JPS6144254B2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to a weight testing machine.

A conventional weight testing machine will be explained based on FIG. 1. 101 is a housing disposed through the building; 102 is a cylinder device that is fixed on the third floor 103 of the building and has a piston stem tip supporting the bottom surface of the top plate of the housing 101;
4 is a test object (in this example, a load cell) fixed on the central horizontal plate 101a in the housing 101, 105 is a weighing weight of a predetermined weight stacked on the first floor 106, and 107 is the test object whose upper end is the above-mentioned test object. a connecting frame 10 that is connected to an object 104 and whose lower end is loosely connected to a top weight 105;
Reference numeral 8 denotes a connecting fitting that loosely connects each weight 105 to each other.

In this configuration, when the piston stem of the cylinder device 102 is extended, the test object 104 is lifted up via the housing 101, and each weight 105 is thereby lifted up in order from above via the connecting frame 107 and the connecting fittings 108. A weight will be applied to the test object 104. Note that FIG. 1 shows a state in which two weights 105 are lifted.

In this conventional testing machine, the weight of the weight 105 is applied directly to the test object 104, which inevitably increases the height of the machine, especially for high-precision tests in which many small weight weights are lifted. In the machine, it is necessary to provide a gap α of a constant width between each weight 105, so when all the weights 105 are lifted, the height of all the weights 105 becomes very high, and the height of the machine increases accordingly. Therefore, as shown in Figure 1, testing machines are usually installed through the building, resulting in very high equipment costs. Furthermore, since the cylinder device 102 supports the load of the weight 105 and the testing machine body, the cylinder device 102 needs to have a large capacity.

Therefore, the present invention provides a compact and highly accurate weight testing machine.

A first embodiment of the present invention will be described below with reference to FIGS. 2 and 3. This embodiment relates to a load cell testing machine, and 1 is a machine frame having a support 1a, a substrate 1b disposed on the support 1a, a reinforcing rod 1c, and a crossbeam 1d. 2 is the above substrate 1b
A rotating ram 2 is arranged below, and a fulcrum blade 3 fixed to the upper surface of the base end is in contact with a blade holder 4 fixed to the bottom surface of the crossbeam 1d. It is freely rotatable around 3 turns of the fulcrum blade. Also, ram 2
A hanging ring 7 is suspended from the force point blade 5 fixed to the upper surface of the tip of the blade via a blade holder 6, and a weight 8 is disposed below the hanging ring 7. The weight 8 is
There are four 50Kg weights 8a, four 100Kg weights 8b, two 200Kg weights 8c, and four 500Kg weights 8d.
Consists of individuals. Reference numeral 9 denotes a hanging rod suspended from the hanging ring 7 via a pin, and the uppermost weight 8
a are loosely connected. Also, each weight 8a~
8d are loosely connected to each other by a connecting fitting. 10 is a support plate arranged under the weight 8, 11 is a first ram cylinder fixed above the weight 8 on the substrate 1b, and 12 is connected to the tip of the piston system of the cylinder 11 with a pin in the center. 13 is a pair of connecting rods that respectively connect both ends of the horizontal rod 12 and both ends of the support plate 10, and 14 is a pair of connecting rods 14 provided on both connecting rods 13 and abutting against the support column 1a to prevent rolling. This is a guide for Reference numeral 15 denotes a round bar that is fixed to pass through the vicinity of the base end of the lever 2, 16 is a weighted blade that is fixed to the bottom surface of the round bar 15, 17 is a blade holder that receives the weighted blade 16, 1
Reference numeral 8 denotes a support piece for supporting the blade receiver 17, and the upper end of a connecting plate 19 fixed to both sides of the support piece 18 projects upward through a hole 20 in the base plate 1b. Reference numeral 21 denotes a connecting rod that connects the upper ends of both connecting plates 19 to each other. 22 is a stand erected and fixed above the point on the base plate 1b, 23 is a second ram cylinder fixed on the horizontal plate 22a of the stand 22, and 24 is the upper end of the piston system of the ram cylinder 23. 26 is a pair of blocks disposed on the table 24, and 27 is suspended between both blocks 26. A load cell is a load-bearing object. Reference numeral 28 denotes a hanging ring, which fits into the center of the load cell 27. 29 is a connecting rod extending downward from the hanging ring 28 through a through hole formed in the center of the second ram cylinder 23; 30 is suspended from the lower end of the connecting rod 29 via a pin 31; This is a hanging ring that fits into the connecting round rod 21. Reference numeral 32 denotes a blind erasing device, and the fulcrum blade 34 of the rotating lever 33 of the device 32 is received by a blade holder 36 fixed to a stand 35 on the base plate 1b. Further, the weighted blade 37 at the tip of the lever 33 is in pressure contact with a blade holder 38 fixed to the top plate portion of the hanging ring 30. Reference numeral 30 is a weight for erasing blinds connected to the base end of the lever 33 with a pin, 40 is a balance weight slidably disposed on the lever 34, and 41 is rotatably supported by the lever 33 and the balance weight 40. A threaded rod 42 is inserted into the threaded hole of the threaded rod 41.
43 is a limit switch for detecting the position of the balance weight 40. 44
is a horizontality detection device for the ram 2;
A pointer 45 extending horizontally from the tip surface of the pointer 45, and a scale plate 46 of the pointer 45 fixed to the reinforcing rod 1c.
and a differential transformer 48 which is fixed on a shelf 47 provided on the support column 1a and whose sensing lever is connected to the pointer 45. 49 is an oil damper disposed on the lever 2, and 50 is a work stage. Note that the ratio of the distance L from the fulcrum blade 3 to the force point blade 5 of the lever 2 to the distance l from the fulcrum blade 3 to the emphasis blade 16 is set to 10:1.

The operation of the above configuration will be explained. Figures 2 and 3
The state shown in the figure shows a state in which all the weights 8a to 8d are suspended from the ram 2, but when carrying out a load test, the first ram cylinder 11 is first operated, and the piston of the cylinder 11 is The stem is extended, thereby the horizontal rod 12 and the connecting rod 13
Raise the support plate 10 (in the direction of arrow A) to lift all weights 8a to 8d, and place all weights 8 on the lever
Make sure that the weight of a to 8d is not added. Next, the motor 42 is started and the balance weight 40 is moved in the direction of arrow C by the threaded rod 41. When the weight 40 comes into contact with the sensing lever of the limit switch 43, the motor 42 is stopped from starting. In this state, the weight of the lever 2 etc.
The weight W ₂ of the blind erasing device 32 such as the dead eye erasing weight 39 and the balance weight 40 is set to be slightly larger than W ₁ (W ₁ <W ₂ ). Therefore, the connecting rod 29 and the hanging ring 2 located above the pivot blade 37 of the rotating lever 33
No downward tensile force is applied to the load cell 8, and the load cell 27 can be easily inserted into the hanging ring 28 and placed on both blocks 26 as shown in FIG. Next, the motor 42 is activated to move the balance weight 40 in the direction of the arrow D to make W ₂ approximately equal to W ₁ . Next, the first ram cylinder 11 is operated to gradually retract the extended piston stem, and the weights 8a to 8d are suspended from the force point blade 5 of the ram 2 in order from above. Then, L:l
= 10:1, so for example, 50Kg weight 8a is 1
When suspended from the force point blade 5, the load cell 2
7 will have a weight of 500 kg. Therefore, since the weights 8a to 8d have a total of 3 tons from 50Kg to 500Kg, a total of 30 tons from 500Kg to 5000Kg can be added to the load cell 27. By the way, if the lever 2 is not always horizontal, the ratio of L:l will change,
Although it is not possible to apply accurate weights, weights 8a~
When hanging 8d, the ram 2 tends to rotate in the direction of the arrow H due to elongation of the connecting portion, and it is necessary to return the ram 2 to the horizontal position. Therefore, in this embodiment, consideration has been made so that the levelness of the ram 2 can be detected by the scale 46 and the differential transformer 48, and if the ram 2 is not level, the second ram cylinder 23 is activated. to raise the lifting table 24, thereby raising the blocks 26,
Load cell 27, hanging ring 28, connecting rod 29, hanging ring 30, connecting round rod 21, connecting plate 19, and blade holder 1
The lever 2 is rotated in the direction of the arrow via the lever 7 so that the lever 2 is always held horizontally.

A second embodiment of the present invention will be described based on FIGS. 4 and 5. Most of the configuration of this embodiment is the same as that of the first embodiment described above, except for the following points. That is, both blocks 60 for supporting the load cell 27 are arranged directly above the weight 8 on the substrate 1b, and a connecting rod 61 extends upward from the upper end of the hanging ring 7 from which the weight 8 is suspended.
passes through the through hole of the substrate 1b and protrudes between the two blocks 60. Reference numeral 62 is a hanging ring connected with a pin to the upper end of the connecting rod 61, and the load cell 27 is inserted into this hanging ring 62. 63 is the board 1b
The gate frame 64 is a first ram cylinder suspended from the gate frame 63, and the tip of the piston stem of the cylinder 64 is connected to the horizontal rod 12. Connected with a pin in the center. Reference numeral 65 denotes a jack disposed directly below the blinding weight 39 on the board 1b, and 66 a stopper bolt provided on the beam 67 below the lever 2 to prevent the lever from falling.

The operation of the above configuration will be explained. In this example,
The blocks 26 and 60 on which the load cell 27 is mounted are 2
One block 26 can be loaded from 500 kg to 30 tons as in the first embodiment.
The other block 60 can be loaded from 50 kg to 3 tons. Since the operation in one block 26 has been explained, the operation in the other block 60 will now be explained. The state shown in Figures 4 and 5 is the total weight 8a.
-8d is shown suspended from the load cell 27, but when performing a load test, first operate the first ram cylinder 64 to retract the piston stem of the cylinder 64, thereby Raise the support plate 10 (in the direction of arrow A) and lift the entire weight 8.
a to 8d, and slightly lift both hanging rings 7, 62 and connecting rod 61. In this state, the load cell 27 is inserted into the hanging ring 62 and placed on the block 60 as shown in the figure. Next motor 4
2 and move the balance weight 40 in the direction of arrow C to make W ₁ < W ₂ . Next is Jyatsuki 6
When the weight 39 is lifted by 5, the rotating lever 33 rotates around the fulcrum blade 34 in the direction of arrow T,
Along with this, the ram 2 also rotates in the direction of the arrow H by three rotations of the fulcrum blade, creating a slight gap between the power point blade 5 and the blade holder 6. Therefore, the weight of the weight 8 no longer acts on the lever 2. Next, the piston stem of the first ram cylinder 64 is gradually extended. Then, each of the weights 8a to 8d is suspended from the suspension rod 9 in order from above, and each of the weights 8a to 8d is connected to the load cell 27 via both suspension rings 7, 62 and the connecting rod 61.
A weight of 8d is added and weighed.

In the above embodiment, the bending type load cell 27 has been explained as an example, but the invention is not limited to this. It can also be used as a

As described above, according to the load testing machine of the present invention, the first connecting body connecting the rotary lever and the test object is provided, and the weight hanging body is connected to the lever. The weight of the weight is doubled and applied to the test object at the ratio of the distance between the rotation fulcrum and the weight hanging body to the distance between the rotation fulcrum of the lever and the first connecting body. Therefore, it can be significantly smaller than the conventional testing machine mentioned at the beginning. Furthermore, since a leveling device is provided to keep the lever in a horizontal state, it is possible to always apply an accurate predetermined weight to the test object, which is highly accurate.
Further, a rotary lever for erasing unnecessary eyes is provided, the center of which is supported, one end engages with the first connecting body, and a weight for erasing unnecessary eyes is attached to the other end; A balance weight is provided between the fulcrum of the rotary lever and the other end, which can be slid in the longitudinal direction of the rotary lever for erasing dead blinds, making it easy to remove the test object. It can eliminate the weight of your body.

Furthermore, if a release means is provided for releasing the connection between the weight hanging body and the lever, and a second connecting body is provided for connecting the weight hanging body and the test object supported by the second fixed body. The weight of each weight can be applied directly to the test object or via a lever, and the method of weighting can be selected depending on the size and purpose of the test object, which is very convenient.

[Brief explanation of the drawing]

FIG. 1 is a schematic vertical sectional view showing a conventional example, FIGS. 2 and 3 show a first embodiment of the present invention, and FIG.
The figure is a partially cutaway front view, and Figure 3 is the same as Figure 2.
4 and 5 show a second embodiment of the present invention, FIG. 4 is a partially cutaway front view, and FIG. 5 is a sectional view taken along the line -- in FIG. 4. It is. 1... Machine frame, 1b... Board, 2... Rotating lever, 3... Fulcrum blade, 5... Power point blade, 7, 28, 30, 62... Hanging ring, 8a to 8d... Weight, 9... Hanging rod (for hanging weights) body), 10... Support plate, 11, 64... First ram cylinder (hanging device), 16... Point blade, 2
3...Second ram cylinder (horizontal adjustment device), 2
6, 60... Block (fixed body), 27... Load cell (test object), 29... Connection rod (first connection body),
32... wasteful blind erasing device, 44... horizontality detection device,
61...Connection rod (second connection body), 63...Gate frame,
65...Judge (release means).

Claims (1)

[Scope of Claims] 1. A rotating ram that is rotatable about a fulcrum is provided, a first connecting body is provided that connects the ram and a test object supported by a first fixed body, and the above-mentioned A weight hanging device is provided that connects a weight hanging body to the hammer rod, suspends an appropriate weight from the hanging body, and applies a predetermined weight to the test object, and detects the horizontal state of the hammer rod. A detection means is provided, and a leveling device is provided for raising and lowering the first fixed body with respect to the fulcrum position to bring the ram into a horizontal state, the center being supported and one end engaging the first connecting body. and a rotary lever for erasing unnecessary eyes is provided at the other end with a weight for erasing unnecessary eyes, and a rotating lever for erasing unnecessary eyes is provided between the fulcrum of the rotating lever for erasing unnecessary eyes and the other end. A weight testing machine equipped with a balance weight that can be slid in the longitudinal direction. 2 A release means for releasing the connection between the weight hanging body and the lever rod is provided, and a second means for connecting the weight hanging body and the test object supported by the second fixed body above the hanging body is provided. A weighted testing machine according to claim 1, characterized in that a connecting body is provided.