JPH0612516Y2 - Flow tester - Google Patents

Description

Detailed Description of the Invention A. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flow tester using a thin tube extrusion method.

B. 2. Description of the Related Art This type of flow tester measures the flowability, viscosity, etc. of resin, food, ceramics, iron powder, etc. under desired temperature conditions.

Conventionally, a flow tester has a structure in which a piston is inserted from above into a cylinder containing a sample to be measured and a load is applied to this piston via a press rod. Then, the descending speed of the piston when the sample is extruded from the thin tubular hole at the bottom of the cylinder is detected by a measuring system, and data such as the flowability of the sample is obtained from the descending speed.

C. Problems to be solved by the invention Usually, a large amount of sample is put in this cylinder.
In the test of one time, the piston is only displaced by 3 to 7 mm (JIS), and with the recent sample, it can be measured with good accuracy by only being lowered (pressed) by about 1 to 1.5 mm. In this case, the load mechanism is operated and the press rod is lowered to press the piston for testing. However, as shown in FIG. 3, the piston is displaced by a predetermined stroke 1 and after the measurement time t is completed, the operation of the load mechanism is started. Even if is stopped, the displacement of the press rod does not stop due to the inertia of the pressing, and the entire sample is extruded as shown in FIG. 3 (point D). Thus, in the past, even though the test was performed once and the amount used was small, all the samples were wasted, and in addition, when testing a new sample, the cylinder had to be cleaned or replaced. There is also a problem in work efficiency.

An object of the present invention is to provide a flow tester with good work efficiency while improving the test accuracy by effectively using the sample.

D. Means for Solving the Problems The flow tester according to the present invention is provided with a stopper that regulates the piston pressing stroke of the press rod, and a means that changes the relative distance between the tip of the stopper and the tip of the press rod. Thus, the regulation stroke amount by the stopper can be varied.

E. Action The pressing force on the piston of the press rod is erased by the stopper, and the displacement of the press rod due to inertia disappears. The position of the stopper can be changed, and the sample put in once can be tested multiple times.

F. Embodiment 1 FIG. 1 is a longitudinal sectional view of an embodiment of the present invention, in which a furnace body 1 and a cylinder 2 each having a substantially cylindrical shape are formed separately, and a heater 3 by a coil is attached inside the furnace body. . A die 5 is fixed to the lower end of the cylinder 2.

The die 5 is provided with a thin tubular hole 5H, and the sample S is extruded and flows out from this portion. Reference numeral 4 denotes a piston which is inserted into the cylinder 2 from above, and its upper end is pressed by the press rod 6. The load mechanism for lowering the press rod 6 is the same as the conventional one and is omitted.

During the test, the sample S to be measured is put in the cylinder 2, heated by the heater 3 to a predetermined temperature, and the piston 4 is pressed by the press rod 6 to be extruded to perform the measurement. Based on this result, it is possible to evaluate the flowability, viscosity, etc. of the target sample such as resin, food and the like together with temperature.

In the above structure, the present invention is characterized in that the pressing (effective stroke) of the press rod 6 against the piston 4 can be variably regulated.

That is, the press rod 6 is provided with the frames 9 and 10 that function as stoppers that can be vertically displaced relative to the press rod 6. When the frame body, especially the lower end of the lower stopper ring 10 is displaced downward,
By contacting the upper surface of the furnace body 1, the press rod 6
It regulates the fall of the. The stopper ring 10 is screwed to the lower end thread portion of the cap nut 9 screwed to the screw press rod 6.

The load nut 8 is inserted into the upper opening of the cap nut 9 and is connected to the upper end of the press rod 6. This load rod 8
Is cracked in an inverted U-shape at the portion where the press rod 6 engages, and the pin 7 that is inserted through the press rod 6 is provided in this split groove.
Are fitted. This pin 7 prevents the load rod 8 and the press rod 6 from rotating relative to each other around the load shaft center, and when the cap nut 9 is manually rotated from the outside, the cap nut 9 and the stopper ring 10 are Press rod 6
It is possible to displace in the load axis direction relative to.

That is, the distance (L ₂ + L ₁ -L ₃ ) from the lower end ball 6B of the press rod 6 to the upper end of the piston 4 can be arbitrarily changed.

Therefore, as shown in Fig. 2, when the stroke of the piston 4 in one test is set to 1 mm, L ₃ -L ₂ = 1 m
Adjust the cap nut 9 or the stopper ring 10 so that the length becomes m. When tested in that state, the height L of the piston 4 is reduced by 1 mm. In the second test, the cap nut 9 is rotationally adjusted again, the relationship of L ₃ -L ₂ = 1 mm is set, and the same test is performed. In the same manner, as shown in FIG. 2, one test can be performed six times or more, or more.

The features of the present invention are as described above, but the structure of the stopper is not limited to the illustrated example, and for example, the cap nut and the stopper ring may be integrated. Further, the stroke variable by the stopper may not be manually operated, but the cap nut may be automatically rotationally driven at each test. When the stroke is variable by rotating only the stopper ring 10,
It would be convenient if the outer circumference was graduated so that the stroke amount could be displayed. The structure of the press rod is not limited to the illustrated example. It is also possible to insert the stopper ring each time.

G. Effect of the Invention Since the present invention is configured as described above, it is possible to perform the test many times with the sample placed in the cylinder, effectively use it, and improve the test accuracy. In addition, continuous tests can be performed and tests with good reproducibility can be performed.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of the present invention, FIG. 2 is a test characteristic diagram, and FIG. 3 is a diagram showing a conventional test characteristic. 1 ... Furnace body, 2 ... Cylinder, 3 ... Heater, 4 ... Piston, 5 ... Die, 6 ... Press rod, 7 ... Pin, 8 ... Load rod, S ... Sample

Claims (1)

[Scope of utility model registration request] 1. A tester for testing the flow characteristics of a sample by inserting a piston into a cylinder containing a sample and pushing the piston with a press rod separate from the piston to push the sample out of a thin tube hole at the bottom of the cylinder. By providing a stopper that regulates the piston pressing stroke of the press rod and a means that changes the relative distance between the tip of this stopper and the tip of the press rod, it is possible to make the amount of regulation stroke by the stopper variable. A flow tester characterized by the above.