KR20020063455A - Load-cell scale for preventing eccentric error and incubator having the same - Google Patents

Abstract

PURPOSE: A load cell scale and incubator using the same is provided to reduce measurement error cause due to the eccentricity of load and obtain an accurate measurement result of an object. CONSTITUTION: A load cell scale comprises a base plate(31); a load cell(35) having a lower end(35a) supported by the base plate, an upper end(35b) for receiving a vertical load, and a bent portion(35c) connected between the lower end and the upper end of the load cell; an upper plate(33) mounted onto the load cell, and where an object to be measured is mounted; and a guide unit for guiding the upper plate to move only in a vertical direction by preventing the upper plate from being inclined by the eccentricity of load caused due to the object to be measured. The guide unit includes a first guide member(36) arranged to be protruded from the base plate; and a second guide member(37) arranged to be protruded downward from the lower surface of the upper plate, such that the second guide member contacts the inner or outer sides of the first guide member and guides the upper plate to move in a vertical direction.

Description

Load-cell scale for preventing eccentric error and incubator using the same {Load-cell scale for preventing eccentric error and incubator having the same}

The present invention relates to a load cell scale and an incubator using the same. More particularly, the present invention relates to a load cell scale and an incubator using the same, which can prevent measurement errors caused by an eccentricity when a load of an object to be measured is eccentrically applied to the load cell.

In general, incubators are used in the neonatal intensive care unit of hospitals to manage and treat premature infants. The incubator will automatically manage the treatment and management of premature infants, that is, vital signs observation, temperature maintenance, breathing maintenance, jaundice treatment, nutrition management, infection management. In this way, through the practice of using an incubator to determine the growth potential of premature infants are nursery. At this time, the degree of development of the newborn is determined by observing a constant increase in weight. For this purpose, the weight of the newborn is measured at the same time every day, and the amount of water, lactation, urine and the number of urine are measured. However, in order to measure the weight of the newborn baby, there is a hassle of moving the newborn baby from the incubator to the scale. In view of this, there is a need for a device that can measure weight while a newborn is placed in an incubator.

In measuring the weight of a newborn baby, the measured weight is a very important data for the management of the newborn baby, so the weight of the newborn baby should be precisely measured in the incubator.

On the other hand, as shown in Figure 1, when looking at the general load cell scale, the load cell 2 is placed on the upper plate (5) installed on top of the tip portion (2a), the load is applied to the tip portion (2a) As the bending portion 2b is bent, the resistance value of the strain gauge provided in the bending portion 2b changes, so that the weight of the article is calculated and displayed on the basis of the change in the resistance value. However, when the article is placed eccentrically on the upper plate 5, the upper plate 5 is warped or twisted based on the tip portion 2a, for example, an eccentric load due to bending load or bending load is generated. Done. Due to such an eccentric load, the tip portion 2a does not receive a load corresponding to the actual weight of the article, and thus, the strain gauge installed on the bend portion 2b does not have a precise weight measurement.

The present invention was devised to solve the above problems, and an object thereof is to provide a load cell scale and an incubator using the same in which the structure is improved to suppress the occurrence of an eccentric load.

1 is a schematic cross-sectional view of a general load cell scale,

2 is a schematic cross-sectional view showing an incubator employing a load cell scale according to an embodiment of the present invention, and

3 is an exploded perspective view showing an extract of the load cell scale shown in FIG.

Explanation of symbols on the main parts of the drawings

10: incubator body 20: mattress member

30: load cell scale 31: base plate

33: upper plate 35: load cell

36: first guide member 37: second guide member

Load cell scale according to the present invention for achieving the above object, the base plate; A load cell having a bending portion formed between a lower portion supported by the base plate and an upper portion receiving vertical load; An upper plate installed at an upper end of the load cell and loaded with an object to be weighed; And guide means for guiding the upper plate to be moved only in the vertical direction when the eccentric load is generated by the measured object, while preventing the upper plate from being inclined by the eccentric load.

In addition, the incubator according to the present invention for achieving the above object, the incubator body having an internal space for nursery the newborn; A mattress member installed inside the incubator body and on which the newborn baby is placed; And a load cell scale installed at the bottom of the mattress member to measure the weight of a newborn baby placed on the mattress member, wherein the load cell scale comprises: a base plate; A load cell having a bending portion formed between a lower end supported by the base plate and an upper end receiving vertical load; An upper plate installed at an upper end of the load cell and coupled to a lower part of the mattress; And when the eccentric load caused by the newborn, characterized in that it comprises a guide means for guiding the upper plate is moved only in the vertical direction by suppressing the inclination of the upper plate by the eccentric load.

Hereinafter, a load cell scale and an incubator employing the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic cross-sectional view showing an incubator employing a load cell scale according to an embodiment of the present invention.

Referring to the drawings, the incubator according to an embodiment of the present invention, the incubator body 10 having an internal space in which the newborn baby, and the mattress member 20 is installed in the incubator body 10, the newborn baby is placed And a load cell scale 30 for measuring the weight of the newborn baby placed on the mattress member 20.

The mattress member 20 has an inclined surface 21 so that the head of the newborn can be placed at a high position.

The load cell scale 30 is installed below the mattress member 20. The load cell scale 30 includes a base plate 31, an upper plate 33 supporting the mattress member 20, and a load cell 35 installed between the base plate 31 and the upper plate 33. And guide means.

The base plate 31 is fixed to the bottom of the inside of the incubator body 10. The upper plate 33 is approximately the same size as the mattress member 20, and is coupled to the bottom surface of the matless member 20. . The upper plate 33 is a place where the weighed object for weighing is loaded. In this embodiment, the mattress member 20 is combined to protect the newborn baby.

The load cell 35 has a lower end portion 35a supported by the base plate 31, an upper end portion 35b supported by the bottom surface of the upper plate 33, and receiving a vertical load, and the lower end portion 35a and the upper end portion 35b. ) Has a bent portion 35c connected therebetween. The bending portion 35c is a portion where deformation such as bending occurs due to the vertical load when the vertical load is applied to the upper end portion 35b. This portion is provided with a strain gauge (not shown) in which the resistance value changes due to bending. Therefore, the weight of the weighed object, that is, the weight of the newborn, is measured based on the amount of change in the resistance value in the strain gauge according to the bending degree of the bend 35c. On the other hand, since the load cell 35 is widely used throughout the industry, a detailed description thereof will be omitted.

When the eccentric load is generated by the newborn plate placed on the upper plate 33, that is, the mattress member 20, the guide means suppresses the upper plate 33 from being tilted or twisted by the eccentric load, thereby This is to guide the plate 33 to move only in the vertical direction. The guide means protrudes from the first guide member 36 installed to protrude on the upper surface of the base plate 31 and the bottom surface of the upper plate 33 so as to fold complementarily to the outside of the first guide member 36. It is provided with a second guide member 37 to be installed. Each of the guide members 36 and 37 has a height smaller than that of the load cell 35, and a predetermined gap is provided between them. That is, only the vertical load acting on the upper plate 33 can be transmitted to the load cell 35, so that the friction force does not occur between the guide members 36 and 37 within the allowable range. ).

In addition, as shown in Figure 3, each of the guide member (36,37) preferably has a cylindrical shape having a different inner diameter. That is, the second guide member 37 has a larger inner diameter than the first guide member 36, so that the second guide member 37 is externally disposed with a fine gap G on the outside of the first guide member 36. In addition, the load cell 35 is installed at an approximately center position of the first guide member 36. As described above, each of the guide members 36 and 37 has a cylindrical shape, which can effectively suppress the deformation of the upper plate 33 by an external force such as an eccentric load applied to the upper plate 33.

Referring to the operation of the incubator according to an embodiment of the present invention having the above configuration as follows.

First, when the newborn baby is laid on the mattress member 20 in the incubator body 10, the weight of the newborn baby is lowered while the load is applied to the upper plate 33. At this time, the second guide member 37 is lowered in the vertical direction in a state almost in contact with the inner circumference of the first guide member 36. In this case, only the weight of the newborn, that is, the pure weight component of the load is transmitted to the load cell 35, and the eccentric load is applied to the normal force acting perpendicular to the mutual contact surfaces of the first and second guide members 36 and 37. As a result of the static equilibrium of the force is not transmitted to the load cell 35. Therefore, only the vertical load representing the pure weight is applied to the load cell 35.

As such, by adopting the load cell scale 30 according to the embodiment of the present invention, it is possible to minimize the occurrence of the eccentric load so that only the pure vertical load acts on the load cell 35, and reduces the weighing error to within about 0.0025%. It becomes possible. In this way, by adopting the load cell scale 30 to reduce the weighing error in the incubator, it is possible to accurately measure the weight of the newborn baby at any time. Therefore, it is possible to more accurately check the development of the newborn to treat and manage the newborn more effectively.

On the other hand, in the present embodiment has been described by taking an example in which the inner circumference of the second guide member 37 is in contact with the outer circumference of the first guide member 36 as an example, this is merely illustrative, and each guide member 36 (37) ) May be interchanged with each other. In addition, a separate guide member may be added to the base plate 31 or the upper plate 33 to be in contact with the inner circumference of the first guide member 36 or the outer side of the second guide member 37.

According to the load cell scale and the incubator using the same according to the present invention as described above, by using the slidable guide means to move the upper plate in the vertical direction without tilting it is possible to reduce the weighing error due to the eccentric load, There is an advantage in that it is possible to accurately measure the weight of the newborn baby.

Claims (4)

Base plate; A load cell having a bending portion formed between a lower portion supported by the base plate and an upper portion receiving vertical load; An upper plate installed at an upper end of the load cell and loaded with an object to be weighed; And And an guiding means for guiding the upper plate to move only in the vertical direction when the eccentric load is generated by the measured object, while preventing the upper plate from being inclined by the eccentric load. The method of claim 1, The guide means, A first guide member protruding from an upper surface of the base plate; And And a second guide member protruding on the bottom of the upper plate to fold complementarily to the inside and / or outside of the first guide member to guide the movement in the vertical direction. The method of claim 2, The first and second guide member is a load cell scale, characterized in that formed in a cylindrical shape having a different diameter. An incubator body having an internal space for nursing a newborn baby; A mattress member installed inside the incubator body and on which the newborn baby is placed; And A load cell scale installed at the bottom of the mattress member and configured to measure the weight of the newborn baby placed on the mattress member; The load cell scale, Base plate; A load cell having a bending portion formed between a lower portion supported by the base plate and an upper portion receiving vertical load; An upper plate installed at an upper end of the load cell and coupled to a lower part of the mattress; And guide means for guiding the upper plate to be moved only in the vertical direction by preventing the upper plate from being inclined by the eccentric load when the eccentric load is generated by the newborn baby.