Pressure switch assembly for a furnace
First Claim
1. A gas-fired induced-draft furnace that has low, medium, and high firing rates, the furnace comprising:
- a furnace controller having a first pressure switch input and a second pressure switch input;
a heat exchanger;
a pressure switch assembly configured to sense low, medium, and high pressures across the heat exchanger corresponding to the low, medium, and high firing rates and to generate pressure signals that vary in accordance with the differential pressure sensed across the heat exchanger, wherein the pressure signals are provided on the first and second pressure switch inputs;
wherein the pressure switch assembly comprises;
a low-heat pressure switch configured to actuate at a low combustion pressure level and connected to the first pressure switch input;
a medium-heat pressure switch configured to actuate at an intermediate combustion pressure level;
a high-heat pressure switch configured to actuate at a high combustion pressure level; and
a medium-high-heat switch arranged to connect the medium-heat pressure switch to the second pressure switch input at the intermediate combustion pressure level and to connect the high-heat pressure switch to the second pressure switch input at the high combustion pressure level.
1 Assignment
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Accused Products
Abstract
A pressure switch assembly is used with a furnace controller having a first input and a second input. A first pressure switch is configured to actuate at a first combustion pressure level and is connected to the first input. A second pressure switch is configured to actuate at a second combustion pressure level, and a third pressure switch is configured to actuate at a third combustion pressure level. Pressure signals provided on the second input from at least one of the second pressure switch and the third pressure switch are used by the furnace controller to derive actuation states of the second and third pressure switches.
56 Citations
6 Claims
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1. A gas-fired induced-draft furnace that has low, medium, and high firing rates, the furnace comprising:
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a furnace controller having a first pressure switch input and a second pressure switch input; a heat exchanger; a pressure switch assembly configured to sense low, medium, and high pressures across the heat exchanger corresponding to the low, medium, and high firing rates and to generate pressure signals that vary in accordance with the differential pressure sensed across the heat exchanger, wherein the pressure signals are provided on the first and second pressure switch inputs; wherein the pressure switch assembly comprises; a low-heat pressure switch configured to actuate at a low combustion pressure level and connected to the first pressure switch input; a medium-heat pressure switch configured to actuate at an intermediate combustion pressure level; a high-heat pressure switch configured to actuate at a high combustion pressure level; and a medium-high-heat switch arranged to connect the medium-heat pressure switch to the second pressure switch input at the intermediate combustion pressure level and to connect the high-heat pressure switch to the second pressure switch input at the high combustion pressure level. - View Dependent Claims (2, 3, 4, 5)
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6. A gas-fired induced-draft furnace that has low, medium, and high firing rates, the furnace comprising:
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a furnace controller having a first pressure switch input and a second pressure switch input; a pressure switch assembly configured to sense low, medium, and high pressures across the heat exchanger corresponding to the low, medium, and high firing rates and to generate pressure signals that vary in accordance with the differential pressure sensed across the heat exchanger, wherein the pressure signals are provided on the first and second pressure switch inputs; wherein the pressure switch assembly comprises; a low-heat pressure switch configured to actuate at a low combustion pressure level and connected to the first pressure switch input; a medium-heat pressure switch configured to actuate at an intermediate combustion pressure level; a high-heat pressure switch configured to actuate at a high combustion pressure level; a first pole of the low-heat pressure switch being connected to a pin on the controller, a second pole of the low-heat pressure switch being connected to the first pressure switch input; a first pole of the medium-heat pressure switch being connected to a first pole of the high-heat pressure switch, the first pole of the medium-heat pressure switch being connected to the pin on the controller; a medium-high-heat switch arranged to connect the medium-heat pressure switch to the second pressure switch input at the intermediate combustion pressure level and to connect the high-heat pressure switch to the second pressure switch input at the high combustion pressure level; a second pole of the medium-heat pressure switch being connected to a contact of the medium-high-heat switch, a second pole of the high-heat pressure switch being connected to a contact of the medium-high-heat switch, the medium-high-heat switch coupling one of the medium-heat pressure switch and the high-heat pressure switch to the second pressure switch input.
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Specification