AUTOMATED BED OR BABY COT

Abstract

A bed, particularly a baby cot, with features for adaptation to variations in temperature and humidity.

Claims

1. A bed comprising a sleeping surface and an elevation mechanism arranged to control the elevation of the sleeping surface, characterised in that the bed further comprises at least one temperature sensor configured to measure temperature in the environment surrounding the bed and/or at least one humidity sensor configured to measure humidity in the environment surrounding the bed, and the elevation mechanism is configured to alter the height of the sleeping surface based on signals from the at least one temperature sensor and/or the at least one humidity sensor.

2. The bed of claim 1, wherein the environment surrounding the bed comprises a room in which the bed is placed.

3. The bed of claim 1, wherein the environment surrounding the bed comprises an area to the immediate exterior of the bed.

4. The bed of claim 1, wherein the at least one temperature sensor and/or at least one humidity sensor is configured to take measurements at the level of the sleeping surface.

5. The bed of claim 1, wherein the sleeping surface is inclined at an angle from the horizontal.

6. The bed of claim 1, further comprising user controls, wherein the user controls are configured to direct the elevation mechanism to elevate the sleeping surface to a specified height on receipt of a signal from the user controls.

7. The bed of claim 6, wherein the user controls comprise at least one of physical buttons provided on the bed, a remote control, or a smartphone app.

8. The bed of claim 1, wherein the bed is a baby cot.

9. The baby cot of claim 8, further comprising an encircling wall describing an opening.

10. The baby cot of claim 9, wherein the elevation mechanism is also arranged to control the elevation of the encircling wall.

11. The baby cot of claim 9, wherein the cot further comprises a cover that may be placed over the opening.

12. The baby cot of claim 8, further comprising a weight sensor arranged to detect when an infant is on the sleeping surface.

13. The baby cot of claim 12, wherein the elevation mechanism is configured to operate only when the weight sensor detects an infant on the sleeping surface.

14. A method of operating a bed according to claim 1, comprising the steps of: a) receiving a signal from at least one temperature sensor and/or at least one humidity sensor; b) sending to an elevation mechanism a signal to cause the elevation mechanism to adjust the height of the sleeping surface in response to the signal.

15. A control system for a bed according to claim 1, comprising a processor, wherein the processor is configured to put into effect the method.

16. A non-transitory computer-readable medium comprising program code which, when executed by a processor, will cause that processor to put into effect the method of claim 15.

Description

DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 is a plot of measurements of temperature at different elevations in a room over a period of time.

[0022] FIG. 2 is a plot of measurements of humidity at different elevations in a room over a period of time.

[0023] FIGS. 3-7 depict a baby cot according to the present invention, exemplifying a range of preferable features.

DETAILED DESCRIPTION

[0024] FIG. 1 depicts measurements of temperature conducted in a typical bedroom over a period of time ranging from 12:43 pm on the 25 Sep. 2018 (at the far left of the chart) to 16:39 pm on the 28 Sep. 2018 (at the far right). Temperature was measured with two sensors. The lower sensor, the readings from which are represented in the chart by a dashed line, was set at the typical height of most baby cots. The upper sensor, the readings from which are represented in the chart by a solid line, was set at an elevated height typical of that which may be accomplished with the present invention. It is clear from these readings that in a typical bedroom the temperature varies with altitude from the floor, both in terms of the temperature achieved (at points the temperature difference between the sensor readings is as large as 1.5° C.) and in terms of the consistency of the temperature (the higher sensor detects more to relatively rapid temperature fluctuations over time than the lower sensor).

[0025] FIG. 2 depicts measurements of humidity, conducted in the same bedroom, over the same time period, with humidity sensors at the same height as the temperature sensors used to create the chart of FIG. 1. Once again, the lower sensor reading is given by the dashed line and the solid line provides the upper sensor reading. It is apparent from these readings that at higher elevations in the room, humidity is less consistent (the higher sensor records greater drops), and that higher elevations both experience drops in humidity before they are detected at lower inventions and don't exhibit increases in humidity until after lower elevations do.

[0026] It is evident from these tests that temperature, humidity, or both can depend on altitude even within the scale of a normal room in an ordinary house. It will be noted that the room in question was carpeted; it may be expected that the effect of altitude may be exacerbated in a room with, for example, a floor coated in linoleum or ceramic tiles. The intention of the present invention is to provide sleeping individuals with a more comfortable sleeping experience by providing a bed which can automatically adjust its height to reflect changes in temperature and humidity. In particular, this feature is considered useful in respect of baby cots, since infants are usually less able to otherwise make adjustments to account for such changes in their environment, but the additional comfort may also be of use to non-infants and beds for adults and older children incorporating the features of the invention are also envisioned.

[0027] FIGS. 3-7 depict a baby cot according to the present invention, exemplifying a range of preferable features. The cot depicted incorporates a cover 2, encircling wall 4, sleeping surface 6 surrounded by the encircling wall 4, and an automated elevation mechanism 8 arranged to raise the sleeping surface 6 and encircling wall 4. The illustrated automated elevation mechanism 8 is a scissor action mechanism, but any other elevation mechanism such as a telescopic linear actuator is also acceptable for use with the present invention provided that the elevation mechanism is controllable to raise or lower the sleeping surface 6 in response to temperature or humidity sensor data.

[0028] As an advantageous feature, the cover 2 is arranged on a frame 10 which has telescopic linear actuators 12, such that the cover can be lowered (either manually or automatically) to enclose the cot. This prevents infants from climbing out and falling to the floor when the cot is in an elevated position. Covers which raise or lower in this fashion do not constitute the only means by which such a cover could be implemented, of course; a cover provided as a separate item entirely, or a cover configured to slide over the opening described by the top of the enclosing wall 4, could also work. The sole requirement of a cover, where one is provided, is that it should be suitable for placing over the opening described by the encircling wall so as to prevent an infant from climbing out of the cot.

[0029] Preferably, the cover 2 and the encircling walls 4 comprise perforated fabric, with the cover 2 and encircling walls 4 being arranged on respective frames 10, 14. This allows airflow through the cot to prevent it from becoming stifling, as well as permitting light in.

[0030] Optionally, the cover 2 may also comprise features allowing the infant to be placed on top of the cover 2 in order for the infant's nappies to be changed.

[0031] In the depicted example of a baby cot according to the present invention, the automated elevation mechanism 8 is surrounded by a protective casing 16 and a spring loaded rolled fabric cover 18, which is attached to the encircling wall 4 and/or the encircling wall frame 14 and/or the protective casing 16, such that when the automated elevation mechanism 8 causes the cot to rise the spring loaded rolled fabric cover 18 is deployed in any gap between the encircling wall 4 or its frame 14 and the protective casing 16. This ensures that the mechanism is never directly accessible to infants, thereby improving safety. Where, as in the depicted cot, the cover 2 and/or its frame 10 is on telescoping linear actuators 12 or some other mechanism for elevating or lowering the cover, this mechanism can also be enclosed by protective casing 16 for similar safety reasons.

[0032] In the depicted example of a baby cot according to the present invention, the cot also includes the optional and preferable feature of having a set of telescoping linear actuator legs 20, which can be extended manually or automatically. Where these legs 20 can be extended automatically, they can provide additional elevation. Where they can be extended manually, they can be extended independently of the automated systems of the cot in order to provide additional elevation as required, or to compensate for an uneven floor.

[0033] Other elevation mechanisms can also be used. The elevation mechanisms could incorporate features comprised on or attached to the ground, or the floor, walls, or ceiling of the room that a bed according to the present invention is placed in. For example, the sleeping surface of the bed could be hung from the ceiling of the room via supports which can be extended or shortened, or by a rope and pulley system, permitting the sleeping surface to be raised or lowered. Alternatively or additionally, the elevation mechanism could make use of air—for instance, in a pneumatic system, or in inflatable components of the bed.

[0034] Elevation mechanisms according to the present invention are controlled automatically by the sensor signals and in this respect is a so-called “smart” system. In some beds according to the present invention, the elevation mechanism may additionally be controllable manually, either directly or via a remote control, or a smartphone app, or any other means by which a user can activate the elevation mechanism to lower or raise the sleeping surface to a level which the user desires.

[0035] Not depicted in the figures is the temperature and/or humidity sensors. Preferably, these are incorporated on the encircling wall frame 14, preferably at the four corners thereof, so that the temperature and/or humidity readings thus made can reflect the temperature or humidity at or close to the level of the sleeping surface 6.