NL8203188A - PUMP OF THE PERISTALTIC PULSATING TYPE. - Google Patents

Description

\ N / 31,069-dV / f.

Peristaltic pulsating pump.

The invention relates to a fluid pump for use at a relatively low pressure level and in particular to a pump which can be operated by connection to a vacuum source. The pump according to the invention is particularly useful (although not exclusively) in the medical field, such as in an operating room, where a vacuum source is always readily available.

In a medical and operating room environment, pumps that provide a low output current and that can operate in a pulsating or peristaltic manner have been utilized for many applications. They can be used, for example, for draining liquids from closed wounds and for delivering the liquids to a storage bin. They can also be used as a stomach pump. Such a pump can be used to collect blood and / or to transfuse from a donor to a recipient. Low pressure pulsating pumps are also useful in the renal dialysis technique for transferring blood to and from the low output 20 dialysis machine PCT pen, which may operate in a pulsating, peristaltic manner, may also be used to irrigate wounds or organs and waste disposal.

The object of the invention is to provide a pump, which in a simple manner has a pulsating peristaltic effect, the pump being pumped in by a vacuum. can be put into operation.

According to the invention, the pump is provided with an expandable elastic element, preferably in the form of a sleeve, provided with an inlet end and an outlet end. The sleeve is contained within and extends into a relatively rigid vacuum chamber, which is connectable to a vacuum source. The vacuum chamber surrounds the elastic sleeve, so that when the vacuum is supplied to the chamber, the sleeve will expand. A non-return valve is provided at both the inlet and outlet ends of the sleeve to ensure that flow through the sleeve occurs only in one direction. When a vacuum is applied, the reduced pressure around the elastic sheath results in the sheath expanding, 8203188-2- * * »drawing in a fluid through the inlet through the open-air check valve.

In an automatically operating embodiment of the invention, the expansion and absorption of fluid in the elastic sheath continues until the elastic sheath is expanded to a predetermined size, at which time the sheath expansion displaces a valve, which vent the vacuum chamber to the atmosphere. On venting the vacuum chamber, the elastic sleeve contracts, closing the inlet check valve and pushing the fluid through the outlet check valve out of the elastic sleeve into a delivery line. The resilient contraction of the elastic sleeve also closes or makes it possible to close the vent valve, so that a new pump cycle can start under the influence of the suction effect.

The invention also includes manually operable embodiments which control the frequency and strength of the pumping action.

The invention provides a pump with peristaltic pulsating action, which exhibits a soft pumping action and is suitable for use in a medical and surgical environment, where weak pumping action is one of the main considerations.

The device according to the invention can operate both automatically and with manual operation. The device has a simple inexpensive construction and can be designed as a disposable item.

The invention will be explained in more detail below with reference to the drawing, in which some embodiments are shown.

Fig. 1 is a diagrammatic perspective view. view of an embodiment of the device according to the invention, with a part broken away.

FIG. 2 is a longitudinal section of the device of FIG. 1 showing how the elastic member expands to receive a fluid.

Fig. 3 is a sectional view corresponding to FIG. 2, schematically illustrating the state, 8203188-3, where venting to atmosphere occurs to effect the pulsating pumping action of the elastic member.

Fig. 4 is a sectional view of a modified embodiment of the device of FIGS. 1-3, wherein. the automatic air vent can be lifted and adjusted manually.

Fig. 5 is a sectional view of a fully manually operable embodiment of the invention.

Fig. 1 schematically shows an automatically operating embodiment of the device according to the invention. The device includes a rigid housing 10, which may be formed from plastic or the like. The house can have a wide variety of shapes, depending in part on the particular environment and manner in which the device is to be used. For example, the housing may be in the form of an elongated hand-held elongated device or it may be formed as a drum to which various conduits, hoses and nozzles may be connected. The housing 10 in the illustrated embodiment example includes an inlet end 12 and an outlet outlet end 14. An elastic housing 16 extends between the inlet end 12 and the outlet end 14 within the housing 10. The ends of the elastic housing 16 are hermetically sealed with respect to the inlet and outlet ends of the housing, as schematically indicated by inverted ends 18 of the elastic housing 16. Both the inlet and outlet ends of the device have a non-return valve 20 resp. 22 added. The inlet check valve 20 allows only a flow from the inlet 12 to the elastic housing 16, while the outlet valve 22 allows only a flow from the elastic housing 16 to the outlet 14. The check valves 20, 22 may be suitably hydrogenated according to the scope of the device. For example, they may be in the form of a non-return ball valve or the like, which are mounted in pipe fittings 24, 26 defining the inlet and the outlet.

The housing is provided with an attachment 28, which is connectable to a vacuum line, which in turn may be connected to a vacuum source, such as is present in an operating room or other hospital or surgery room.

The vacuum line preferably includes an adjustable throttle valve (not shown) which closes the vaccine or limits / limits the rate at which the vacuum chamber of the device is emptied.

From the foregoing, it will be seen that the interior of the housing 10 defines a variable volume pumping chamber 30 (determined by the internal volume of the elastic sleeve 16) and a surrounding or annular vacuum chamber 32. During operation, as a vacuum is built up in the vacuum chamber 32, the elastic sleeve expands and a flux is received in the pump chamber 30 via the inlet tube and the non-return valve 20. During this portion of operation, the outlet check valve 22 remains closed.

The volume of fluid that is taken up and pumped through the pump chamber 30 is a direct function of the extent to which the sleeve 16 can expand. To this end, the device includes a relief valve 34 mounted on the housing 10 so that the valve is actuated by the transversely expanding sleeve 16 when the pump chamber 32 has reached a predetermined volume. In the illustrated embodiment, the relief valve 34 is mounted in the housing 10 and extends through a vent opening 36 formed in the housing 10. The valve 34 includes a valve element 38, which is in the form of a cushion. The valve element 38 cooperates with a valve seat 40, which surrounds the vent opening 36. The valve element 38 normally rests on the valve seat 40, so that the valve opening 36 remains closed, as shown in FIGS. 1 and 2. The valve 34 also includes an inwardly projecting valve stem 42 which projects from the valve element 38 through the opening 36. The inner end of the valve stem 42 terminates in a valve gland 44 on which the transversely expanding elastic sleeve 16 can engage. The valve may be biased on the valve seat 40 in its closed position by a spring or biasing means, as schematically indicated by a leaf spring 46. The foregoing will be understood that when the elastic pumping chamber 30 is expanded by a predetermined size, the sleeve will engage the valve gland 44 and a further expansion of the sleeve will open the valve 34 so that air 8203188 * * -5- can flow in through the valve opening 36. The size of the vacuum and the size of the valve opening 36 can be selected such that the velocity / air entering through the valve opening 36 is sufficiently greater than the velocity * at which the air flows through the vacuum line, so that the elastic sleeve can return to the small volume within a predetermined time interval. Therefore, by choosing these parameters, the characteristics such as the frequency of the pulsating pumping action can be varied.

When the valve opens *, the sleeve will contract due to its elastic nature, causing the fluid * contained in the elastic pump chamber to be forced through the exhaust check valve 22 into the outlet tube 14. When the elastic pump chamber 30 is contracted to such an extent * that the relief valve 34 can close again * the cycle starts again.

From the foregoing it appears that the described device can be used as a suction device and / or as a fluid delivery device. The device can be utilized for aspirating a closed wound into, for example, the abdominal cavity * with the inlet 14 connected to a conventional closed wound drainage tube and the vacuum level in the vacuum line and the rate at which chamber 25 is being emptied , are adjusted to achieve the desired suction and pumping effect. Alternatively, the device can be used as a gastric pump in order to achieve a gentle but firm peristaltic pumping of material from a patient's stomach. When used as a delivery device, the inlet tube may be in sterile irrigation or debridement. solution * while connecting the outlet end to a tube * fitted at its end with a suitable nozzle or shower-shaped element. The fluid pump operation is particularly suitable in those situations * where it is important to have a soft operation and where high-speed, high-frequency, powerful jets are undesirable, such as, for example, cleaning the surface of delicate organs or delicate wounds.

In this connection it can be noted * that the pump pressure used in the device according to the invention can be relatively low and can be less than 1 atmosphere. This is due to the fact that the device can operate between a low pressure, equal to the maximum vacuum that the source in question can supply, and atmospheric pressure.

During operation of the device, the vacuum within the vacuum chamber can be varied as desired between atmospheric pressure and a certain vacuum level.

Fig. 4 shows a modified embodiment of the device, in which an opening 50 is formed in the housing 10 in a place where the opening may or may not be covered with a finger by the user. The provision of the opening 50 in the housing 10 provides the user with an appropriate on-off control. The device can be "turned off" by releasing the hole 50, whereby the chamber 32 is continuously vented to the atmosphere. If the device is to be put back into operation, the opening 50 need only be covered, so that within the " the vacuum can be developed again in chamber 32. In addition to an on-off control, the opening can be optionally blocked or released to vary the operating frequency of the automatic valve by varying the degree to which the opening is covered. are covered and released at a high speed, faster than the normal automatic operating frequency of the device, achieving almost complete manual operation.

Under circumstances, it may be desirable to simply provide a fully manually operable device. Fig. 5 shows a device which is essentially the same as the described device 30, except that the automatic valve is completely omitted and only a manually controllable opening is present.

The frequency in this case is completely determined by the user by opening and closing the opening 50 to an extent and at a speed, according to the particular needs and requirements of the moment.

It is noted that the various embodiments of the invention are relatively simple to implement and operate, so that the device is itself suitable as a disposable article.

The invention is not limited to the exemplary embodiments described in the preceding 8203188-7, which can be varied in various ways within the scope of the invention.

8203188

Claims (15)

1. Pump with a peristaltic, pulsating action, characterized by a highly elastic member with an inlet and an outlet end, between which a flow path is defined, a chamber with variable pressure, the elastic member being at least partly surrounded by the pressure chamber and is hermetically sealed from the pressure chamber, means for effecting an oscillatory variation in the pressure within the chamber and a check valve member that allows only flow along the flow path in the Sin direction. A pump according to claim 1, characterized by means for varying the pressure within the chamber within a range not greater than one atmosphere. 3. Device according to claim 1, characterized in that the means for effecting an oscillating pressure variation are designed and arranged in such a way that an automatic action occurs. 4. Device according to claim 1, characterized in that the means for effecting the oscillating pressure variation comprise a manually operable member. 5. A pump with a peristaltic pulsating action, characterized by a housing defining a vacuum chamber and having an inlet and outlet end, an elastic member extending from the inlet to the outlet end of the chamber and distributing the chamber in a vacuum chamber and a pumping chamber, the vacuum chamber surrounding the pumping chamber, a means for connecting the vacuum chamber to a vacuum source, a check valve member for the inlet and the outlet ends, to effect a flow in one direction through the pump , and a vent member associated with the chamber and capable of admitting atmospheric air into chamber 35, thereby interrupting the expansion of the elastic member and allowing the elastic member to exert a pumping action on the material within the elastic member by its resilience. . . ,, n q 6. A pump according to claim 5, characterized in that the vent opens in response to the expansion of the elastic sleeve and closes in response to the elastic sleeve contracting. 7. Pump according to claim 6, characterized by a secondary hand-operated venting means for optionally venting the chamber to the atmosphere. 8. A pump according to claim 7., characterized in that the secondary member consists of a hand-sealable hole formed in the housing, independently of the first vent member. 9. Pump according to claim 5, characterized in that the venting member is operable by hand. 10. Device as claimed in claim 9, characterized in that the venting member consists of an opening formed in the housing, with which the chamber can optionally be vented to the atmosphere. 11. A pump according to claim 6, characterized in that the elastic member is designed such that it can expand in a direction transverse to the flow direction of the flowing fluid, wherein the venting member comprises an operating member which is located on the inside of the housing. is mounted so that the transversely expanding elastic member can engage it. Pump according to claim 11, characterized in that the venting member is provided with a valve member, which is formed in the housing and which can connect the vacuum chamber 30 to the atmosphere, which valve member comprises an actuating member, such that it is operating in response to a transverse movement of the elastic member, 13. Pump according to claim 12, characterized by a means which biases the vent valve in a normally closed position. Pump according to claim 5, characterized in that the housing has an elongated shape, so that it has an easily manageable handle shape. 8203188 V -JO- 15. Pump according to claim 14, characterized in that the outlet end comprises a tubular connecting piece with which different nozzle types can be detachably connected. 16. Pump according to claim 5. characterized in that the housing comprises at least one transparent part, in order to be able to observe the action of the resilient element. 8203188%,