DE202013005018U1 - Device for monitoring the life of a fan bearing - Google Patents

Abstract

A device for monitoring the life of a fan bearing applied to a fan (1), comprising a base plate (10) having a bearing bush (101) extending upwardly from the center of the base plate (10) and a storage space ( 1011), wherein in the storage space (1011) at least one bearing (12) is arranged, which has an axle hole (121), at least one sensor unit (2) which is arranged on the bearing bush (101) or the bearing (12), for measuring the temperature of the bearing (12) and generates a temperature signal, a processor unit (3) which is electrically connected to the sensor unit (2) receives the temperature signal, compares this with a predetermined temperature value and generates a measurement signal, and a control circuit board (4), which is arranged on the base plate (10) and located close to the bearing bush (101), wherein on one side of the control circuit board (4) the processor unit (3) is arranged, wherein the Steu shedding plate (4) with the processor unit (3) is electrically connected.

Description

Technical area

The invention relates to a device for monitoring the life of a fan bearing, which can monitor the condition and the remaining life of the bearing, has an easy operation and assembly and reduces costs.

State of the art

Cooling fan may generate an air flow to dissipate the heat of the electrical or electronic components, so that cooling is achieved. This allows the electrical or electronic components to be protected against heat to extend their life.

The cooling fan usually has a bearing and a wheel axle, which are rotated against each other. The cooling quality of the cooling fan is influenced by the bearing. Therefore, the life of the bearing is very important for the cooling fan.

During the test, the bearing is received in a bearing bush on the test bench. Through the bearing, the wheel axle of an engine is guided. At the bearing (or near the bearing) is disposed a sensor formed by an acceleration sensor or the like. The acceleration sensor is electrically connected to a digital signal processor. When the wheel axle of the motor is rotated, the bearing is moved. The acceleration sensor can measure the vibration of the bearing and generate a vibration signal. The digital signal processor receives the vibration signal and thereby evaluates the state of the bearing (whether the bearing has an abnormality).

The problem with this test is that the usable space of the test table is limited, so that the arrangement of the acceleration sensor is heavy. In addition, the acceleration sensor is expensive. Furthermore, the evaluation by the digital signal processor is complicated.

• 1. die Anordnung des Beschleunigungssensors ist schwer;
• 2. die Kosten sind hoch.

Therefore, the conventional solution has the following disadvantages:

• 1. the arrangement of the acceleration sensor is heavy;
• 2. the costs are high.

For this reason, in view of the disadvantages of conventional solutions based on many years of experience in this field, the inventor has, after much study, numerous trials and constant improvements, developed the present invention.

Object of the invention

The invention has for its object to provide a device for monitoring the life of a fan bearing, which can monitor the condition and the remaining life of the bearing.

Another object of the present invention is to provide an apparatus for monitoring the life of a fan bearing which has easy operation and assembly and reduces costs.

These objects are achieved by the device according to the invention for monitoring the life of a fan bearing, comprising: a base plate having a bearing bush which extends upwards from the center of the base plate and has a storage space, wherein at least one bearing is arranged in the storage space, which has an axle hole; at least one sensor unit, which is arranged on the bearing bush or the bearing, serves to measure the temperature of the bearing and generates a temperature signal; a processor unit electrically connected to the sensor unit, receiving the temperature signal, comparing it with a predetermined temperature value and generating a measurement signal; and a control circuit board disposed on the base plate and located close to the bearing bush, wherein on one side of the control circuit board, the processor unit is arranged, wherein the control circuit board is electrically connected to the processor unit.

Brief description of the drawings

1 a block diagram of the invention,

2A a sectional view of the first preferred embodiment in the disassembled state of the invention,

2 B a sectional view of the first preferred embodiment in the assembled state of the invention,

3A a sectional view of the second preferred embodiment in the disassembled state of the invention,

3B a sectional view of the second preferred embodiment in the assembled state of the invention,

4A a sectional view of the third preferred embodiment in the disassembled state of the invention,

4B a sectional view of the third preferred embodiment in the assembled state of the invention,

5A a sectional view of the fourth preferred embodiment in the disassembled state of the invention,

5B a sectional view of the fourth preferred embodiment in the assembled state of the invention,

6A a sectional view of the fifth preferred embodiment in the disassembled state of the invention,

6B a sectional view of the fifth preferred embodiment in the assembled state of the invention.

Ways to carry out the invention

Further details, features and advantages of the invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

The 1 . 2A and 2 B show the first preferred embodiment of the device according to the invention for monitoring the life of a fan bearing, which is based on a fan 1 is applied. The ventilator 1 includes a frame 11 , a paddle wheel 14 , a base plate 10 and a sheet steel stack 13 , The frame 11 has a recording room 111 on. The base plate 10 is in the middle of the frame 111 and has a bearing bush 101 on, extending from the center of the base plate 10 extends to the top and a storage room 1011 has. In the storage room 1011 is at least one warehouse 12 arranged, which is an axle hole 121 has. Around the bearing bush 101 is the steel sheet pile 13 placed.

The paddle wheel 14 is on the bearing bush 101 stored and has a wheel axle 141 on, with one end on the paddle wheel 14 attached and with the other end through the axle hole 121 to be led. The paddle wheel encloses the steel sheet stack 13 , creating a magnetic element 143 in the paddle wheel 14 the steel sheet pile 13 opposite.

The monitoring device comprises the base plate 10 , at least one sensor unit 2 , a processor unit 3 and a control circuit board 4 , The sensor unit 2 is formed by a temperature sensor and can be attached to the bearing bush 101 or the warehouse 12 be arranged. In the present embodiment, the sensor unit 2 at the camp 12 arranged. The warehouse 12 is a single bearing (such as ball bearings, oily bearings, roller bearings or ceramic bearings). The invention is not limited thereto. In practice, the sensor unit 2 at any point of the fan 1 at which the temperature of the bearing 12 can be measured, arranged. The sensor unit 2 serves to measure the temperature of the bearing 12 and generates a temperature signal representing the current temperature value of the bearing 12 contains.

The processor unit 3 is formed by a microprocessor and with the sensor unit 2 electrically connected. The processor unit receives the temperature signal, compares this with a predetermined temperature value and generates a measurement signal. Ie. the processor unit 3 compares the received temperature signal with a predetermined temperature value calculated with a stored formula for the life of the fan bearing and generates a measurement signal that indicates the normality or abnormality of the bearing 12 and the life (remaining life) of the bearing 12 contains. For example, the processor unit 3 receives a temperature signal of 70 degrees, compares it with a preset temperature value of 40 degrees, and generates, after the calculation with the formula for the life of the bearing, a measurement signal that indicates the abnormality of the bearing 12 (the temperature of the bearing exceeds the preset temperature value) and the life (the remaining life) of the bearing contains.

The predetermined temperature value is a predetermined temperature value or a temperature value from the manufacturer. The measurement signal contains information about the lifetime and the abnormality. The life information includes the remaining life of the bearing 12 , The information about the abnormality includes damage, malfunction or overheating of the bearing.

The control circuit board 4 is formed by a printed circuit board and on the base plate 10 arranged. In the present embodiment, the control circuit board is located 4 on the paddle wheel 14 facing side of the base plate and is close to the bearing bush 101 , The invention is not limited thereto. On one side of the control circuit board 4 is the processor unit 3 arranged. The control circuit board 4 is with the processor unit 3 and the sheet steel stack 13 electrically connected and has a communication interface 41 on that with an electronic device 5 (such as computer, smartphone, notebook) is connected. This allows the processor unit 2 the measuring signal through the communication interface 41 transferred to the electronic device, allowing the user through the electronic device 5 can receive information about the life and abnormality of the warehouse.

In the present embodiment, the communication interface 41 and the electronic device 5 wired together (through a transmission cable or signal cable). The invention is not limited thereto. In practice, a wireless connection can also be used (such as WiFi, 3G, 4G, Bluetooth). The electronic device 5 can through the communication interface 41 the predetermined temperature value in the processor unit 3 adjust, z. B. the predetermined temperature value in the processor unit 3 from 40 degrees to 35 degrees.

Like from the 1 . 2A and 2 B It can be seen when the fan 1 is rotated monitors the sensor unit 2 the temperature of the warehouse 12 and sends the temperature signal to the processor unit 3 , The processor unit 3 receives the temperature signal, compares it with the preset temperature value, calculates with a stored formula for the life of the fan bearing and generates a measuring signal. The measuring signal is transmitted through the communication interface 41 on the electronic device 5 transmit, causing the user through the electronic device 5 receives the information about the life and normality of the warehouse.

If the warehouse 12 the fan 1 is damaged (eg overtemperature), sends the sensor unit 2 the temperature signal of the bearing 12 to the processor unit 3 , The processor unit 3 receives the temperature signal from z. B. 70 degrees, this compares with the predetermined temperature value of z. B. 40 degrees calculated with a stored formula for the life of the fan bearing and generates a measurement signal. The measuring signal is transmitted through the communication interface 41 on the electronic device 5 transmit, causing the user through the electronic device 5 the information about the life and the abnormality of the bearing (overtemperature) receives. Therefore, the condition and the remaining life of the bearing 12 be monitored.

By monitoring device according to the invention, the state and the remaining life of the bearing 12 be monitored. In addition, the costs can be reduced and the operation and assembly can be facilitated.

The 3A and 3B show in conjunction with 1 the second preferred embodiment of the invention, which differs from the first preferred embodiment only in that the sensor unit 2 on the bearing bush 101 is arranged. The bearing bush 101 has at least one through hole 1013 on, extending from the outside to the inside of the bearing bush 101 extends and with the storage room 1011 connected is. Ie. the through hole 1013 goes through the bearing bush 101 through, is with the storeroom 1011 the bearing bush 101 connected and is the camp 12 in the storage room 1011 across from.

In the through hole 1013 is the sensor unit 2 arranged the temperature of the camp 12 detects (or monitors) and a corresponding temperature signal to the processor unit 3 sends.

In this embodiment, the bearing bush has 101 only one through hole 1013 , The invention is not limited thereto. In practice, the bearing bush 101 as needed also several through holes 1013 own to multiple sensor units 2 take.

The 4A and 4B show in conjunction with 1 the third preferred embodiment of the invention, which differs from the first preferred embodiment only in that the bearing bush 101 on the inside a platform 102 forms, extending from the inside of the bearing bush 101 to the center of the storage room 1011 extends and a first end face 1021 and one of the first end face 1021 opposite second end face 1022 has. The first face 1021 is the free end of the bearing bush 101 (the base plate 10 opposite end of the bearing bush 101 ). The second face 1022 is the base plate 10 facing.

In this embodiment, the bearing 12 formed by a double bearing (such as ball bearings, oily bearings, roller bearings or ceramic bearings). Ie. the warehouse 12 contains a first camp 123 and a second camp 124 , The first camp 123 is on the first face 1021 arranged. The sensor unit 2 lies on the first end face 1021 opposite side of the first camp. The sensor unit 2 monitors the temperature of the first bearing 123 and through the bearing bush 101 and the platform 102 the temperature of the second bearing 124 and sends a corresponding temperature signal to the processor unit 3 , The second camp 124 is on the second end face 1022 arranged.

The sensor unit 2 detects (or monitors) the temperature of the first and second bearings 123 . 124 in the bearing bush 101 and sends a corresponding temperature signal to the processor unit 3 , The processor unit 3 receives the temperature signal, compares it with a predetermined temperature value and generates a measurement signal that is sent to the electronic device 5 is transmitted. The user can through the electronic device 5 the information about the life and the normality or abnormality of the first and second camp 123 . 124 receive.

The 5A and 5B show in conjunction with 1 the fourth preferred embodiment of the invention, which differs from the third preferred embodiment only in that the sensor unit 2 on the bearing bush 101 is angerodnet. The bearing bush 101 has at least one through hole 1013 on, extending from the outside to the inside of the bearing bush 101 extends and with the storage room 1011 connected is. Ie. the through hole 1013 goes through the bearing bush 101 through, is with the storeroom 1011 the bearing bush 101 connected and is the second camp 124 in the storage room 1011 across from.

In the through hole 1013 is the sensor unit 2 arranged the temperature of the second camp 124 and through the bearing bush 101 and the platform 102 the temperature of the first bearing 123 detects (monitors) and sends a corresponding temperature signal to the processor unit 3 sends.

The sensor unit 2 monitors the temperature of the first and second bearings 123 . 124 and the processor unit 3 generates a measuring signal, which causes the condition of the bearing 12 and the remaining life of the bearing can be monitored. In addition, the costs can be reduced and the operation and assembly can be facilitated.

The 6A and 6B show in conjunction with 1 the fifth preferred embodiment of the invention, which differs from the third preferred embodiment only in that the sensor unit 2 a first temperature sensor 21 and a second temperature sensor 22 having. The first temperature sensor 21 is on the first end face 1021 opposite side of the first camp 123 arranged and serves to detect the temperature of the first bearing 123 , whereby a first temperature signal is generated.

The second temperature sensor 22 is in the through hole 1013 the bearing bush 101 arranged, extending from the outside to the inside of the bearing bush 101 extends, with the storage room 1011 connected and the second camp 124 opposite. The second temperature sensor 22 serves to detect the temperature of the second bearing 124 , whereby a second temperature signal is generated.

The processor unit 3 receives the first and second temperature signals, compares these temperature signals with the predetermined temperature value, calculated with a stored formula for the life of the fan bearing and generates a measurement signal. The measuring signal is transmitted through the communication interface 41 on the electronic device 5 transmit, causing the user through the electronic device 5 the information about the condition of the first and second warehouse 123 . 124 (Normality or abnormality of the first and second camp 123 . 124 ) and the remaining life of the first and second bearings 123 . 124 can receive. This allows the condition and the remaining life of the bearing 12 be monitored. In addition, the costs can be reduced and the operation and assembly can be facilitated.

• 1. Überwachung des Zustands und der restlichen Lebensdauer des Lagers;
• 2. leichte Bedienung und Montage;
• 3. niedrige Kosten.

Therefore, the invention has the following advantages:

• 1. Monitoring the condition and remaining life of the bearing;
• 2. easy operation and installation;
• 3. low cost.

The foregoing description represents only the preferred embodiments of the invention and is not intended to serve as a definition of the limits and scope of the invention. All equivalent changes and modifications are within the scope of this invention.

Claims (12)

Device for monitoring the life of a fan bearing mounted on a fan ( 1 ), comprising a base plate ( 10 ), which is a bearing bush ( 101 ) extending from the center of the base plate ( 10 ) and a storage room ( 1011 ), whereby in the storeroom ( 1011 ) at least one warehouse ( 12 ), which is an axle hole ( 121 ), at least one sensor unit ( 2 ) on the bearing bush ( 101 ) or the warehouse ( 12 ) is arranged to measure the temperature of the bearing ( 12 ) and generates a temperature signal, a processor unit ( 3 ) connected to the sensor unit ( 2 ) is electrically connected, receives the temperature signal, compares this with a predetermined temperature value and generates a measurement signal, and a control circuit board ( 4 ), which are on the base plate ( 10 ) and close to the bearing bush ( 101 ), wherein on one side of the control circuit board ( 4 ) the processor unit ( 3 ), wherein the control circuit board ( 4 ) with the processor unit ( 3 ) is electrically connected. Apparatus according to claim 1, characterized in that around the bearing bush ( 101 ) the steel sheet stack ( 13 ) connected to the control circuit board ( 4 ) is electrically connected, wherein on the bearing bush ( 101 ) a paddle wheel ( 14 ), which is a wheel axle ( 141 ) having one end on the impeller ( 14 ) and with the other end through the axle hole ( 121 ) is guided, wherein the impeller the steel stack ( 13 ) encloses. Device according to claim 1, characterized in that the sensor unit ( 2 ) at the warehouse ( 12 ) is arranged to measure the temperature of the bearing ( 12 ) and generates a temperature signal which is sent to the processor unit ( 3 ) is sent. Device according to claim 1, characterized in that the sensor unit ( 2 ) on the bearing bush ( 101 ) is arranged and the bearing bush ( 101 ) at least one through hole ( 1013 ), which extends from the outside to the inside of the bearing bush ( 101 ), with the storage room ( 1011 ) and the warehouse ( 12 ) in the storage room ( 1011 ), wherein in the through hole ( 1013 ) the sensor unit ( 2 ) is arranged. Apparatus according to claim 1, characterized in that the bearing bush ( 101 ) on the inside a platform ( 102 ), which extends from the inside of the bearing bush ( 101 ) to the center of the storage room ( 1011 ) and a first end face ( 1021 ) and one of the first end face ( 1021 ) opposite second end face ( 1022 ), wherein the first end face ( 1021 ) the free end of the bearing bush ( 101 ), wherein the second end face ( 1022 ) of the base plate ( 10 ) is facing. Device according to claim 5, characterized in that the bearing ( 12 ) a first warehouse ( 123 ) and a second warehouse ( 124 ), the first bearing ( 123 ) on the first end face ( 1021 ) and the second camp ( 124 ) on the second end face ( 1022 ) is arranged. Apparatus according to claim 6, characterized in that the sensor unit ( 2 ) on the first end face ( 1021 ) facing away from the first bearing, the temperature of the first bearing ( 123 ) and the corresponding temperature signal to the processor unit ( 3 ) sends. Apparatus according to claim 6, characterized in that the sensor unit ( 2 ) on the bearing bush ( 101 ), wherein the bearing bush ( 101 ) at least one through hole ( 1013 ), which extends from the outside to the inside of the bearing bush ( 101 ) and with the storage room ( 1011 ) and the second warehouse ( 124 ) in the storage room ( 1011 ) is opposite. Apparatus according to claim 6, characterized in that the sensor unit ( 2 ) a first temperature sensor ( 21 ) and a second temperature sensor ( 22 ), wherein the first temperature sensor ( 21 ) on the first end face ( 1021 ) facing away from the first bearing ( 123 ) and for detecting the temperature of the first bearing ( 123 ), whereby a first temperature signal is generated, wherein the second temperature sensor ( 22 ) in the through hole ( 1013 ) of the bearing bush ( 101 ) is arranged, which extends from the outside to the inside of the bearing bush ( 101 ), with the storage room ( 1011 ) and the second warehouse ( 124 ), the second temperature sensor ( 22 ) for detecting the temperature of the second bearing ( 124 ), whereby a second temperature signal is generated, wherein the processor unit ( 3 ) receives the first and second temperature signals. Device according to claim 1, characterized in that the control circuit board ( 4 ) a communication interface ( 41 ) connected to an electronic device ( 5 ), whereby the processor unit ( 2 ) the measuring signal through the communication interface ( 41 ) can be transferred to the electronic device. Device according to claim 1, characterized in that the processor unit ( 3 ) by a processor and the sensor unit ( 2 ) is formed by a temperature sensor. Apparatus according to claim 10, characterized in that the communication interface ( 41 ) wired or wirelessly to the electronic device ( 5 ) connected is.

Images