Karmazyn, Harry (W.J. Furse & Company Limited, Wilford Road, Nottingham NG2 1EB, GB)
| 1. | A thermal trip arrangement including a component having electrically conducting members, mounting means for the component, means for biasing the component away from the mounting means, heat sensitive means for fixing the component to the mounting means and for providing electrical contact with at least one of said members, the fixing means releasing the component when the fixing means are brought to a predetermined temperature and the biasing means moving the member away from the mounting means out of electrical contact therewith. |
| 2. | An arrangement according to claim 1, in which the mounting means is a circuit board. |
| 3. | An arrangement according to any preceding claim, in which the component is a metal oxide varistor. |
| 4. | An arrangement according to claim 3, in which the varistor comprises a metal oxide disc sandwiched between a pair of metallic members in the form of discs. |
| 5. | An arrangement according to claim 4, in which the metallic discs are of a diameter less than that of the metal oxide disc. |
| 6. | An arrangement according to claim 4 or 5, in which the mounting means includes a circuit board having conducting tracks leading to each side of the mounting means whereby the fixing means can connect said tracks with said metallic discs. |
| 7. | An arrangement according to claim 6, in which the fixing means is solder having a predetermined melting point. |
| 8. | An arrangement according to claim 6 or 7, in which the conducting tracks on the circuit board are of predetermined geometry to optimise the amount of fixing means present and its melting characteristics. |
| 9. | An arrangement according to any of claims 6 to 8, in which an independent track of the circuit board connects with at least one side of the disc for use in an indicator circuit. |
| 10. | An arrangement according to any preceding claim, in which the biasing means is gravity. |
| 11. | An arrangement according to any of claims 1 to 9, in which the biasing means is resilient means. |
| 12. | An arrangement according to claim 11, in which the resilient biasing means forms part of a switch/contact used to indicate normal operation of a circuit. |
| 13. | An arrangement according to claim 11 or 12, in which the resilient biasing means operates a mechanical arrangement to give a visual indication of the operating condition of a circuit. |
| 14. | An arrangement according to claim 11, in which movement of the component under the action of the biasing means operates a switch with a contact or mechanical indicator to indicate the operating condition of a circuit. |
| 15. | An arrangement according to any of claims 11 to 14, in which a plurality of thermal trip arrangements are provided in a circuit, and in which the indicator and/or resilient biasing means are coupled together. |
| 16. | An arrangement according to any preceding claim, in which means are provided to receive a displaced component. |
| 17. | An arrangement according to any preceding claim, in which those parts of the component not in contact with the mounting means are coated to protect against environmental factors. |
| 18. | An electrical component for use in an arrangement according to any of the preceding claims. |
| 19. | A thermal trip arrangement substantially as described above with reference to the accompanying drawings. |
| 20. | An electrical component substantially as described above with reference to the accompanying drawings. |
| 21. | Any novel subject matter or combination including novel subject matter disclosed, whether or not within the scope of or relating to the same invention as any of the preceding claims. |
Some types of electronic components are over-stretched or age and become irreversibly damaged and may, if connected to a power source, get very hot and even catch fire. In these circumstances use of some form of thermal trip or enclosure in a heat resistant housing becomes essential. Thermal trips which are currently employed include commercially available trip assemblies wired in series with the component which is liable to over-heat, or specifically designed circuitry including an external contact, springs and materials that react in predetermined ways at a specific temperature. The addition of external components of this nature not only increases the cost of the circuitry but adds to the thermal mass, making the device slower to operate.
It is the object of the present invention to obviate or mitigate these and other disadvantages.
According to the present invention there is provided a thermal trip arrangement including a component having electrically conducting members, mounting means for the component, means for biasing the component away from the mounting means, heat sensitive means for fixing the component to the mounting means and for providing electrical contact with at least one of said members, the fixing means releasing the component when the fixing means are brought to a predetermined temperature and the biasing means moving the member away from the mounting means out of electrical contact therewith.
Preferably the mounting means is a printed circuit board or vero board.
Preferably the biasing means is resilient means. Alternatively the biasing means is gravity.
Whereas the arrangement has application with any electronic component which can overheat, it is preferably intended for use with metal oxide varistors.
Preferably a varistor comprises a metal oxide disc sandwiched between a pair of metallic members in the form of discs. Preferably the metallic discs are of a diameter less than that of the metal oxide disc.
Preferably the fixing means is solder having a predetermined melting point.
Preferably the printed circuit board includes conducting tracks leading to each side of the mounting means whereby said solder can connect said tracks with said metallic discs.
Preferably an independent track of the printed circuit board connects with at least one side of the disc for use in an indicator circuit.
Preferably the resilient biasing means may be part of a switch/contact used to indicate normal operation of the circuit.
Alternatively, the resilient biasing means may operate a mechanical arrangement to give a visual indication of the operating condition of the circuit.
Further alternatively, movement of the disc under the action of the biasing means is used to operate a switch with a contact or mechanical indicator to indicate the operating condition of the circuit.
Preferably, where a plurality of thermal trip arrangements are provided in a circuit the indicator and/or resilient biasing means are coupled together.
Means may be provided to receive a displaced component.
Those parts of the component not in contact with mounting means may be coated to protect against environmental factors.
The conducting tracks on the printed circuit board may be of predetermined geometry to optimise the amount of solder present and its melting characteristics.
Further according to the present invention there is provided an electrical component for use in an arrangement as defined in the preceding fifteen paragraphs An embodiment of the present invention will now be described by way of example of with reference to the accompanying drawings in which: Figs. 1 and 2 respectively show front and side views of a currently employed, standard, metal oxide varistor; Figs. 3 and 4 show respectively front and side views of a metal oxide varistor according to the present invention ; Fig. 5 shows a side view of a metal oxide varistor of the present invention mounted on a printed circuit board; and Fig. 6 shows a plan view of the arrangement shown in Fig. 5.
Figs. 1 and 2 illustrate a currently available metal oxide varistor 10 which includes an electronic component similar to that illustrated in Figs. 3 and 4, having a disc 12 of metal oxide sandwiched between two metal disc-like members 14, the outside diameter which is less than that of the metal oxide disc 12. A connection leg 16 is soldered to each metal disc 14 and the arrangement is covered by a coating 18, for example, of an epoxy resin, to provide mechanical and environmental protection. The connector legs 16 are fixed in a known manner to a printed circuit board and connect electrically therewith through solder attachments.
Whereas a metal oxide varistor is used to describe one embodiment of the present invention, it is to be realised that the invention is not restricted to this type of component but is applicable to any electronic component which includes two conducting members.
When some type of electronic components, for example metal oxide varistors, are overstressed or aged they become irreversibly damaged and may, if connected to a power source, get very hot and even catch fire. In these circumstances, some form of thermal trip or heat resistant enclosure becomes essential.
A metallic oxide varistor is a component used in surge or transient over- voltage protection. Often this component is placed across the mains supply with the purpose of surpressing any high voltage transients that may be present by diverting current through itself.
End of life occurs due to exceeding the current capacity of the device either by one single large event or more smaller events or by overstressing the device by applying a too high supply voltage continuously to it. If the overstress is very big the device tends to fail quickly and relatively cleanly.
However, if the overstress is small it fails slowly getting very hot in the period leading up to failure and emitting gaseous and solid matter. It is known to connect a fuse to disconnect the component when the overstress is big and a thermal device when the overstress is continuous or small.
Currently commercially available, or specifically designed and manufactured, trip arrangements are wired in series with the varistor and the present invention obviates the need for a separate component. According to the invention the varistor has no connecting legs extending from it and is essentially uncoated. A typical example is shown in Figs. 3 to 6.
Figs. 5 and 6 show that the varistor is mounted in a slot formed in a printed circuit board 20, the slot having a width which is only slighter greater than the thickness of the varistor across its metal members 14, and a length which is less than the diameter of the varistor, such that the varistor is accommodated in the slot in the manner illustrated in Fig. 5. The printed circuit board carries the normal circuit tracks 22,24,26. The physical and electrical connection between the printed circuit board 20 and the varistor is achieved by the use of solder illustrated in the drawings by the dots 28. If the resistor overheats to a temperature beyond the predetermined temperature then the solder melts, the solder composition being specially chosen such that it melts at the said predetermined temperature. If means are provided for separating the varistor from the board when the solder melts there is no supply to the varistor and consequently the problem of overheating, fire and the emission of gaseous and solid matter is overcome.
According to one embodiment of the present invention the varistor is suspended below the board 20, that is it is mounted in the position opposite to that shown in Fig. 5. With this arrangement, when the solder melts gravity causes the varistor to fall out of the printed circuit board.
In another arrangement illustrated in Fig. 5 a resilient member in the form of a leaf spring 30 which is biased when the varistor is inserted into the slot pushes the varistor out of the slot when the solder melts.
It will be realised that the surface area of the metal members 14 below the printed circuit board have sufficient area to allow an efficient solder joint to be made to each side of the varistor. The design of the printed circuit board tracks 22/26 also are designed to allow for this.
Further, the arrangement according to the present invention is compact, has low thermal mass and will operate quickly. As no contacts are present welding and jumping under transient conditions are not a problem.
In the printed circuit board 20 shown in Fig. 6 the circuit board track to one side of the varistor is split into two 24,26. Upon ejection of the varistor continuity on the split track is lost and this loss of continuity can be utilised to operate a visual or audible indicator of varistor failure.
Various modifications can be made without departing from the scope of the invention. As indicated above, the electronic component mounted in the printed circuit board in the manner according to the present invention need not be a varistor but could be any other appropriate component having two metallic electrical conducting elements.
The electronic component illustrated in Figs. 5 and 6 is mounted to a printed circuit board but it could be mounted to any other suitable substrate and be ready for use in combination with another circuit.
The biasing means on the electronic component as described above is gravity or the leaf spring 30. Any other suitable biasing means may be employed either pushing the component from below the board, pulling it from above or rolling it from the side.
The leaf spring 30 may be part of a switch/contact used to indicate the condition of the circuit or may operate mechanical means giving a visual indication of the condition of the circuit.
In a further modification movement of the disc may be utilise to operate a switch/contact or mechanical circuit condition indicator.
In an arrangement where plurality of components of a similar type is employed the biasing means and/or the circuit condition indicators may be coupled together.
Depending upon the circumstances of use it may be considered advantageous to provide a receptacle for reception of an ejected component.
A partial coating may be applied to the component to protect those parts of it not in connection with the solder from environmental and mechanical damage.
Various other modifications can be made without departing from the scope of the invention.
Whilst endeavouring in the foregoing specification to draw attention to those features of the invention believed to be of particular importance it should be understood that the Applicant claims protection in respect of any patentable feature or combination of features hereinbefore referred to and/or shown in the drawings whether or not particular emphasis has been placed thereon.