Information
-
Patent Grant
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6227885
-
Patent Number
6,227,885
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Date Filed
Friday, March 26, 199925 years ago
-
Date Issued
Tuesday, May 8, 200123 years ago
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Inventors
-
-
Examiners
Agents
- Marshall, O'Toole Gerstein, Murray & Borun
-
CPC
-
US Classifications
Field of Search
-
International Classifications
-
Abstract
A novel quick connect electrode headbox is provided with an internal assembly positioned within a housing. The internal assembly has at least one support and a plurality of pivotable electrode receptacle bases pivotably mounted to the at least one support. Further, the plurality of pivotable electrode receptacle bases have a plurality of receptacles each adapted to receive an electrode connector.
Description
FIELD OF THE INVENTION
The present invention relates to electrode headboxes, and more particularly to electrode headboxes that provide for quick and easy connection and disconnection of electrodes and provide for enhanced viewing and identification of electrode labels.
BACKGROUND OF THE INVENTION
Electrodes are placed at specific locations on a patient's body to sense signals occurring at the locations and are connected to a monitoring instrument to produce useful physiological output information such as an electrocardiogram (ECG), electroencephalogram (EEG) or long-term epilepsy monitoring. Electrodes typically are connected to devices which record, analyze, display, process, or otherwise monitor signals delivered by the electrodes. Electrode headboxes are commonly used to provide a convenient interface between the numerous electrodes and the monitoring device.
Electrode headboxes of various types are known in the art. Such devices are used in the fields of medicine and physiology. Conventional headboxes include a box with numerous connectors configured to receive electrodes. Headboxes are difficult to work with once several electrodes are in place in the headbox because the electrodes are small and difficult to reach by a user when the electrodes are spaced very close together in the headbox. Further, electrodes are frequently damaged when a user attempts to reach an electrode that is closely surrounded by many other electrodes that are connected to a headbox. In mobile applications, conventional headbox configurations result in undue stress and damage to the electrode connector assembly.
In the prior art, a headbox is typically connected to a switch panel on a monitoring machine, e.g. EEG machine. The machines have an array of switches which allow connections, through the headbox, of any electrode to any channel input of the EEG machine. This array of switches may be controlled manually or by computer software. EEG technologists place electrodes on a patient's head, connect the electrodes to the headbox that in turn is connected to the EEG machine input channels, and set up the EEG machine for the particular medical procedure being performed.
Conventional EEG machines and more specialized brain wave monitors are difficult to use by those not trained in EEG technology, in part due to the setup procedures involved. Such difficulties associated with EEG monitoring procedures include connecting the electrodes into the correct location in the headbox for each different monitoring procedure; and having to set up another monitor with the same parameters when the patient is moved from one room to another room. Similar difficulties are also found in other types of monitoring. This procedure is more difficult when many electrodes are connected to the headbox. In this situation, it becomes increasingly difficult to connect or disconnect electrodes from the headbox because the electrodes are spaced very close together when connected to the headbox. Further, when the electrodes are spaced close together, the labels on the headbox inputs are frequently not readable because the electrodes obstruct them from view.
The present invention overcomes these and other problems inherent in existing headboxes. The present invention provides an electrode headbox that provides for easy and quick connection (and disconnection) of the electrodes to the headbox. The headbox may, for example, be used in brain wave monitoring using electrodes that are attached to a patient's head and connected through a headbox to an EEG machine. In this application, the headbox provides a convenient interface between the EEG machine and surface or intracranial electrodes. Surface and intracranial electrode assemblies used for EEG typically comprise a metal disk which is attached to a patient's head or a needle which is inserted into a patient's head. The disk or needle is connected to one end of a wire conductor which has a connector portion such as a standard pin plug connected to the other end of a wire conductor. This connector portion is adapted to be detachably connected to a mating connector portion in the headbox, such as a pin connector. Such electrode assemblies are typically termed as “electrodes”, and will be referred to as such in this disclosure. Accordingly, it is an object of the present invention to provide a novel quick connect electrode headbox that overcomes the above identified problems.
Another object of the present invention is to provide a novel quick connect electrode headbox that provides for a rotatable electrode receptacle base.
Still another object of the present invention is to provide a novel quick connect electrode headbox that minimizes the stress on the electrode assembly particularly for mobile applications.
A further object of the present invention is to provide a novel quick connect electrode headbox that facilitates connecting and disconnecting the electrodes from the headbox.
A further object of the present invention is to provide a novel quick connect electrode headbox that provides for removable preprinted or user-customized labels which allow for clear and easy identification of the electrodes connected to the headbox.
A further object of the present invention is to provide a novel quick connect electrode headbox which can be easily configured for packing and transporting.
A further object of the present invention is to provide a novel quick connect electrode headbox which is simple in design and inexpensive to construct, and is durable and rugged in structure.
Still further objects and advantages will become apparent from a consideration of the ensuing description and drawings of the invention.
These and other objects are achieved by a novel quick connect electrode headbox of the present invention. In one form of the invention, a quick connect electrode headbox is provided with an internal assembly positioned within a housing. The internal assembly has at least one circuit board, at least one support attached to the circuit board and a plurality of pivotable electrode receptacle bases pivotably mounted to the at least one support. Further, the plurality of pivotable electrode receptacle bases have a plurality of receptacles each adapted to receive an electrode connector.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a perspective view of one embodiment of the quick connect electrode headbox of the present invention;
FIG. 2
is a plan view of one embodiment of the quick connect electrode headbox of
FIG. 1
;
FIG. 3
is a view of one embodiment of the quick connect electrode headbox of
FIG. 1
shown without the housing;
FIG. 4
is a side view of one embodiment of the quick connect electrode headbox of
FIG. 1
;
FIG. 5
is a side view of one example of a pivotable electrode receptacle base of the quick connect electrode headbox of
FIG. 1
; and
FIG. 6
is an end view of one example of a pivotable electrode receptacle base of the quick connect electrode headbox of FIG.
1
.
DETAILED DESCRIPTION
FIG. 1
is a perspective view of one embodiment of the quick connect electrode headbox
10
constructed in accordance with the present invention. In
FIG. 1
, the headbox
10
may comprise a housing
12
having a housing top
14
and a housing bottom
16
. The housing
12
may be very compact and in one embodiment may be 4.0″ wide, 7.5″ long and 1.15″ high. Further, in one embodiment the housing
12
may have two apertures
34
on one side of the housing
12
and may have two apertures
35
, (e.g., a cutout or opening) on the opposite side of the housing
12
(see FIG.
2
). The apertures
34
and
35
may be configured to receive various connectors
36
,
38
. (For example, but not limited to, “D” type connectors, high-density dsub
44
P female ‘pass thru’ connectors or Honda 50 p ‘SCSI-II’ or ‘mini-centronics’ male connectors.) Alternate embodiments may have more or less than two apertures
34
and more or less than two apertures
35
depending on the configuration of the headbox
10
and the user's requirements. Also, housing top
14
may have two apertures
15
(as shown in FIG.
1
), e.g. a cutout or opening, or housing top
14
may have more or less than two apertures
15
depending on the user's requirements of headbox
10
. The housing
12
may be constructed of plastic or any other material that will provide for proper operation of the headbox
10
.
As best seen in
FIG. 3
, located within the housing
12
may be an internal assembly
19
. The internal assembly
19
, may for example, comprise a plurality of pivotable electrode receptacle bases
20
, a plurality of means for pivotably mounting
30
, a circuit board
44
, a base
46
, and end support(s)
50
and middle support(s)
52
. In one embodiment, the circuit board
44
may act as the base
46
and in another embodiment, there may be at least one circuit board
44
mounted to the base
46
. Alternative embodiments may not use a circuit board. The following descriptions of the various alternate embodiments may use either combination a base
46
and circuit board
44
mounted thereto, or just a circuit board
44
also acting as a base
46
. Also, the circuit board
44
is easily disconnected from the headbox should it ever need to be replaced or repaired. One alternate embodiment provides that the supports
50
and
52
may be fixed to the base
46
whereby there is one support
50
located at one end of the base
46
and there is another support
50
located at the opposite end of the base
46
as shown in FIG.
3
. Further, in another embodiment, support
52
may be fixed to the base
46
and located between the supports
50
. The supports
50
and
52
may, for example, be configured (as shown in
FIG. 3
) to provide for the pivotable electrode receptacle base
20
to be pivotably mounted to and positioned by the supports
50
and
52
so as to provide for the proper operation of the quick disconnect headbox
10
. Further, in one embodiment, fixed to the base
46
may be at least one circuit board
44
. The circuit board
44
may, for example, be positioned between the supports
50
and
52
as illustrated in FIG.
3
. If only two supports
50
are mounted to the base
46
, then at least one circuit board
44
may be mounted to the base and located between the supports
50
. The supports
50
and
52
may be constructed of plastic or any other material that will provide for proper operation of the headbox
10
.
The pivotable electrode receptacle base
20
may comprise a plurality of electrode receptacles
24
as shown in FIG.
1
. In one embodiment, the receptacles
24
(see
FIGS. 5 and 6
) are configured to receive connectors
26
which may be any connectors that are required for the specific application, e.g., single wire connectors. The connectors
26
are adapted to removably receive electrodes
11
(see
FIG. 4
) which may be any electrodes that are required for the specific application, e.g. 1.5 mm safety electrodes. Such connectors
26
and electrodes
11
may include conductors in each portion which contact mating conductors in order to couple signals present on one portion to the mating connector portion. The connectors
26
may be connected to the circuit board
44
by, for example, ribbon type connectors or flex circuit type connectors
27
.
The receptacle base
20
may have a slot
28
adapted to removably receive a strip label
40
(as best seen in FIG.
2
). The slot
28
may be positioned on the receptacle base
20
to provide for an unobstructed view of the strip label
40
when the headbox
10
is in use. The strip label
40
clearly identifies the receptacles
24
so the user knows which electrode
11
to insert into which receptacle
24
. Also, the strip label
40
may be, for example, preprinted or customized by the user (e.g. with a marker or pen) for any monitoring application. As best seen in
FIGS. 5 and 6
, in one embodiment, each end of the base
20
may also comprise a hole
32
configured to receive a means for pivotably mounting
30
, for example such as a screw or a pin, that can pivotably mount the base
20
to the support
50
and
52
as shown in FIG.
3
. Further, the base
20
may have a notch
31
at each end of the base
20
. The placement and size of the notch
31
in combination with the placement of hole
32
and means for pivotably mounting
30
in relation to supports
50
,
52
may dictate pivot angles A and B (shown in FIG.
4
). Also, base
20
may have a recess
33
that communicates with the plurality of electrode receptacles
24
(see FIGS.
5
and
6
). The recess
33
may facilitate connection of the connectors
26
to, for example, the ribbon cable or flex circuit. The ribbon cable or flex circuit is connected to the circuit board
44
by, for example, pcb type connectors. In an alternate embodiment, the recess
33
may be designed such that when the flex circuit, for example, is connected to the connectors
26
the circuit board and pcb connectors are blocked from view when the bases
20
are pivoted to an upright position. Also, the bases
20
may be designed to fit with each other and with the housing
12
such that the circuit board and pcb connectors are blocked from view when the bases
20
are in a downward position. This configuration may be aesthetically desirable and may minimize foreign matter, such as spills, from entering the inside of the quick connect headbox
10
. In other alternate embodiments, the receptacle base
20
may be any size, shape or configuration that will provide for pivotable connection of the electrodes
11
to the headbox
10
. In yet other alternate embodiments, the recess
33
and flex circuit may be designed to provide a torque that may keep the bases
20
from pivoting on their own to an upright position. The direction of the torque is such that it may cause the bases
20
to pivot toward a downward position. Further, the receptacle base
20
may be constructed of plastic or any other material that will provide for proper operation of the headbox
10
.
As shown in
FIG. 4
, the base
20
can pivot about the means for rotatably mounting
30
(shown in FIG.
3
). In one embodiment, angle A and angle B may be 25 degrees and 30 degrees respectively or any other angles that will provide for proper operation of the headbox
10
. In alternate embodiments, Angles A or B may vary so as to minimize the stress on electrodes
11
while maximizing the ease with which a user can reach and grab a particular electrode
11
.
When using the electrode headbox
10
, labels
40
are selected for the specific monitoring procedure and are inserted into the appropriate slots
28
. Then, an electrode
11
is chosen and the appropriate receptacle
24
and connector
26
are identified by the corresponding information on the label
40
. This identification process is quick and easy because the orientation of the labels
40
in combination with the location and orientation of the electrode receptacles
24
provide easy viewing and identification of the respective labels
40
. Once the corresponding connector
26
is identified, the respective electrode base
20
is then pivoted to the vertical position desired by the user to facilitate connection of the electrode
11
and the appropriate connector
26
. The electrode
11
is then “plugged in” (connected) to the connector
26
. This procedure is repeated until all of the electrodes
11
are “plugged in” to the respective connectors
26
. The pivotable base
20
design makes it very easy for the user to connect (or disconnect) any electrode
11
to any connector
26
even when there are many electrodes
11
connected to many connectors
26
which are located in numerous bases
20
. Once all of the electrodes
11
are connected to the headbox
10
, the pivotable bases
20
may be pivoted to a position(s) to minimize stress on and greatly reduce the chance of breakage of the electrodes
11
. Also, the appropriate connectors
36
and
38
are connected to the headbox
10
and provide a link from the headbox
10
to the appropriate monitoring device(s).
When the monitoring procedure is completed, the electrodes
11
are disconnected from the headbox
10
. If the headbox
10
is going to be stored or packed for transport, the bases
20
may be pivoted so as to minimize the height of the headbox
10
thereby giving the headbox
10
a very low “profile”. In one embodiment, when the bases
20
are pivoted to their lowest positions the headbox
10
may be only 1.5″ high.
Specific embodiments of novel methods and apparatus for construction of novel quick connect electrode headboxes according to the present invention have been described for the purpose of illustrating the manner in which the invention is made and used. It should be understood that the implementation of other variations and modifications of the invention and its various aspects will be apparent to one skilled in the art, and that the invention is not limited by the specific embodiments described. Therefore, it is contemplated to cover the present invention any and all modifications, variations, or equivalents that fall within the true spirit and scope of the basic underlying principles disclosed and claimed herein.
Claims
- 1. An electrode connection headbox comprising:a base; a first electrode receptacle pivotably mounted about a first axis to the base, the first electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the first electrode receptacle; a second electrode receptacle pivotably mounted about a second axis to the base, the second electrode receptacle adapted to received electrodes in spaced side-by-side relationship along a length of the second electrode receptacle; and the first axis and the second axis being aligned in parallel side-by-side relationship.
- 2. The electrode connection headbox of claim 1, wherein the first axis is parallel to the length of the first electrode receptacle.
- 3. The electrode connection headbox of claim 1, wherein the second axis is parallel to the length of the second electrode receptacle.
- 4. The electrode connection headbox of claim 1, at least one circuit board secured to the base and being electrically coupled to at least one of the first electrode receptacle and the second electrode receptacle.
- 5. The electrode connection headbox of claim 1, the first electrode receptacle and the second electrode receptacle being independently pivotable with respect to each other.
- 6. The electrode connection headbox of claim 1, at least one of the first electrode receptacle and the second electrode receptacle including slot configured to receive at least one label.
- 7. The electrode connection headbox of claim 1, further comprising a third electrode receptacle pivotably mounted about a third axis to the base, the third electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the third electrode receptacle, the third axis being co-linear with one of the first axis and the second axis, the third electrode receptacle thereby being laterally displaced from the first electrode receptacle and the second electrode receptacle.
- 8. An electrode connection headbox comprising:a base, the base having a bottom, a first side support disposed at a first edge of the base, a second side support arranged parallel to the first side support and disposed at a second edge of the base, the first side support and the second side support extending from the bottom; a first electrode receptacle pivotably mounted to the base between the first side support and the second side support, the first electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the first electrode receptacle; a second electrode receptacle pivotably mounted to the base between the first side support and the second side support, the second electrode receptacle adapted to received electrodes in spaced side-by-side relationship along a length of the second electrode receptacle; and the first electrode receptacle and the second electrode receptacle being in parallel side-by-side relationship.
- 9. The electrode connection headbox of claim 8, at least one circuit board secured to the base and being electrically coupled to at least one of the first electrode receptacle and the second electrode receptacle.
- 10. The electrode connection headbox of claim 8, the first electrode receptacle and the second electrode receptacle being independently pivotable with respect to each other.
- 11. The electrode connection headbox of claim 8, at least one of the first electrode receptacle and the second electrode receptacle including a slot configured to receive at least one label.
- 12. An electrode connection headbox comprising:a base, the base having a substantially planar bottom, a first side support disposed at a first edge of the base, a second side support arranged parallel to the first side support and disposed at a second edge of the base, a center support disposed between the first side support and the second side support and being arranged substantially parallel to each of the first side support and the second side support, each of the first side support, the second side support and the center support extending substantially perpendicularly from the bottom; a first electrode receptacle pivotably mounted to the base between the first side support and the center support, the first electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the first electrode receptacle; a second electrode receptacle pivotably mounted to the base between the first side support and the center support, the second electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the second electrode receptacle; the first electrode receptacle and the second electrode receptacle being in parallel side-by-side relationship; and a third electrode receptacle pivotably mounted to the base between the center support and the second side support, the third electrode receptacle adapted to receive electrodes in spaced side-by-side relationship along a length of the third electrode receptacle.
- 13. The electrode connection headbox of claim 12, at least one circuit board secured to the base and being electrically coupled to at least one of the first electrode receptacle, the second electrode receptacle and the third electrode receptacle.
- 14. The electrode connection headbox of claim 12, the first electrode receptacle, the second electrode receptacle and the third electrode receptacle being independently pivotable with respect to each other.
- 15. The electrode connection headbox of claim 12, at least one of the first electrode receptacle, the second electrode receptacle and the third electrode receptacle including a slot configured to receive at least one label.
US Referenced Citations (13)