Twinning of air conditioning units

Information

  • Patent Application
  • 20090044552
  • Publication Number
    20090044552
  • Date Filed
    August 15, 2007
    17 years ago
  • Date Published
    February 19, 2009
    15 years ago
Abstract
Heating, ventilating and air conditioning (HVAC) equipment units are provided with controllers which may be interconnected to a third or common controller, such as a communicating thermostat, and provide information in a process to determine if two or more of such air conditioning units may be operated as twinned units. Information is transmitted over a data bus between the controllers for the respective air conditioning units and the common controller to determine if the air conditioning units are the same type, of a same family and of essentially the same capacity before permitting twinned operation. If one of the air conditioning units is not twinnable, an alarm signal is generated to prevent operation of the air conditioning units in a multiple-unit configuration.
Description
BACKGROUND OF THE INVENTION

Units of heating, ventilating and air conditioning (HVAC) equipment, including variable capacity furnaces for heating enclosed spaces, such as residential dwellings and commercial buildings, have been developed in the interest of providing equipment which is more efficient and provides greater comfort for occupants of such spaces. Variable capacity furnaces, for example, typically include variable speed air circulating blowers and controls for providing heated air at different heat rates and air flow rates.


There are situations wherein the capacity requirements for heating or otherwise air conditioning an enclosed space require so-called twinning of furnaces and other air conditioning equipment, such as air handlers. Twinning typically involves equipment installations where separate multiple air conditioning units are connected to a common temperature controller or thermostat and are operable to discharge heated or cooled air into a common plenum or air supply duct for circulation to an enclosed space. Typically the return air from the enclosed space also flows through a common return air duct or plenum. For such twinning applications, certain types of air conditioning equipment cannot be used since operation of one unit at a specific capacity, for example, may differ from the operating conditions of the other unit or others of multiple units connected to the same ducting system. Accordingly, certain variable capacity units or units of different capacities may not be twinned or ganged since unequal heat output and pressures generated by different air flow rates of the respective units, may cause adverse operating conditions. Thus, it is important to be able to prevent twinning or mismatching of units of air conditioning equipment in applications where multiple units of such equipment have been specified. It is to these ends that the present invention has been developed.


SUMMARY OF THE INVENTION

The present invention provides a method for permitting or prohibiting the so-called twinning of multiple units of air conditioning equipment, particularly combustion furnaces for heating enclosed spaces.


In accordance with one aspect of the present invention, a method is provided for detecting the type of air conditioning equipment connected to a common controller, such as a communicating thermostat, whereby the controller includes a program or is otherwise configured to query a program resident on the controllers for respective units of air conditioning equipment to determine if the air conditioning units are compatible for so-called twinning applications. By way of example, a program may be resident on a thermostat type controller which queries the controllers of respective air conditioning units to which the thermostat controller is connected for determining the operating specifications of the equipment to determine if the respective air conditioning units match in a sense which would permit connecting multiple units to a common air ducting system.


The method of the invention also contemplates providing a controller which will determine if the air heating and/or cooling capacities of the respective air conditioning units destined to be twinned match sufficiently to permit twinning. If neither the specifications nor the capacity parameters of the respective units are matched, the method prevents operation of the units and “publishes” an alarm or fault signal which may be detected at the common controller or on a controller associated with one or more of the air conditioning units.


In accordance with another aspect of the invention, there is provided a method for prohibiting the twinning of air conditioning units wherein a parameter specified in a program which is resident on the controllers for the respective units will indicate immediately, once the units are connected to a common controller, such as a thermostat, that twinning is not allowed.


In accordance with still a further aspect of the invention, there is provided a method of allowing or preventing the twinning of units of air conditioning equipment wherein separate information storage and transmission devices are connected to the controllers of respective units of air conditioning equipment to furnish data indicating whether twinning would be allowed or not allowed, and this data is read by a common controller for the respective air conditioning units to compare information and permit twinning or not permit twinning of the respective units, depending on the identity or type of unit, the respective specifications of the units and the heating and/or cooling capacity of the respective units.


Those skilled in the art will further appreciate the above-mentioned features and advantages of the invention together with other important aspects thereof upon reading the detailed description which follows in conjunction with the drawings.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a schematic diagram showing two units of air conditioning equipment interconnected with a controller for determining if the units may be operated as twinned units;



FIG. 2 is a flow diagram showing steps in determining if twinned units may be operated as such; and



FIG. 3 is a flow diagram showing the steps of operating a unit of air conditioning equipment when twinning is not allowed.





DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

In the description which follows, like elements are marked throughout the specification and drawing with the same reference numerals, respectively. The drawing figures are in somewhat schematic and generalized form in the interest of clarity and conciseness.


Referring to FIG. 1, there is illustrated a diagram of two units of air conditioning equipment indicated by the numerals 10 and 11, respectively. The air conditioning equipment units 10 and 11 are shown schematically as so-called twinned units wherein each unit is adapted to circulate conditioned air to an enclosed space 12 by way of a common plenum or duct 14. Accordingly, air is forced through the air conditioning units 10 and 11 into the common supply duct or plenum 14 and then to the space 12. Air is returned to the units 10 and 11 by way of a suitable duct, or set of ducts 16, to a common duct or plenum 18. The flow path of air is generally in accordance with the arrows indicated in FIG. 1.


The units of air conditioning equipment 10 and 11 may comprise equipment for both heating and cooling the space 12, heating only or cooling only. By way of example, the air conditioning units 10 and 11 are shown as combustion furnaces which also each include a cooling type heat exchanger. Each unit 10 and 11 of air conditioning equipment is provided with an air circulating blower 22, driven by a motor 24, each motor including a motor controller 26, operably connected thereto. The air conditioning units 10 and 11 each also include an air cooling heat exchanger 28, a heating type heat exchanger 30, which may be a combustion type furnace, including a combustion fuel control valve 34 and suitable sensors, including pressure and temperature sensors 36 and 38, for example. Air is circulated through respective cabinets 10a and 11a from air inlet openings 10b and 11b to air discharge openings 10c and 11c.


Control of the air conditioning units 10 and 11 is carried out by respective integrated controllers 40 and 42, which are connected to the motor controllers 26, the valves 34 and the sensors 36 and 38, among other items which may require control signals to be transmitted between the controllers and the air conditioning units proper. The controllers 40 and 42 may each include respective processors 40a and 42a each operably connected to a human interface unit 44 whereby certain control parameters may be input to the controllers 40 and 42, respectively, and certain operating parameters and conditions may be viewed by visual displays 45 on the respective interfaces. User controlled operations may be carried out by way of operation of suitable keypads 46, associated with the interface units 44, respectively. The interface units 44 may be of a type disclosed and claimed in co-pending patent application Ser. No. ______, filed ______ by Roger Boydstun, et al., and assigned to the Assignee of the present invention.


Accordingly, the interface units 44 may communicate with the respective processors 40a and 42a, respectively, comprising part of the integrated controllers 40 and 42, respectively. Still further, each of the controllers 40 and 42 may be operably connected to a so-called “personality” module or device 41 and 43, respectively, whereby information may be exchanged with the respective processors 40a and 42a, regarding specifications for the air conditioning units 10 and 11, respectively, including certain operating parameters, such as air conditioning capacities, and modes of operation of the respective units of air conditioning equipment 10 and 11. The “personality” modules or devices 41 and 43, are preferably of a type disclosed and claimed in co-pending patent application Ser. No. 11/717,466, filed Mar. 13, 2007, by Robert W. Helt, et al., and also assigned to the Assignee of the present invention. Information stored in the respective controllers 40 and 42, may be transferred to the modules or units 41 and 43, or information may be transferred to the respective controllers from the modules to configure the controllers for operation of the respective air conditioning units 10 and 11 at selected conditions of temperature, pressure and blower motor speed, for example. The modules 41 and 43 preferably include memory circuits and a connector for releasably connecting the modules to the controllers, for transferring information therebetween.


Referring still further to FIG. 1, the air conditioning units 10 and 11 are also operably connected to a controller or control unit 50, which may be characterized as a thermostat, disposed within the enclosed space 12 and including, inter alia, a temperature sensor 52. Controller or thermostat 50 preferably includes a visual display 50a, a user keypad 50b and a processor circuit 53 all operably interconnected. Controller 50 is interconnected with the controllers 40 and 42 by way of a data bus or communication path 54, and low voltage power supply conductors 56 and 58. A third interface 60 may also be connected to the controllers 40, 42 and 50, and be provided with a visual display 62 and a user operable keypad 64, as indicated in FIG. 1.


As mentioned previously, the modules or devices 41 and 43, may be programmed to store information concerning the specific type of apparatus comprising the units 10 and 11, for example. Examples of data which may be stored in the modules or devices 41 and 43, and transferred to the controllers 40 and 42, include the model and serial number of the respective units 10 and 11, air flow data, specific part numbers for replaceable parts, and other information necessary for operation of the respective units, including whether or not the units are multistage or single stage units, that is, units which have blowers 22, which operate at a constant speed or at variable speeds depending on the air heating or cooling capacity of the air conditioning units. Certain types of air conditioning units may not be interconnected or “twinned” with other units, including, for example, certain types of multistage combustion furnaces.


When two respective air conditioning units 10 and 11 are interconnected, as illustrated in FIG. 1, and their respective controllers interconnected on a data bus, such as the bus 54, the controllers 40 and 42, when powered, will each carry out a so-called initialization and self-check test, followed by test mode verifications and, finally, monitoring for signals to be received from the controller 50, indicating a call for heating or cooling of the space 12. When two or more units, such as the units 10 and 11, are interconnected to a controller, such as the controller 50, a program which may be resident on the processor 53, may provide for the respective controllers 40 and 42 to carryout the above-mentioned processes of self-check testing, test mode verification and monitoring the controller 50 for a signal for a call for heating or cooling of space 12. One of the process steps may be termed as “device discovery” in accordance with the protocol of the aforementioned program, once power-up has been carried out. The power-up or power applied step is followed by determining during the device discovery step, if twinning is allowed for either one of the units 10 or 11. Accordingly, the controllers 40 and 42 may be programmed, either initially or via the modules 41 and 43, to identify the units 10 or 11 as being capable of twinning.


If twinning is allowed by the respective units 10 and 11, a process in accordance with FIG. 2 will be carried out, wherein at step 70, the process determines whether or not another air conditioning unit is connected to the control circuitry, including the signal path or bus 54. If the controller 50 determines that only one air conditioning unit is connected to the controller, then the process proceeds to normal operation as indicated at step 72FIG. 2, and the controller 40 or 42 waits for a signal for a call for heating or cooling by way of the controller 50 and the sensor 52. If the controller 50 determines, in accordance with the process, that more than one air conditioning unit is connected to the controller 50, the process indicated in FIG. 2 proceeds to step 74, whereby the controller 50 compares certain information regarding the specifications or content descriptions of the respective units 10 and 11, as provided by the controllers 40 and 42, either initially or via information input by the modules or devices 41 and 43. If the specifications or content descriptions for the units 10 and 11 do not match for twinning operation, such as, for example, if the units are incompatible multistage furnaces, then the process proceeds to step 76, wherein operation of the units 10 and 11 is stopped and an alarm signal may be generated at displays 45 for both of the interfaces 44, and/or at display 50a, and/or by way of suitable indicators 40b and 42b, for example, associated with the controllers 40 and 42, respectively.


Accordingly, various levels of detection may be considered. A first level of detection may be known as determining the device type, that is by determining if the units 10 and 11 are both combustion furnaces, for example, or both are air handlers, for example. In the example of the process shown in FIG. 2, it has already been determined if twinning is allowed, since detection has indicated that the units 10 and 11 are of the same type of equipment. Step 74 in FIG. 2 is the second level of detection wherein it is determined if so-called content descriptors match. The content descriptor may be a unique number or identifier assigned to a so-called model family of similar units or products. For instance, a control program for a three-stage furnace would have a different content description or identifier than the control program for a two-stage furnace, so that different model families can be detected.


If the content descriptors match, say for example, the air conditioning units are both single-stage combustion furnaces with constant speed air circulation blowers, the process would proceed to step 78 to determine if the so-called capacities of the units 10 and 11 match. Twinning would not be permitted if the respective air conditioning unit capacities were not capable of delivery of essentially the same amount of air heating or cooling or be at least within a limited range of capacity. Depending on the extent of a product line produced by a manufacturer using the process of the invention, combustion furnaces, for example, in the same model family of air conditioning units might be capable of significantly different heat output capacities.


It is desirable to prevent operation of substantially mismatched combinations of air conditioning units. Accordingly, if the capacities match within the tolerances or ranges permitted by the designs of the air conditioning units 10 and 11, the process of FIG. 2 would proceed to step 80, wherein it is indicated that operation of the units 10 and 11 as twinned units, is permitted and both units would respond to a signal for a call for heating or cooling generated by the controller 50 and transferred to the controllers 40 and 42 and whereby the units 10 and 11 would operate simultaneously at the same capacity or performance level to provide the necessary heating or cooling of the space 12.


Alternatively, if the control program for either of units 10 or 11 includes a suitable amount of code which advises that twinning is not allowed with a particular unit, the process would continue to step 82, as indicated in FIG. 3, to determine if another unit was connected to the controller 50. If the program indicated that a second unit was connected to the controller 50, the process would proceed to step 84 whereby an alarm signal would be generated at the controllers 40, 42 or 50 and/or an associated interface. Of course, if at step 82 it was determined that another unit of air conditioning equipment was not connected to the controller 50, then normal operation to provide heating or cooling would be carried out by the unit connected to the controller 50, for example, as indicated by step 86 in FIG. 3.


In the implementation of the method and system of the invention, if two air conditioning units, such as the units 10 and 11, have been interconnected, as indicated in the diagram of FIG. 1, upon powering up the system shown in FIG. 1, the controller 50 will typically cause the controllers 40 and 42 to perform self-tests and initializations and the controller 50 will read any inputs being produced in that part of the process. If an input to the controller 50 indicates that twinning is not allowed by either one of the units 10 and 11, the process proceeds to the steps of FIG. 3. If, during the self-test mode, the controller 50 determines that twinning is allowed by units 10 and 11, then the process of FIG. 2 is carried out to determine if the air conditioning units 10 and 11 are compatible in the sense of specification matching and capacity matching, for example.


The process of the invention and the system accomplishing same are believed to be within the purview of one skilled in the art based on the foregoing description. Although a preferred embodiment of the invention has been described in detail herein, those skilled in the art will recognize that various substitutions and modifications may be made without departing from the scope and spirit of the appended claims.

Claims
  • 1. In an air conditioning system including a first air conditioning unit and a second air conditioning unit which have been interconnected as twinned units, each of said air conditioning units including a controller including a processor connected to a further controller including a temperature sensor for measuring the temperature in an enclosed space to be serviced by said air conditioning units, said further controller receiving signals from respective ones of said controllers of said air conditioning units, the method comprising the steps of: receiving signals by said further controller from said controllers of said air conditioning units identifying if either of said air conditioning units may be twinned with another air conditioning unit;generating an alarm signal if either one of said air conditioning units is not twinnable; andcomparing selected parameters of said air conditioning units if said air conditioning units are twinnable to determine if said air conditioning units may be operated as twinned units.
  • 2. The method set forth in claim 1, including the step of: determining if said air conditioning units are of the same type.
  • 3. The method set forth in claim 2, including the step of: determining if said air conditioning units have a common identifier indicating if said air conditioning units are of the same or a similar model family.
  • 4. The method set forth in claim 3, including the step of: determining if said air conditioning units are of a similar heat exchange capacity.
  • 5. The method set forth in claim 1, including the step of: providing information regarding specifications of said air conditioning units to said controllers of said air conditioning units by information modules connected to said controllers of said air conditioning units, respectively.
  • 6. The method set forth in claim 1, including the step of: transmitting a stop operation alarm signal to at least one of said controllers if said air conditioning units cannot be twinned.
  • 7. The method set forth in claim 6 wherein: said stop operation signal is transmitted to a user interface operably associated with at least one of said controllers of said air conditioning units for display of a signal indicating that twinning is not possible.
  • 8. The method set forth in claim 1, including the step of: providing information between said controllers for said air conditioning units and said further controller over a data bus.
  • 9. The method set forth in claim 8, including the step of: providing a further interface operably connected to said data bus.
  • 10. In an air conditioning system including a first air conditioning unit and a second air conditioning unit which have been interconnected as twinned units, each of said air conditioning units including a controller including a processor connected to a further controller including a temperature sensor for measuring the temperature in an enclosed space to be serviced by said air conditioning units, the method comprising the steps of: connecting said controllers to a common data bus;determining if either of said air conditioning units may be twinned with another air conditioning unit; andcomparing selected parameters of said air conditioning units if said air conditioning units are twinnable to determine if said air conditioning units may be operated as twinned units.
  • 11. The method set forth in claim 10, including the step of: determining if said air conditioning units are of the same type.
  • 12. The method set forth in claim 11, including the step of: determining if said air conditioning units have a common identifier indicating if said air conditioning units are of the same or a similar model family.
  • 13. The method set forth in claim 12, including the step of: determining if said air conditioning units are of a similar heat exchange capacity.
  • 14. The method set forth in claim 10, including the step of: providing information regarding said parameters of said air conditioning units to said controllers of said air conditioning units by information modules connected to said controllers of said air conditioning units, respectively.
  • 15. The method set forth in claim 10, including the step of: generating a stop operation alarm signal if any one of said air conditioning units cannot be twinned.
  • 16. The method set forth in claim 15 wherein: said stop operation signal is transmitted to a user interface operably associated with said controllers for each of said air conditioning units for display of a signal indicating that twinning is not possible.
  • 17. The method set forth in claim 10, including the step of: generating an alarm signal if any one of said air conditioning units is not twinnable.
  • 18. In an air conditioning system including a first air conditioning unit and a second air conditioning unit which have been interconnected as twinned units, each of said air conditioning units including a controller, including a processor connected by a common data bus to a further controller including a temperature sensor for measuring the temperature in an enclosed space to be serviced by said air conditioning units, each of said controllers of said air conditioning units being connected to an information module transmitting certain parameter information to said controllers of said air conditioning units, respectively, the method comprising the steps of: determining if said air conditioning units may be twinned with another air conditioning unit;determining if said air conditioning units are of the same type;determining if said air conditioning units have a common identifier indicating if said air conditioning units are of the same or a similar model family;determining if said air conditioning units are of a similar heat exchange capacity; andcausing said air conditioning units to operate as twinned units in response to a signal from said further controller.
  • 19. The method set forth in claim 18, including the step of: generating an alarm signal if either one of said air conditioning units is not twinnable.