HARNESS TENSION SENSOR AND CRASH OCCURRENCE SENSOR
A child safety device for a vehicle including a seat including a shell, a harness including at least one strap for retaining an occupant in the seat, and a sensor between a device on the strap and the seat shell indicating a tension status of the harness.
This invention relates to a harness tension sensor and related apparatus for a child safety seat. Child safety seats have a harness that includes a pair of shoulder straps that extend from the back rest of the seat across the shoulders of the seat occupant and a crotch strap that extends upwardly from the seat bottom to a point between the legs of the seat occupant. The shoulder straps extend downwardly and have latch members that interconnect with a latch affixed to the crotch strap that extends upwardly through a slot from below the seating surface. A tensioning strap extends through an opening in the front of the seating surface. When the shoulder straps are latched into the latch, the tensioning strap is pulled to place the shoulder straps in tension so that they fit securely against the anterior aspect of the upper torso of the seat occupant. Any significant slack in the shoulder straps can increase the risk of injury by subjecting the seat occupant to an initial rapid, unrestrained acceleration before the shoulder straps are tensioned by the forward movement of the seat occupant and bring the seat occupant to an almost instantaneous stop.
At present, child safety seats do not incorporate a reliable means to determine whether the shoulder straps have been properly tensioned. Some proposals for placing tension sensors in the latch or elsewhere require wiring in the crotch strap or in other locations in the seating area. This wiring may be subject to wear or exposure to moisture during use or cleaning, and thus may be less than fully desirable for use in situations, such as child safety seats, that should be cleaned periodically, or are subject to wetting from spilled drinks or other liquids.
Also, it may not be fully apparent in all cases that the shoulder straps have not been fully latched. Thus, inadequate tension on the shoulder straps may be the result of simple failure to sufficiently tighten the shoulder straps, or because the shoulder straps have not been properly latched. In the case of improper latching, the seat occupant is essentially unprotected in the event of an impact, since the latch members will exit the latch and prevent any significant tension at all on the straps during the initial phase of the impact.
In addition, present child safety seats to not provide a positive means of indicating that the seat has been subjected to a load of sufficient severity to require that the seat not be further used. A severe impact may stretch the shoulder straps beyond their elastic limit, warp or damage plastic seat parts, or otherwise render the seat unsafe for further use. In many cases the damage will not be readily visible and, in any event, it may not be apparent to the user that the damage is severe enough to require seat replacement.
SUMMARY OF THE INVENTIONTherefore, it is an object of the invention to provide a harness tension sensor and related apparatus for a child safety seat.
It is another object to provide a child safety seat that has a sensor that detects both that the seat is properly latched and that the shoulder straps have been properly tensioned.
It is another object to provide a child safety seat that has a sensor that detects that the seat is properly latched and that the shoulder straps have been properly tensioned, wherein the operative elements of the sensor and related parts are under the seat and away from wear and liquids.
It is another object to provide a child safety seat that has a sensor that detects that the seat has been subjected to a load of sufficient severity that further use of the seat should not be permitted.
These and other objects of the present invention are achieved in the preferred embodiments disclosed below by providing a child safety device for a vehicle including a seat including a shell, a harness including at least one strap for retaining an occupant in the seat, and a sensor between a device on the strap and the seat shell for indicating whether the harness is sufficiently tensioned.
According to another preferred embodiment of the invention, the harness includes shoulder straps and a crotch strap.
According to another preferred embodiment of the invention, the device on the strap includes a strap buckle or slide.
According to another preferred embodiment of the invention, the sensor is positioned on a shell bottom.
According to another preferred embodiment of the invention, a child safety device for a vehicle includes a seat including a shell, a harness including at least one strap for retaining an occupant in the seat, and a sensor including crushable members between a device on the strap and the seat shell for indicating whether the harness has been severely tensioned.
According to another preferred embodiment of the invention, the crushable members are calibrated to crush at 500-700 pounds of load.
According to another preferred embodiment of the invention, the crushable members comprise ribs or thin walls.
According to another preferred embodiment of the invention, the sensor is a one use, one way type.
According to another preferred embodiment of the invention, a child safety device for a vehicle includes a seat including a shell and a harness including a strap for retaining an occupant in the seat. The device further includes a sensor between a device on the strap and the seat shell for indicating whether the harness is sufficiently tensioned, and a sensor including crushable members between the device on the strap and the seat shell for indicating whether the harness has been severely tensioned.
According to another preferred embodiment of the invention, both sensors are positioned under the seat shell.
Embodiments of the invention may be best understood by reference to the following description in conjunction with the accompanying drawing figures in which:
As shown in
In one embodiment shown in
In one embodiment, a plunger 42 or other mechanism urges the sensor 10 from a normally open position to a closed position when there is too little tension on the harness 20. Closing the circuit allows a current to flow to a device such as a microprocessor that can activate any conventional alert means, such as a bell, buzzer, light, etc. that the harness needs to be further tightened. Latching the harness correctly and/or further tightening the harness 20 opens the circuit and deactivates the alert.
Conversely, the circuit can be designed so that the circuit is normally closed when the tension is correct, as shown in
The sensor may be any suitable pressure-sensitive on-off type switch, for example, spring-loaded contacts 13 that engage a complementary contact 15 in order to close the circuit, as shown in FIGS. 5 and 9-12.
Crash Occurrence SensorAs shown in
In general, the crash occurrence sensor 11 is a “one use, one way” sensor. When it detects a severe load on a single occasion, it closes a circuit that provides an alert that the seat 12 has potentially been subjected to sufficient damage that the seat 12 should be discarded and not further used. The circuit is designed not to return to a normal state.
More specifically, the crash occurrence sensor 110 includes crushable members 77 that are calibrated to crush at, for example, 500-700 lbs. of load. Crushing of the crushable members 77, as shown in
As also shown in the attached drawings, the crushable members 77 may be positioned on an upper surface of the crotch strap buckle 22, or a three-bar slide 24, so that in the event of a severe load, the buckle 22 or slide 24 is pulled upwardly against the plastic shell 14 of the seat by the crotch strap 26 so severely that the crushable members 77 are crushed against the plastic shell 14, engaging the contact 17 and 19 to close a circuit. With less severe loads, the crushable members 77 do not crush to any appreciable degree.
As is apparent from the foregoing, all of the electronic features of both the tension sensor 10 and the crash occurrence sensor 11 may be placed under the seat shell 14 away from the seat occupant and possible wear and damage.
Claims
1. A child safety device for a vehicle, comprising:
- (a) a seat comprising a shell;
- (b) a harness comprising at least one strap for retaining an occupant in the seat; and
- (c) a sensor between a device on the strap and the seat shell for indicating whether the harness is sufficiently tensioned.
2. A child safety device according to claim 1 wherein the harness comprises shoulder straps and a crotch strap.
3. A child safety device according to claim 1 wherein the device on the strap comprises a strap buckle or slide.
4. A child safety device according to claim 1 wherein the sensor is positioned on a shell bottom.
5. A child safety device for a vehicle, comprising:
- (a) a seat comprising a shell;
- (b) a harness comprising at least one strap for retaining an occupant in the seat; and
- (c) a sensor including crushable members between a device on the strap and the seat shell for indicating whether the harness has been severely tensioned.
6. A child safety device according to claim 5 wherein the crushable members are calibrated to crush at 500-700 pounds of load.
7. A child safety device according to claim 5 wherein the crushable members comprise ribs or thin walls.
8. A child safety device according to claim 5 wherein the sensor is a one use, one way type.
9. A child safety device for a vehicle, comprising:
- (a) a seat comprising a shell;
- (b) a harness comprising at least one strap for retaining an occupant in the seat;
- (c) a sensor between a device on the strap and the seat shell for indicating whether the harness is sufficiently tensioned; and
- (d) a sensor including crushable members between the device on the strap and the seat shell for indicating whether the harness has been severely tensioned.
10. A child safety device according to claim 9 wherein both sensors are positioned under the seat shell.
Type: Application
Filed: Apr 3, 2007
Publication Date: Oct 4, 2007
Inventor: Said Nakhla (Clarkston, MI)
Application Number: 11/695,947
International Classification: A47C 31/00 (20060101);