KR200459786Y1 - Viscoelasticity measuring device - Google Patents

Abstract

The present invention relates to a viscoelastic solution measuring device of viscoelastic solution that can easily and easily compare the viscoelasticity between viscoelastic solutions using the buffer force due to the viscoelastic solution,

Viscoelasticity is characterized in that it consists of measuring means for sensing the force transmitted to the measuring plate to be shocked by the viscoelasticity of the viscoelastic solution by impacting the measuring plate immersed in the viscoelastic solution and displaying through the display unit The viscoelasticity of the solution can be compared.

Viscoelastic solution, viscoelastic, buffering force

Description

Viscoelasticity measuring device of viscoelastic solution {VISCOELASTICITY MEASURING DEVICE}

The present invention relates to an apparatus for measuring viscoelasticity of a viscoelastic solution, and more particularly, to an apparatus for measuring viscoelasticity of a viscoelastic solution that can easily and easily compare viscoelasticity between viscoelastic solutions using a buffer force due to viscoelasticity of a viscoelastic solution.

Viscoelasticity refers to a phenomenon in which elastic deformation and viscous flow occur simultaneously when a force is applied to an object. Such viscoelastic solutions include colloidal solutions, thick polymer solutions such as starch, glucose, and the like, and these viscoelastic solutions cause viscoelasticity and elastic deformation because they have resilience to deformation.

It is common to measure the viscoelasticity of such viscoelastic solution using a separate viscoelasticity measuring instrument. Such a viscoelasticity measuring instrument is complex in measuring the state of stress by applying a constant distortion to the sample, or measuring the state change of the distortion by applying a constant stress to the sample.

Therefore, the present inventors have completed the viscoelasticity measuring device of the viscoelastic solution of the present invention by using the difference in the buffering effect due to the impact according to the viscoelasticity of the viscoelastic solution can be measured by a simple measuring principle.

Accordingly, an object of the present invention is to provide an apparatus for measuring viscoelasticity of a viscoelastic solution to easily identify and identify the viscoelasticity of a viscoelastic solution to be measured by using a shock absorbing force applied to the viscoelastic solution.

Moreover, it aims at providing the viscoelasticity measuring apparatus of a viscoelastic solution which made the position which impacts an additional measuring plate constant.

In order to achieve the above object, the present invention applies a shock to a measurement plate immersed in a viscoelastic solution to be relaxed by the viscoelasticity of the viscoelastic solution and detects the force transmitted to the measurement plate and displays the detected signal to identify the detected signal. It provides a viscoelasticity measuring device of the viscoelastic solution, characterized in that consisting of a measuring means.

In addition, the measuring means,

A container containing a viscoelastic solution;

A measuring plate positioned inside the container and subjected to impact;

A weight for impacting the measuring plate;

The additional up and down and moving up and down portion provided with the measuring plate at the bottom;

A pair of force sensors connected to both sides of the measuring plate to sense a force transmitted through the measuring plate;

A stand fixing the force sensor;

It provides a viscoelastic solution of viscoelastic solution comprising a; display unit for displaying so as to identify the signal sensed from the force sensor.

In addition, the lifting and lowering unit,

A movable table, which is additionally inserted and moved up and down, and a measurement plate is fixed to a lower end thereof;

It is connected to the upper end of the movable table provides a viscoelastic solution measuring viscoelastic solution comprising a; fixing frame for fixing the movable table.

As described above, the viscoelasticity measuring device of the viscoelastic solution according to the present invention has a force sensor that transmits the force transmitted to the measuring plate according to the degree of relaxation of the impact applied when the weight is lowered on the measuring plate by using the buffer force according to the viscoelasticity of the viscoelastic solution. As it is possible to measure and display it as a digital signal, it is possible to compare and measure the relative viscoelasticity of the viscoelastic solution through a device having a simpler principle and a simple structure.

In addition, it can be lowered to the measuring plate at a constant position with an additional constant force, the impact applied to the measuring plate can be well made to mitigate the impact of the viscoelastic solution of the viscoelastic solution, and thus the force transmitted to the measuring plate under constant conditions Since it can measure the viscoelasticity of the various types of viscoelastic solution can have a more accurate comparison of the measured value.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited to the embodiments shown in the drawings.

1 is a perspective view showing a viscoelasticity measuring device according to the present invention, Figure 2 is a front view of FIG.

As shown therein, the viscoelasticity measuring device of the viscoelastic solution according to the present invention applies a shock to the measuring plate 20 immersed in the viscoelastic solution to be relaxed by the viscoelasticity of the viscoelastic solution to detect and detect the force transmitted to the measuring plate 20. It consists of a measuring means (1) displayed through the display unit 70 to identify one signal.

The measuring means 1 uses a buffer force according to the viscoelasticity of the viscoelastic solution. When an impact is applied to the measuring plate 20 immersed in the viscoelastic solution, the force transmitted to the measuring plate 20 through the impact is viscoelastic in the viscoelastic solution. Due to the buffer force due to the magnitude of the force transmitted to the measuring plate 20 is relaxed. Therefore, the measuring means 1 has a high viscoelastic solution and a large buffering force, so that the force transmitted to the actual measuring plate 20 is relatively small. In contrast, a low viscoelastic solution has a small buffering force. The mitigating effect of the force transmitted by the impact applied to the measuring plate 20 is weakened so that the force transmitted to the actual measuring plate is relatively large.

In more detail, the measuring means 1 includes a container 10 containing a viscoelastic solution; A measuring plate 20 which is located inside the container 10 and is impacted; A weight 30 for impacting the measuring plate 20; The weight 30 is moved up and down, and the lifting and lowering portion 40 provided with the measuring plate 20 at the bottom; A pair of force sensors 50 connected to both sides of the measuring plate 20 to sense a force transmitted through the measuring plate 20; A stand 60 for fixing the force sensor 50; It is preferable to include a; display unit 70 for displaying a signal detected from the force sensor 50 to identify.

The container 10 is formed with a space portion so that the viscoelastic solution can be contained, it is possible to use a container containing a common solution having an open top. At this time, as the viscoelastic solution, a thick polymer solution such as starch solution, glucose, saccharose, colloidal solution, or the like may be used.

The measurement plate 20 is a portion that is impacted as the falling down further falling, the impact applied to the measurement plate 20 is partially relaxed according to the viscoelasticity of the viscoelastic solution. Therefore, the measuring plate 20 is preferably formed in a flat plate shape, such as a flat plate, so as to sufficiently reduce the impact by making a large contact area with the viscoelastic solution in the upper layer portion of the viscoelastic solution contained in the container 10 There is no limit to the shape.

The weight 30 is a means for applying a shock to the measuring plate 20 while descending quickly from the upper portion to the lower portion of the lifting and lowering portion 40, in addition to the weight 30 through the falling to the measuring plate 20 Any known means having a weight that is capable of impact can be used.

The lifting and lowering portion 40 is a portion that is coupled to the weight 30 to move up and down along the lifting and lowering portion 40, the lifting and lowering portion 40 is measured at the bottom The plate 20 is provided so that the weight 30 is lowered along the lifting and lowering portion 40 to fall directly on the measuring plate 20 to apply an impact.

At this time, the lifting and lowering portion 40 is to accurately drop the weight 30 to a specific portion of the measuring plate 20 so that the force applied to the measuring plate 20 is constant more accurately the viscoelasticity of various viscoelastic solutions It can be measured.

Therefore, the lifting and lowering portion 40 is moved up and down by the weight 30 is fitted, the moving table 41 is fixed to the measuring plate 20 at the bottom; It is more preferable to include; a fixed frame 42 is connected to the upper end of the movable table 41 to fix the movable table 41.

The movable table 41 is mounted on the measuring plate 20 by lowering the weight 30 by allowing the weight 30 to be fitted to the movable table 41 to move up and down along the longitudinal direction of the movable table 41. When the impact is applied to a certain portion of the measuring plate 20 is dropped to a certain force so that the same impact can be applied during viscoelasticity measurement.

The movable table 41 is formed in a long rod shape is coupled to the upper plate 423 of the fixing frame 42 to be described later, in this case, so that the center of the weight 30 can be fitted to the movable table 41 The hollow part is formed. At this time, the hollow portion of the weight 30 is formed so that the circumference is larger than the circumference of the movable table 30 allows the smooth movement of the weight 30 along the longitudinal direction of the movable table 41.

The fixing frame 42 is fixed so that the lower end portion of the movable table 41 is positioned at a predetermined distance from the bottom of the container 10, the fixing frame 42 supports the bottom surface and the upper surface It consists of a lower plate 421 is placed on the container, a support 422 formed vertically from the lower plate 421, and the upper plate 423 is connected to the end of the support 442 and the mobile unit 41 is coupled to the bottom surface do.

The fixing frame 42 allows the measuring plate 20 fixed to the lower end of the movable table 41 to be locked in the upper layer of the viscoelastic solution in the container 10, thereby impacting the viscoelasticity of the viscoelastic solution. This is to make the relaxation effect appear well, and to allow the movable table 41 to be always positioned at a certain position.

At this time, the threaded portion corresponding to each other is formed on the coupling portion of the upper plate 423 and the movable table 41 of the fixing frame 42 to be screwed to separate the movable table 41 after measuring the viscoelasticity of the viscoelastic solution. It is also possible to facilitate the cleaning of the measuring plate 20 fixed to the lower end of 41).

The viscoelasticity measuring device of the viscoelastic solution according to the present invention through the lifting and lowering having the configuration as described above can be lowered to the measuring plate at a constant position with a further constant force, the impact applied to the measuring plate according to the viscoelasticity of the viscoelastic solution Impact mitigation can be well achieved, and thus the force transmitted to the measuring plate can be measured under certain conditions, so that the relative comparison of the measured values can be more accurately measured when measuring viscoelasticity of different types of viscoelastic solutions.

Force sensor 50 of the present invention is provided on both sides of the measuring plate 20 to detect the force transmitted to the measuring plate 20, the force sensor 50 is a ring 51 of the force sensor 50 ) And both sides of the measuring plate 20 are connected by a wire such as a wire. At this time, the force sensor 50 used in the present invention may use a general known force sensor for measuring static and dynamic tension or compression force.

The force sensor 50 is to detect the force transmitted to the shock absorbing the measuring plate 20 by the lowering of the weight 30 is reduced by the buffer force of the viscoelastic solution, the force sensor 50 in a pair It is provided to measure the force more uniformly by simultaneously measuring the force transmitted to the measuring plate 20 on both sides of the measuring plate 20.

In addition, the pair of force sensors 50 are fixed by the stand 60, the stand 60 is provided on both sides around the lifting and lowering. The stand 60 is a balance table 61 to which the force sensor 50 can be fixed and a force sensor 50 fixed to the balance table 61 to be positioned at a predetermined height spaced from the floor surface A vertical stand 62 is formed to be connected to one end of the balance stand 61, and a support plate 63 is formed at the bottom of the stand 62 so that the stand 60 can be stably erected.

In addition, the force sensor 50 is connected to the display unit 70 for identifying the force measured by the force sensor 50, the display unit 70 is a signal obtained by detecting the force sensor 50 By converting to a digital signal, all known means such as a microcomputer based lab (MBL) device for converting and displaying the signal sensed by the force sensor 50 into the digital signal 50 can be used.

The viscoelasticity measuring device of the viscoelastic solution according to the present invention having the configuration as described above is a force transmitted to the measuring plate according to the degree of relaxation of the impact applied when the weight is lowered on the measuring plate using the buffer force according to the viscoelasticity of the viscoelastic solution By allowing the sensor to measure and discernably display digital signals, it is possible to make comparative measurements of the relative viscoelasticity of viscoelastic solutions through simpler principles and simpler devices.

FIG. 3 is a graph illustrating viscoelasticity of glucose, starch, sacrose and dextrin solutions using a viscoelasticity measuring device of a viscoelastic solution of the present invention. An MBL device was used as the display portion of the viscoelasticity measuring device of.

As a result of measuring the viscoelasticity of the viscoelastic solution using the viscoelasticity measuring device according to the present invention, it can be seen that the solution of high viscoelasticity, such as dextrin, showed a small measurement value in the graph, as shown in FIG. 3. It can be seen that the measured values of the graph are large.

As described above, the viscoelasticity measuring device of the viscoelastic solution according to the present invention can be more easily compared with the viscoelastic solution, as the degree of viscoelasticity of each viscoelastic solution is displayed in a graph.

1 is a perspective view showing a viscoelasticity measuring device according to the present invention.

2 is a front view of FIG. 1;

Figure 3 is a graph showing a graph measuring the viscoelasticity of glucose (glucose), starch (sucrose) and dextrin solution using a viscoelasticity measuring device of the viscoelastic solution of the present invention.

<Detailed description of the major symbols in the drawings>

1: measuring means

10: Container

20: measuring plate

30: weight

40: lift and lower portion 41: moving table 42: fixed frame

421: lower plate 422: support 423: upper plate

50: force sensor

51: rings

60: stand

61: counterbalance 62: vertical stand 63: support plate

70: display unit

Claims (3)

delete The measurement is displayed through the display unit 70 so as to shock the measuring plate 20 immersed in the viscoelastic solution to be relaxed by the viscoelasticity of the viscoelastic solution to detect the force transmitted to the measuring plate 20 and identify the detected signal. In the viscoelasticity measuring device consisting of the means (1), The measuring means 1, A container 10 containing a viscoelastic solution; A measuring plate 20 which is located inside the container 10 and is impacted; A weight 30 for impacting the measuring plate 20; The weight 30 is moved up and down, and the lifting and lowering portion 40 provided with the measuring plate 20 at the bottom; A pair of force sensors 50 connected to both sides of the measuring plate 20 to sense a force transmitted through the measuring plate 20; A stand 60 for fixing the force sensor 50; Viscoelastic solution of the viscoelastic solution, characterized in that it comprises a; display unit 70 for displaying the signal sensed from the force sensor 50 to identify. The method according to claim 2, The raising and lowering portion 40, A movable table 41 in which the weight 30 is inserted and moved up and down and the measuring plate 20 is fixed to a lower end thereof; Viscoelastic solution of the viscoelastic solution, characterized in that it comprises a; fixed frame (42) connected to the upper end of the movable table (41) to fix the movable table (41).

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