NL1033359C2 - Revolution counter for wrist exerciser has wireless receiver that receives data transmitted from wireless transmission module and converts data into corresponding output signal - Google Patents

Abstract

The counter has a generator module (10) located between the exerciser casing (210, 220) and rotor (240), designed to generate electrical power when the rotor is turning. A sensor located inside the exerciser (200) and electrically powered by the generator module detects rotor revolutions. A wireless transmission module (40) receives electrical power from the generator module and a detection signal from the sensor, allowing data relating to the revolutions per minute and total revolution count for the rotor to be calculated and then transmitted wirelessly. A wireless receiver (50) receives the transmitted data and converts it into a corresponding output signal. The exerciser comprises a rotor inside a stationary casing.

Description

Brief indication: Rotation counter for wrist exercise device DESCRIPTION Background of the invention 1. Field of the invention

The present invention generally relates to an exposure device and in particular to an exposure device comprising spherical light-emitting elements or the like that can be mounted on an item of clothing for illuminating the item of clothing.

10 2, State of the art

Wrist exercise balls are known and are widely used for exercising and training the wrist muscles, as well as for rehabilitation purposes. Examples are shown in Taiwanese patent number 135058 and US patent number 5,800,311. Both references describe a spherical wrist exercise device that allows a user to exercise her or his wrist muscles by rotating the sphere.

However, some of the currently available wrist exercise devices are not equipped with counters. The user who attempts to accurately follow a training program cannot obtain knowledge of how many exercises have been done. Although some of the known wrist exercise devices are provided with a counter which is often mounted on an external surface of a housing, such a counter is often large, whereby the overall dimensions of the wrist exercise device are considerably increased and the appearance of the device is thereby reduced. Such a counter 25 also introduces an undesired resistance when the user uses the exercise device.

Another drawback of the conventional wrist exercise meter counter is that the counter is powered by a DC power source such as batteries. Loss of nutrition is always a concern for users who use the wrist exercise device for a longer period of time. Replacing an empty battery is also difficult for users. A further problem of the conventional counter is that the counter is mounted on the outside of the wrist exercise device. This prevents the user from being able to check the revolutions of the wrist exercise device when the user is busy. In other words, timely access to the wrist exercise device 1 0 33 3 59-2 rotation information is very difficult, if not impossible. This information is, for example, not stored for later use or transferred to other electronic devices. These conventional counters are apparently subject to limitations in practical applications.

It is therefore desirable to have a wrist exercise device with a counter which overcomes the above-discussed disadvantages of the conventional devices. Summary of the invention

A first object of the present invention is to provide a wrist exercise device with a revolution counter, composed of a generator module and a pair of revolution detection elements in which, through the rotation of the wrist exercise device, the generator module provides electrical power for driving the rotation detection elements to count the revolutions of the wrist exercise device.

A further object of the present invention is to provide a wrist exercise device comprising a revolution counter mounted internally in the device to prevent reduction of the external view of the device and also to control a user's control of improve the layout.

A further object of the present invention is to provide a wrist exercise device comprising a revolution counter operating in a wireless communication mode, wherein the counter comprises a wireless transmission module arranged within the wrist exercise device and which is electrically connected to the rotation detection elements for transmission of rotation information. in a wireless manner and a wireless receiver that receives the rotation information and applies it to an external electronic device, such as a display device, for directly displaying the rotation information or a data processing device, such as a personal computer, mobile telephone, personal digital assistant (PDA) , for processing and storing the revolution information for later use.

In order to achieve the above objectives, according to the present invention, a revolution counter is mounted in a wrist exercise device and comprises a generator module, at least a pair of detection elements, a wireless transmission module and a wireless receiver. The generator module, the detection elements and the wireless transmission module are arranged between a rotor and a stationary housing of the wrist exercise device. The rotation of the rotor with respect to the housing induces a voltage in the generator module, which is supplied to the detection elements and the wireless transmission module. The detection elements detect the rotation of the rotor and generate a signal associated with the rotation of the data for the wireless transmission module. The wireless transmission module converts the signal into corresponding data and transmits the data wirelessly. The wireless receiver receives the data and displays the data on a display device or transmits the data to an external electronic device. As such, a self-powered revolution counter for a wrist exercise device can be realized and wireless transmission of rotation-related data can be accomplished.

Brief description of the drawings

The present invention will become apparent to those skilled in the art by reading the following description of preferred embodiments thereof, with reference to the accompanying drawings in which:

Figure 1 is a perspective view of a wrist exercise device constructed in accordance with a first embodiment of the present invention; Figure 2 is an exploded view of the wrist exercise device illustrated in Figure 1;

Figure 3 is an enlarged-scale perspective view showing the spatial relationship between a power generator module, revolution detection elements, a wireless transmission module, a rotor, and a retaining ring of the wrist exercise device of the present invention;

Figure 4 is a cross-sectional view of the wrist exercise device illustrated in Figure 1;

Figure 5 is a block diagram of a circuitry of the generator module, the wireless transmission module and the wireless receiver of the wrist exercise device of the present invention;

Figure 6 is similar to Figure 3 but shows a wrist exercise device according to a second embodiment of the present invention;

Figure 7 is similar to Figure 3 but shows a wrist exercise device according to a third embodiment of the present invention; 4

Figure 8 is a perspective view showing a wrist exercise device according to a fourth embodiment of the present invention, together with an external electronic device that receives rotation information from the wrist exercise device; Figure 9 is a block diagram of a circuitry of the wireless receiver of the wrist exercise device illustrated in Figure 8.

Detailed description of the preferred embodiments

With reference to the drawings and in particular to Figures 1-4, which show a wrist exercise device constructed in accordance with a first embodiment of the present invention, the wrist exercise device comprises a wrist exercise part generally designated by the reference numeral 200 and a revolution count part , generally designated by the reference numeral 100.

The exercise device 200 includes a housing made of upper and lower housing parts 210, 220, which are hemispherical shell-shaped elements engaging each other to form a spherical housing within which a rotor 240 is rotatably supported. Fastening means 212, 221 are respectively formed on the upper and lower housing elements 210, 220 for securing the upper and lower housing parts 210, 220 together in cooperation. The upper housing part 210 forms a hole 211 through which the rotor 240 is accessible.

Between the upper and lower housing elements 210, 220 a mounting ring 230 is arranged. The mounting ring 230 forms two holes 231, 232 exactly opposite one another about a center axis of the sphere. The rotor 240 has a rotary shaft 241 with two ends that extend beyond the rotor 240 and are rotatably received in the holes 231, 232 of the retaining ring 230. This fixes the rotor 240 within the housing, but allows the rotor 240 to rotate about the axis of rotation 241 between the upper and lower housing elements 210, 220.

A circumferential groove 242 is defined on the rotor 240, substantially opposite the hole 211 of the upper housing element 210. An aperture 243 is formed in the groove 242. A separate pull cord 244 has an inner end that extends into the housing through the hole 211 of the upper housing element 210. The inner end of the cord 244 can be inserted into the cavity 243 and releasably secured to allow it to cord 244 around the rotor 240 because it extends in a recordable manner along the groove 242. By pulling the cord 244 from the rotor 240, the rotor 240 is driven by the pulling force and therefore rotates within the housing. Axially extending channels 245 are defined through the rotor 240. The above description with regard to the wrist exercise device 200 is known, so that further details which do not relate to the new features of the present invention are therefore not necessary herein.

Also referring to Figure 5, the revolution counter 100 according to the present invention comprises a generator module 10, at least a pair of revolution detection elements 20, 30, and a wireless transmission module 40 and a wireless receiver 50. The generator module 10 comprises a magnet 11, electric windings 12 and a voltage control circuit 13. The magnet 11 is mounted on a protrusion 233 formed on a retaining ring 230 of the wrist exercise device 200. The windings 12 are placed in the rotor 240 at a position opposite the magnet 11. In the illustrated embodiment, the generator module 10 is designed as a circuit board which is preferably fixedly mounted in a recess formed on the rotor 240. The windings 12 are arranged on the circuit board and opposite the magnet 11. Therefore, when the rotor 240 rotates while the retaining ring 230 remains stationary, the electromagnetic reaction between the magnet 11 and the windings 12 induces an electrical voltage in the windings 12 which is supplied to the control circuit 13 which is also formed on the circuit board. providing a stable direct current output signal.

It will be appreciated that the generator module 10 may be of any known type of voltage generating device rather than the combination of magnets, electrical winding and control circuit which provides a stable direct current. The rotation detection elements 20, 30 are mounted within the housing of the exercise device 200 to detect the rotations of the rotor 240 rotating within the housing. In the embodiment illustrated in Figs. 1-5, the two detection elements 20, 30 are a photosensor and a reflector mounted on the circuit board of the generator module 10 and a bracket 233A extending from the projection set 233 of the retaining ring 230 and are opposite each other. Therefore, when the rotor 240 6 rotates within the housing, the photo sensor 20 emits a light beam to the reflector 30 and receives a reflection beam from the reflector 30. This provides rotations from the rotor 240 to the photo sensor 20 and in response a rotation count signal S is transmitted by the photo sensor 20. The photo sensor 20 is electrically coupled to and is therefore fed by the generator module 10.

The wireless transmission module 40 is mounted on the rotor 240, preferably on an opposite side of the rotor 240 relative to the generator module 10. The wireless transmission module 40 is electrically connected by 10 electric wires 41, 42 to the control circuit 13 of the generator module 10 and the revolution detection element 20, for receiving electrical supply and the revolution counter signal S from the generator module 10 and the photo sensor 20. The wireless transmission module 40 comprises a counter circuit 43 and a wireless transmitter circuit 40. The counter circuit 43 is connected to the detection element 20 coupled to receive the revolution counter signal S and to calculate the number of revolutions per minute (RPM) of the rotor 240 and / or the total number of revolutions of the rotor 240. The wireless transmitter circuit 44 is with the counter circuit 43 coupled to receive and then wirelessly to the wireless receiver 50 transmission of data relating to the revolution counts. The wireless transmission module 40 is clearly not limited to what has been described above and can be replaced or substituted by all its equivalents.

The wireless receiver 50 comprises a receive circuit 51 and a display circuit 52. The receive circuit 51 receives the rotation-related data from the wireless transmitter circuit 41 of the wireless transmission module 40 and generates, in response, a signal D corresponding to the data The display circuit 52 is coupled to the receive circuit 51 for receiving the signal D and then displaying the received signal D. The RPM of the rotor 240 or the total rotation rotation of the rotor 240 are therefore time-dependent. displayed. The wireless receiver 50 is clearly not limited to the circuit described above and can be replaced or substituted by all equivalents.

Referring now to Figure 6, a second embodiment 7 of the revolution counter 100 according to the present invention is shown herein. The revolution detection elements 20, 30 are, respectively, a photosensor and reflector, as previously mentioned. Instead of being attached to the retaining ring 230, the reflector 30 of the second embodiment is mounted on the magnet 11, while the photo sensor 20 is still mounted on the circuit board of the generator module 10, but at a position opposite the reflector 30 which is on the magnet 11. Similar to the first embodiment, the rotation or rotation of the rotor 240 can be detected by the cooperation of the photo sensor 20 and the reflector 30. Again, a revolution 10 count signal S is generated and the associated data is transmitted to the wireless receiver 50.

Referring to Figure 7, a third embodiment of the revolution counter 100 according to the present invention is shown herein. The rotation detection elements of the third embodiment are respectively

15 a reed switch 20 'and a magnet 30'. The reed switch 20 'is mounted on a circuit board of the wireless transmission module 40, while the magnet 30' is attached to the retaining ring 230 of the wrist exercise device 200 at a position substantially opposite the reed switch 20 '. Each time the rotor 240 causes the reed switch 20 'to move past the magnet 30', the reed switch 20 'is activated once. Consequently, a revolution counter signal S becomes

generated and data related to the rotations of the rotor 240 is transmitted to the wireless receiver 50.

Referring to Figures 8 and 9, a fourth embodiment of the revolution counter 100 according to the present invention is shown herein. In the fourth embodiment, the wireless receiver, which is now designated by reference numeral 50 ', comprises a receive circuit 51 and a universal serial bus (USB) interface circuit 53. The USB interface circuit 53 comprises a USB connector 531 which a USB port 310 of an electronic device 300 can be coupled, such as a portable computer. The receive circuit 51, in response to receiving wireless signals carrying rotation-related data from the rotor 240, generates a signal D applied to the USB interface circuit 531 through which the signal D is sent to the electronic device 300. The rotation-related data of the rotor 240, such as RPM and total number of 8 revolutions, are processed in the electronic device 300 and stored for later use, such as display and analysis.

The electronic device 300, which is shown in the drawings as a portable computer, can be any known device suitable for receiving and processing the rotation data of the rotor 240. Examples include mobile phones and personal digital assistants with a USB interface.

Although the present invention has been described with reference to the preferred embodiments thereof, it is clear to those skilled in the art that a large number of changes and changes can be made without departing from the scope of the present invention which is intended to be defined by the enclosed claims.

Liist with heating pinifiers 15 generator 11 magnet 12 windings 13 voltage control circuit 20 rotation detection elements 20 20 'rotation detection elements 30 rotation detection elements 30' rotation detection elements 40 wireless transmission module 43 counter circuit 25 44 wireless transmitter circuit 50 wireless receiver 50 'wireless receiver 51 receiving circuit 52 display circuit 30 53 USB interface circuit 300 external electronic device 310 USB port 531 USB connector

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Claims (10)

1. Revolution counter adapted for coupling to a wrist exercise device comprising a stationary housing and a rotor arranged rotatably within the housing, which counter comprises: a generator module arranged between the rotor and the housing for generating electrical power when the rotor is in rotation; detection means arranged within the wrist exercise device for detecting rotations of the rotor and generating a signal in response to the detection, the detection means being electrically coupled to the generator module to be fed by it; a wireless transmission module connected to the generator module and the detection means for receiving electrical supply and the signal thereof and comprising means for determining data at 15 revolutions per minute and a total count of the rotation of the rotor in response to the rotation of the rotor detection means obtained signal, and means for wirelessly transmitting the data; and a wireless receiver for receiving the data transmitted by the wireless transmission module and converting the data into a corresponding output signal. A revolution counter according to claim 1, wherein the generator module comprises: a magnet mounted on the housing of the wrist exercise device; Electric windings mounted on the rotor and opposite the magnet for inducing an electrical voltage due to relative rotation between the housing and the rotor; and a voltage control circuit connected to the electric windings for receiving and processing the voltage for generating a DC output signal. 3. Rotation counter according to claim 1, wherein the detection means comprise a photo sensor and a reflector. The revolution counter of claim 1, wherein the detection means comprises first and second parts mounted on 1033359, the wireless transmission module and the housing, respectively. The revolution counter of claim 1, wherein the detection means comprises a reed switch and a magnet. 6. Rotation counter according to claim 1, wherein the detection means comprise first and second parts mounted on the generator module and the housing, respectively. 7. Revolution counter according to claim 1, wherein the wireless transmission module comprises: a counter circuit for receiving the signal from the detection means and determining the rotation data of the rotor; and a wireless transmitter circuit connected to the counter circuit for receiving the data and transmitting the data wirelessly. 8. The revolution counter of claim 1, wherein the wireless receiver comprises: a receiving circuit for receiving the data from the wireless transmission circuit and converting the data into the output signal; and a display circuit for receiving the output signal and displaying the data associated with the output signal. The revolution counter of claim 1, wherein the wireless receiver comprises: a receiving circuit for receiving the data from the wireless transmission circuit and converting the data into the output signal; and a USB interface connected to the receive circuit for receiving the output signal and converting the output signal into a USB interface signal. The revolution counter of claim 9, wherein the USB interface comprises a connector for outputting the USB interface signal. 30 1 0 3 3 3 5 9