Spa control wtih novel heater management system

Abstract

A spa control system where the spa's heater is disconnected from the power source anytime the water in the heater is at a higher temperature than that set by the user by a prescribed amount, or more an absolute value that is higher than normal operating temperatures. Since the control system has a regular temperature management system this will only occur because of a problem in the spa or the control system itself. Independent paths between a pair of temperature sensors in the heater and the relays that connect line voltage to the heater are provided to meet the safety requirements of UL. Two sensors in the heater are co-located in a metal tube, placed near the heater.

Claims

1. A spa heater management system that prevents overheating of the spa heater by comparing the heater temperature with the user set temperature and employing a temperature limiting circuit to de-energize said heater whenever the temperature inside the heater is higher than the user set temperature by a prescribed amount of temperature. comprising: (a) an interface that allows a user to select a set temperature for the spa water, (b) memory for storing said setting, (c) one or more temperature sensors mounted within the heater housing, (d) a processor coupled to said sensors for receiving values from said temperature sensors and comparing said values with said temperature setting in memory, (e) relays, or other power switching means, coupled between said processor, a heater element, and electrical service lines for the purpose of disconnecting said electrical lines from said heater element whenever said sensors detect a temperature that is a prescribed amount higher than said said set temperature and said spa heater is still energized.

2. The system in claim 1, wherein said temperature sensors are located in a common housing.

3. The system in claim 1, wherein said user interface is an input panel.

4. The system in claim 1, wherein said memory is combined with said processor in a common package.

5. The system in claim 1 wherein all pumps in the spa are also de-energized whenever said temperature inside said heater is greater than 108 F.

6. A spa heater management system that prevents overheating of the spa heater by activating a temperature limiting circuit whenever said heater temperature is higher than UL requirements by a prescribed amount of temperature and said spa heater is still energized comprising: (a) two or more temperature sensors co-located within the heater housing, (b) a processor coupled to said sensors for receiving values from said sensors, (c) relays, or other power switching means, coupled between said processor, a heater element, and electrical service lines for the purpose disconnecting said electrical lines from said heater element whenever said sensors detect a temperature that is 110 F or greater.

7. The system in claim 6, wherein said co-located temperature sensors are located near midway between the ends of said heater.

8. The system in claim 7, wherein all pumps in the spa are also de-energized whenever said temperature within said heater is greater than 108 F.

9. A method for meeting safety requirements for an electrical heater in a spa Including the following steps: (a) receiving user input for the desired water temperature (b) storing said input in memory, (c) measuring the water temperature inside the heater, (d) comparing said input in memory with said measurement, (e) turning off said heater when the user's selected temperature is met, (f) disconnecting electrical power from said heater with different electrical switches whenever said measurement is higher than said input by a prescribed amount and said heater is still energized.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a block diagram of the temperature limiting circuit within the controller.

DETAILED DESCRIPTION OF A FAVORITE EMBODIMENT

[0010] Referring now to FIG. 1, a user interface 1 is provided for the user to set a desired temperature for the water in the spa. This setting is stored in memory 5 for later comparison with the actual water temperature.

[0011] Sensor 2 and sensor 3 are mounted within the heater, as close as practical to the heating element. It is desirable that 2 and 3 share a common housing, such as a metal tube. Both 2 and 3 are able to measure the water temperature near the element and be compared to each other for accuracy. If the difference in readings between the sensors is too great, the heater cannot be turned on, since one or both of the sensors must be defective.

[0012] Processor 4 receives the values from 2 and 3 and determines if the water is cool enough to allow heating element 10 to be energized. This is accomplished with signals from processor 4 activating relay drivers 6 and 7 and the drivers closing relays 8 and 9, which couple lines 1 and 2 to heater element 10. In some cases relay drivers 6 and 7 may not be necessary. If now the water needs to be heated, a separate heat control relay is activated, as is well known. After electrical power is applied to heater element 10, sensors 2 and 3 continually monitor the water temperature inside the heater. When the water has heated to the desired temperature, power to heater element 10 is removed by opening the heat control relay. If the temperature inside the heater is later found to be higher than the user setting by, say 4 degrees, it is only because of a failure of some sort in the rest of the spa, such as a stuck relay. To meet the safety requirements of UL, the processor 4 must remove signals to 6 and 7 and the heater must be turned off until the problem is identified and fixed. If the heater is already off no action is required.

[0013] It should be noted that relays 8 and 9 may be replaced with other types of power switches, such as TRIACS. Likewise, the functions of memory 5 may be performed by many other devices.

[0014] In another favorite embodiment, the elements of the invention shown in FIG. 1 are the same but a different approach is used to de-energize the heater while the water inside the heater is still not excessively hot. The approach is to use the temperature limiting circuit in FIG. 1 to open relays 8 and 9 as soon as the water temperature inside the heater is approaching UL limits for water on the suction side of the pump. That temperature is currently restricted to 104 F plus 5 F.

[0015] In the past, spa manufactures have used a much higher temperatures as a decision point for employing a temperature limiting circuitry, typically 116-118 F. This made sense due to the uncertainty of the measurements and the lack of a way to confirm the measurements. The main problem, however, was the fact that the heater was already quite hot before any action was taken. There was often little time to react and avoid damage to the spa.

[0016] The present invention uses two co-located sensors that monitor each other and assure that the reported temperatures are accurate. There is no problem in using the temperature limiting circuitry at lower temperatures and thereby avoiding any risk from elevated temperatures. There is already evidence of a problem because the heater temperature is in excess of the controller's highest set point, so early intervention is appropriate.

[0017] UI allows a water temperature of 122 F plus 5 F to exit the heater and enter the spa through the spa jets. If this temperature is allowed for a period of time, however, the water temperature within the spa will increase past the allowable water temperature of 109 F on the suction side of the pump. This violation of UL requirements can best be avoided with the present invention by limiting the water within the heater to 109 F.

[0018] The benefits of activating the temperature limiting circuitry at lower temperature are many. First of all, a flow test prior to energizing the heater is unnecessary. The reaction time of the sensors, placed so near the heater element is short enough to eliminate the risk of energizing the heater when heat demand occurs. Likewise, the risk of a dry fire is essential zero. Most of the usual messages on the spa panel are also eliminated. There will no longer be hi-limit, overheat, or flow messages.