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USRE42834E1 - Personally portable vacuum desiccator - Google Patents

Personally portable vacuum desiccator
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USRE42834E1
USRE42834E1US12/580,991US58099109AUSRE42834EUS RE42834 E1USRE42834 E1US RE42834E1US 58099109 AUS58099109 AUS 58099109AUS RE42834 EUSRE42834 EUS RE42834E
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desiccator
personally portable
vacuum desiccator
portable vacuum
vacuum
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US12/580,991
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Richard Watson
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KCI Licensing Inc
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KCI Licensing Inc
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Abstract

The vacuum desiccator low pressure vacuum pump and trap and is transportable upon a user's person. The device is especially useful to remove excess fluids from wounds and incisions as they heal. The device includes a desiccator cartridge containing a fluid trapping agent. The desiccator cartridge is connected to a vacuum pump member providing a low vacuum pressure to the interior chamber of the desiccator cartridge. A small battery powered, electric motor drives the pump member. An electrical control circuit, including the battery power source, controls the operation of the electric motor. A single passage, one-way, gas/liquid flow pathway connects the inlet port of the desiccator cartridge to an occlusive dressing covering the wound to be drained. The control circuit includes one or more ancillary circuits for controlling operation of the device, such as: a power circuit, a moisture sensor, a timer circuit, a vacuum pressure sensor, and a pressure differential sensor.

Description

FIELD OF THE INVENTION
The present invention is in the field of portable, motor driven vacuum p-umps having a movable working member which is motivated by electricity or a magnetic field. More specifically, the present invention relates to a personally portable, low negative pressure, motor driven vacuum pump having an electric power storage means and a moisture trap.
BACKGROUND OF THE INVENTION
A number of portable, low pressure vacuum apparatuses capable of producing vacuum pressures down to about 500 mm HG currently exist. Medicine, particularly the wound healing arts, is a field where such devices have a specific utility. In the wound healing arts, it has been recognized that the removal of excess fluid from a wound site can improve the healing of the wound. This recognition has motivated the field to develop wound treatment regimens that include the use of vacuum devices for removing excess exudate from a wound site. For example, in full thickness dermal wounds devices to assist in the removal of excess fluid from these wounds have been developed and used. Further, because of the recognized benefits of encouraging patients to be active and mobile if possible, these devices need to be portable, and preferably, personally portable.
One strategy for providing a personally portable, low pressure vacuum source for drainage of wound site involves the use of a passive vacuum reservoir. Examples of this types of device includes those disclosed by Fell, U.S. Pat. No. 5,073,172; Seddon et al., U.S. Pat. No. 6,024,7311 and Dixon et al., U.S. Pat. No. 5,944,703. Typically, these devices comprise an evacuated cannister attached to a drainage tube. Because the vacuum pressure in the reservoir of these devices continuously decreases as the wound is drained (and the reservoir filled), they often include a means for regulating the pressure delivered to the wound site at some level below the maximum pressure of the vacuum reservoir. Additionally, these devices require a reservoir of a relatively larger volume than that of the volume of fluid they are capable of removing from a wound site.
Recognizing these limitations, the field has been further motivated to develop means for providing a portable, low pressure vacuum source for drainage of a user's wound site which provides a relatively constant vacuum pressure. A strategy for accomplishing this objective includes having the device comprise a vacuum pump to provide a constant low pressure vacuum source, or to replenish a separate vacuum reservoir. An example of this type of device includes that disclosed by McNeil et al., U.S. Pat. No. 4,710,165. Also see U.S. Pat. No. 5,134,994 to Say. Although portable, these devices are bulky and obvious to an observer of the user, and may subject the user to embarrassment or personal questions. It would be beneficial to have a portable vacuum device that was personally portable by the user without being obvious to an observer.
An apparatus which addresses this latter benefit is disclosed in U.S. Pat. No. 6,142,892 to Hunt et al. The Hunt apparatus is supported on a belt or harness worn by the user, and is small enough to be unobtrusive when worn under a jacket or the like. However, the Hunt apparatus utilizes a liquid reservoir containing the fluids drained from a wound site. Fluids contained in the liquid reservoir of Hunt are subject to slouching, which may adversely affect the function of the Hunt apparatus if the fluid prematurely enters an inappropriate pathway (the outlet end of the cannister). Also, the Hunt device requires multiple tubes or a multi-lumen tube running from the device to the wound site to accomplish its full utility. Additionally, the Hunt apparatus is intended to be worn by a patient at waist level or higher. This means that wound sites below and distal to the users waist can be subjected to a higher vacuum pressure than with a device that may be located more proximal the wound site than the Hunt apparatus.
Although the above apparatuses may be useful in the field for accomplishing their intended purposes, it would be beneficial to have an alternative personally portable vacuum device that can be worn unobtrusively by the user, and which is not subject to slouching of the fluid it retains, and further which does not require special tubing to connect it to a wound site.
SUMMARY OF THE INVENTION
The present desiccator is a personally portable vacuum pump and moisture trapping device. The invention is useful where a user desires to carry a device for collecting and trapping small volumes of liquids. As a specific example, the present invention is therapeutically useful to provide a personally portable low negative pressure source and trap for aspirating and collecting fluid exudate from a wound or incision. A further benefit of the present invention for such applications involving biological waste is that the trap and all other components of the desiccator device that contact the aspirated biological materials are removable from the device and are replaceable. The desiccator device includes a trap, a vacuum pump head member, an electric motive mechanism and an electric control and power circuit.
The trap comprises a desiccator cartridge enclosing an interior space or chamber. An inlet port and an outlet port provide gas/liquid flow communication with the interior chamber of the desiccator cartridge. The desiccator cartridge is of a design and construction to withstand the application of an appropriate vacuum without substantial collapse of the interior chamber. Some distortion of the cartridge while under vacuum is desirable in some applications, e.g., where buffering of the vacuum pressure of the system is beneficial. A trapping agent is contained within the interior chamber for retaining the fluid that enter the chamber. The composition of the trapping agent is selectable by one of ordinary skill in the art in view of the teaching herein and in consideration of the characteristics of the fluid to be trapped.
A vacuum pump member or pump head is connected in gas flow communication with the interior chamber of the trap by having the low pressure port of the vacuum pump member being connected to the outlet port of the trap. The exhaust port of the vacuum pump member is vented to atmosphere. Operation of the vacuum pump member develops a low vacuum pressure which is communicated to the interior chamber of the desiccator cartridge and then to the inlet port of the trap. The vacuum pressure at the inlet port of the trap is selectable by the ordinary skilled artisan depending on the intended use of the present device. Typically, the selected vacuum pressures range less than about 250 mm Hg, and in part depends on the vacuum pressure to be delivered to the wound site and the any loss of vacuum pressure across the delivery tube connecting the inlet port to the wound site. An electric motive means (an electric motor) is coupled to the vacuum pump member and drives the pump head. An electrical control circuit, including an electrical power source, is in electrical communication with the electric motive means. The control circuit is operable to control the operation of the electric motive means.
The desiccator cartridge of the trap has only a single, ingress gas/liquid flow pathway, which is the inlet port. Additionally, the flow path at the inlet port is unidirectional, in that gas/liquid flow can enter the trap via the inlet port, but not exit or back flow out of the trap via the inlet port. Optionally, the personally portable vacuum desiccator includes a single passage gas/liquid flow path delivery tube for connecting the trap to a source of gas or liquids to be delivered into the trap. The delivery tube has an input end for communicating with the gas/liquid source and an output end connectable to the inlet port of the desiccator cartridge. A one-way valve is located proximate the inlet port of the desiccator cartridge. The one-way valve prevents the contents of the desiccator cartridge from back-flowing out of the inlet port. The one way valve may be separate from or incorporated into the inlet port. The desiccator cartridge is removable from the vacuum desiccator and separately disposable. A fresh desiccator cartridge is installed in the desiccator to replace the removed cartridge.
The desiccator cartridge contains a trapping agent for containing the liquids or moisture delivered to the trap under the force of the vacuum. The trapping agent combines with the liquid or moisture to alter its physical features, i.e., from a liquid or vapor to a mixed phase or solid state. Compositions suitable for use as trapping agents in the present invention are selectable by one of ordinary skill in the art in view of the present disclosure and teachings herein. The trapping agent should adsorb, absorb or in some way combine with the liquid or moisture to immobilize and keep it from sloshing in the desiccator cartridge as it is accumulated in the interior chamber. Examples of potentially suitable trapping agents include: a desiccant, an adsorbent and an absorbent. Specific examples include silica gel, sodium polyacrylate, potassium polyacrylamide and related compounds. Such moisture trapping materials are often found in disposable baby diapers and in feminine napkins. The level of moisture in the desiccant chamber is monitored by the moisture sensor circuit. When the amount of moisture trapped in desiccant material approaches saturation, the chamber may either be removed and disposed of or recharged with fresh desiccant material and repositioned in the device (depending on the design of the desiccator cartridge).
The present vacuum desiccator can further comprise a filter for blocking bacteria and/or untrapped moisture from passing into the vacuum pump member or from being vented to atmosphere. The filter may be located proximate the outlet port to protect the pump member and/or proximate the exhaust port to prevent venting bacteria or moisture to atmosphere.
The electric motive means of the vacuum desiccator includes an electric motor. The motor is coupled to the vacuum pump member to drive the pump. The motor may be coupled to the pump head by any of a number of means known to and practicable by the ordinary skilled artisan. For example, the motor shaft may be integrated with the vacuum pump head, it may be mechanically coupled to the vacuum pump so as to be readily separable from the pump head, or it may be magnetically coupled to the pump head so as to, again, be readily separable from the vacuum pump member. A readily separable motive means is particularly useful where the vacuum pump member and the desiccator cartridge are integrated together as a unit.
A purpose of the electrical control circuit is to monitor the condition of the device and to control operation of the motive means. The electrical control circuit includes the electrical power source for the device. The power source comprises an electrical power storage means, such as a battery. A feature of the power source is that the electrical storage means is removable from the electrical control circuit and is replaceable. Additionally, the electric control circuit optionally includes other ancillary circuits for the operation and control of the device. These circuits include: a moisture sensor circuit for detecting the presence of moisture proximate the low pressure port of the vacuum pump member; a timer circuit for intermittently operating the electric motive means; a vacuum pressure sensor circuit for detecting a vacuum pressure in the interior chamber or elsewhere in the device; and a pressure differential sensor circuit for sensing a difference in pressure between the inlet and outlet ports of the desiccator cartridge.
The component parts of the vacuum desiccator device which are in gas/liquid flow communication are replaceable. This allows the components of the device which are exposed to contact with the wound fluids to be separable from the other components of the device to facilitate cleaning or disposal of contaminated components.
The present personally portable vacuum desiccator can further comprise a housing for containing some or all of the component parts of the device. For example, the housing may contain the electric motive means and the electrical control circuit, while the other components are simply attached to the housing, e.g., an integrated pump head/trap combination assembly. Other configurations obviously are possible, such as a housing containing the electric motive means and the electrical control circuit and additionally either or both of the trap (desiccator cartridge) and the vacuum pump member.
Additionally, the present vacuum desiccator device may comprise the battery being housed in a battery compartment attached or integral to the desiccator cartridge of the moisture trap. In this configuration, the battery and the desiccator cartridge are replaceable in the device as a single unit.
It is a feature of the present invention that the personally portable vacuum desiccator can be used as part of a treatment regimen to promote wound healing by drawing excess wound exudate away from the wound site. As an example of using the desiccator for this purpose, an open, full thickness dermal wound is covered with an air tight dressing, such as are commercially available. The input end of the gas/liquid flow delivery tube is positioned under the dressing in flow communication with the wound site. The vacuum desiccator is activated, a low negative pressure is produced at the wound site via the delivery tube and excess fluids excreted by the wound are removed under the force of the low negative pressure.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a schematic diagram of the major components of the present vacuum desiccator showing the electric control circuit contained in a housing with the motor coupled to the trap and vacuum pump member.
FIG. 2A is a side elevation and partial cross-sectional view of the desiccator cartridge of the present device, showing the interior chamber containing a trapping agent.
FIG. 2B is a top plan and partial cross-section view of the desiccator cartridge showing the interior chamber containing alternative trapping agents and showing alternative moisture/fluid sensors for detecting fluid in flow path proximate the outlet port of the cartridge. Also shown is a separately mountable outlet microfilter.
FIG. 3 is a partial top plan view of the outlet port portion of the desiccator cartridge showing in phantom a micro-filter integral to the desiccator cartridge flow path, and also a vacuum pressure sensor mountable to the outlet port of the cartridge.
FIG. 4 is a cross-sectional view through a side elevation of a combination of a desiccator cartridge and vacuum pump head as an integral unit.
FIG. 5A is a partial top plan view of the inlet portion of the desiccator cartridge showing the inlet port with a one-way gas/fluid flow valve installed.
FIGS. 5B and 5C are partial cross-sectional views of two types of one-way gas/liquid flow valves.
FIG. 6 is a block diagram of the electric control circuit of the desiccator device indicating its sub-circuits and the interconnect relationship with certain ancillary components.
FIGS. 7A and 7B show alternative strain-gauge means for monitoring vacuum pressure in the interior chamber of the desiccator cartridge.
FIG. 8 is a partial cross-section of a side elevation of a desiccator cartridge showing the interior components and their layout.
FIG. 9A is an exploded view of a side elevation of a desiccator cartridge showing a cover member incorporating an integral gas flow channel.
FIG. 9B is a bottom plan view of the cover member ofFIG. 9A illustrating an example of an integral gas flow channel layout (in phantom) and the perforations by which the integral channel is in gas flow communication with the interior chamber of the desiccator cartridge.
DETAILED DESCRIPTION OF THE INVENTION
The personally portable vacuum desiccator is a device useful as a source for providing a low vacuum pressure for removing excess wound exudate from dressed dermal wounds. This application of present personally portable vacuum desiccator is useful for promoting wound healing by draining such excess wound exudate from the wound site.
Referring now to the drawings, the details of preferred embodiments of the present invention are graphically and schematically illustrated. Like elements in the drawings are represented by like numbers, and any similar elements are represented by like numbers with a different lower case letter suffix.
As shown inFIG. 1, the present invention is a personallyportable vacuum desiccator10 comprises atrap12, a vacuum pump member operable to provide a source of low vacuum pressure, an electric motive or drive means36 for operating the vacuum pump member, and an electrical control circuit, including an electrical power source. The control circuit is electrically connected to the electric motive means to control its operation, i.e., to turn it on and off. Thetrap12 includes adesiccator cartridge14 Thedesiccator cartridge14 has aninterior chamber16 containing a trapping agent54 (seeFIG. 2). Additionally, thedesiccator cartridge14 has aninlet port18 and anoutlet port20 in gas/liquid communication with theinterior chamber16 of thecartridge14. A vacuum pump head ormember22 serves as a source for a low pressure vacuum of about 250 mm Hg or less. Thevacuum pump member22 is placed afterdesiccant chamber14 in the gas/liquid flow pathway to facilitate preventing fluid from entering the vacuum pump member. Thevacuum pump head22 has alow pressure port24 and anexhaust port26. Thelow pressure port22 is in gas/liquid flow communication with theoutlet port20 of thedesiccator cartridge14. Theexhaust port26 of thevacuum pump head22 is vented to atmosphere. When operated, thevacuum pump member22 provides a low vacuum pressure to theinterior chamber16 of the desiccator cartridge. As further shown in FIG.1., an electric motive means36 is in communication with thevacuum pump member22 via acoupling38. The electric motive means36 is a low voltage electric motor, which is operable to drive thevacuum pump member22, thus providing a low vacuum pressure at the pump member'slow pressure port24. Theelectrical control circuit40, including anelectrical power source46, is in electrical communication with the electric motive means36 via anelectric motor lead42. Thecontrol circuit40 controls the operation of the electric motive means.
Optionally, a delivery tube32 is included with thedesiccator device10 to put thetrap14 in gas/liquid flow communication with a location to which a low negative vacuum pressure is to be applied, such as a wound site covered by an occlusive dressing (not shown). The delivery tube32 consists of a single passage gas/liquid flow path, having aninput end33 and anoutput end24, theoutput end34 being connected to theinlet port18 of thedesiccator cartridge14.
The components of the personallyportable vacuum desiccator10 can further comprise ahousing50 for containing or mounting the component parts of thevacuum desiccator10. As exemplified inFIG. 1, thehousing50 contains the electric motive means26 and theelectrical control circuit40. Alternatively, thehousing50 can contain the electric motive means36, theelectrical control circuit40 and additionally, thedesiccator cartridge14 and/or thevacuum pump member22.
Thetrap12 comprises adesiccator cartridge14. As shown inFIGS. 2A and 2B, thedesiccator cartridge14 encloses an interior space orchamber16. Thedesiccator cartridge14 is of a design and material construction to withstand the application of an appropriate vacuum without substantial collapse of theinterior chamber16. Some distortion of the cartridge while under vacuum is desirable in some applications, e.g., where buffering of the vacuum pressure of the system is beneficial or distortion of thechamber16 is used as an index of the vacuum pressure within theinterior chamber16.
A trappingagent54 is contained within theinterior chamber16 to retain (trap) fluids and moisture that enter thechamber16. There are a variety of compositions available in the art that are appropriate trapping agents for practice in the present invention. A specific composition or combination of compositions useful as the trappingagent54 is readily selectable by one of ordinary skill in the art in view of the teaching herein and in consideration of the characteristics of the fluid to be trapped. Examples of classes of such compositions suitable as trappingagents54 include desiccants, adsorbents, absorbents and the combination of any of these. Specific examples include silica gel, sodium polyacrylate, potassium polyacrylamide and related compounds. Such moisture trapping materials are often found in disposable baby diapers and in feminine napkins. These compositions may beparticulate trapping agents54a orfibrous trapping agents54b. In a preferred embodiment, the trappingagent54 was a pillow-like structure (seeFIG. 8), which included a fiber matrix material which served to contain and somewhat immobilize the other loose components of the trapping agent, and to act as a wick to distribute the fluid as it entered the interior chamber. The level of moisture in theinterior chamber16 proximate theoutlet port20 is monitored by a moisture sensor84 (seeFIG. 1). When the amount of moisture retained by the trappingagent54 approaches saturation (as detected by themoisture sensor84 or indicated by other means), thedesiccator cartridge14 may either be removed and disposed of or recharged with fresh desiccant material and repositioned in the device (depending on the design of the desiccator cartridge). Other means for detecting the degree of saturation of the trappingagent54 are available. For example, thedesiccant cartridge14 may be constructed in part from a transparent material, allowing the trappingagent54 to be directly observed. The degree of saturation of the trappingagent54 maybe indicated by a color change in a component of the trappingagent54 in response, for example, to a pH change or degree of hydration.
In a preferred embodiment of thevacuum desiccator10, all of the components in gas/liquid flow communication are replaceable. This allows the components of the device that are exposed to contact with the wound fluids to be separable from the other components of the device to facilitate cleaning or disposal of contaminated components. In particular, thedesiccator cartridge14 is removable from thedevice10 and separately disposable. Afresh desiccator cartridge14 is installed in thedesiccator10 to replace the removed cartridge. Alternatively, thecartridge14 can be constructed to make itsinterior chamber16 accessible, e.g., through a lid or by disassembly, whereby the used trappingagent54 can be replaced with fresh. The refreshed desiccator cartridge may then be reattached tovacuum desiccator10. This feature may be useful where the desiccator cartridge and vacuum pump head are combined as a single integrated unit (seeFIG. 4).
Thedesiccator cartridge14 has a single, gas/liquid flow pathway, which is theinlet port18, as the only inlet path into thetrap12. The flow path at theinlet port18 is unidirectional, in that gas/liquid flow can enter the trap via theinlet port18, but not exit or back flow out of thetrap14 via theinlet port18. Unidirectional flow at the inlet port is accomplished by a one-way valve30 located proximate theinlet port18 of the desiccator cartridge14 (seeFIG. 5A). The one-way valve30 prevents the contents of thedesiccator cartridge14 from back-flowing out of theinlet port18. The one-way valve30 maybe separable from thedesiccator cartridge14, as shown inFIG. 5A, or it may be incorporated into thecartridge14 proximate the inlet port18 (not shown). One-way gas/liquid flow valves practicable in the present invention are known in the art and selectable by the ordinary skilled artisan for use in the present invention. Examples of such one-way valves include biased and/or unbiased piston-type30a and ball-stop30b valves as exemplified inFIGS. 5B and 5C.
A micro-filter28 useful for blocking bacteria and/or untrapped moisture from passing into the vacuum pump member or from being vented to atmosphere is located in the gas/liquid flow path of thedevice10 after theinterior chamber16 of the desiccator cartridge. The micro-filter28 may be located proximate theoutlet port20 to protect thepump member22 and/or proximate theexhaust port26 to prevent venting bacteria (or moisture) to atmosphere. The micro-filter may be an in-line micro-filter28a separate from the desiccator cartridge as shown inFIG. 2B, or an integral micro-filter28b incorporated into thecartridge14 proximate theoutlet port20 as shown inFIG. 3.
As shown inFIG. 1, an electric motive means36 is coupled to thevacuum pump member22 of thevacuum desiccator10. In the preferred embodiment, the motive means36 is an electric motor. Electric motors practicable in the present invention are known to and selectable by one of ordinary skill in the art in view of the teachings and figures contained herein. For example, a miniature, oil-less diaphragm pump is commercially available from the Gast Manufacturing, Inc. (Michigan): series 3D 1060, model 101-1028. Theelectric motor36 communicates with thevacuum pump member22 via adrive coupling38 to drive the pump. Thedrive coupling38 for connecting themotor36 to thepump head22 may be accomplished by any of a number of means known to and practicable by the ordinary skilled artisan. For example, amotor shaft coupling38 maybe integrated with the vacuum pump head, i.e., themotor36 andpump member22 are substantially a single unit. Alternatively, amotor shaft coupling38 may be mechanically coupled to thevacuum pump head22 so as to be readily separable from thepump head22. For instance, as exemplified inFIG. 4, thehub100 of a rotary-vane pump head22a has amotor shaft receiver102 for accepting the end or spindle of ashaft coupling38 of amotor36. Theshaft receiver102 has a threaded, keyed or similar interfacing configuration (not shown) complementary to the spindle or end of theshaft coupling38 of themotor36. As a further alternative, themotor36 maybe magnetically coupled (not shown) to thepump head22 so as to again be readily separable from thevacuum pump member22. A readily separable motive means36 is particularly useful where thevacuum pump member22 and thedesiccator cartridge14 are integrated together as a unit, as shown inFIG. 4.
As shown inFIG. 6, the presentvacuum desiccator device10 includes anelectrical control circuit40 that comprises logic and switching circuits and a number of ancillary circuits and functions, external sensors, electrical connections and a power source. In the preferred embodiment, the purpose of theelectrical control circuit40 is to monitor the condition of thedevice10 and to control operation of the motive means36. The ancillary circuits can be chosen for inclusion in an embodiment of thedevice10 to affect one or more of the following functions: device data Input/Output, electrical power, sensor signal processing and motor control (power to the motor). An I/O unit70 for accomplishing device data input and out put can include data input means such as a power and data entry switches (e.g., a key pad and/or on-off switch), and a readout display and alarms. Such I/O units70 are well known in the art, and are readily practicable in the present invention by the ordinary skilled artisan. Other ancillary circuits andother sensors88 may be provided at the user's option, and are similarly accomplishable by the ordinary skilled artisan.
In the preferred embodiment exemplified inFIG. 1, thepower source46 for storing and providing electrical energy for thedevice10 is abattery60. In the preferred embodiment, thepower source46 is removable from theelectrical control circuit40 and is easily replaceable. The POLAROID® P100 Polapulse™battery is an example of anappropriate battery60 useful as apower source46 in the presentvacuum desiccator device10 in a preferred embodiment because of its planar configuration and low profile. SeeFIGS. 7A and 7B.
It is intended that the electrical control circuit have sensory capabilities to detect certain physical conditions of thedevice10, and to utilize the conditions to control operation of themotor36, and other appropriate functions of thecontrol circuit40. These ancillary sensory circuits include: amoisture sensor84 and circuit, for detecting the presence of moisture proximate theoutlet port20 of thedesiccant cartridge14; at least onevacuum pressure sensor76 and circuit, for detecting a vacuum pressure in the interior chamber or elsewhere in the device; and a pressure differential sensor circuit, for sensing a difference in pressure between two sections of the gas/liquid flow pathway of thedevice10, e.g., between the inlet andoutlet ports18 &20 of thedesiccator cartridge14. The sensors are interconnected to thecontrol circuit40 via electrical leads44. Sensors appropriate for accomplishing the various sensory functions of an electrical control circuit are known in the art and are readily adaptable for practice in the present invention by the ordinary skilled artisan. For example, a vacuum pressure sensor76 (MPL model 500, diaphragm-type pressure differential sensor) suitable for practice in the present device is commercially available from Micro Pneumatic Logic, Inc. (Florida) from a line of pressure sensors. Other types of sensors are adaptable for use in the present invention for detecting or sensing pressure, such as surface strain gauges mounted on the surface of thedesiccator cartridge14, and optical displacement gauges mounted to transmit light through the surfaces ofdesiccator cartridge14. For example, an opticalfiber strain gauge77 is commercially available from FISO Technologies (Quebec, model FOS “C” or “N”) from a line of optical strain gauges. This sensor can be used to monitor and indicate the presence of a vacuum in the desiccator cartridge by displacement (bending) of the cartridge surface under the force of a vacuum in theinterior chamber16. Optical displacement/strain gauges78 are also commercially, including for the detection of fluid intrusion into a section of tubing. These gauges typically comprise a combination light source/detector78a and amirror78b. Distortion of the surface of thedesiccator cartridge14 on which themirror78b is mounted alters the reflection path of the emitted light as it passes through the cartridge to return to the detector, which alteration is detectable. Of course, this requires the walls of thecartridge14 proximate theoptical displacement gauge78 to be transparent to the light. The use of more than onepressure sensor76 can allow sensing and/or measurement of the pressure differential between two different points in the gas/liquid flow pathway, such as between the inlet andoutlet ports18 &20 of thedesiccator cartridge14.
Thevacuum pressure sensor76 is used to monitor the vacuum pressure in theinterior chamber16 of thedesiccator cartridge14. When the vacuum pressure detected in thechamber16 by thepressure sensor76 is sufficient, theelectric control circuit40 may switch off themotor36, thereby conserving electrical power. When the vacuum pressure detected in thechamber16 by thepressure sensor76 is no longer sufficient thecontrol circuit40 may switch on themotor36 to reestablish an appropriate vacuum pressure in theinterior chamber16 of thedesiccator cartridge14. Also, theelectrical control circuit40 can include a clock/timer circuit for intermittently operating the electric motive means36, as another way of conserving electrical power. The I/O unit70 can be utilized to set the time interval for the control circuit's intermittent operation of themotor36.
In an alternative preferred embodiment of thevacuum desiccator10, thebattery60 of thepower source46 is integral with thedesiccator cartridge14a. As exemplified inFIG. 8, thebattery60 is contained in abattery compartment110, which is integral to the structure of thedesiccator cartridge14a. Battery leads112 connect thebattery60 toelectrical battery contacts114 on theexterior surface120 of thedesiccator cartridge14a. In this embodiment, thedesiccator cartridge14a andbattery60 are replaceable as a unit.
FIG. 8 also illustrates another preferred feature of adesiccator cartridge14, in which a gas flow channel is disposed inside theinterior chamber16 of thecartridge14a. In the embodiment illustrated, theflow channel120 is a tube connected to theoutlet port20 and having a length sufficient to allow it to be coiled or snaked about the interior chamber16 (also seeFIG. 9B). Theflow channel tube120 hasperforations122 along its length, or is otherwise constructed, to allow gas flow from theinterior chamber16 into the lumen of theflow channel tube120 under the force of the vacuum pressure from thepump member22. Further shown inFIG. 8, is trappingagent54c having a pillow-like structure. Theflow channel tube120 is laid out on one side of thepillow trapping agent54c. In the preferred embodiment, thepillow trapping agent54c was constructed using 10 grams of sodium polyacrylate distributed between two layers of an elastic mesh material (nylon stocking). In addition to elastic mesh material, other fabrics are suitable for practice with themoisture trapping pillow54c, including knitted fabric mesh materials like gauze and similar fabrics. To maintain even distribution of the sodium polyacrylate, the two layers of elastic mesh material were sewn together to form compartments. The volume of theinterior chamber16 of thedesiccator cartridge14 was sufficient to hold the pillow and about 50 cc of trapped moisture.
A flow channel may be accomplished by means other than a tube. For example, a flow channel may be integrated into thedesiccator cartridge14 and be in gas flow communication with theinterior chamber16. This embodiment of adesiccator cartridge14 can be accomplished as shown inFIGS. 9A and 9B, wherein thecartridge14b has acover member124 and a body member126 (FIG. 9A). Thecartridge cover member124 has agas flow channel120a integrated into it. Theintegral flow channel120a hasperforations122a along its length, or is otherwise constructed, to allow gas flow from the interior chamber into the lumen of theintegral channel120a under the force of the vacuum pressure from thepump member22.
While the above description contains many specifics, these should not be construed as limitations on the scope of the invention, but rather as exemplifications of one or another preferred embodiment thereof. Many other variations are possible, which would be obvious to one skilled in the art. Accordingly, the scope of the invention should be determined by the scope of the appended claims and their equivalents, and not just by the embodiments.

Claims (55)

1. A personally portable vacuum desiccator comprising:
a moisture trap, the trap further comprising a desiccator cartridge having an interior chamber containing a trapping agent and a gas flow channel having a plurality of perforations along the gas flow channel, and the desiccator cartridge further including an inlet port and an outlet port in gas/liquid communication with the interior chamber, the outlet port being connected to the gas flow channel;
a vacuum pump member having a low pressure port and an exhaust port, the low pressure port in gas/liquid flow communication with the outlet port of the desiccator cartridge and with the exhaust port vented to atmosphere, and the vacuum pump member being operable to provide a low vacuum pressure to the interior chamber;
an electric motive means in communication with the vacuum pump member and operative to drive the vacuum pump member; and
an electrical control circuit, including an electrical power source, the control circuit in electrical communication with and operative to control operation of the electric motive means;
wherein said personally portable vacuum desiccator is generally flat and may be worn unobtrusively by a user and is adaptable for collecting and trapping liquid from a wound or incision on the user in said moisture trap.
20. A personally portable vacuum desiccator comprising:
a desiccator cartridge, the cartridge being removable from the vacuum desiccator and replaceable, and having an interior chamber containing a trapping agent, the trapping agent being a moisture tapping pillow, and an inlet port and an outlet port in gas/liquid communication with the interior chamber, and a one-way valve disposed proximate the inlet port for preventing gas/liquid and particulate flow out of the inlet port;
a single passage gas/liquid flow pathway having an input end and an output end, the output end being connected to the inlet port of the desiccator cartridge;
a vacuum pump member having a low pressure port and an exhaust port, the low pressure port in gas/liquid flow communication with the outlet port of the desiccator cartridge and with the exhaust port vented to atmosphere, and the vacuum pump member being operable to provide a low vacuum pressure to the interior chamber;
an electric motive means in communication with the vacuum pump member and operative to drive the vacuum pump member, the electric motive means including an electric motor coupled to the vacuum pump member; and
an electrical control circuit, including an electrical power source, the control circuit in electrical communication with and operative to control operation of the electric motive means, the electrical power source comprising a battery, with the battery being removable from the electrical control circuit and replaceable, and wherein the electrical control circuit includes one or more ancillary circuits selected from the group consisting of: a power circuit for turning the electrical control circuit on and off, a moisture sensor for detecting the presence of moisture proximate the low pressure port of the vacuum pump member, a timer circuit for intermittently operating the electric motive means, a vacuum pressure sensor for detecting a vacuum pressure in the interior chamber of the desiccator cartridge, a pressure differential sensor for sensing a difference in pressure between the inlet and outlet ports of the desiccator cartridge.
21. A personally portable vacuum desiccator for draining and collecting excess fluid from a wound ox incision on a user, said vacuum desiccator comprising; :
a thin moisture trap having a fluid trapping agent, a gas flow channel having a plurality of perforations along the gas flow channel, an inlet port, and an outlet port, the outlet port being connected to the gas flow channel;
a delivery tube having a first end positionable in gas/liquid flow communication with the wound or incision on the user and a second end in gas/liquid flow communication with said inlet port;
a vacuum pump in gas/liquid flow communication with said outlet port;
an electric motor operably connected to said vacuum pump; and
a control circuit in electrical communication with said motor, said control circuit having an electric power source and being operable for controlling the operation of said motor;
said vacuum desiccator being transportable upon the user's person;
said vacuum pump being operable to draw fluid from the wound or incision through said delivery tube and into said moisture trap;
said fluid trapping agent having a capacity for trapping a volume of the fluid.
43. A personally portable vacuum desiccator for draining and collecting excess fluid from a wound or incision on a user, said vacuum desiccator comprising:
a thin moisture trap having a fluid trapping agent, an inlet port, and an outlet port;
a one-way valve disposed proximate the inlet port of the thin moisture trap, the one-way valve preventing gas/liquid and particulate flow out of the inlet port;
a delivery tube having a first end positionable in gas/liquid flow communication with the wound or incision on the user and a second end in gas/liquid flow communication with said inlet port;
a vacuum pump in gas/liquid flow communication with said outlet port;
an electric motor operably connected to said vacuum pump; and
a control circuit in electrical communication with said motor, said control circuit having an electric power source and being operable for controlling the operation of said motor;
said vacuum desiccator being transportable upon the user's person;
said vacuum pump being operable to draw fluid from the wound or incision through said delivery tube and into said moisture trap;
said fluid trapping agent having a capacity for trapping a volume of the fluid.
US12/580,9912001-11-202009-10-16Personally portable vacuum desiccatorExpired - Fee RelatedUSRE42834E1 (en)

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US12/580,991USRE42834E1 (en)2001-11-202009-10-16Personally portable vacuum desiccator

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