This application claims the benefit of priority of Chinese Patent Application Serial Number 201210249441.6, entitled “CUSHION FOR PREVENTING PRESSURE SORE,” filed on Jul. 18, 2012, the benefit of priority of which is claimed hereby, and which is incorporated by reference herein in its entirety.
The present invention relates to a cushion, and in particular, to a cushion for preventing pressure sore, which is intended for those who need to keep a sitting posture for a long period of time due to illness or injury.
Pressure sores are nerve malnutrition and blood circulation disorder caused by long-term pressure or long-term physical and chemical stimulus on local body tissues. Continuous ischemia, anoxia, and malnutrition of the local tissues cause the skin to lose normal functions and lead to festering and necrosis of soft tissues. For instance, sustained vertical pressure, or shear and friction on local tissues may cause pressure sores, and usually, pressure sores are caused by two to three joint forces.
Pressure sores, which are not primary diseases but belong to common clinical complications, are injuries caused by other primary diseases without good care. Pressure sores not only bring considerable physical and mental sufferings and economic burden to the patients but also increase the workload of nurses, and even worse, may lead to secondary infection and trigger septicemia, hence becoming life-threatening.
Most pressure sores can be prevented. However, in practical cases of illness, moisture, heat, age, and obesity all significantly increase the incidence of pressure sores. Therefore, people use various methods to prevent pressure sores. At present, division-type air rings, pressure sores prevention cold liquid cushions or other composite cushions are mainly used to prevent pressure sores, but all these products are flawed in that the cushion continuously exerts pressure on the body, and cannot maintain a stable shell temperature.
In addition, as shown in
Moreover, as shown in
When used by those who need to keep a sitting posture for a long time, the cushions in the above two patents can provide very comfortable sitting posture and experience, however pressure is applied to the body continuously, and pressure sores are still very likely to occur.
In view of the disadvantages of the prior art, the present invention aims at a cushion for preventing pressure sore, which inflates and deflates different air cell zones in an alternating manner, so as to avoid continuously applying pressure on a certain part of the body, thereby reducing the occurrence probability of pressure sores.
To achieve the objective, the technical solution of the present invention is to provide a cushion for preventing pressure sore, which includes: an air cell layer having a plurality of air cells and being divided into at least four air cell zones, air cells in each air cell zone being in communication with each other, but air cells in any two adjacent air cell zones being not in communication with each other; an air passage layer located under the air cell layer and having a plurality of air passages therein, each air passage being in connection and communication with at least one of the air cell zones; a base layer, the air passage layer and the air cell layer being disposed on the base layer; and a plurality of air ducts, an end of each air duct being in communication with a corresponding air passage, and the other end extending out of the cushion and being provided with a joint, and each air duct having a respective valve.
Preferably, the number of the air passages is less than the number of the air cell zones.
In an embodiment of the present invention, the air cells in the air cell layer are sequentially organized clockwise into four air cell zones with equal areas, namely, an A air cell zone, a B air cell zone, a C air cell zone, and a D air cell zone; the air passage layer has two air passages therein, namely, a first air passage and a second air passage; the first air passage is in connection and communication with the A air cell zone and the C air cell zone, and the second air passage is in connection and communication with the B air cell zone and the D air cell zone.
In another embodiment of the present invention, the air cells in the air cell layer are organized into an A air cell zone, a B air cell zone, a C air cell zone, a D air cell zone, and an E air cell zone as arranged in an array below; the air passage layer has a first air passage, a second air passage, and a third air passage therein; the first air passage is in connection and communication with the A air cell zone and the C air cell zone, the second air passage is in connection and communication with the B air cell zone and the D air cell zone, and the third air passage is in connection and communication with the E air cell zone; the array is shown as follows:
In still another embodiment of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, an A4 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a B4 air cell zone, a C air cell zone, a D air cell zone, and an E air cell zone as arranged in an array below; the air passage layer has a first air passage, a second air passage, a third air passage, a fourth air passage, and a fifth air passage therein; the first air passage is in connection and communication with the A1, A2, A3, and A4 air cell zones, the second air passage is in connection and communication with the B1, B2, B3, and B4 air cell zones, the third air passage is in connection and communication with the C air cell zone, the fourth air passage is in connection and communication with the D air cell zone, and the fifth air passage is in connection and communication with the E air cell zone; the array is shown as follows:
In still another embodiment of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a C air cell zone, a D air cell zone, an E air cell zone, and an F air cell zone as arranged in an array below; the air passage layer has a first air passage, a second air passage, a third air passage, a fourth air passage, a fifth air passage, and a sixth air passage therein; the first air passage is in connection and communication with the A1, A2, and A3 air cell zones; the second air passage is in connection and communication with the B1, B2, and B3 air cell zones, the third air passage is in connection and communication with the C air cell zone, the fourth air passage is in connection and communication with the D air cell zone, the fifth air passage is in connection and communication with the E air cell zone, and the sixth air passage is in connection and communication with the F air cell zone; the array is shown as follows:
In other embodiments of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, an A4 air cell zone, an A5 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a B4 air cell zone, a B5 air cell zone, and a C air cell zone as arranged in an array below; the air passage layer has a first air passage, a second air passage, and a third air passage therein; the first air passage is in connection and communication with the A1, A2, A3, A4, and A5 air cell zones, the second air passage is in connection and communication with the B1, B2, B3, B4, and B5 air cell zones, and the third air passage is in connection and communication with the C air cell zone; the array is shown as follows:
Preferably, the plurality of air ducts is disposed in the air passage layer or in the base layer.
Preferably, the cushion for preventing pressure sore further includes an inflating device and a deflating device; the inflating device and the deflating device are connected to the joint of the air ducts.
Preferably, the cushion for preventing pressure sore further includes a control device; the control device is electrically connected to the valve on the air duct, and is electrically connected to the inflating device and the deflating device, so as to control the inflating device to inflate the air duct or control the deflating device to deflate the air duct.
Preferably, each air cell in the air cell layer is a columnar air cell; the columnar air cell includes a columnar outer casing layer and an air cell column disposed in the outer casing layer; the air cell column may be any one or any combination of a spring, a sponge, cotton, and a foam plate; more preferably, the air cell column is directly formed by foaming a sponge, is highly fitting and firm, and meanwhile improves the overall stability of the air cell and helps maintain the shape of the air cell. Moreover, a hydrogel layer is disposed at the top of the air cell column, a sealing layer is disposed between the top of the air cell column and the hydrogel layer, and air is filled in space among the outer casing layer, the air cell column, and the sealing layer. The sealing layer tightly contacts an inner wall of the outer casing layer, so that the directly formed hydrogel does not fall off or leak under the effect of gravity and extrusion of a body.
The top of the outer casing layer is an upwardly protruding cambered surface, which reduces edges and corners and increases a contact area. When the body contacts the arc-shaped hydrogel layer at the top, no discomfort or pains is aroused.
The columnar air cell is shaped into any one of a cylinder, a prism, a cube, a cuboid or a combination thereof.
A cross section of the columnar air cell is shaped into a four-pointed star, and a periphery of the columnar air cell is arc-shaped.
The present invention has following advantages: the air cell layer is divided into different air cell zones in cross distribution, and the pressure of air cells in the air cell zones and the pressure lasting time are controlled so that pressure is intermittently exerted over the buttocks, thereby preventing blood circulation of the skin from being blocked. Furthermore, owing to the hydrogel layer above the air cell columns and the sealing layer between the top of the air cell columns and the hydrogel layer, the columnar air cells are protected from thorough damage, and have multiple protection functions. The hydrogel layer and a constant-temperature phase transition material in the columnar air cells maintain a comfortable temperature at the surface of buttocks of the user, so that the user feels cool and a desirable pressure equalizing effect is generated. Meanwhile, the upwardly protruding arc-shaped hydrogel layer does not have any sharp edges or corners thereon, contributing to a greater contact area, thereby avoiding the problem of concentrated stress caused by the acute angle, and dispersing the load, so that the user does not feel pain during long-time contact. The periphery of the columnar air cell is arc-shaped, which enhances and fully brings out the mechanical strength of the cushion, and improves the fluidity of the plastic melt, thereby facilitating the filling and demolding, eliminating defects such as the concave at the turning part of the wall, and facilitating the machining and thermal treatment of the mold; hence, the service life of mold is improved. The air cell column has a function of maintaining a stable air cell shape, and will not collapse and hence be damaged due to insufficient stability.
The technical solution employed in the present invention to achieve the objective is further illustrated in the following with reference to the accompanying drawings and embodiments of the present invention.
The present invention provides a cushion for preventing pressure sore, which includes:
an air cell layer having a plurality of air cells and being divided into at least four air cell zones, air cells in each air cell zone being in communication with each other, but air cells in any two adjacent air cell zones being not in communication with each other;
an air passage layer located under the air cell layer and having a plurality of air passages therein, each air passage being in connection and communication with at least one of the air cell zones;
a base layer, the air passage layer and the air cell layer being disposed on the base layer; and
a plurality of air ducts, an end of each air duct being in communication with a corresponding air passage, and the other end extending out of the cushion and being provided with a joint, and each air duct having a respective valve.
In addition, the number of the air passages is less than the number of the air cell zones.
In the first embodiment of the present invention, the air cells in the air cell layer are sequentially organized clockwise into four air cell zones with equal areas, namely, an A air cell zone, a B air cell zone, a C air cell zone, and a D air cell zone; the air passage layer has two air passages therein, namely, a first air passage and a second air passage; the first air passage is in connection and communication with the A air cell zone and the C air cell zone, and the second air passage is in connection and communication with the B air cell zone and the D air cell zone. Definitely, in this embodiment, the air cells in the air cell layer are organized into four air cell zones with equal areas, but in other embodiments, the organization can be adjusted according to requirements, for example, the areas of air cell zones are not equal.
In the second embodiment of the present invention, the air cells in the air cell layer are organized into an A air cell zone, a B air cell zone, a C air cell zone, a D air cell zone, and an E air cell zone; the air passage layer has a first air passage, a second air passage, and a third air passage therein; the first air passage is in connection and communication with the A air cell zone and the C air cell zone, the second air passage is in connection and communication with the B air cell zone and the D air cell zone, and the third air passage is in connection and communication with the E air cell zone.
In the third embodiment of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, an A4 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a B4 air cell zone, a C air cell zone, a D air cell zone, and an E air cell zone; the air passage layer has a first air passage, a second air passage, a third air passage, a fourth air passage, and a fifth air passage therein; the first air passage is in connection and communication with the A1, A2, A3, and A4 air cell zones, the second air passage is in connection and communication with the B1, B2, B3, and B4 air cell zones, the third air passage is in connection and communication with the C air cell zone, the fourth air passage is in connection and communication with the D air cell zone, and the fifth air passage is in connection and communication with the E air cell zone.
In the fourth embodiment of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a C air cell zone, a D air cell zone, an E air cell zone, and an F air cell zone; the air passage layer has a first air passage, a second air passage, a third air passage, a fourth air passage, a fifth air passage, and a sixth air passage therein; the first air passage is in connection and communication with the A1, A2, and A3 air cell zones, the second air passage is in connection and communication with the B1, B2, and B3 air cell zones, the third air passage is in connection and communication with the C air cell zone, the fourth air passage is in connection and communication with the D air cell zone, the fifth air passage is in connection and communication with the E air cell zone, and the sixth air passage is in connection and communication with the F air cell zone.
In the fifth embodiment of the present invention, the air cells in the air cell layer are organized into an A1 air cell zone, an A2 air cell zone, an A3 air cell zone, an A4 air cell zone, an A5 air cell zone, a B1 air cell zone, a B2 air cell zone, a B3 air cell zone, a B4 air cell zone, a B5 air cell zone, and a C air cell zone; the air passage layer has a first air passage, a second air passage, and a third air passage therein; the first air passage is in connection and communication with the A1, A2, A3, A4, and A5 air cell zones, the second air passage is in connection and communication with the B1, B2, B3, B4, and B5 air cell zones, and the third air passage is in connection and communication with the C air cell zone.
In the above embodiments, the plurality of air ducts is disposed in the air passage layer or in the base layer.
In addition, the cushion for preventing pressure sore further includes an inflating device and a deflating device; the inflating device and the deflating device are connected to the joint of the air ducts. In practical implementation, the inflating device may be a manual inflating device (such as an inflator), and may also be a controlled electric inflating device (such as an air pump); the deflating device may be a manual deflating device (such as a deflator), or may be a controlled electric deflating device (such as an air pump).
Further, the cushion for preventing pressure sore may also include a control device; the control device is electrically connected to the valve on the air duct, and is electrically connected to the inflating device and the deflating device, so as to control the inflating device to inflate the air duct or control the deflating device to deflate the air duct. In addition, in an alternative embodiment, the cushion for preventing pressure sore may not include a deflating device, but controls the opening of the valve to slowly deflect the air duct.
Those skilled in the art can understand that the above valve may be a manual valve so as to fit the manual inflating device, or the above valve is a controlled electric valve so as to be electrically connected to the control device and fit the use of the electric inflating device. Definitely, those skilled in the art can understand that the manual valve can fit the use of the electric inflating device, or the electric valve can also fit the use of the manual inflating device.
In the above embodiments, each air cell is a columnar air cell; the columnar air cell includes a columnar outer casing layer and an air cell column disposed in the outer casing layer; the outer casing layer is made of the same material and is integrally formed; the wall thickness of the outer casing layer is kept the same from the bottom to the top. The air cell column is directly formed by foaming a sponge. Besides, a hydrogel layer is disposed at the top of the air cell column, and the hydrogel layer is directly formed at the top of the air cell column with excellent fitting and adhering performance. Air is filled in space among the outer casing layer, the air cell column, and the sealing layer, and is exchanged with gas inside the air cell, so as to control the humidity and temperature of the air cell. A sealing layer is disposed between the top of the air cell column and the hydrogel layer. The sealing layer tightly contacts an inner wall of the outer casing layer. The sealing layer is made of the same material as the outer casing layer; the sealing layer in tight contact with the inner wall of the outer casing layer may be formed after a secondary vulcanization process, thereby ensuring the tightness, firmness and beauty of the hydrogel layer.
The description in the background indicates that when being used by those who need to keep a sitting posture for a long time, the existing cushions can provide very comfortable sitting position and experience, but still continuously apply pressure to the body, and therefore are still very likely to trigger pressure sores.
The present invention is aimed at solving the problem that the cushions in the prior art cannot intermittently exert pressure over buttocks, and preventing blood circulation of skin from being blocked. Specific embodiments of the present invention are described in further details below with reference to the accompanying drawings.
As shown in
The above control device is a common control device to a person skilled in the art, and can be implemented by programming programmable control chips and using a necessary circuit board in coordination, which is a common technical means to a person skilled in the art and is not elaborated herein again.
Further, referring to
The top of the outer casing layer 13 is an upwardly protruding cambered surface, which reduces edges and corners and increases a contact area. When the body contacts the arc-shaped hydrogel layer 15 at the top, no discomfort or pains is aroused.
A sealing layer 16 is disposed between the top of the air cell column 14 and the hydrogel layer 15. The sealing layer 16 tightly contacts an inner wall of the outer casing layer 13. The sealing layer 16 may be made of the same material as the outer casing layer 13; the sealing layer 16 in tight contact with the inner wall of the outer casing layer 13 may be formed after a secondary vulcanization process, thereby ensuring the tightness, firmness and beauty of the hydrogel layer 15, so that the directly formed hydrogel does not fall off or leak under the effect of gravity and extrusion of a body.
As shown in
Further, in this embodiment, the cushion for preventing pressure sore also has air ducts, valves, an inflating device, a deflating device, and a control device, and the connection manner thereof is similar to that of the first embodiment, so that the control device can control the valve, inflating device and deflating device, thereby inflating or deflating different air cell zones. For example, under the control of the control device, the A air cell zone and C air cell zone are inflated so as to maintain high pressure, and meanwhile the B air cell zone and D air cell zone are deflated so as to maintain low pressure; such a state lasts, for example, 1-10 minutes; then, under the control of the control device, the B air cell zone and D air cell zone are inflated so as to maintain high pressure, and meanwhile the A air cell zone and C air cell zone are deflated so as to maintain low pressure; such a state lasts, for example, 1-10 minutes; then again, the A air cell zone and C air cell zone are inflated so as to maintain high pressure, and meanwhile the B air cell zone and D air cell zone are deflated so as to maintain low pressure. When the cushion is used, the E air cell zone is located under and contacts the thighs of the human body, and under the control of the control device, the E air cell zone may be inflated or deflated separately with an inflating or deflating frequency and pressure different from other air cell zones; alternatively, once being inflated, the E air cell zone maintains constant pressure. The inflating and deflating frequencies and the inflating and deflating pressure of the air cell zones can be adjusted for different patients; for instance, a patient can set the inflating or deflating pressure and time according to his moving ability and weight. The different air cell zones are inflated or deflated in an alternating manner as described so that the pressure is applied in an alternating manner on different parts of buttocks of a person who sits on the cushion for a long time, thereby preventing continuously applying pressure to some part of the body and reducing the occurrence probability of pressure sores.
Further, in this embodiment, the cushion for preventing pressure sore also has air ducts, valves, an inflating device, a deflating device, and a control device, and the connection manner thereof is similar to that of the first embodiment, so that the control device can control the valve, inflating device and deflating device, thereby inflating or deflating different air cell zones. For example, under the control of the control device, the A1 air cell zone, A2 air cell zone, A3 air cell zone, and A4 air cell zone are inflated so as to maintain high pressure, and meanwhile the B1 air cell zone, B2 air cell zone, B3 air cell zone, and B4 air cell zone are deflated so as to maintain low pressure; such a state lasts, for example, 1-10 minutes; then, the A1 air cell zone, A2 air cell zone, A3 air cell zone, and A4 air cell zone are deflated so as to maintain low pressure, and meanwhile the B1 air cell zone, B2 air cell zone, B3 air cell zone, and B4 air cell zone are inflated so as to maintain high pressure; inflating and deflating are performed in such an alternating manner. At the same time, the control device also inflates and deflates the C air cell zone, D air cell zone, and E air cell zone with respective frequencies, so as to fit the inflating and deflating of the A1 air cell zone, A2 air cell zone, A3 air cell zone, A4 air cell zone, B1 air cell zone, B2 air cell zone, B3 air cell zone, and B4 air cell zone. The inflating and deflating frequencies and pressure of the C air cell zone, D air cell zone and E air cell zone may be the same or different, which can be adjusted by a user who actually uses the cushion. Moreover, once being inflated, the E air cell zone maintains constant pressure, which is not changed any more. In addition, the duration of the inflating and deflating may be selectively adjusted according to parameters such as an inflating or deflating speed, a required gas volume, and intensity of pressure. The air cell zones are inflated and deflated frequently in an alternating manner, so that the pressure of different air cell zones is frequently changed, and the pressure is applied in an alternating manner on different parts of buttocks of a person who sits on the cushion for a long time, thereby preventing continuously applying pressure to some part of the body and reducing the occurrence probability of pressure sores.
Further, in this embodiment, the cushion for preventing pressure sore also has air ducts, valves, an inflating device, a deflating device, and a control device, and the connection manner thereof is similar to that of the first embodiment, so that the control device can control the valve, inflating device and deflating device, thereby inflating or deflating different air cell zones. For example, under the control of the control device, the A1 air cell zone, A2 air cell zone, A3 air cell zone are inflated so as to maintain high pressure, and meanwhile the B1 air cell zone, B2 air cell zone, B3 air cell zone are deflated so as to maintain low pressure; such a state lasts, for example, 1-10 minutes; then, the A1 air cell zone, A2 air cell zone, and A3 air cell zone are deflated so as to maintain low pressure, and meanwhile the B1 air cell zone, B2 air cell zone, and B3 air cell zone are inflated so as to maintain high pressure; such a state lasts, for example, 1-10 minutes; inflating and deflating are performed in such an alternating manner. At the same time, the control device further inflates and deflates the C air cell zone, D air cell zone, E air cell zone, and F air cell zone with respective frequencies, so as to fit the inflating and deflating of the A1 air cell zone, A2 air cell zone, A3 air cell zone, B1 air cell zone, B2 air cell zone, and B3 air cell zone. The same as the third embodiment, the inflating and deflating frequencies and pressure of the C air cell zone, D air cell zone, E air cell zone, and F air cell zone can also be adjusted in this embodiment. Moreover, once being inflated, the E air cell zone maintains constant pressure, which is not changed any more. The pressure of different air cell zones frequently changes, so that the pressure is in an alternating manner applied on different parts of buttocks of a person who sits on the cushion for a long time, thereby preventing continuously applying pressure to some part of the body and reducing the occurrence probability of pressure sores.
Further, in this embodiment, the cushion for preventing pressure sore also has air ducts, valves, an inflating device, a deflating device, and a control device, and the connection manner thereof is similar to that of the first embodiment, so that the control device can control the valve, inflating device and deflating device, thereby inflating or deflating different air cell zones. For example, under the control of the control device, the A1 air cell zone, A2 air cell zone, A3 air cell zone, A4 air cell zone, A5 air cell zone are inflated so as to maintain high pressure, and meanwhile the B1 air cell zone, B2 air cell zone, B3 air cell zone, B4 air cell zone, B5 air cell zone are deflated so as to maintain low pressure; such a state lasts, for example, 1-10 minutes; then, the A1 air cell zone, A2 air cell zone, A3 air cell zone, A4 air cell zone, and A5 air cell zone are deflated so as to maintain low pressure, and meanwhile the B1 air cell zone, B2 air cell zone, B3 air cell zone, B4 air cell zone, and B5 air cell zone are inflated so as to maintain high pressure; such a state lasts, for example, 1-10 minutes; inflating and deflating are performed in such an alternating manner. At the same time, the control device further inflates and deflates the C air cell zone at a certain frequency, so as to fit the inflating and deflating of the A1 air cell zone, A2 air cell zone, A3 air cell zone, A4 air cell zone, A5 air cell zone, B1 air cell zone, B2 air cell zone, B3 air cell zone, B4 air cell zone, and B5 air cell zone. Alternatively, once being inflated, the C air cell zone maintains a constant pressure, which is not changed any more. The pressure of different air cell zones frequently changes, so that the pressure is applied in an alternating manner on different parts of buttocks of a person who sits on the cushion for a long time, thereby preventing continuously applying pressure to some part of the body and reducing the occurrence probability of pressure sores. The inflating and deflating frequencies and the inflating and deflating pressure of the air cell zones can be adjusted for different patients; for instance, a patient can set the inflating or deflating pressure and time according to his moving ability and weight.
The inflating and deflating states of different air cell zones in the above embodiments of the present invention are merely used to exemplarily describe the principle and efficacy of the present invention. The inflating and deflating frequencies or pressure of different air cell zones can be the same or different, and can be properly adjusted and varied in many feasible manners according to conditions of different users. In the above embodiments of the present invention, the connection manner among the plurality of air cells in the air cell zone is also diversified, and is not uniquely defined, as long as air cells are communicated to let gas through in each air cell zone.
The present invention can effectively prevent the occurrence of pressure sores. As a use example, during a use process, when body buttocks sit on the cushion for preventing pressure sore, different air cell zones are inflated and deflated according to a requirement, and the pressure and pressure lasting time of different air cell zones are controlled, where the pressure and pressure lasting time are set according to conditions of patients, so that different parts of the buttocks are subject to same or different pressure within the same or different periods of time. With different parameters set for different body weights, the control device can control the inflating device and the valve to inflate or deflate the cushion for preventing pressure sore when the pressure exceeds the upper limit or drops below the lower limit. By means of the control device, different air cell zones can be inflated and deflated in an alternating manner. When the buttocks of a patient contact are in contact with the cushion for a long time, another device can be added to blow the air cell, so as to lower the temperature and humidity on the surface of the air cell.
The above embodiments are merely intended to exemplarily illustrate the principle and efficacy of the present invention, but the present invention is not limited to the above implementation manners. Those skilled in the art can make modifications to the embodiments without departing from the spirit and scope of the present invention and within the protection scope of the claims. Therefore, the protection scope of the present invention shall be subject to the appended claims.
Number | Date | Country | Kind |
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201210249441.6 | Jul 2012 | CN | national |