CN213341962U - Liquid cooling speed regulation magnetic clutch for ship - Google Patents

Abstract

Liquid cooling speed governing magnetic clutch for boats and ships relates to a magnetic clutch. The utility model discloses a solve when current water-cooling type magnetic clutch non-contact biography is turned round that compensation performance is poor, damping performance is poor, the big problem of axial occupation space. The cover is fixed on the side wall of one support plate, the permanent magnetic disk assembly and the conductor disc assembly are both arranged in the cover, the permanent magnetic disk assembly is arranged in the conductor disc assembly, the transmission shaft penetrates into the cover from the center of the support, one permanent magnetic disk is sleeved on the transmission shaft, a support bearing is sleeved on the transmission shaft between the inner ring of the support and the transmission shaft, a sleeve is connected onto the inner ring of the support, the support bearing is arranged between the transmission shaft and the sleeve, an air gap adjusting mechanism is used for adjusting an air gap between the permanent magnetic disk assembly and the conductor disc assembly to realize clutch and rotation speed adjustment of a load end, at least one cooling mechanism is arranged on the inner wall of one support plate and the outer wall of the. It is used for fully playing the compensation and vibration isolation performance of magnetic transmission.

Description

Liquid cooling speed regulation magnetic clutch for ship

Technical Field

The utility model relates to a magnetic clutch, the inside vortex dish temperature rise of adopting circulating liquid cooling medium to carry out the equipment of restriction under the operating condition under concretely relates to marine condition to magnetic clutch.

Background

The magnetic clutch realizes the rotation speed regulation and clutch control of the load end equipment by utilizing the interaction between magnetic fields, belongs to non-contact torque transmission, has the characteristics of simple and convenient installation and maintenance, strong vibration isolation and compensation capability, and is widely applied to the speed regulation energy-saving system of connecting transmission and pump set/fan in the industrial field at present.

The magnetic clutch mainly comprises three parts, namely a permanent magnet disc assembly, a conductor disc assembly and a regulating mechanism, wherein N, S poles of magnetic steel which are alternately arranged are installed on the permanent magnet disc, an eddy current disc is installed on the conductor disc assembly, the conductor disc assembly is connected with a driving end device, the permanent magnet disc assembly is connected with a load end device, and a controller is used for regulating a gap between the permanent magnet disc assembly and the conductor disc assembly to realize the rotation speed regulation and the clutch control of the load end device. In a working state, because the rotating speed difference exists between the conductor disc and the permanent magnet disc, an induced vortex is formed on the conductor vortex disc, the vortex generates a large amount of heat to cause the temperature of the conductor disc to rise, meanwhile, the heat of the conductor disc is transferred to the permanent magnet through convection, radiation and other modes, the temperature of the permanent magnet disc rises, and the temperature rise can cause the demagnetization of the permanent magnet and the damage of the conductor disc, so the temperature rise of the magnetic clutch must be limited. At present, the magnetic clutch adopts two cooling modes, namely wind cooling and water cooling. The air cooling mode is that the radiating fins are arranged on the outer side of the conductor disc of the magnetic clutch, the structure is simple and compact, but the cooling mode has limited radiating capacity, and generates larger noise in the operation process, and the air cooling mode is only used on the magnetic clutch with high rotating speed and low power at present. For the magnetic clutch with low rotating speed and high power, a water cooling mode is mostly adopted.

In recent years, the requirements of vibration reduction and noise reduction of ships are continuously improved, the magnetic clutch is used in ship transmission and electromechanical equipment by utilizing the technical characteristics of non-contact torque transmission of the magnetic clutch, the influence of ship deformation and installation errors on connecting equipment on two sides of the clutch can be compensated, the transmission route of vibration is isolated, the mutual interference between shafting is eliminated, the abnormal load on the bearings and the seals inside the equipment on two sides of the clutch is reduced while the requirements of vibration reduction and noise reduction of the ships are met, the service life is prolonged, the maintenance cost is reduced, and the reliability of the device is improved.

Magnetic clutch for boats and ships installs in sealed cabin, and the space is limited, requires that the clutch must compact structure, and coolant liquid capacity is restricted under the cabin environment, requires that clutch cooling structure to possess high cooling efficiency, and the water-cooled magnetic clutch structure that uses in present industrial field can refer to ZL201410040544 (a water-cooled type permanent magnet speed regulator), and it uses under the boats and ships environment has following problem:

1. the water-cooling magnetic clutch adopts a structure of a single supporting box body, a conductor disc assembly and a permanent magnetic disc assembly of the clutch are rigidly supported on the same box body, and the conductor disc assembly and the permanent magnetic disc assembly can transmit vibration through the supporting box body, so that the performance advantages of non-centering compensation and vibration isolation during non-contact torque transmission of the magnetic clutch cannot be fully exerted;

2. the conductor disc and the permanent magnet disc are cooled by a spraying or processing method of a cooling flow channel, and the cooling is carried out in a spraying mode, so that the problems that a cooling medium is difficult to effectively reach an internal heating part and the requirement on the flow rate of a cooling liquid is high exist; the cooling flow channel has the problems of difficult processing and difficult adjustment;

3. shaft system compensation is carried out on both sides by the couplers, and the axial occupied space is large;

4. there is no direct and accurate permanent magnet temperature test method, and the real-time temperature detection of the permanent magnet disk assembly is lacked, so that the problems in the working process can not be found in time.

In addition, fig. 1 is a schematic diagram of a water-cooled magnetic clutch commonly used in the prior industrial field, which adopts a structure of a single supporting box body, wherein a conductor disc assembly and a permanent magnetic disc assembly of the clutch are both rigidly supported on the same bracket, and the purposes of clutching and load end rotation speed adjustment are realized by adjusting an air gap value L between the conductor disc assembly and the permanent magnetic disc assembly through a regulating mechanism. The conductor disc assembly and the permanent magnet disc assembly in the structure can transmit vibration through the support, the performance advantage of vibration isolation of the magnetic clutch can not be fully exerted, the conductor disc assembly and the driving end driving shaft and the load end connecting shaft are connected through the flexible coupling, and the occupied space in the axial direction is large.

SUMMERY OF THE UTILITY MODEL

The invention provides a liquid cooling speed regulation magnetic clutch for a ship, aiming at the problems of poor compensation performance, poor vibration reduction performance and large axial occupied space of the existing water cooling type magnetic clutch during non-contact torque transmission.

A liquid cooling speed regulation magnetic clutch for ships comprises a permanent magnetic disc component 1, a conductor disc component 2, a bracket 4, a conductor disc connecting flange 5, an air gap adjusting mechanism, a transmission shaft 8 and a driving shaft 9,

one end of the transmission shaft 8 is connected with one end of the permanent magnetic disc component 1, the other end of the transmission shaft 8 is connected with the load end,

the magnetic clutch also comprises a housing 3, a floating seal 6, a cooling mechanism 7, a support bearing 10, an O-shaped sealing ring 13 and a sleeve 8-1,

the bracket 4 is composed of two supporting plates which are mutually supported,

the permanent magnetic disk assembly 1 comprises two permanent magnetic disks and a connecting rod mechanism, the two permanent magnetic disks are connected through the connecting rod mechanism,

the conductor disc assembly 2 comprises two conductor discs and a connecting rod, the two conductor discs are connected through the connecting rod,

the cover 3 is fixed on the side wall of a support plate 4, the permanent magnetic disk component 1 and the conductor disk component 2 are both arranged in the cover 3, the permanent magnetic disk component 1 is arranged in the conductor disk component 2,

a transmission shaft 8 penetrates into the housing 3 from the center of the bracket 4, a permanent magnetic disc is sleeved on the transmission shaft 8, a support bearing 10 is sleeved on the transmission shaft 8 between the inner ring of the bracket 4 and the transmission shaft 8, the inner ring of the bracket 4 is connected with a sleeve 8-1, the support bearing 10 is arranged between the transmission shaft 8 and the sleeve 8-1,

the air gap adjusting mechanism does not rotate along with the permanent magnet disc assembly 1 and is used for adjusting the air gap between the permanent magnet disc assembly 1 and the conductor disc assembly 2 to realize clutching and load end rotating speed adjustment,

the air gap adjusting mechanism comprises a first bearing 11, a driving sleeve 12, a wrench 18 and a positioning circular ring disc 14

The driving sleeve 12 is formed by coaxially connecting two cylinders with different diameters, the two cylinders with different diameters are of an integrated structure, the inner diameter of one cylinder is sleeved on the sleeve 8-1, an O-shaped sealing ring 13 is arranged between a support plate and the outer circle surface of one cylinder, a gap is reserved between the inner circle surface of the other cylinder and the transmission shaft 8, a first bearing 11 is sleeved on the outer circle surface of the other cylinder, the inner circle surface of the other permanent magnetic disc is fixedly sleeved on the first bearing 11, the tail end of the other cylinder is fixedly sleeved with a circular disc 14, the first bearing 11 is axially limited by the circular disc 14, a wrench 18 is arranged on one cylinder, the driving shaft 9 penetrates through the center of the housing 3, a conductor disc connecting flange 5 is sleeved on a driving shaft 9 to support a conductor disc on the driving shaft 9, a housing 3 is connected with the conductor disc connecting flange 5 through a floating seal 6, and the other conductor disc is sleeved on a transmission shaft 8 in a hanging manner;

at least one cooling mechanism 7 is arranged on the inner wall of one support plate and the outer wall of the housing 3, a jet orifice 7-1 of the cooling mechanism faces to the back iron 2-3 of the two conductor plates, and the cooling mechanism 7 is used for cooling the two conductor plates.

Preferably, two cooling means 7 are provided on the outer side wall of the housing 3 and on the inner wall of one of the support plates,

two cooling mechanisms 7 on the outer side wall of the housing 3 are arranged in a mirror image mode along the vertical midsection of the axis of the transmission shaft 8,

two cooling mechanisms 7 on the inner wall of one support plate are arranged in a mirror image mode along the vertical midsection where the axis of the transmission shaft 8 is located.

Preferably, the magnetic clutch further comprises two cooling channels, the two cooling channels are respectively arranged on the back irons 2-3 of the two conductor discs,

each cooling flow channel comprises a flow channel back plate 15-1 and a regulating pad 15-2,

the two runner back plates 15-1 are respectively fixed on back irons 2-3 of the two conductor plates through bolts, an adjusting pad 15-2 is arranged between the back iron 2-3 of each conductor plate and each runner back plate 15-1, the adjusting pad 15-2 is sleeved on the bolts, and a liquid collecting structure which is annular and forms an angle of 45 degrees with the runners is arranged at the position, close to a jet orifice 7-1 of the cooling mechanism, of each runner back plate.

Preferably, the housing 3 comprises an upper housing 3-1 and a lower housing 3-2, the upper housing 3-1 and the lower housing 3-2 are fixed by bolting,

the magnetic clutch also comprises a vent cap 3-3, a collecting groove 3-4 and a housing backflow flange 3-5,

the ventilation cap 3-3 is arranged on the upper cover shell 3-1,

the bottom of the lower housing 3-2 is provided with a flow collecting groove 3-4, the flow collecting groove 3-4 is connected with a housing backflow flange 3-5, and the flow collecting groove 3-4 is used for collecting a cooling medium ejected by a cooling mechanism 7; the housing backflow flange 3-5 is connected with an external water system to output the cooling medium to the outside.

Preferably, the floating seal 6 comprises a connecting housing 6-1, 2 springs 6-2 and 2 sealing rings 6-3,

the connecting shell 6-1 comprises an upper shell 6-4 and a lower shell 6-5, the upper shell 6-4 and the lower shell 6-5 are connected into a torus, two ring grooves are arranged on the inner ring surface of the torus in the circumferential direction, a sealing ring 6-3 is arranged in each ring groove in the circumferential direction, a spring 6-2 is arranged on the outer surface of each sealing ring, the spring 6-2 is used for pressing the sealing ring 6-3 to enable the sealing ring 6-3 to be in tight contact with the conductor disc connecting flange 5,

the connecting shell 6-1 is connected with the inner annular surface of the housing 3.

Preferably, a return hole is formed in the inner side wall of the lower shell 6-5, and the return hole is communicated to the inside of the housing 3.

Preferably, each spring 6-2 is a cylindrical extension spring with round shackles at both ends.

Preferably, the magnetic clutch also comprises a temperature measuring sensor 16, a measuring slip ring 17 and a signal wire 16-1,

each permanent magnet disc comprises a disc-shaped magnet supporting aluminum plate 1-2, a permanent magnet back iron 1-3 and a plurality of permanent magnets 1-1,

a disc surface of the magnet supporting aluminum plate 1-2 is provided with a plurality of grooves uniformly in the circumferential direction, each groove is internally provided with a permanent magnet 1-1, a permanent magnet back iron 1-3 is covered on the grooved surface of the magnet supporting aluminum plate 1-2 and used for sealing the permanent magnet 1-1,

the temperature sensor is arranged on a temperature measuring hole reserved on the magnet supporting aluminum plate 1-2, and the temperature sensor 16 is used for detecting the temperature of the permanent magnet 1-1;

signal wire holes are arranged on the permanent magnetic disc and the transmission shaft 8, a signal wire 16-1 of the temperature measuring sensor enters a slip ring inner ring 17-1 of the measuring slip ring 17 on the transmission shaft 8 through the signal wire holes, enters a slip ring outer ring 17-2 from the slip ring inner ring 17-1 to output the signal wire 16-1, and the slip ring outer ring 17-2 is fixed on the bracket through a limiting bolt 17-34The above.

Preferably, the signal line hole gap is filled with a sealant.

The utility model has the advantages that:

the transmission component of the magnetic clutch comprises a permanent magnet component and a conductor disc component, the permanent magnet component and the conductor disc component are supported by a support, a sealed housing is mounted on the support and used for sealing and recycling cooling media, a floating seal is mounted between the housing and the outer diameter surface of the conductor disc mounting flange, the floating seal is in floating contact with the outer diameter of the conductor disc mounting flange, the sealing position can be guaranteed not to be leaked and overflowed by the cooling media, additional radial force and friction force generated between the floating seal and the outer diameter of the conductor disc mounting flange in the operation process are small, vibration of a shafting where the conductor disc mounting flange is located can be guaranteed not to be transmitted to the shafting where the permanent magnet is located through the sealed housing.

Compared with the prior art, the conductor disc assembly of the magnetic clutch is not provided with independent support, the magnetic clutch and the driving end device are not provided with the flexible coupling, the conductor disc assembly of the magnetic clutch is rigidly connected with a transmission shaft of the driving end device, the magnetic field effect between the conductor disc assembly and the permanent magnetic disc assembly is utilized to compensate misalignment between the driving end device and the magnetic clutch, and the axial space requirement of the whole unit is shortened. And the magnetic field action between the conductor disc assembly and the permanent magnet disc assembly can compensate the misalignment of the shafting. And, the whole structure of this application compares axial occupation space little with current structure.

The cooling flow channel of this application processing is simple, labour saving and time saving, and cooling channel is enclosed by conductor dish back iron, runner backplate, adjustment pad and closes and form, and the adjustment pad is located between conductor dish back iron and the runner backplate, and conductor dish back iron passes through bolted connection fastening with the runner backplate, and the thickness that changes the adjustment pad can adjust the through flow area of runner. The closed housing and the bracket of the clutch are provided with cooling medium injection ports, the cooling medium is injected into the cooling flow channel, the flow channel back plate is provided with a liquid collecting ring which forms an angle of 45 degrees with the flow channel, the injection ports are positioned in the liquid collecting ring, the flow channel is in a rotating state during working, and the cooling medium can be uniformly distributed in the flow channel under the action of centrifugal force to fully cool the conductor disc.

This application still has the function to the permanent magnet temperature measurement, can specifically be to the real-time temperature measurement of permanent magnet: the device comprises a support aluminum plate, a permanent magnet, a measurement sliding ring, a support and a rotating signal output device, wherein a temperature measuring hole is formed in the position, close to the permanent magnet, of the support aluminum plate, an embedded temperature measuring sensor is adopted for carrying out online measurement on the temperature of the permanent magnet, signal wire holes are formed in a connecting piece of the permanent magnet disc assembly and a transmission shaft, the transmission shaft is provided with the measurement sliding ring, the inner ring of the measurement sliding ring is fixed.

For the magnetic clutch with high power and low rotating speed, the magnetic clutch with the liquid cooling structure has a simple structure, has low space requirement on a unit, can meet the use environment limited by space such as a cabin, can meet the heat dissipation requirement of the vortex disc and the permanent magnet, can fully exert the compensation and vibration isolation performance advantages of magnetic transmission, can find abnormal conditions in the working process in time through online temperature rise measurement of the permanent magnet, and is favorable for use and long-term operation of equipment.

Drawings

Fig. 1 is a schematic view of a water-cooled magnetic clutch commonly used in the prior industrial field, wherein reference numeral 20 is a flexible coupling, and reference numeral 19 is a connecting shaft;

FIG. 2 is a schematic diagram of a liquid-cooled speed regulation magnetic clutch for a ship according to the present application;

FIG. 3 is a cross-sectional view of a liquid-cooled speed governing magnetic clutch for a marine vessel;

FIG. 4 is a top view of the marine liquid-cooled speed governing magnetic clutch (with the upper half of the housing removed);

FIG. 5 is an enlarged view of a portion of FIG. 4 at II;

FIG. 6 is a partial outline view of a cooling flow path formed in the back iron of a conductor tray on one side using the cooling mechanism of FIG. 5 to spray a cooling medium onto the back iron of the conductor tray;

FIG. 7 is an enlarged view of a portion of FIG. 4 at III;

FIG. 8 is a partial outline view of a cooling flow path formed in the back iron of the conductor tray on the other side using the cooling mechanism of FIG. 6 to spray a cooling medium onto the back iron of the conductor tray;

FIG. 9 is an outer profile view of the housing;

FIG. 10 is an interior profile view of the housing;

FIG. 11 is a cross-sectional view of the floating seal;

FIG. 12 is an outline view of the split coupling housing with the floating seal sectioned along the plane of symmetry;

FIG. 13 is an enlarged view of a portion of FIG. 1 at I;

fig. 14 is a partial view of the right side view of fig. 13.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

The first embodiment is as follows: the embodiment is described with reference to fig. 2 and 3, and the liquid-cooled speed regulation magnetic clutch for the ship according to the embodiment includes a permanent magnet disc assembly 1, a conductor disc assembly 2, a bracket 4, a conductor disc connecting flange 5, an air gap adjusting mechanism, a transmission shaft 8 and a driving shaft 9,

one end of the transmission shaft 8 is connected with one end of the permanent magnetic disc component 1, the other end of the transmission shaft 8 is connected with the load end,

the magnetic clutch also comprises a housing 3, a floating seal 6, a cooling mechanism 7, a support bearing 10, an O-shaped sealing ring 13 and a sleeve 8-1,

the bracket 4 is composed of two supporting plates which are mutually supported,

the permanent magnetic disk assembly 1 comprises two permanent magnetic disks and a connecting rod mechanism, the two permanent magnetic disks are connected through the connecting rod mechanism,

the conductor disc assembly 2 comprises two conductor discs and a connecting rod, the two conductor discs are connected through the connecting rod,

the cover 3 is fixed on the side wall of a support plate 4, the permanent magnetic disk component 1 and the conductor disk component 2 are both arranged in the cover 3, the permanent magnetic disk component 1 is arranged in the conductor disk component 2,

a transmission shaft 8 penetrates into the housing 3 from the center of the bracket 4, a permanent magnetic disc is sleeved on the transmission shaft 8, a support bearing 10 is sleeved on the transmission shaft 8 between the inner ring of the bracket 4 and the transmission shaft 8, the inner ring of the bracket 4 is connected with a sleeve 8-1, the support bearing 10 is arranged between the transmission shaft 8 and the sleeve 8-1,

the air gap adjusting mechanism does not rotate along with the permanent magnet disc assembly 1 and is used for adjusting the air gap between the permanent magnet disc assembly 1 and the conductor disc assembly 2 to realize clutching and load end rotating speed adjustment,

the air gap adjusting mechanism comprises a first bearing 11, a driving sleeve 12, a wrench 18 and a positioning circular ring disc 14

The driving sleeve 12 is formed by coaxially connecting two cylinders with different diameters, the two cylinders with different diameters are of an integrated structure, the inner diameter of one cylinder is sleeved on the sleeve 8-1, the inner diameter of the other cylinder is sleeved on the sleeve 8-1, an O-shaped sealing ring 13 is arranged between a support plate and the outer circular surface of the one cylinder, a gap is reserved between the inner circular surface of the other cylinder and the transmission shaft 8, a first bearing 11 is sleeved on the outer circular surface of the other cylinder, the inner circular surface of the other permanent magnetic disc is fixedly sleeved on the first bearing 11, a circular disc 14 is fixedly sleeved at the tail end of the other cylinder, the first bearing 11 is axially limited by the circular disc 14, a wrench 18 is arranged on the one cylinder, the driving shaft 9 penetrates through the center of the housing 3, a conductor disc is supported on the driving shaft 9 by sleeving a conductor disc connecting flange 5 on the driving shaft 9, and the housing 3 is connected, the other conductor disc is suspended and sleeved on the transmission shaft 8;

at least one cooling mechanism 7 is arranged on the inner wall of one support plate and the outer wall of the housing 3, a jet orifice 7-1 of the cooling mechanism faces to the back iron 2-3 of the two conductor plates, and the cooling mechanism 7 is used for cooling the two conductor plates.

In this embodiment, the working principle of the present application is: the driving end drives the driving shaft 9 to rotate, the driving shaft 9 rotates to drive the conductor disc assembly to rotate, the conductor disc assembly rotates to enable asynchronous slip to be generated between the conductor disc assembly and the permanent magnet disc assembly, an eddy magnetic field is generated on the conductor disc, the eddy magnetic field and the permanent magnet disc magnetic field interact with each other to enable the permanent magnet disc assembly to rotate, and the permanent magnet disc assembly rotates to drive the transmission shaft 8 to rotate due to the fact that the permanent magnet disc on the left side is connected with the transmission shaft.

The drive shaft 9 is not connected to the drive shaft 8. The drive shaft 8 is supported on the bracket 4 using a rolling bearing.

Support frame4The two support plates are respectively positioned at two sides and are mutually supported and connected as shown in figure 3.

In the fig. 2 and 3, the permanent magnetic disk assembly 1 is supported by the bracket 4, the conductor disk assembly 2 is unsupported and is rigidly connected with the driving shaft 9, and is not connected through a flexible coupling, the magnetic field action between the conductor disk assembly 2 and the permanent magnetic disk assembly 1 can compensate the misalignment of a shafting, and the axial size for the installation and use of the conductor disk assembly is shortened, the housing 3, the bracket 4, the floating seal 6, the conductor disk connecting flange 5, the driving sleeve 12 and the permanent magnetic disk assembly 1 together form a circulating closed space of a cooling medium of the magnetic clutch, the housing 3 is connected and fixed on the bracket 4 through bolts and positioning pins, a magnetic circuit part formed by the permanent magnetic disk assembly 1 and the conductor disk assembly 2 is positioned in the housing 3, the conductor disk connecting flange 5 penetrates through the housing 3 to extend out, the floating seal 6 is arranged on the housing 3 and the conductor disk connecting flange 5, and the sealing surface of the floating, the sealing device is used for ensuring that the sealing contact position cannot leak under the running state of the conductor disc assembly 2, the driving sleeve 12 penetrates through the support 4 and enters the housing 3 to be connected with the permanent magnet disc assembly 1, the regulating mechanism 18 can regulate an air gap between the permanent magnet disc assembly 1 and the conductor disc assembly 2 through the driving sleeve 12, relative sliding can be generated between the driving sleeve 12 and the support 4 in the regulating process, and the sliding surface adopts the O-shaped sealing ring 13 as dynamic sealing and is used for ensuring that the sliding surface cannot leak liquid in the regulating process.

The first bearing 11 is arranged to have the following functions: the first bearing inner ring is arranged on the driving sleeve 12, and the outer ring is arranged on the permanent magnetic disk on one side, so that the outer permanent magnetic disk can rotate along with the transmission shaft, and the left and right pulling of the driving sleeve 12 is not influenced. When the driving regulating mechanism 18 pulls the driving sleeve 12 in the axial direction, the first bearing and the permanent magnetic disc thereon are pulled to move in the axial direction at the same time, so that the air gap adjustment between the permanent magnetic disc assembly and the conductor disc assembly is realized.

The conductor disc on the right side in fig. 3 is suspended, the inner ring is not connected with any object, the driving shaft 9 rotates to drive the conductor disc connecting flange 5 to rotate, so that the conductor disc assembly is driven to rotate, and the permanent magnet disc assembly is driven by the magnetic field effect between the conductor disc and the permanent magnet disc.

And the supporting bearing adopts a single-fulcrum bidirectional fixing mode, the side close to the measuring slip ring 17 is a bidirectional fixed bearing, and the other side is a floating support. One cylinder inner diameter is fitted over the sleeve 8-1 by clearance fit.

The second embodiment is as follows: the present embodiment will be described with reference to fig. 5, 6, 7 and 8, and is further limited to the liquid-cooled speed-regulating magnetic clutch for a ship according to the first embodiment, in the present embodiment, two cooling mechanisms 7 are provided on the outer wall of the housing 3 and on the inner wall of one strut,

two cooling mechanisms 7 on the outer side wall of the housing 3 are arranged in a mirror image mode along the vertical midsection of the axis of the transmission shaft 8,

two cooling mechanisms 7 on the inner wall of one support plate are arranged in a mirror image mode along the vertical midsection where the axis of the transmission shaft 8 is located.

In the present embodiment, as shown in fig. 4, 6, and 7, two cooling mechanisms 7 are provided on the outer wall of the housing 3 and on the inner wall of one stay, respectively. In fig. 6, two cooling mechanisms 7 are provided on the inner wall of one support plate, and the cooling medium ejected from the ejection ports of the two cooling mechanisms 7 flows in the direction formed on the back plate of the conductor plate. As shown in fig. 9, the two cooling mechanisms 7 on the outer side wall of the housing 3 are located at the same level. Therefore, the two cooling mechanisms 7 on the inner wall of one support plate are also located at the same level.

The third concrete implementation mode: the present embodiment is described with reference to fig. 5 to 8, and is further limited to the liquid-cooled speed regulation magnetic clutch for a ship according to the second embodiment, in the present embodiment, the magnetic clutch further includes two cooling channels, the two cooling channels are respectively disposed on the back irons 2 to 3 of the two conductor discs,

each cooling flow channel comprises a flow channel back plate 15-1 and a regulating pad 15-2,

the two runner back plates 15-1 are respectively fixed on back irons 2-3 of the two conductor plates through bolts, an adjusting pad 15-2 is arranged between the back iron 2-3 of each conductor plate and each runner back plate 15-1, the adjusting pad 15-2 is sleeved on the bolts, and a liquid collecting structure which is annular and forms an angle of 45 degrees with the runners is arranged at the position, close to a jet orifice 7-1 of the cooling mechanism, of each runner back plate.

In this embodiment, in fig. 5 and 7, the cooling flow channel is of a combined and assembled structure, the flow channel is in an annular gap shape and is formed by enclosing a back iron 2-3 of the conductor disc, a flow channel back plate 15-1 and an adjusting pad 15-2, the three are connected and fixed by bolts uniformly distributed on the circumference, the adjusting pad 15-2 is of a hollow annular structure, the connecting bolts penetrate through an inner hole of the adjusting pad 15-2 for connection, and the flow area of the flow channel can be changed by adjusting the thickness of the adjusting pad 11-2. The part, close to the cooling medium injection port, of the flow channel back plate 15-1 is provided with an annular liquid collection structure which forms an angle of 45 degrees with the flow channel, and the injection port of the cooling liquid is opposite to the root of the liquid collection structure, so that the injected cooling liquid can enter the cooling flow channel to the maximum extent. In fig. 6 and 8, the flow channel is in a rotating state during operation, and the coolant flows in the flow channel as indicated by arrows in the figure, so that the coolant can be uniformly distributed in the flow channel under the action of centrifugal force to sufficiently cool the conductor disc.

The fourth concrete implementation mode: the present embodiment is described with reference to fig. 4, 9 and 10, and is further limited to the marine liquid-cooled speed regulation magnetic clutch according to the second embodiment, in the present embodiment, the housing 3 includes an upper housing 3-1 and a lower housing 3-2, the upper housing 3-1 and the lower housing 3-2 are fixed by bolts,

the magnetic clutch also comprises a vent cap 3-3, a collecting groove 3-4 and a housing backflow flange 3-5,

the ventilation cap 3-3 is arranged on the upper cover shell 3-1,

the bottom of the lower housing 3-2 is provided with a flow collecting groove 3-4, the flow collecting groove 3-4 is connected with a housing backflow flange 3-5, and the flow collecting groove 3-4 is used for collecting a cooling medium ejected by a cooling mechanism 7; the housing backflow flange 3-5 is connected with an external water system to output the cooling medium to the outside.

In this embodiment, in fig. 4, two cooling mechanisms are respectively installed on the housing 3 and the bracket (4), the cooling mechanisms may be cooling medium injection pipes, and the four cooling medium injection pipes are symmetrically arranged in a mirror image manner along the vertical middle section where the rotation axis of the magnetic clutch is located. The collecting groove 3-4 is used for collecting cooling media ejected by the cooling mechanism 7, and the phenomenon that the rotor stirs the cooling liquid due to the fact that the liquid level of the cooling liquid is too high is avoided.

The fifth concrete implementation mode: the present embodiment is described with reference to fig. 11 and 12, and is further limited to the liquid-cooled speed-regulating magnetic clutch for a ship according to the first embodiment, in the present embodiment, the floating seal 6 includes a connecting housing 6-1, 2 springs 6-2 and 2 sealing rings 6-3,

the connecting shell 6-1 comprises an upper shell 6-4 and a lower shell 6-5, the upper shell 6-4 and the lower shell 6-5 are connected into a torus, two ring grooves are arranged on the inner ring surface of the torus in the circumferential direction, a sealing ring 6-3 is arranged in each ring groove in the circumferential direction, a spring 6-2 is arranged on the outer surface of each sealing ring, the spring 6-2 is used for pressing the sealing ring 6-3 to enable the sealing ring 6-3 to be in tight contact with the conductor disc connecting flange 5,

the connecting shell 6-1 is connected with the inner annular surface of the housing 3.

In this embodiment, the sealing ring 6-3 is made of polyimide, and may be of a two-half split structure, and includes an upper sealing ring and a lower sealing ring, the spring is used to fix the sealing ring, and the spring is a cylindrical extension spring with two ends being circular hooks. In the operating state of the floating seal, the flow direction of the cooling medium is indicated by arrows in fig. 8.

If, as shown in fig. 11, one sealing ring 6-3 is provided, if a gap is formed between the sealing ring 6-3 and the conductor disc connecting flange 5 due to long-term use, the present application has the advantage that, when the cooling medium enters from the gap between the upper right one of the sealing rings 6-3 and the conductor disc connecting flange 5 in fig. 11, the cooling medium is blocked by the other left one of the sealing rings 6-3 because the flow rate of the medium is slow and the cooling medium does not flow out of the housing.

The sixth specific implementation mode: in the present embodiment, the liquid-cooled speed-regulating magnetic clutch for a ship according to the fifth embodiment is further defined, in the present embodiment, a return hole 6-51 is formed in an inner side wall of the lower case 6-5, and the return hole 6-51 is communicated with the inside of the housing 3.

In this embodiment, this application can only set up the backward flow hole at lower casing, because coolant easily flows out from lower casing, and difficult follow upper casing and flow out.

The seventh embodiment: in this embodiment, the marine liquid-cooled speed regulation magnetic clutch according to the fourth or fifth embodiment is further defined, and in this embodiment, each spring 6-2 is a cylindrical extension spring with round shackles at both ends.

The specific implementation mode is eight: the present embodiment is described with reference to fig. 13 and 14, and is further limited to the liquid-cooled speed-regulating magnetic clutch for a ship according to the first embodiment, in the present embodiment, the magnetic clutch further includes a temperature measuring sensor 16, a measuring slip ring 17 and a signal line 16-1,

each permanent magnet disc comprises a disc-shaped magnet supporting aluminum plate 1-2, a permanent magnet back iron 1-3 and a plurality of permanent magnets 1-1,

a disc surface of the magnet supporting aluminum plate 1-2 is provided with a plurality of grooves uniformly in the circumferential direction, each groove is internally provided with a permanent magnet 1-1, a permanent magnet back iron 1-3 is covered on the grooved surface of the magnet supporting aluminum plate 1-2 and used for sealing the permanent magnet 1-1,

the temperature sensor is arranged on a temperature measuring hole reserved on the magnet supporting aluminum plate 1-2, and the temperature sensor 16 is used for detecting the temperature of the permanent magnet 1-1;

signal wire holes are arranged on the permanent magnetic disc and the transmission shaft 8, a signal wire 16-1 of the temperature measuring sensor enters a slip ring inner ring 17-1 of the measuring slip ring 17 on the transmission shaft 8 through the signal wire holes, enters a slip ring outer ring 17-2 from the slip ring inner ring 17-1 to output the signal wire 16-1, and the slip ring outer ring 17-2 is fixed on the bracket through a limiting bolt 17-34The above.

In the present embodiment, fig. 14 is a view taken from the right side of fig. 13, and the solid line in fig. 14 is a line of the magnet supporting aluminum plate 1-2. The permanent magnets are fan-shaped and are uniformly distributed along the circumference.

The specific implementation method nine: in this embodiment, the marine liquid-cooled speed-regulating magnetic clutch according to the eighth embodiment is further defined, and in this embodiment, the gap of the signal line hole is filled with a sealant.

In this embodiment, as shown in fig. 3, when the adjusting mechanism 18 is pulled in the axial direction, the circular disc drives the first bearing 11 to move rightward, and further drives the permanent magnetic disc on the second bearing to move rightward, so as to adjust the gap between the permanent magnetic disc assembly and the conductor disc assembly.

Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.

Claims (9)

1. A liquid cooling speed regulation magnetic clutch for ships comprises a permanent magnetic disc component (1), a conductor disc component (2), a bracket (4), a conductor disc connecting flange (5), an air gap adjusting mechanism, a transmission shaft (8) and a driving shaft (9),

one end of the transmission shaft (8) is connected with one end of the permanent magnetic disc component (1), the other end of the transmission shaft (8) is connected with the load end,

it is characterized in that the magnetic clutch also comprises a housing (3), a floating seal (6), a cooling mechanism (7), a support bearing (10), an O-shaped sealing ring (13) and a sleeve (8-1),

the bracket (4) is composed of two supporting plates which are mutually supported,

the permanent magnetic disk assembly (1) comprises two permanent magnetic disks and a connecting rod mechanism, the two permanent magnetic disks are connected through the connecting rod mechanism,

the conductor disc assembly (2) comprises two conductor discs and a connecting rod, the two conductor discs are connected through the connecting rod,

the cover shell (3) is fixed on the side wall of a support plate, the permanent magnetic disk component (1) and the conductor disk component (2) are both arranged in the cover shell (3), the permanent magnetic disk component (1) is arranged in the conductor disk component (2),

a transmission shaft (8) penetrates into the housing (3) from the center of the bracket (4), a permanent magnetic disc is sleeved on the transmission shaft (8), a support bearing (10) is sleeved on the transmission shaft (8) between the inner ring of the bracket (4) and the transmission shaft (8), a sleeve (8-1) is connected on the inner ring of the bracket (4), the support bearing (10) is arranged between the transmission shaft (8) and the sleeve (8-1),

the air gap adjusting mechanism does not rotate along with the permanent magnet disc assembly (1) and is used for adjusting the air gap between the permanent magnet disc assembly (1) and the conductor disc assembly (2) to realize clutching and load end rotating speed adjustment,

the air gap adjusting mechanism comprises a first bearing (11), a driving sleeve (12), a spanner (18) and a positioning circular ring disc (14),

the driving sleeve (12) is formed by coaxially connecting two cylinders with different diameters, the two cylinders with different diameters are of an integrated structure, the inner diameter of one cylinder is sleeved on the sleeve (8-1), an O-shaped sealing ring (13) is arranged between a support plate and the outer circle surface of one cylinder, a gap is reserved between the inner circle surface of the other cylinder and the transmission shaft (8), a first bearing (11) is sleeved on the outer circle surface of the other cylinder, the inner circle surface of the other permanent magnetic disc is fixedly sleeved on the first bearing (11), a circular disc (14) is fixedly sleeved at the tail end of the other cylinder, the first bearing (11) is axially limited by the circular disc (14), a wrench (18) is arranged on one cylinder, the driving shaft (9) penetrates through the center of the housing (3), and one conductor disc is supported on the driving shaft (9) through a conductor disc connecting flange (5) sleeved on the driving shaft (9), the housing (3) is connected with a conductor disc connecting flange (5) through a floating seal (6), and the other conductor disc is suspended and sleeved on the transmission shaft (8);

at least one cooling mechanism (7) is arranged on the inner wall of one support plate and the outer wall of the housing (3), a jet orifice (7-1) of the cooling mechanism faces to back irons (2-3) of the two conductor plates, and the cooling mechanism (7) is used for cooling the two conductor plates.

2. Liquid-cooled speed governing magnetic clutch for marine vessels according to claim 1, characterized in that two cooling means (7) are provided on the outer side wall of the housing (3) and on the inner wall of one of the support plates,

two cooling mechanisms (7) on the outer side wall of the housing (3) are arranged in a mirror image mode along the vertical midsection where the axis of the transmission shaft (8) is positioned,

two cooling mechanisms (7) on the inner wall of one support plate are arranged in a mirror image mode in the vertical middle section where the axis of the transmission shaft (8) is located.

3. The marine liquid-cooled speed governing magnetic clutch according to claim 2, wherein said magnetic clutch further comprises two cooling channels, said two cooling channels being respectively disposed on back irons (2-3) of said two conductor plates,

each cooling flow channel comprises a flow channel back plate (15-1) and an adjusting pad (15-2),

two runner back plates (15-1) are respectively fixed on back irons (2-3) of two conductor discs through bolts, an adjusting pad (15-2) is arranged between the back iron (2-3) of each conductor disc and each runner back plate (15-1), the adjusting pad (15-2) is sleeved on the bolts, and a liquid collecting structure which is annular and forms an angle of 45 degrees with the runners is arranged at the position, close to a jet orifice (7-1) of a cooling mechanism, of each runner back plate.

4. The marine liquid-cooled speed governing magnetic clutch according to claim 2, wherein the housing (3) comprises an upper housing (3-1) and a lower housing (3-2), the upper housing (3-1) and the lower housing (3-2) are fixed by a bolt connection,

the magnetic clutch also comprises a vent cap (3-3), a flow collecting groove (3-4) and a housing backflow flange (3-5),

the ventilation cap (3-3) is arranged on the upper cover shell (3-1),

the bottom of the lower housing (3-2) is provided with a flow collecting groove (3-4), the flow collecting groove (3-4) is connected with a housing backflow flange (3-5), and the flow collecting groove (3-4) is used for collecting cooling media ejected by the cooling mechanism (7); the housing backflow flange (3-5) is connected with an external water system to output the cooling medium to the outside.

5. Liquid-cooled adjustable-speed magnetic clutch for ships according to claim 1, characterized in that the floating seal (6) comprises a connecting housing (6-1), 2 springs (6-2) and 2 sealing rings (6-3),

the connecting shell (6-1) comprises an upper shell (6-4) and a lower shell (6-5), the upper shell (6-4) and the lower shell (6-5) are connected into a torus, two ring grooves are formed in the inner ring surface of the torus along the annular direction, a sealing ring (6-3) is arranged in each ring groove in the annular direction, a spring (6-2) is arranged on the outer surface of each sealing ring, the spring (6-2) is used for pressing the sealing ring (6-3) to enable the sealing ring (6-3) to be in close contact with the conductor disc connecting flange (5),

the connecting shell (6-1) is connected with the inner annular surface of the housing (3).

6. The marine liquid-cooled speed-regulating magnetic clutch according to claim 5, characterized in that the inner side wall of the lower housing (6-5) is provided with a return hole (6-51), and the return hole (6-51) is communicated with the interior of the housing (3).

7. The marine liquid-cooled speed governing magnetic clutch according to claim 4 or 5, wherein each spring (6-2) is a cylindrical extension spring with two ends being round shackles.

8. Liquid-cooled speed governing magnetic clutch for marine vessels according to claim 1, characterized in that said magnetic clutch further comprises a temperature sensor (16), a measuring slip ring (17) and a signal line (16-1),

each permanent magnet disc comprises a disc-shaped magnet supporting aluminum plate (1-2), a permanent magnet back iron (1-3) and a plurality of permanent magnets (1-1),

a disc surface of the magnet supporting aluminum plate (1-2) is provided with a plurality of grooves uniformly in the circumferential direction, each groove is internally provided with a permanent magnet (1-1), a permanent magnet back iron (1-3) is covered on the grooved surface of the magnet supporting aluminum plate (1-2) and is used for sealing the permanent magnet (1-1),

the temperature sensor is arranged on a temperature measuring hole reserved on the magnet supporting aluminum plate (1-2), and the temperature sensor (16) is used for detecting the temperature of the permanent magnet (1-1);

signal wire holes are formed in the permanent magnetic disc and the transmission shaft (8), a signal wire (16-1) of the temperature measuring sensor enters a slip ring inner ring (17-1) of the measuring slip ring (17) on the transmission shaft (8) through the signal wire holes, enters a slip ring outer ring (17-2) from the slip ring inner ring (17-1) to output the signal wire (16-1), and the slip ring outer ring (17-2) is fixed on the support (4) through a limiting bolt (17-3).

9. The marine liquid-cooled speed governing magnetic clutch of claim 8, wherein the signal line hole gaps are filled with a sealant.

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