USRE31315E - Apparatus for converting a pump to a controller - Google Patents

A disposable cassette generally indicated at 12 is coupled to the disposable cassette in the pump 10 to receive fluid from the disposable cassette in the pump and pass the fluid to the receiver such as the patient 14. When the pressure of the fluid in the

12 rises through a particular magnitude dependent upon the setting of a

64, sensing apparatus generally indicated at 16 becomes operative to discontinue the operation of the pump. In this way, the pressure of the fluid introduced to the patient is controlled within pre-selected limits.

The

12 is shown in some detail in FIGS. 1 and 2. The

12 includes a

20 having detent means such as

22 disposed externally on opposite sides of the housing. The

20 is shaped to define conduit means including an

24, an

26 and a chamber 28 between the inlet and outlet lines. The chamber 28 communicates with the

24 and the

26.

Resilient means such as a diaphragm 30 is stretched across the chamber 28 between opposite sides of the

20. An

32 rests on the diaphragm and extends upwardly from the diaphragm through an aperture or opening 34 in the housing. In this way, the

32 is captured by the

34. The

32 is disposed in cooperative relationship with a

33 which extends from the diaphragm. The aperture or opening 34 communicates with a

35 which has a dimension converging towards the relatively narrow dimensions of the aperture or opening 34.

When the

16 is included in the pump, the

32 engages resilient means such as a

36 on the face of the pump 10. The

36 may have a construction similar to that of the diaphragm 30. The

36 supports an arm 38 which extends upwardly through a guide aperture 40 in a

42 so as to be guided for movement only in a vertical direction. A constrained

43 is disposed between the

42 and a

45 seated against the

36. A

44 is carried at the upper end of the arm 38 and is pivotable at one end on a

46 as a fulcrum. The

44 carries a

48.

A pair of

50 are supported on the

42.

52 are supported between the

42 and the

50. The

52 are provided with

54 which include detent means 56 for co-operating with the detent means 22 on the disposable cassette to hold the cassette in releasable relationship.

A

60 extends through a threaded aperture in one of the

50. The

60 receives the

64, which is manually rotatable to adjust the vertical positioning of the

60. At its upper end, the

60 engages the free end of a

70, the other end of which is attached to the

42. A bracket 74 is attached to the

42 as by a nut-and-

76. The bracket 74 carries a

78.

When operative, the pump 10 introduces fluid to the

24. This fluid flows through the chamber 28 and the

26 to the patient 14. The maximum pressure of this fluid is dependent upon the setting of the

64.

It occasionally happens that the

26 may become occluded. At such times, the fluid in the

26 rises into the chamber 28. When this back-up of fluid in the

26 has occurred sufficiently, the fluid in the chamber presses against the diaphragm 30 and forces the diaphragm upwardly. The diaphragm 30 in turn acts upon the

32 to force the arm upwardly.

The

36 translates the movement of the

32 into a corresponding movement of the arm 38. This produces a corresponding pivotal movement of the

44 about the

46 as a fulcrum. When the

44 has moved through a particular distance dependent upon the setting of the

64, the

48 becomes aligned with the

78. This causes the

78 to become energized and produces a signal for interrupting the operation of the pump 10.

The particular fluid pressure for energizing the

78 can be manually adjusted by rotating the

64. This causes the

60 to be adjusted vertically in position. The adjustment in the vertical position of the

60 in turn produces adjustments in the pivotal position of the

70. This in turn produces adjustments in the position at which the

48 becomes level with the

78 to energize the photocell.

The apparatus described above has certain important advantages. It provides for a flow of fluid from a pump to a patient at controlled and pre-selected pressures dependent upon the setting of the

64. If the pressures of the fluid from the pump should increase above such controlled and pre-selected limits, the apparatus instantaneously senses such increases in the fluid pressure beyond such controlled and safe limits and causes an output signal to be produced for interrupting the operation of the pump.

The apparatus constituting this invention also has other advantages. In addition to providing the

12, it provides all of the other elements within the

42. Furthermore, the

36 is disposed at the face of the pump. In this way, the

36 helps to seal the pump and also translates the pressure of the fluid on the diaphragm 30 into a corresponding pivotal movement of the

44. Although all of the components other than those in the

12 are disposed in the

42, it will be appreciated that these components can also be disposed in a housing which is separate from the pump.

FIGS. 4 and 5 illustrate another embodiment of the invention. In this embodiment, a

100 rotatable on a fulcrum 102 is included. The cam includes a

104 for contacting a

106, the leaf spring being attached at one end to a

108 by a screw or

110. The

100 is shaped to move the

104 in a direction towards the screw or

110 in accordance with rotary movements of the cam in a clockwise direction and to move the finger in a direction away from the screw in accordance with rotary movements of the cam in a counter-clockwise direction. The

100 is manually rotatable by a

112.

The

106 carries a

114 at the end opposite the

110. The

114 may interrupt the light from a

116 to a

118 when it has moved upwardly through a particular distance. The force required to move the

114 upwardly through this particular distance is dependent upon the setting of the

100 since this setting controls the length of the torque arm between the

104 and the flag. In this way, the setting of the

100 controls the fluid pressure at which the light to the

118 becomes interrupted.

1. In combination for use with a pump for introducing fluid to a receiver and for controlling the pressure of the fluid introduced by the pump to the receiver, the pump having detent means,

an output line for passing the fluid from the pump to the receiver,

a resilient diaphragm connected in the output line for constraint in accordance with the pressure of the fluid in the line,

means movable with the diaphragm for obtaining the production of an output indication when the pressure of the fluid in the output line has reached a particular level,

a housing holding the output line, the diaphragm and the movable means, and

detent means on the housing for co-operating with the detent means on the pump for releasably holding the housing in a particular fixed relationship with the pump.

2. The combination set forth in claim 1 wherein

the housing is constructed to capture the movable means to provide for a disposition of the movable means on the diaphragm and a movement of the movable means with the diaphragm.

3. The combination set forth in claim 2 wherein

the housing defines an output line at one end of the housing and defines an input end at the other end of the housing and defines a chamber between the input and output lines and wherein the diaphragm is disposed in the chamber.

4. The combination set forth in claim 1 wherein

means are adjustable to control the force required to move the movable means through each increment of distance in accordance with variations in fluid pressure and wherein means are included for providing the output indication when the movable means has moved through a particular distance.

5. The combination set forth in claim 1 wherein

means are adjustable to control the distance through which the movable means is moved to obtain an output indication.

6. The combination set forth in claim 1 wherein

the diaphragm is disposed in a particular relationship to the input and output lines in the housing and is stretched across the housing between the input and output lines.

7. In combination for use with a pump for introducing fluid at controlled pressures to a receiver and for providing an output indication when the pressure of the fluid exceeds a particular value, the pump having detent means,

conduit means extending from the pump to the receiver to introduce fluid from the pump to the receiver,

resilient means included in the conduit means for variable positioning in accordance with variations in the pressure of the fluid in the conduit means,

actuatable means operatively coupled to the resilient means for movement with the resilient means to obtain the production of the output indication when the resilient means has reached a particular position, and

detent means disposed externally of the conduit means for co-operating with the detent means on the pump to hold the circuit means in a particular fixed relationship to the pump.

8. The combination set forth in claim 7 wherein

means are associated with the conduit means for capturing the actuatable means to retain the actuating means for movement with the resilient means.

9. The combination set forth in claim 7 wherein

the conduit means define input and output lines and a chamber between the input and output lines and wherein in the conduit means support the resilient means in the chamber at a particular position above the input and output lines.

10. The combination set forth in claim 9 wherein

means are associated with the conduit means for capturing the actuatable means to retain the actuatable means for movement with the resilient means and wherein

adjustable means are associated with the actuatable means to control the variations in fluid pressure required to produce increments in the movement of the resilient means and the actuatable means.

11. The combination set forth in claim 9 wherein

means are associated with the conduit means for capturing the actuatable means to retain the actuating means for movement with the resilient means and wherein

adjustable means are associated with the actuatable means to control the variations in the distance of movement of the actuatable means required to obtain the production of the output indication.

12. The combination set forth in claim 7 wherein

the resilient means constitutes a diaphragm and the actuatable means constitutes an arm movable with the diaphragm.

13. The combination set forth in claim 7 wherein

the resilient means constitutes a diaphragm and the actuatable means constitutes an arm movable with the diaphragm and the adjustable means constitutes a manually movable knob and the variably positioned means constitutes a control lever operatively coupled to the knob for pivotable movement in accordance with the manual adjustments of the knob.

14. The combination for controlling the flow of fluid to a receiver,

a pump,

conduit means extending from the pump to the receiver to introduce fluid from the pump to the receiver,

resilient means included in the conduit means for variable positioning in accordance with variations in the pressure of the fluid in the conduit means,

actuatable means included in the conduit means and operatively coupled to the resilient means for movements with the resilient means to obtain the production of the output indication when the resilient means has reached a particular position,

sensing means associated with the actuatable means for sensing when the actuatable means has moved through a particular distance, and

detent means disposed in cooperative relationship on the pump and the conduit means for retaining the conduit means in a particular fixed, but removable, relationship to the pump.

15. The combination set forth in claim 14 wherein

means are associated with the conduit means for capturing the actuatable means to retain the actuating means for movement with the resilient means.

16. The combination set forth in claim 14 wherein

the sensing means are included in the pump and wherein the pump also includes resilient means associated with the actuatable means in the conduit means for variable positioning in accordance with the variable positioning of the actuatable means and further includes actuatable means operatively coupled to the resilient means in the pump for movement with such resilient means and wherein the sensing means are included in the pump and are associated with the actuatable means in the pump for sensing when such actuatable means has moved through a particular distance.

17. The combination set forth in claim 14 wherein

adjustable means are included for controlling the fluid pressure at which the sensing means becomes operative and

means are included in the sensing means for variable positioning in accordance with the adjustment of the adjustable means to control the positioning of the actuatable means at which the sensing means becomes operative.

18. In combination for controlling the flow of fluid to a receiver,

a disposable unit including inlet and outlet lines and a chamber between the inlet and outlet lines and a resilient diaphragm disposed in the chamber between the inlet and outlet lines and responsive to the pressure of the fluid in the chamber to become positioned in accordance with such fluid pressure and including detent means,

a pump including detent means disposed for cooperation with the detent means on the disposable unit to hold the disposable unit in removable relationship, the pump being constructed to pump fluid to the input line, and

means associated with the pump and responsive to the positioning of the resilient diaphragm for interrupting the operation of the pump when the resilient diaphragm has reached a particular position.

19. The combination set forth in claim 18 wherein

the means for interrupting the operation of the pump are included in the pump.

20. The combination set forth in claim 19 wherein

the means for interrupting the operation of the pump include a resilient diaphragm disposed on the face of the pump and positionable in accordance with the positioning of the diaphragm in the disposable unit and wherein means are disposed in the pump and are responsive to the positioning of the resilient diaphragm in the pump for interrupting the operation of the pump when the resilient diaphragm has reached a particular position.

21. The combination set forth in claim 18 wherein

the means for interrupting the operation of the pump are separate from the pump.

22. In combination for controlling the flow of fluid to a receiver,

a pump for pumping fluid to the receiver,

conduit means for receiving the fluid from the pump and for introducing the fluid to the receiver,

first means associated with the conduit means and responsive to variations in the pressure of the fluid in the conduit means for variable positioning in accordance with such variations in fluid pressure, and

second means responsive to variations in the positioning of the first means for producing a signal for discontinuing the operation of the pump when the first means has been displaced through a particular distance,

the conduit means and the first means being disposed in a cassette and first detent means being provided in the pump and second detent means being provided in the cassette for cooperation with the detent means on the pump to provide a releasable coupling between the cassette and the pump,

the conduit means including a housing and inlet and outlet lines,

the first means including a chamber between the inlet and outlet lines, and

means disposed in the chamber and responsive to the pressure of the fluid in the chamber for variable positioning in accordance with such variations in fluid pressure,

the second detent means being disposed on the housing and the first detent means include spring arms on the pump for releasably holding the second detent means.

23. The combination set forth in claim 22 wherein

the second means are included in the pump.

24. A method of controlling the pressure of a fluid being pumped from a source to a patient, including the following steps:

providing a pump for pumping the fluid from the source to the patient and operatively coupling the pump between the source and the patient,

passing the pumped fluid through a cassette containing a resilient diaphragm constrainable in accordance with the pressure of the fluid passing through the cassette,

converting the constraint of the resilient diaphragm to a movement of an output member,

providing a member adjustable in positioning and cooperative with the output member to provide an output signal at a position of the output member dependent upon the adjustment in the positioning of the adjustable member, and

interrupting the operation of the pump upon the production of the output signal to maintain within particular limits the pressure introduced to the patient,

the constrainable diaphragm in the cassette being coupled to a constrainable diaphragm in the pump to produce a constraint of the constrainable diaphragm in the pump in accordance with the constraint of the diaphragm in the cassette and the output member being disposed in the pump and being movable in accordance with the constraint of the diaphragm in the pump and the adjustable member being disposed in the pump.

25. In combination for converting a pump into a controller for controlling within particular limits the pressure of fluid introduced from a source to a patient,

a housing having an inlet and an outlet for the flow of fluid and having a chamber in communication with the inlet and the outlet,

a resilient diaphragm disposed in the chamber and constrainable in accordance with the pressure of the fluid in the chamber,

a pivotable member,

a light source,

a photocell,

means for providing for a variation in the amount of the light passing from the light source to the photocell in accordance with the variations in the positioning of the resilient member, and

means responsive to a particular change in the passage of the light from the source to the photocell for indicating that the pressure of the fluid within the housing has exceeded the particular limits.

26. The combination set forth in claim 25, including,

detent means on the housing for providing for a removable attachment of the housing to the pump.

27. In combination for converting a pump into a controller for controlling within particular limits the pressure of fluid introduced from a source to a patient,

a housing,

detent means on the housing for releasable attachment to the pump,

an inlet into the housing for receiving the fluid,

an outlet from the housing for providing for the transfer of the fluid from the housing,

a chamber within the housing in communication within the inlet and the outlet,

a diaphragm disposed across the chamber for constraint in accordance with the pressure of the fluid in the chamber, and

an arm disposed in communication with the diaphragm for transferring the constraint of the diaphragm as a force into the pump.

28. The combination set forth in claim 27 wherein

the diaphragm seals the chamber at one end and wherein the arm extends through the housing for communication with the pump.

29. The combination set forth in claim 27 wherein

the housing is provided with an opening at one end in communication with the chamber and wherein the diaphragm is disposed across the opening to seal the chamber from the opening and wherein the diaphragm is constrainable in a direction to extend into the opening in accordance with increases in the pressure of the fluid in the chamber and wherein the arm is extended through the opening to transfer the constraint of the diaphragm into the pump.

30. The combination set forth in claim 29 wherein

the housing is shaped to facilitate a manual manipulation of the housing into releasable attachment with the pump and wherein the detent means is disposed on the housing.

31. In combination in a disposable unit for operating in conjunction with a pump to control within particular limits the pressure of fluid introduced from a source to a patient,

a housing,

detent means on the housing,

an inlet for receiving the fluid from the source,

an outlet for passing the fluid to the patient,

a resilient diaphragm disposed across the chamber to close the chamber and to become constrained in accordance with the pressure of fluid in the chamber,

a reinforcement on the diaphragm at an intermediate position on the diaphragm,

an opening disposed in the housing in communication with the reinforcement at the end of the housing opposite the chamber, and

force-transmitting means disposed in cooperative relationship with the reinforcement and extending through the opening to produce a force in the pump in accordance with the constraint of the diaphragm.

32. The combination set forth in claim 31 wherein

the force-transmitting means constitutes an arm disposed in cooperative relationship with the reinforcement and wherein

there is a passage in the housing in communication with the opening and the passage is provided with dimensions converging toward the opening and wherein

the arm has a tubular portion extending through the passage and the opening to transmit the force on the diaphragm.

33. The combination set forth in claim 32 wherein

the reinforcement is hollow and the arm is disposed within the hollow interior of the reinforcement.

34. In combination for controlling the pressure of fluid passing from a source to a patient,

a pump for pumping fluid from the source to the patient,

a casing supported by the pump,

there being a socket in the casing,

detent means in the socket,

a disposable unit including a housing dimensioned to fit into the socket and including detent means disposed on the housing to cooperate with the detent means in the socket for removably retaining the disposable unit in the socket,

there being a chamber in the housing,

an inlet disposed in the housing and communicating with the chamber to provide for the introduction of fluid from the source into the chamber,

an outlet disposed in the housing and communicating with the chamber to provide for the passage of fluid from the chamber to the patient,

a resilient diaphragm disposed in the chamber to close the chamber and constrainable in accordance with the pressure of the fluid in the chamber, and

means disposed in the pump and responsive to the constraint of the diaphragm for providing an output indication when the pressure of the fluid in the chamber has reached a particular limit.

35. The combination set forth in claim 34, including,

a knob on the face of the pump casing, the knob being adjustable to different positions representing individual limits for the pressure of the fluid in the chamber, and

the indicating means including means responsive to the adjustments in the positioning of the knob for providing the output indication when the pressure of the fluid in the chamber has reached the particular limit represented by the adjustments in the positioning of the knob.

36. In combination for controlling within particular limits the pressure of fluid introduced from a source to a patient,

a pump for pumping the fluid from the source at a positive pressure,

a housing having an inlet and an outlet for the flow of fluid and having a chamber in communication with the inlet and the outlet,

a resilient diaphragm disposed in the chamber and constrainable in accordance with the pressure of the fluid in the chamber,

means for removably supporting the housing on the pump,

means disposed on the pump for adjustably setting the particular limits for the pressure of the fluid flowing through the chamber, and

means responsive to the constraint of the diaphragm and the adjustable setting of the particular limits for providing an output indication when the pressure of the fluid in the chamber has reached such particular limits.

37. The combination set forth in claim 36 wherein

the indicating means includes a pivotable member and the member is coupled to the diaphragm to receive a force in accordance with the constraint of the diaphragm.

38. In combination for converting a pump into a controller for controlling within particular limits the pressure of fluid introduced from a source to a patient,

a pump for directing fluid from the source under pressure, the pump including a casing having a receptacle,

a housing removably disposed within the casing for receiving the fluid directed from the source by the pump and for directing the fluid to the patient,

resilient means included within the housing for constraint in accordance with the pressure of the fluid in the housing.

a knob extending externally from the pump casing and adjustable in position from a position external to the pump casing to control within particular limits the pressure of the fluid within the housing, and

means operatively coupled to the resilient means and the knob for providing an output indication when the resilient means have received a particular constraint dependent upon the setting of the adjustable knob.

39. The combination set forth in claim 38, including,

resilient detent means in the casing for removably holding the housing, and

detent means on the housing for cooperation with the resilient detent means in the casing to provide a removable retention of the housing by the casing.

40. The combination set forth in claim 39,

there being a socket in the casing for receiving the housing, the resilient detent means being disposed in the socket.