Bearing temperature monitoring device and bearing device provided with the monitoring device

A bearing temperature monitoring device and bearing device provided with the monitoring device composed so that occurrence of scratch on the rotation shaft supported by the bearing caused by a bearing temperature carrying member integrated in the bearing such that its top end surface faces the rotation shaft, are provided. The bearing device is provided with a bearing temperature detecting device which comprises a bearing temperature carrying member made of material larger in thermal conductivity than the bearing layer and shaped to have a protruded part to be inserted slidably into a through hole in the bearing layer and a base part to be received in a cylindrical space in the back metal, the base part serving to restrict protrusion of the protruded part into the through hole so that the top end surface thereof is level with the sliding surface of the bearing layer, a pushing member attached to the back metal to push the temperature carrying member so that the member move toward the back metal against the pushing force of the pushing member when bearing load exerts on the temperature carrying member, and a temperature sensor for detecting temperature of the temperature carrying member.

TECHNICAL FIELD

The present invention relates to a bearing monitoring device for monitoring temperature of a bearing composed of a back metal and a bearing layer of resin material adhered to the inside face of the back metal and a bearing device provided with the monitoring device.

BACKGROUND ART

Bearings each composed of a back metal and a bearing layer of resin material adhered to the inside face of the back metal (here inside face means the load supporting side face or inner circumferential face of the bearing) are adopted in machines such as steam turbines, gas turbines, etc. as radial journal bearings and thrust bearings for supporting shafts rotating at high speed.

The bearing layer of resin material is lower in heat conductivity as compared with bearing layer of cupper alloy such as white metal, etc., and heat generation in bearings of rapidly rotating shafts is severe, so temperature rise in such bearings is significant owing to large amount heat generation and low heat conductivity. Therefore, it is required to operate the machines while monitoring bearing temperature.

A bearing composed of a bearing layer of resin material and a back metal to which the bearing layer is adhered and provided with a bearing temperature measuring device is disclosed in document 1(Japanese Laid-Open Patent Application No. 2006-112602).

FIG. 9is a partial longitudinal cross-section of a radial bearing showing a bearing temperature detection portion disclosed in the document 1.

As shown inFIG. 9, the radial bearing01has the bearing layer02of resin material adhered to the inside face of the back metal03. The bearing01is provided at the bearing temperature detection portion with a heat insulating member03gfit into a hole03fhaving a bottom bored into the back metal03, a metal piece03dfor sensing temperature which is fit into a through hole03cbored into the bearing layer02so that its top end face is level with the sliding surface of the bearing layer02, and a temperature detector03hwhich is connected to the temperature measuring metal piece03dand extends through a through hole03ebored into the back metal03to be connected to a temperature instrument not shown in the drawing.

Temperature of the temperature measuring metal piece03dis detected by the temperature detector03has the temperature of the bearing material02.

In the bearing shown inFIG. 9, the temperature measuring metal piece03dis fit into the through hole in the bearing layer of resin material such that the top end face of the temperature measuring metal piece is level with the sliding surface of the bearing layer02on which bearing load is supported, and this prior art has a disadvantage as follows.

Young's modulus of the resin material of the bearing layer02is smaller than that of cupper alloy such as white metal (Young's modulus of white metal is about 52 GPa, whereas that of resin is about 13 GPa). Therefore, compressive deformation due to bearing load exerting from the rotating shaft is larger in the case of the bearing layer as compared with the case cupper alloy such as white metal is adopted as such bearing layer.

With the prior art as shown inFIG. 9, as the temperature measuring metal piece03dis tightly fitted with the bearing layer02so that its top end face is level with the sliding surface of the bearing layer02, such a state occurs that the temperature measuring metal piece03dprotrudes from the bearing layer02toward the rotation shaft when compressive deformation increase due to increased bearing becomes large, and the rotation shaft is scratched by the protruded metal piece, resulting in decreased load bearing capacity, and also may be resulting in occurrence of damage to the rotation shaft.

SUMMARY OF THE INVENTION

The present invention was made in light of the problems of the prior art, and the object of the invention is to provide a bearing temperature monitoring device of a bearing composed of a bearing layer of resin material and a back metal to which the bearing layer is adhered, with the device the bearing temperature carrying member made of metal of which the top end surface faces the surface of the rotation shaft supported by the bearing does not cause to scratch the surface of the rotation shaft by composing such that protrusion of the top end surface of the bearing temperature carrying member from the sliding surface of the bearing layer is prevented and as a result occurrence of decrease in load bearing capacity and occurrence of damage to the rotation shaft can be prevented resulting in increased reliability, and a bearing device provided with the monitoring device.

To attain the object, the present invention proposes a bearing temperature monitoring device for monitoring bearing temperature of a bearing composed of a bearing layer of resin material and a back metal to which the bearing layer is adhered, wherein a cylindrical space for accommodating parts constituting a bearing temperature detecting device is provided in the back metal, a through hole is drilled to penetrate the bearing layer to be connected to the cylindrical space in the back metal, wherein the parts constituting the bearing temperature detecting device includes: a bearing temperature carrying member made of material having a coefficient of thermal conductivity larger than that of the bearing layer and shaped to have a protruded part to be inserted slidably into the through hole in the bearing layer and a base part to be received in the cylindrical space in the back metal, the base part serving to restrict protrusion of the protruded part into the through hole so that the top end surface thereof is level with, not protrudes from the surface of the bearing layer; a pushing member which is attached to the back metal to push the bearing temperature carrying member so that the protruded part thereof protrudes into the through hole in the bearing layer until the protrusion is restricted by the base member thereof and shrinks to allow the bearing temperature carrying member to move toward the back metal against the elastic force of the pushing member when bearing load exerts on the bearing temperature carrying member; and a temperature sensing member for detecting temperature of the bearing temperature carrying member.

It is preferable that the device is provided with a bearing temperature processing device for calculating bearing temperature by processing an electric signal of temperature detected by the temperature sensing member, a display unit for displaying the temperature calculated by the bearing temperature processing device, and an alarm device for raising alarm when the calculated bearing temperature exceeds a prescribed permissible temperature.

According to the invention, when the sliding surface of the bearing layer of resin material which is smaller in Young's modulus as compared with bearing layer of cupper alloy such as white metal is compressed by the bearing load exerting from the rotation shaft supported by the bearing and deformed radially toward the back metal, the bearing temperature carrying member of which the temperature represents or nearly represent bearing temperature is pushed by the bearing load and moves toward the back metal concurrent with the radial deformation of the sliding surface of the bearing layer against elastic force of the pushing member, so the top end surface of the bearing temperature carrying member is always level with the sliding surface of the bearing layer deformed toward the back metal by bearing load.

Therefore, a state that the top end surface of the bearing temperature carrying member protrudes from the sliding surface of the bearing layer when the sliding surface is deformed toward the back metal by bearing load does not occur, and there is no fear that the rotation shaft is scratched with the bearing temperature carrying member, as a result occurrence of decrease in load bearing capacity and occurrence of damage to the rotation shaft can be prevented.

As detected bearing temperature is displayed on the display unit and warning is raised by the alarm device when the bearing temperature exceeds the prescribed permissible temperature, bearing temperature can be always monitored and excessive rise of bearing temperature can be prevented.

In the invention, the device is preferably composed such that:

(1) The through hole in the bearing layer is smaller in diameter than the cylindrical space in the back metal so that a flat step is formed between the through hole in the bearing layer and the cylindrical space in the back metal, and the bearing temperature carrying member is shaped to be a stepped solid cylinder having a cylindrical protruded part and a cylindrical base part larger in diameter than that of the protruded part so that the protruded part is inserted slidably into the through hole in the bearing layer and the base part is received in the cylindrical space in the back metal so that protrusion of the protruded part into the through hole is restricted by the base part by abutting of the base part on the flat step between the through hole in the bearing layer and the cylindrical space, and wherein the pushing member is composed of a spring member located in the cylindrical space in the back metal in order to push the bearing temperature carrying member and a cover member for supporting the spring member while covering the cylindrical space in the back metal.

With the construction, initial load to push the bearing temperature carrying member toward the sliding surface of the bearing layer can be easily and accurately by using the spring as an energizing member.

It is preferable that a through hole is drilled to the bearing temperature carrying member to penetrate from the top end surface of the protruded part thereof to the bottom end face of the base part thereof for the purpose of balancing pressure exerting on the bearing temperature carrying member.

With this, oil on the sliding surface of the bearing layer can be easily conduced to the back side of the bearing temperature carrying member via the through hole, and downward force and upward force exerting on the bearing temperature carrying member can be balanced rapidly when bearing load exerting from the top end surface of the nearing temperature carrying member, so clearances between the bearing temperature carrying member, bearing layer, and back metal can be adjusted easily without influenced by oil film pressure in the bearing.

(2) The cylindrical space in the back metal is shaped such that its ends in the back metal does not reach the bearing layer leaving an annular protrusion of the back metal adjacent the bearing layer to form a through hole in the back metal which continues to the through hole in the bearing layer, the through hole being smaller in diameter than the cylindrical space so that a flat step is formed between the through hole in the back metal and the cylindrical space in the back metal, and the bearing temperature carrying member is shaped to be a stepped solid cylinder having a cylindrical protruded part and a cylindrical base part larger in diameter than that of the protruded part so that the protruded part is inserted slidably into the through hole in the bearing layer and the base part is received in the cylindrical space in the back metal so that protrusion of the protruded part into the through hole is restricted by the base part by abutting of the base part on the flat step between the through hole in the back metal and the cylindrical space in the back metal, and wherein the pushing member is composed of a spring member located in the cylindrical space in the back metal in order to push the bearing temperature carrying member and a cover member for supporting the spring member while covering the cylindrical space in the back metal.

With the construction, energizing force of the spring to push the temperature carrying member toward the sliding surface of the bearing layer is supported by the annular protrusion of the back metal, deformation of the surface of bearing layer which may occur due to the energizing force of the spring in the case the energizing force of the spring supported directly by the bearing layer. Therefore, occurrence of trouble in lubrication of the rotation shaft due to occurrence of irregularity on the surface of the bearing layer can be prevented.

(3) The bearing temperature carrying member is shaped to be a stepped solid cylinder having the cylindrical protruded part and a cylindrical base part larger in diameter than that of the protruded part so that protrusion of the protruded part into the through hole is restricted by the base part by abutting of the base part on the flat step between the through hole in the bearing layer and the cylindrical space in the back metal or on the through hole in the back metal and the cylindrical space in the back metal, and wherein the outer periphery of base part of the bearing temperature carrying member is coated with heat insulating material in order to suppress heat transfer from the temperature carrying member to the back metal.

By coating the outer periphery of base part of the bearing temperature carrying member, transfer of heat from the outer periphery to the back metal is prevented or reduced substantially, and decrease in temperature of the bearing temperature carrying member as compared with the temperature of the bearing layer due to the heat dissipation from the temperature carrying member to the back metal is suppressed, and temperature of the bearing temperature carrying member can be maintained at substantially the same as that of the bearing layer, which means bearing temperature can be detected more accurately.

Further, it is preferable that the bearing temperature detecting device is composed as a cartridge-type temperature detecting unit so that it is easily attached detachably to the back metal, the unit comprising a substantially cylindrical case made of heat insulating material in which the base part of the bearing temperature carrying member is received with its protruded part protruded from a through hole at the top of the case, and a spring located inside the case to energize the bearing temperature carrying member to allow the protruded part to protrude from the through hole; and the unit being attached to the back metal such that the protruded part of the bearing temperature carrying member protrude into the through hole in the bearing layer.

According to the invention, by composing the bearing temperature detecting device as a cartridge-type unit having the base part of the bearing temperature carrying member received in the case made of heat insulating material, heat dissipation from the bearing temperature carrying member to the back metal is suppressed more effectively, and temperature of the bearing temperature carrying member can be maintained at substantially the same as that of the bearing layer, which means bearing temperature can be detected more accurately. Moreover, as the cartridge-type unit can be attached as a bearing temperature measuring unit detachably to the back metal, assembling and disassembling of the bearing temperature measuring device can be facilitated.

It is also preferable that the bearing temperature carrying member is shaped to be a stepped solid cylinder having a cylindrical protruded part and a cylindrical base part larger in diameter than that of the protruded part so that the protruded part is inserted slidably into the through hole in the bearing layer and the base part is received in the cylindrical space in the back metal, wherein the pushing member is shaped to be a substantially cylindrical elastic sleeve of which the lower end which is formed into a flange is fixed to the back metal so that the upper end of the elastic sleeve pushes the bearing temperature carrying member with elastic force due to compression deformation of the elastic sleeve when it is fixed to the back metal and the bearing temperature carrying member can move toward the back metal against the elastic force when bearing load exerts on the top end surface of the protruded part of the bearing temperature carrying member, and wherein the temperature sensing member is inserted in the hollow of the substantially cylindrical sleeve.

According to the invention, the temperature sensing member is provided independently of the bearing temperature carrying member and the cylindrical sleeve, and radial movement of the bearing temperature carrying member toward the back metal is enabled by elastic compression deformation of the cylindrical elastic sleeve, so space for mounting the temperature sensing member can be increased, and a general-purpose thermocouple can be used, replacement of the thermocouple is achieved with facility, and manufacturing cost of the device can be reduced.

It is also preferable that a hole having a bottom is bored into the bearing temperature carrying member from a surface contrary to the top end surface thereof so that the bottom of the hole reaches near the top end surface and the temperature sensing member is inserted into the hole.

With the construction, the sensing end of the temperature sensing member is positioned nearer to the top end surface of the bearing temperature carrying member, so bearing temperature can be detected more accurately.

The present invention is featured in composing a bearing device provided with the aforementioned bearing temperature monitoring device. According to the invention, a bearing device provided with a bearing temperature monitoring device increased in reliability.

According to the invention, the top end surface of the bearing temperature carrying member moves toward the back metal together with the compressive deformation of the sliding surface of the bearing layer caused by increased bearing load so that the top end surface of the bearing temperature carrying member does not protrude from the sliding surface of the bearing layer. Therefore, fear of occurrence of scratch on the surface of the rotation shaft due to protruded top end face of the bearing temperature carrying member, which will result in decreased load bearing capacity and also may result in occurrence of damage to the rotation shaft, can be eliminated.

Moreover, as bearing temperature is displayed on the display unit and alarm is raised when bearing temperature exceeds a prescribed permissible temperature, bearing temperature is always monitored so that it is in the permissible temperature range and excessive rise of bearing temperature can be prevented.

As has been described heretofore, a bearing temperature monitoring device and a bearing device provided with the monitoring device can be provided according to the invention. By applying the invention particularly to radial bearings for supporting high-speed rotation shafts of steam turbines and gas turbines via oil film, a practical effective result is obtained that excessive rise of bearing temperature can be prevented.

DETAILED DESCRIPTION OF THE INVENTION

Preferred embodiments of the present invention will now be detailed with reference to the accompanying drawings. It is intended, however, that unless particularly specified, dimensions, materials, relative positions and so forth of the constituent parts in the embodiments shall be interpreted as illustrative only not as limitative of the scope of the present invention.

FIG. 8is a schematic representation of over all configuration of the bearing temperature monitoring device according to the invention.

Referring toFIG. 8, reference numeral1is a radial bearing composed of a back metal3made of steel and a bearing layer2made of resin material adhered to the inner periphery of the back metal3. A rotation shaft not shown in the drawing penetrates the hollow of the bearing1to be supported on the surface of the bearing layer2. Reference numeral1ais a center line of the bearing, center of axle of the rotation shaft.

Reference numeral10is a bearing temperature detecting device detailed later,4is a bearing temperature processing device,5is a display unit, and6is an alarm device. Bearing temperature detected by the bearing temperature detecting device10is inputted as an electric signal to the bearing temperature processing device4, the electric signal is processed to obtain bearing temperature in the bearing temperature processing device4, and the bearing temperature obtained in the device4is displayed on the display unit5. When the bearing temperature obtained in the device4exceeds a permissible limit value, alarm is sounded by the alarm device6.

FIG. 1is a partial longitudinal cross-section of a radial bearing device showing a bearing temperature detection portion of a first embodiment according to the invention (cross sectional view along line A-A inFIG. 8).

Referring toFIG. 1, reference numeral3is a back metal made of steel,2is a bearing layer of resin material and adhered to the inside face of the back metal3. Reference numeral12is a hole for receiving a protruded part11bof a bearing temperature carrying member11which is detailed later, and the hole12being bored to penetrate the bearing layer2from its sliding surface2ato its outside face2bwhich is adhering to the inside face of the back metal3. Reference numeral3zis a hole bored to penetrate the back metal3from its inside face to its outside surface to receive a base part11cfor restricting protrusion of the protruded part11bof the bearing temperature carrying member11, a spring, etc which are detailed later.

Reference numeral10is a bearing temperature detecting device constituted as follows.

The bearing temperature carrying member11is made of material such as white metal and steel which has heat conductivity larger than the bearing layer2. The bearing temperature carrying member11is formed to have a protruded part11bwhich is a cylindrical part to be inserted into the through hole12of the bearing layer2and the base part11cwhich is a cylindrical part to be received in the hole3z, the diameter of the protruded part11bbeing smaller than that of the base part11c. Reference numeral11aindicates a top end surface of the protruded part11b.

Protrusion of the protruded part11bof the bearing temperature carrying member11from the outside face2bof the bearing layer2toward the sliding surface2athereof is restricted by allowing the shoulder11dof the bearing temperature carrying member11to abut on the outside surface2bof the bearing layer2such that the top end surface11adoes not protrude from the sliding surface2aof the bearing layer2.

Reference numeral14is a spring room in the hole3z, and a coil spring13is accommodated in the spring room14. Reference numeral18is a cover member to cover the spring room14. The cover member18is formed to have a circular cylindrical part on a circular flange part18a. The flange part18aof the cover member18is fixed to the back metal3by a plurality of bolts19with the cylindrical part inserted into the hole3z. The coil spring13is compressed by fixing the flange part18ato the back metal to push the bearing temperature carrying member11by its spring force. The shoulder11dis brought to contact against the back side face of the bearing layer2by the spring force. Dimensions of the spring and related parts are determined to push the bearing temperature carrying member11onto the back side face of the bearing layer with a certain constant force. Reference numeral17is an “O” ring to seal the spring room14.

Reference numeral15is a thermocouple connected to the bearing temperature carrying member11to detect the temperature of the bearing temperature carrying member11, the temperature being deemed to represent bearing temperature. The thermocouple15passes through the hollow of the cylindrical part of the cover member18to be connected to a temperature instrument not shown in the drawing. Reference numeral16is a diaphragm seal for sealing the outer periphery of the thermocouple wire.

A minute clearance21is formed between the outer periphery of the protruded part11band the inner periphery of the through hole12and between the outer periphery of base part11cand the inner periphery of the hole3z. The oil on the inside face of the bearing layer2is communicated via the minute clearances21to the spring room14, and oil pressure exerting on the bearing temperature carrying member11is balanced. Therefore, only small spring force of the spring13is needed to energize the bearing temperature carrying member11toward the inside of the bearing layer2.

With the construction, movement of the bearing temperature carrying member11to upward, i.e. toward the inside of the bearing layer2is restricted such that the top end surface11aof the bearing temperature carrying member11does not protrude from the sliding surface2aof the bearing layer2, on the other hand, the bearing temperature carrying member11can be moved toward the back metal3against the spring force of the spring13.

According to the first embodiment, when the bearing layer2which is smaller in Young's modulus than a bearing layer made of cupper alloy such as white metal is compressed by bearing load in the radial direction and the sliding surface2aof bearing layer2is deformed toward the back metal3with the bearing layer being reduced in radial thickness, the top end surface11aof the bearing temperature carrying member11is pushed concurrently toward the back metal3against the spring force of the spring13by the bearing load exerting from the rotation shaft such that the top end surface11ais level with the deformed sliding surface2a.

Therefore, even when compressive deformation of the bearing layer2increases with increased bearing load exerting from the rotation shaft, the bearing temperature carrying member11is moved down by the bearing load so the top end face11athereof is level with the sliding surface of the deformed bearing layer2, there does not occur a state the top end face11aprotrude from the sliding surface2aof the bearing layer2. Accordingly, occurrence of scratching on the rotation shaft by the edge of top end11bwhich may occur with the prior art resulting in decreased load bearing capacity and also resulting in occurrence of damage to the rotation shaft, can be eliminated.

As detected bearing temperature is displayed on the display unit and alarm is sounded by the alarm device6when the detected bearing temperature exceeds a prescribed permissible temperature, bearing temperature is always monitored and excessive rise of bearing temperature is evaded.

By configuring the bearing device such that the bearing temperature carrying member11is moved toward the back metal against the spring force of the spring13such that the top end face11aof the bearing temperature carrying member11is level with the sliding surface2aof the bearing layer2, the bearing temperature carrying member11can be energized toward the bearing layer2from the back metal3with a proper initial load with a compact construction.

FIG. 2is a view as inFIG. 1of a second embodiment of the invention.

In the second embodiment, a through hole20for pressure balancing is drilled to the bearing temperature carrying member11to communicate the top end surface11ato the spring room14. Construction other than that is the same as that of the first embodiment and the same constituent parts as those of the first embodiment are indicated by the same reference numerals.

According to the second embodiment, oil on the sliding surface2aof the bearing layer2can be easily conduced to the back side of the bearing temperature carrying member11via the through hole20, and downward force and upward force exerting on the bearing temperature carrying member11can be balanced rapidly when bearing load exerting from the top end surface2aof the bearing temperature carrying member11, so clearances between the bearing temperature carrying member11, bearing layer2, and back metal3can be adjusted easily without influenced by oil film pressure in the bearing1.

FIG. 3is a view as inFIG. 1of a third embodiment of the invention.

In the third embodiment, an annular protrusion23is formed to the back metal3so that the shoulder11dof the base part11cfor restricting protrusion of the protruded part11bof the bearing temperature carrying member11is allowed to abut on the lower surface of the annular protrusion23such that the top end surface11adoes not protrude from the sliding surface2aof the bearing layer2.

Construction other than that is the same as that of the first embodiment and the same constituent parts as those of the first embodiment are indicated by the same reference numerals.

According to the third embodiment, energizing force of the spring13to push the temperature carrying member1toward the sliding surface2aof the bearing layer2is supported by the annular protrusion23of the back metal3, deformation of the surface of bearing layer2which may occur due to the energizing force of the spring13in the case of the first embodiment in which the energizing force of the spring13exerts directly on the back face of the bearing layer2. Therefore, occurrence of trouble in lubrication of the rotation shaft due to occurrence of irregularity on the surface of the bearing layer can be prevented.

FIG. 4is a view as inFIG. 1of a fourth embodiment of the invention.

In the fourth embodiment, the periphery of the base part11cof the bearing temperature carrying member11is coated with a layer of heat insulating material24.

Construction other than that is the same as that of the first embodiment and the same constituent parts as those of the first embodiment are indicated by the same reference numerals.

According to the fourth embodiment, transfer of heat from the outer periphery of the base part11cof the bearing temperature carrying member11to the back metal through the minute clearance21between the periphery of the base part11cand the inner periphery of the hole3zin the back metal3is prevented or reduced substantially by coating the outer periphery of the base part11cwith the insulating material24.

Therefore, decrease in temperature of the bearing temperature carrying member11as compared with the temperature of the bearing layer due to the heat dissipation from the temperature carrying member11to the back metal3is suppressed, and temperature of the bearing temperature carrying member11can be maintained at substantially the same as that of the bearing layer, which means bearing temperature can be detected more accurately.

FIG. 5is a view as inFIG. 1of a fifth embodiment of the invention.

In the fifth embodiment, the bearing temperature detecting device10is composed as a cartridge-type unit. The cartridge-type bearing temperature detecting unit10is composed such that the bearing temperature carrying member11, the spring13, and the thermocouple15are accommodated in a case25made of insulating material and the protruded part11bof the bearing temperature carrying member11penetrates a through hole25adrilled in the upper part of the case25and the through hole12of the bearing layer2. This cartridge-type temperature detecting unit10is attached detachably to the back metal by means of a plurality of bolts19.

Protrusion of the protruded part11bof the bearing temperature carrying member11from the outside face2bof the bearing layer2toward the sliding surface2athereof is restricted by allowing the shoulder11dof the bearing temperature carrying member11to abut on the sliding surface of the upper part of the case25such that the top end surface11adoes not protrude from the sliding surface2aof the bearing layer2.

Construction other than that is the same as that of the first embodiment and the same constituent parts as those of the first embodiment are indicated by the same reference numerals.

According to the fifth embodiment, the temperature detecting device is composed as a cartridge-type unit10which is composed of a case25made of heat insulating material and having the bearing temperature carrying member11, the spring13, and the thermocouple15accommodated therein, so heat dissipation from the bearing temperature carrying member11to the back metal3is suppressed more effectively, and temperature of the bearing temperature carrying member11can be maintained at substantially the same as that of the bearing layer, which means bearing temperature can be detected more accurately. Moreover, as the cartridge-type unit10can be attached as a bearing temperature measuring unit detachably to the back metal3, assembling and disassembling of the bearing temperature measuring device10can be facilitated.

FIG. 6is a view as inFIG. 1of a sixth embodiment of the invention.

In the sixth embodiment, an annular protrusion23is formed to the back metal3as is in the case of the third embodiment shown inFIG. 3so that the shoulder11dof the base part11cfor restricting protrusion of the protruded part11bof the bearing temperature carrying member11is allowed to abut on the lower surface of the annular protrusion23such that the top end surface11adoes not protrude from the sliding surface2aof the bearing layer2, and a cylindrical sleeve26made of elastic material is inserted into the hole3zin the back metal3to support the bearing temperature carrying member11in stead of the spring13in the third embodiment shown inFIG. 3, the cylindrical sleeve26having a flange part26awith which the sleeve26is screw tightened to the back metal by means of a plurality of bolts28. The bearing temperature carrying member11can move downward (toward the back metal3) when bearing load exerts on the top end surface thereof and the lower end face of the base part11cthereof presses the top end of the cylindrical part of the elastic sleeve to cause elastic compression deformation of the cylindrical part of the elastic sleeve26.

In the embodiment, the sleeve26attached to the back metal3so that the shoulder11dof the bearing temperature carrying member11is allowed to abut on the lower surface of the annular protrusion23via the gasket27for sealing oil leak from the sliding surface2aside such that the top end surface11adoes not protrude from the sliding surface2aof the bearing layer2.

The thermocouple15is located inside the cylindrical sleeve26.

According to the fifth embodiment, the thermocouple15is provided independently of the bearing temperature carrying member11and the cylindrical sleeve26, and radial movement of the bearing temperature carrying member11toward the back metal3is enabled by elastic compression deformation of the cylindrical sleeve26, so space for mounting the thermocouple15can be increased, and a general-purpose thermocouple can be used and replacement of the thermocouple15is achieved with facility.

Construction of the bearing temperature carrying member11is the same as that in the first to fifth embodiment and the same portions thereof are indicated by the same reference numeral.

FIG. 7is a view as inFIG. 6of a seventh embodiment of the invention.

In the seventh embodiment, a hole11efor inserting the thermocouple15is provided in the bearing temperature carrying member11, depth of the hole11ebeing V from the lower surface of the base part of the bearing temperature carrying member11, and the thermocouple15is inserted into the hole11e(reference numeral15aindicates a inserted portion of the thermocouple).

Construction other than that is the same as that of the fifth embodiment shown inFIG. 6and the same constituent parts as those of the fifth embodiment are indicated by the same reference numerals.

According to the seventh embodiment, the temperature sensing end of the thermocouple15is positioned nearer to the top end surface11aof the bearing temperature carrying member11, so bearing temperature can be detected more accurately.

The invention can be applied to a thrust bearing consisting of a plurality of thrust bearing pads each being composed of a bearing layer of resin material and a back metal to which the bearing layer is adhered. For example, a thrust bearing pads composed of a bearing layer and a back metal to which the bearing layer is adhered is provided, in which a cylindrical space for accommodating parts constituting a bearing temperature detecting device is provided in the back metal, a through hole is drilled to penetrate the bearing layer to be connected to the cylindrical space in the back metal, wherein the parts constituting the bearing temperature detecting device includes: a bearing temperature carrying member made of material having a coefficient of thermal conductivity larger than that of the bearing layer and shaped to have a protruded part to be inserted slidably into the through hole in the bearing layer and a base part to be received in the cylindrical space in the back metal, the base part serving to restrict protrusion of the protruded part into the through hole so that the top end surface thereof is level with, and not protrudes from the surface of the bearing layer; a pushing member which is attached to the back metal to push the bearing temperature carrying member so that the protruded part thereof protrudes into the through hole in the bearing layer until the protrusion is restricted by the base member thereof and shrinks to allow the bearing temperature carrying member to move toward the back metal against the pushing force of the pushing member when bearing load exerts on the bearing temperature carrying member; and a temperature sensing member for detecting temperature of the bearing temperature carrying member.

Industrial Applicability

According to the invention, a bearing temperature monitoring device of a bearing composed of a bearing layer of resin material and a back metal to which the bearing layer is adhered, with the device the bearing temperature carrying member made of metal of which the top end surface faces the surface of the rotation shaft supported by the bearing does not cause to scratch the surface of the rotation shaft by composing such that protrusion of the top end surface of the bearing temperature carrying member from the sliding surface of the bearing layer is prevented and as a result occurrence of decrease in load bearing capacity and occurrence of damage to the rotation shaft can be prevented resulting in increased reliability, and a bearing device provided with the monitoring device.