Apparatus and method for controlling lung ventilation
First Claim
1. A lung ventilating system, comprising:
- motor means including a brushless-type electric motor having a number of coils;
housing means;
piston means movable relative to said housing means;
linkage means operatively connecting said motor means and said piston means;
first means for sensing movement of said motor means, wherein the position of said piston means relative to said housing means is continuously determinable during movement of said piston means using said motor means sensed movement;
second means communicating with said first means for controlling the operation of said motor means and thereby the movement of said piston means, said second means including processing means communicating with said first means, said processing means processing information received from said first means for controlling direction of movement of said piston means and for controlling activation of said motor means;
programmed memory means communicating with said first means and said processing means for providing a predetermined output for controlling the energization of said coils of said motor means, said programmed memory means also outputting a velocity-related signal relating to the speed of said motor means;
reference sensor means operatively associated with said piston means for sensing a reference position of said piston means relative to said housing means and communicating said reference position to said processing means;
speed controlling means communicating with said programmed memory means and receiving said velocity-related signal, said speed controlling means also continuously inputting a desired velocity-related signal to said programmed memory means relating to a desired speed of said motor means, said desired velocity-related signal being continuously adjusted, the amount of adjustment depending upon the magnitude of difference between said received velocity-related signal and a predetermined magnitude, said predetermined output of said programmed memory means depending on said input from said first means, said input from said processing means, and said input from said speed controlling means; and
input means communicating with at least one of said processing means and said speed controlling means for use in controlling the speed and amount of movement of said piston means.
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Accused Products
Abstract
A lung ventilator is provided that reduces the number of mechanical components and is able to rapidly adjust to provide a selected volume of air or other gas for delivery to a patient'"'"'s lungs. The ventilator includes a brushless-type DC electric motor having a number of coils that are energized in a predetermined manner to cause reciprocating movement of a piston within a cylinder. The retracted end position of the piston in a cylinder is used to define the volume of air that is to be received by the patient. Three Hall sensors are connected to the motor at predetermined locations and sense the position of the rotor as it rotates due to the energization of the coils. Each of the pulsed outputs from the Hall sensors is out-of-phase relative to the other Hall sensor outputs. The six different binary outputs of the Hall sensors are identified so that a ROM is able to provide a predetermined output for each of the identified Hall sensor combinations inputted to the ROM. The outputs from the ROM are applied to driving transistors, the outputs of which are applied to the motor coils to cause desired rotational movements of the motor rotor. The position of the piston is monitored also using the Hall sensor outputs. The actual position of the piston is found and compared with the desired or selected position of the piston, which is based on a selected volume of gas to be sent to the patient. When the actual position of the piston corresponds to the selected position, piston movement is stopped. A reference sensor is used in determining a reference piston position from which the actual piston position can be found at any instance in time. The present invention also includes a one-piece manifold to which the cylinder is mounted. The manifold includes a number of passageways along which air is carried to the patient.
33 Citations
11 Claims
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1. A lung ventilating system, comprising:
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motor means including a brushless-type electric motor having a number of coils; housing means; piston means movable relative to said housing means; linkage means operatively connecting said motor means and said piston means; first means for sensing movement of said motor means, wherein the position of said piston means relative to said housing means is continuously determinable during movement of said piston means using said motor means sensed movement; second means communicating with said first means for controlling the operation of said motor means and thereby the movement of said piston means, said second means including processing means communicating with said first means, said processing means processing information received from said first means for controlling direction of movement of said piston means and for controlling activation of said motor means; programmed memory means communicating with said first means and said processing means for providing a predetermined output for controlling the energization of said coils of said motor means, said programmed memory means also outputting a velocity-related signal relating to the speed of said motor means; reference sensor means operatively associated with said piston means for sensing a reference position of said piston means relative to said housing means and communicating said reference position to said processing means; speed controlling means communicating with said programmed memory means and receiving said velocity-related signal, said speed controlling means also continuously inputting a desired velocity-related signal to said programmed memory means relating to a desired speed of said motor means, said desired velocity-related signal being continuously adjusted, the amount of adjustment depending upon the magnitude of difference between said received velocity-related signal and a predetermined magnitude, said predetermined output of said programmed memory means depending on said input from said first means, said input from said processing means, and said input from said speed controlling means; and input means communicating with at least one of said processing means and said speed controlling means for use in controlling the speed and amount of movement of said piston means. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
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2. A lung ventilating system, comprising:
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motor means having shaft means; housing means; piston means movable relative to said housing means; connecting rod means having a first portion and a second portion, said second portion being connected to said piston means; a fixed radius crank arm being rotatable relative to said shaft means of said motor means and having a first portion and a second portion, said first portion being connected to said shaft means to define a first connection position, said second portion being connected to said first portion of said connecting rod means to define a second connection position, wherein a distance is defined between said first connection position and said second connection position, said distance remaining substantially the same during operation of the lung ventilating system; first means for sensing movement of said motor means, wherein the position of said piston means relative to said housing means is continuously determinable during movement of said piston means using said motor means sensed movement; second means communicating with said first means for controlling the operation of said motor means and thereby movement of said piston means; and reference means operatively associated with at least one of said piston means and said motor means for inputting to said second means a reference position relating to a position of said piston means, wherein said reference means, said fixed radius crank arm, and said first and second means cooperate to cause desired reciprocating movement of said piston means in which said fixed radius crank arm is able to rotate less than 360°
for desired positioning of said piston means relative to said housing means.
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Specification