially rotating machinery M2, and secondary part is completely separated with active part.

Figure 10, right seam allowance connection bolt of dismantling；

Figure 11, rotating machinery M2 are separated with active part and intermediate sleeve；

Figure 12, replaces rotating machinery M3, and rotating machinery M3 is connect with active part and intermediate sleeve；

Figure 13, rotating machinery M3 move axially to the position of rotating machinery M2 by orientation barrel, substitute rotating machinery M2.

The coupling structure that rotating machinery dynamic replacement can be achieved solves the rotation that nuclear power etc. forbids non-programmed halt field Equipment in operation integral replacing the problem of, lead to non-programmed halt its advantage is that avoiding rotating machinery and continuing to be operating only haltingly, Improve safety.

Claims (6)

1. a kind of coupling structure of achievable rotating machinery dynamic replacement, it is characterised in that: the coupling structure includes intermediate sleeve Cylinder (35), orientation barrel (36) and permanent magnet clutch (50)；The drive end (51) of the permanent magnet clutch (50) is mounted on rotation and sets In standby rotary shaft, driven end (52) is mounted in driven rotary shaft, and intermediate sleeve (35) is connected in determining for rotating machinery On the flange of position, orientation barrel (36) is mounted on the locating flange of driven equipment.

2. a kind of coupling structure of achievable rotating machinery dynamic replacement according to claim 1, it is characterised in that: described There are the radial clearance of complete cycle (53) between the drive end (51) and driven end (52) of permanent magnet clutch (50), drive end (51) and Driven end (52) transmits torque, driven end (52) circumferentially continuous rotation while can be axial static by non-contacting magnetic force.

3. a kind of coupling structure of achievable rotating machinery dynamic replacement according to claim 1, it is characterised in that: described The size of orientation barrel (36) and intermediate sleeve (35) axial overlap is greater than drive end, the driven end magnetic pole weight of permanent magnet clutch (50) Folded size.

4. a kind of coupling structure of achievable rotating machinery dynamic replacement according to claim 1, it is characterised in that: described There are two positioning spigots for orientation barrel (36) one end band, and the other end is cylinder barrel shaped, one of positioning spigot and driven equipment Locating flange connection, another positioning spigot connect with intermediate sleeve (35).

5. a kind of coupling structure of achievable rotating machinery dynamic replacement according to claim 1, it is characterised in that: described The both ends of intermediate sleeve (35) be respectively provided with a locating flange, middle part is cylindrical drum；One locating flange and orientation barrel (36) Seam allowance form cooperation, another locating flange and rotating machinery locating flange, which are formed, to be cooperated；Circle in the middle part of intermediate sleeve (35) Column casing and orientation barrel (36), which are formed, to be cooperated.

6. a kind of coupling structure of achievable rotating machinery dynamic replacement according to claim 1, it is characterised in that: described Intermediate sleeve (35) is installed on the locating flange of rotating machinery by attachment bolt, and orientation barrel (36) is installed by attachment bolt On the locating flange of driven equipment.