1. Field of the Invention
The present invention relates to a ball screw device or a linear motion guide device having a bearing failure monitoring device, and more particularly to a ball screw device or a linear motion guide device having a bearing failure monitoring device for sensing or detecting a wear or failure of the ball bearing members and for generating a warning signal.
2. Description of the Prior Art
Typical ball screw devices or linear motion guide devices comprise a ball nut or sliding member slidably attached or mounted onto an elongated member or screw shaft, and having helical ball guiding passages formed therein for forming or defining an endless multiple-turn, helical raceway therein, and a number of ball bearing members engaged in the endless multiple-turn, helical raceway for facilitating the sliding movement between the elongated member or screw shaft and the ball nut or sliding member.
Normally, the elongated member or screw shaft and the ball nut or sliding member may be slid or moved in a great speed relative to each other, and the ball bearing members may have a good chance to become wear or escape after use, and the typical ball screw devices or linear motion guide devices may also become failure after use.
For example, U.S. Pat. No. 7,299,703 to Balasu et al. discloses one of the typical bearing balls escape and wear annunciator arrangements for ball screws including an arrangement for detecting a load bearing failure and including a pair of electrical sensors installed on a load path that is threadedly engaged with the screw shaft, and the electrical sensors are required to be engaged into the helical threaded portions or grooves of the screw shaft in order to detect the load bearing failure.
However, it will be difficult to install or dispose or attach or mount the electrical sensors into the load path, and the electrical sensors may not be used to suitably or effectively sense or detect the wear or failure of the ball bearing members due to the filling or engagement of the grease or lubricating oil in the endless multiple-turn, helical raceway that receives the ball bearing members.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages of the conventional bearing failure monitoring devices for ball screw devices or linear motion guide devices.
The primary objective of the present invention is to provide a ball screw device or a linear motion guide device including a bearing failure monitoring device for easily and readily sensing or detecting a wear or failure of the ball bearing members and for generating a warning signal.
In accordance with one aspect of the invention, there is provided a linear motion guide device comprising an elongated member including a helical threaded groove formed on an outer peripheral surface thereof, a movable member including a bore formed therein for receiving the elongated member and for movably attaching onto the elongated member, and including a helical threaded groove formed therein and aligned with the helical threaded groove of the elongated member for forming a ball guiding passage between the elongated member and the movable member, the movable member including a depression formed therein and communicative with the helical threaded groove and the ball guiding passage of the movable member, a deflecting device attached to the depression of the movable member and including a deflecting pathway formed therein and communicative the ball guiding passage and the helical threaded groove of the movable member for forming an endless multiple-turn, helical raceway between the elongated member and the movable member, a number of ball bearing members disposed in the endless multiple-turn, helical raceway that is formed between the elongated member and the movable member for facilitating a sliding movement between the elongated member and the movable member, and a detecting device including a magnetic member and an integrated circuit disposed and secured into the movable member, and arranged close to the endless multiple-turn, helical raceway of the linear motion guide device for detecting a moving frequency of the ball bearing members through the endless multiple-turn, helical raceway of the linear motion guide device.
The movable member includes a compartment formed therein and communicative with the depression of the movable member for receiving the magnetic member and the integrated circuit of the detecting device.
The magnetic member may be selected from a permanent magnetic member, or an electrico-magnetic member. The integrated circuit of the detecting device is disposed for a spacing distance smaller than 15 mm from the ball bearing members.
The integrated circuit of the detecting device includes a first terminal and a second terminal coupled to a power supply, and a third terminal coupled to a processing device. The processing device may include a frequency counter and a comparator, a frequency counter and an operator, or a frequency counter and a comparator and an operator.
The processing device may be selected from a micro processor. The detecting device may include a relay and a warning device coupled to the processing device, and may include an encoder and a display coupled to the processing device.
The integrated circuit of the detecting device may be selectively disposed between the magnetic member and the ball bearing members, or the magnetic member of the detecting device may be selectively disposed between the integrated circuit of the detecting device and the ball bearing members, or the ball bearing members may be selectively disposed between the magnetic member and the integrated circuit of the detecting device.
Further objectives and advantages of the present invention will become apparent from a careful reading of the detailed description provided hereinbelow, with appropriate reference to the accompanying drawings.
Referring to the drawings, and initially to
The helical threaded portion or groove 11 of the screw shaft or member 10 is aligned with the helical threaded portion or groove 22 of the ball nut 20 for forming or defining a ball guiding passage 30 between the screw shaft 10 and the ball nut 20, and the ball nut 20 includes one or more depressions 23 formed therein and arranged and intersected or communicated with the helical threaded portion or groove 22 or the ball guiding passage 30 of the ball nut 20 for receiving or attaching or engaging with deflecting devices 40 which are attached or mounted or secured to the depressions 23 of the ball nut 20 and each of which includes a deflecting pathway 41 formed therein and aligned with or communicative the ball guiding passage 30 of the ball nut 20 for forming or defining a single endless multiple-turn, helical raceway 33 and for slidably receiving a number of ball bearing members 80 and for facilitating the sliding or rotational movement between the elongated bolt or screw shaft or member 10 and the movable member or ball nut 20.
The ball nut 20 further includes a cavity or recess or compartment 24 formed therein and preferably, but not necessarily communicative with the depression 23 of the movable member or ball nut 20 for receiving or engaging with a detecting device 5. For example, the detecting device 5 includes a magnetic member 50 and an integrated circuit (Hall IC) 51 disposed or attached or mounted or secured into the compartment 24 of the ball nut 20 with such as adhesive materials, latches or fasteners (not shown), in which the attachment or securing of the magnetic member 50 and the integrated circuit (Hall IC) 51 of the detecting device 5 into the compartment 24 of the ball nut 20 is not related to the present invention and will not be described in further details. The magnetic member 50 may be selected from a permanent magnetic member 50 or an electrico-magnetic member 50. The IC 51 and/or magnetic member 50 of the detecting device 5 are thus disposed or arranged close to or beside the endless multiple-turn, helical raceway 33 of the linear motion guide device 1 for detecting the moving frequency or the movement of the ball bearing members 80 through the endless multiple-turn, helical raceway 33 of the linear motion guide device 1.
The detecting device 5 further includes a battery or power supply 52 having different poles coupled to the two legs or feet or terminals 53, 54 of the IC 51, and the IC 51 further includes another leg or foot or terminal 55 coupled to a processing device 56 which may be selected from a micro processor; a frequency counter and a comparator; a frequency counter and an operator; or a frequency counter and a comparator and an operator; or the like, for receiving the signals from the IC 51 and for treating or controlling or operating or processing the signals from the IC 51, and a relay 57 is coupled to the processing device 56, and a warning device 58 is coupled to the relay 57 and the battery or power supply 52 and may be selected from a light member or buzzer (not shown) for generating a warning signal, such as a warning light or a warning sound.
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It is to be noted that the IC 51 and the magnetic member 50 of the detecting device 5 are disposed or attached or mounted or engaged in the compartment 24 that is deeply formed in the movable member or ball nut 20 and communicative with the depression 23 of the movable member or ball nut 20, such that the IC 51 and the magnetic member 50 of the detecting device 5 are not required to be engaged into the helical threaded portions or grooves 11 of the screw shaft or member 10, and may be easily and quickly disposed or attached or mounted or engaged into the compartment 24 of the movable member or ball nut 20.
Accordingly, the ball screw device or a linear motion guide device in accordance with the present invention includes a bearing failure monitoring device for easily and readily sensing or detecting a wear or failure of the ball bearing members and for generating a warning signal.
Although this invention has been described with a certain degree of particularity, it is to be understood that the present disclosure has been made by way of example only and that numerous changes in the detailed construction and the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention as hereinafter claimed.