KR910008593Y1 - Electronic vertical and horizon detective apparatus - Google Patents

Abstract

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Description

Electronic vertical and horizontal measuring device

1 is a partially cutaway perspective view of the present invention applied to a vertical measuring device.

2 is a longitudinal sectional view of the present invention applied to a vertical measuring device.

3 is a longitudinal sectional view of the present invention applied to a horizontal measuring device.

4 is a circuit diagram showing the electrical configuration of the present invention.

* Explanation of symbols for main parts of the drawings

1: body 2: sliding body

3: Set screw 4: Weight

5: string 6: potentiometer

7: movable contact 8: indicator

9, 10: LED A ₁ : differential amplifier

A ₂ , A ₃ : voltage comparator IC ₂ : counter integrated circuit

IC ₂ : Indicator driver R ₁ , R ₂ , R ₃ : Resistance

VCO: Voltage Controlled Oscillator

The present invention relates to an electronic vertical and horizontal measuring device which enables the construction and installation of a building or machine ideally by enabling the numerical display of vertical and horizontal states to obtain a quick and accurate measurement result.

Conventionally, by hanging a weight on the lower end of the string fixed to the top for the construction and installation of the building or machine to observe whether the string and the building or machine parallel to determine whether the installation state of the building or machine is vertical Since there was an advantage of not needing a special instrument for vertical measurement, it is impossible to make neck side because the string and weight also vibrate in case of windy wind or vibration. It is necessary to wait for the vibration of the string to stop so that it is not only difficult to measure the work alone but also difficult to work alone. There were many problems that could not be done.

In addition, conventionally, water droplets use a level (moving level) that moves around the center leader line according to hardness, or pour water into a hose and hang it on the surface to be measured, and both ends thereof have the same height. Was measured according to the horizontal.

Therefore, there is not much economic burden due to the provision of the measuring means at the time of the measurement method, but this is also a problem that the accuracy was not reliable because it is to determine the general horizontal state by the neck side.

The present invention avoids the conventional vertical and horizontal measurement methods as described above, so that the vertical and horizontal states can be represented numerically so that the measurement can be performed with high accuracy. By making it possible to make a quick and easy measurement to be described in detail according to the accompanying drawings as follows.

It is divided into a main body (1) and a sliding body (2) so that the measured object can be stretched along the length, and a stop screw (3) is provided so that the sliding body (2) can be stopped at an arbitrary position. The upper end of the string (5) suspended on the lower end of the weight (4) inside the inside of the, but connected to the movable contact (7) of the potentiometer (6) to the lower end of the string (5) and the potentiometer (6) Connect a resistor (R ₁ ) in series to the power supply (Vcc), and connect another resistor (R ₂ ), (R ₃ ) in series to the power source, and connect the connection point and the movable contact (7) of the differential amplifier (A ₁ ). It is connected to two input terminals, and its output is applied to a voltage-controlled oscillator (VCO), and its output is connected to a counter integrated circuit (IC ₁ ) and a display driver (IC ₂ ), The output and the indicator (8) are connected together, and the output of the differential amplifier (A ₁ ) and the voltage comparators (A ₂ ) and (A ₃ ) for lighting the LEDs (9) and (10) are installed. Reference numeral 11 denotes the surface to be measured, 12 and 12 'are rotational periods for contacting the surface to be measured, 13 is a fastening period for tensioning the main body 1 and the surface to be measured, and 14 and 14' are rollers. , 15 is a ring, 16, 16 'is a viewing window with arrows to indicate left and right deflection.

In the case of applying the present invention to a vertical measuring device, as shown in Figs. 1 and 2, the pivoting sections 12 and 12 'are developed so that their ends touch the surface 11 to be measured. The lower surface weight 4 causes the string 5 to be in a vertical line by its weight, so that the movable contact 7 connected to the lower end of the string 5 is stopped near the center of the potentiometer 6. Therefore, the current of the power supply VCC is applied to one input terminal of the differential amplifier A ₁ via the potentiometer 6 and the movable contact 7.

At this time, the applied voltage is divided by the resistors (R ₂ ) and (R ₃ ) and applied to the differential amplifier (A ₁ ) together with the voltage applied to the other input terminal so that the output of the differential amplifier (A) is proportional to the difference. As much voltage will be generated. At this time, if the construction or installation of the building or machine is completely vertical, the output voltage of the differential amplifier (A ₁ ) output terminal is applied to the voltage controlled oscillator (VCO) and there is no output of the counter integrated circuit (IC ₁ ). The driver IC ₂ puts the indicator 8 in the " 00 " state, and the operator knows that the current state is the correct vertical state. If the construction or the installed building or machine is not vertical, the lower end of the string 5 connected to the weight 4 is inclined to the left or the right when the center of the potentiometer 6 is located. The movable contact 7 is also inclined left or right.

In this situation, the output voltage of the differential amplifier A ₁ becomes higher or lower than the above-described vertical equilibrium voltage, which changes the oscillation frequency of the voltage controlled oscillator VCO to change the output signal of the counter integrated circuit IC ₁ . As a result, the indicator driver IC ₂ indicates the value to the indicator 8. Therefore, the user can accurately determine how much inclination, and thus the present invention deploys the pivot 12, 12 'at right angles to the main body 1 and the sliding body 2 to be measured. The degree of inclination can be read quickly and accurately only by the operation of contacting with (11), so that the work efficiency can be increased.

In addition to grasping the degree of inclination is also important to understand the direction of inclination, the smaller the degree of inclination, the more difficult the judgment, it is necessary to clearly indicate the inclination direction.

To this end, in the present invention, LEDs (9) and (10) are installed on the see-through windows 16 and 16 'with left and right arrows, and when the output level of the differential amplifier A ₁ is high or low. Of the voltage comparators A ₂ and A ₃ at the high level so that any one of the LEDs 9 and 10 is turned on and is deflected to the left or the right. , (16 ') lights up.

In addition, the present invention can be applied to the horizontal measuring device in the same manner as the vertical measuring device as shown in FIG.

That is, the level of the bottom of the main body (1) and the sliding body (2) of the horizontal measuring device is the same, and the weight (4) is fixed to the lower end of the string (5) of the short length, the upper end of the main body (1) To the movable contact point 7 of the potentiometer 6 at the lower end of the string 5, and to the potentiometer 6, which is grafted with the resistors R ₁ , R ₂ , R ₃ and a differential amplifier. (A ₁ ) A voltage controlled oscillator (VCO), a counter integrated circuit (IC ₁ ), an indicator driver (IC ₂ ), and an indicator (8) are provided so that the body 1 and the bottom of the sliding body 2 are measured. The string 5 is tensioned in the vertical direction by the weight of the weight 4 at the moment of contacting the surface 11, and the movable contact 7 formed at the bottom of the string 5 slides. The contact point 7 abuts the potentiometer 6 at any position according to the state of the measurement target surface 11, so that the measurement of the technical device as described above is possible. Incense fast, easy geotyieoseo being able to be determined by the lighting of the viewing window 16, 16 'to the arrow, and will be able to be accurately completed to the horizontal measurement.

In addition, in the present invention, the weight (4) can be separated from the strap (5) when carrying in consideration that the weight (4) due to the weight may collide with the potentiometer (6) inside the main body 1 during transportation or use. It may be to be made, it is also possible to prevent it from flowing inside the main body 1 by fixing it with various types of fixing device of a concise structure that can be easily manufactured.

In this way, the design of the present invention can be easily and quickly measured horizontally or vertically to improve the work efficiency, as well as to express measurement results numerically so that the accuracy of the measurement is very high. And it is a useful design that enables the construction and installation of the machine.

Claims (1)

A stop screw 3 is provided to allow the sliding body 2 to be slid in the main body 1 to be stopped at an arbitrary position, and the upper end of the string 5 in which the shaft 4 is suspended at the lower end thereof. The movable contact 7 of the potentiometer 6 is connected to the lower end of the string 5, the potentiometer 6 and the resistor R ₁ are connected to a power source, and the movable contact 7 is connected to the resistor R ₂ . , The voltage control oscillator (VCO), the counter integrated circuit (IC ₁ ), and the indicator driver (IC ₂ ) connected to the two input terminals of the differential amplifier (A ₁ ) together with the reference voltage by (R ₃ ). Electronic vertical and horizontal measuring devices provided with indicators (8) and LED (9), (10) lighting voltage comparators (A ₂ ) and (A ₃ ).