1. Field of the Invention
The present invention relates to an infant incubator.
Priority is claimed on Japanese Patent Application No. 2012-111526, filed May 15, 2012, the content of which is incorporated herein by reference.
2. Description of Related Art
For an infant incubator to provide a suitable physiological environment for a premature infant, an infant mattress for laying the infant and a heater for emitting heat ray to an upper surface of the infant mattress are equipped.
For example, an infant incubator disclosed in Unexamined Japanese Patent Application, First Publication No. 2010-82325 has a heater which can heat all the upper surface of the infant mattress substantially evenly even though being arranged at a deviated position from above the infant mattress. This infant incubator enables the infant to be nursed or treated as reliably heating the infant even though the infant is laid on anywhere of the upper surface of the infant mattress since the heater is not arranged immediately above the infant mattress so that the heater does not cumber for operating radiography or treating the infant.
Also, Unexamined Japanese Patent Application, First Publication No. 2010-259651 discloses a heater which can be stowed so as not to prevent a top hood from elevating for a combination infant incubator as an open-type and a closed-type.
According to the heater provided with the infant incubator disclosed in Unexamined Japanese Patent Application, First Publication No. 2010-82325, it is possible to heat the area on the infant mattress broadly and substantially evenly without preventing radiography or treatment. However, since the heater is not arranged immediately above the infant mattress, an emission angle of the heat ray from the heater with respect to the upper surface of the infant mattress is acute as distant from the heater, so that an emission area narrows vertically. Therefore, in a case in which a head of the infant is not arranged near the heater, the emission area of the heat ray is deviated from the head of the infant with height-distance from the upper surface of the mattress, and the head of the infant may not be heated.
The present invention is achieved in consideration of the above circumstances, and has an object to provide an infant incubator having a heater in which treatments or examinations for an infant is not prevented, a suitable temperature environment can be provided for an infant laid anywhere on a mattress, and an operator is scarcely affected by heat.
An infant incubator according to the present invention has: a bed on which an infant is laid; a first supporting-shaft which is disposed at obliquely above the bed, extends substantially horizontally, and is rotatable back and forth at a predetermined extent around an axis; a rotation stay which is fixed to the first supporting-shaft and is rotated with the first supporting-shaft; a second supporting-shaft which is provided with the rotation stay and substantially parallel to the first supporting-shaft; and a heater which is disposed at obliquely above the bed, supported to the rotation stay rotatably back and forth at a predetermined extent around the second supporting-shaft, and possible to emit heat ray obliquely to an upper surface of the bed. In this infant incubator, by rotating the rotation stay back and forth around the first supporting-shaft at the predetermined extent, the heater is moved along with the rotation stay, so that a position of the heater can be varied between a heating position for emitting the heat ray and a folding position for moving away from above the bed; and at the heating position, by rotating the heater back and forth around the second supporting-shaft with respect to the rotation stay at the predetermined extent, an emission angle the heat ray from of the heater can be further varied.
In a case in which the heater is disposed obliquely above the bed, the heat ray is emitted obliquely to the bed, so that the emission area of the heat ray narrows vertically as distant from the heater. On the other hand, according to the infant incubator of the present invention, by further rotating the heater at the heating position, the emission angle of the heat ray can be adjusted. Therefore, even when a part of a body of the infant is receded from the emission area of the heat ray, the angle of the heater can be adjusted so that whole body of the infant is in the emission area of the heat ray.
The infant incubator of the present invention is preferable to further have: a link member which is connected to and rotated with the first supporting-shaft; and a rod which is engaged with the link member and extends substantially vertically, so that by rotating the link member back and forth at the predetermined extent along with up- and down motion of the rod, the rotation stay is rotated back and forth with the first supporting-shaft at the predetermined extent.
By utilizing a linkage mechanism for rotating the heater, a structure at a periphery of the heater can be simplified, for example, by disposing a driving part below the bed but not the periphery of the heater. However, the linkage mechanism may limit a rotation extent of the heater, so that it is hard to adjust the emission angle of the heat ray at the heating position. On the other hand, according to the infant incubator of the present invention, a mechanism is provided for rotating the heater back and forth at a predetermined extent with respect to the rotation stay other than the linkage mechanism for rotating the rotation stay, so that it is easy to adjust the emission angle of the heat ray.
According to the present invention, an infant incubator can be obtained to have a heater which does not interfere operations or examinations for an infant, which can provide an appropriate temperature environment for the infant laid on any position on a mattress, and in which an influence of heat is small to an operator.
Hereinafter, an embodiment of an infant incubator according to the present invention will be described. An infant incubator 1 of the present invention has: a bed 14 on which an infant is laid; a first supporting-shaft 25 which is disposed at obliquely above the bed 14, extends substantially horizontally, and is rotatable back and forth at a predetermined extend around an axis; a rotation stay 29 which is fixed to the first supporting-shaft 25 and is rotated with the first supporting-shaft 25; a second supporting-shaft 33 which is provided with the rotation stay 29 and substantially parallel to the first supporting shaft 25; and a heater 11 which is disposed at obliquely above the bed 14, supported to the rotation stay 29 rotatably back and forth at a predetermined extent around the second supporting-shaft 33, and possible to emit heat ray obliquely to an upper surface of the bed 14.
As wholly shown in
The hood 8 is constructed substantially rectangular from: a floor plate 15 in which a bed 14 for laying the infant down is mounted; side treatment-doors 16 and 17 which are disposed each at a left side and a right side of the infant; a foot-side treatment door 18 which is disposed at a foot side of the infant; a head-side treatment-door 19 which is disposed at a head side of the infant; and the canopy 12 which closes a top of the infant chamber 7 which is surrounded by the side treatment-doors 16 and 17, the foot-side treatment-door 18 and the head-side treatment-door 19. The side treatment-doors 16 and 17, the foot-side treatment-door 18, the head-side treatment-door 19 and the canopy 12 are substantially entirely formed from transparent resin, so that the infant in the infant chamber 7 can be checked with eyes from the outside.
Among the treatment-doors 16 to 19, the head-side treatment-door 19 is maintained in a vertical posture erecting at the head side of the infant chamber 7. On the other hand, lower ends of the side treatment-doors 16 and 17 and the foot-side treatment-door 18 are installed swingably around a horizontal shaft (not illustrated) with respect to the base table 6. In order to examine or treat the infant from various directions, by bringing one of or some of the treatment-doors 16 to 18 down, one side or three sides of the infant chamber 7 can be open. In
In a case in which the infant incubator 1 is used as the enclosed incubator, the canopy 12 is moved down and the treatment-doors 16 to 18 are closed. In the closed-state, the side treatment-doors 16 and 17 can be open and closed for taking care of the infant. In a case in which the infant incubator 1 is used as the open incubator, the canopy 12 is moved up and three sides of the infant chamber 7, i.e., the side treatment-doors 16 and 17 and the foot-side treatment-door 18 can be open and closed for taking care of the infant.
The side treatment-doors 16 and 17 and the foot-side treatment-door 18 have access-ports 20. When the infant incubator 1 is used as the enclosed incubator, the access ports 20 can be open and closed while the treatment-doors 16 to 18 remain standing. The head-side treatment door 19 is provided with grommet members 21 having slits through which cables or tubes are inserted as shown in
On the floor plate 15 in the infant chamber 7, the bed 14 on which the infant is laid is provided. The bed 14 is swingably held at a center of a longitudinal direction by a horizontal shaft (not illustrated) and an end portion of the head side is held by a lift 22. By elevating the end portion which is held by the lift 22, the bed 14 can maintain a position which is inclined to the horizontal direction. The lift 22 is provided at an outside of the hood 8.
The first guide-post 9 has a coaxial lift-post 23 and a lift mechanism for moving up and down the lift-post 23 therein. The second guide-post 10 also has a coaxial lift-post 24 and a lift mechanism for moving up and down the lift-post 24 therein. The canopy 12 is attached to an upper end of the lift-post 23 of the first guide-post 9, can close the infant chamber 7 at a down position thereof by being in contact with upper ends of the treatment-doors 16 to 19 (shown in
The heater 11 is attached to an upper end of the lift-post 24 of the second guide-post 10 as shown in
As shown in
As shown in
In the infant incubator 1, as shown in
Specifically, the linkage mechanism for rotating the first supporting-shaft 25 will be described below. In the link member 31 which is formed as a unit with the first supporting-shaft 25, as shown in
In this linkage mechanism, as shown in
The rotation stay 29 which is fixed to the first supporting-shaft 25 which is rotated by the linkage mechanism is provided, as shown in
The rotation stay 29 is, as shown in
That is to say, by the linkage mechanism utilizing the elevation of the rod 32, the heater 11 is set to the heating position by being rotated around the first supporting-shaft 25 along with the rotation of the rotation stay 29. Moreover, by further rotation with respect to the rotation stay 29, the heater 11 is slightly (in this embodiment, 4°) rotated from the heating position, so that the emission direction of the heat ray can be changed. The rotation of the heater 11 with respect to the rotation stay 29 can be operated by hands.
In the infant incubator 1 structured as above, in a state in which the canopy 12 is moved up as shown in
The emission area of the heat ray from the heater 11 is set so as to make the upper surface of the bed 14 even temperature environment, not to heat the operator, and not to be broaden largely from the upper surface of the bed 14, as shown by continuous lines in
In this infant incubator 1, in order to heat the infant laid an edge of the bed 14, it is considered to change the angle of the heater 11 so as to adjust the emission area of the heat ray. However, the angle of the heater 11 is changed by the linkage mechanism which links to the up-and-down movement of the rod 32. Therefore, if this linkage mechanism is employed, the angle of the heater 11 is determined between the heating position and the folding position, so that it is hard by the linkage mechanism to shift the emission area of the heat ray from the usual heating position to the foot-side treatment-door 18 side. On the other hand, according to the infant incubator 1 of the present invention, the other rotation mechanism is provided than the linkage mechanism for change the heater 11 between the heating position and the folding position. Therefore, the heater 11 can be further rotated by the rotation mechanism, so that the emission area of the heat ray can be shifted to the foot-side treatment-door 18 side as shown by the two-dot chain line if
The present invention is not limited to the above-described embodiments and various modifications may be made without departing from the scope of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2012-111526 | May 2012 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
20100286471 | Matsubara et al. | Nov 2010 | A1 |
Number | Date | Country |
---|---|---|
2010-082325 | Apr 2010 | JP |
2010-259651 | Nov 2010 | JP |
Number | Date | Country | |
---|---|---|---|
20130310634 A1 | Nov 2013 | US |