KR20090130906A - The leveling rod body for installing of receving light to razor level - Google Patents

Abstract

PURPOSE: A leveling rod for holding a laser level receptor is provided to immediately check the variation of the receptor location in an elevation difference indicator after converting into a digital signal. CONSTITUTION: A leveling rod for holding a laser level receptor comprises a first, second, n leveling rods(110,120,130), a receptor holder(610) and an elevation difference indicator(650). The receptor holder is installed on top of the n leveling rod. The variation of a lower gear(530) installed in the n leveling rod is converted with a sensor to a digital value. The elevation difference indicator is installed in the surface in order to read the converted digital value in the first leveling rod. The second leveling rod and n leveling rod are successively inserted inside the first leveling rod. The first leveling rod has tubular whose bottom is shut tightly.

Description

The leveling rod body for installing of receving light to razor level}

The present invention relates to a chuck for mounting a level receiver, and more specifically, the chuck to be set at a measurement point when leveling using a laser level for civil works is performed so that a horizontal point of a machine height can be recognized. And second and n th chucks are assembled to extractable operation, and operate to be able to drive up and down. The receiver is attached to the n th chuck to obtain a digital value of the position of the receiver through a sensor to obtain a socket between each chuck. And an elevation indicator installed on the outer circumferential surface of the first ship chuck via a contact point of the plug.

In general, two people face each other at predetermined intervals to measure the horizontal distance, elevation, and direction.Based on these surveys, figures or symbols are displayed on the drawings to provide basic construction materials such as various civil and architectural designs. Used as.

Therefore, the surveying equipment is not only to ensure safety and sophistication, but also to be robust, and to be extracted in multiple stages so that the length of the chuck can be extended or retracted according to the surveyed conditions.

On the other hand, the receiver mounting pit used so far can be operated up and down by extending the first, second, and n-th pit in multiple stages by the extraction method, and attached to the upper part of the n-th chuck In order to calculate the height difference while extracting the ship to the bottom, the method of recording the sum of the upper scale and the lower scale is recorded.

However, since the conventional receiver mounting chuck extends in multiple stages and cannot be operated up and down when the position of the receiver extended beyond the height of the operator is exceeded, the upper and lower scales are extracted while the chuck is extracted to the lower side. It is very inconvenient because there is a lot of difficulty in supporting the upper weight of the chuck in the process of extracting the multistage to the bottom when summing up the height difference, and there is a possibility of error in the process of adding the height difference of the upper and lower parts.

Therefore, the conventional receiver mounting chuck has a problem that causes a huge loss when used as a basic construction data, such as various civil design, architectural design, because the error occurs frequently in the level measurement due to this decreases the accuracy.

In order to solve the above problems, an object of the present invention is to assemble the first, second, and n-th pit extractors to extract the laser beam emitted at the laser level, which can recognize the horizontal line of the machine. It is installed on the upper part of the n-th ship and can be driven up and down.The variation of the installed position of the light receiver is converted into a digital value through a sensor, and it is installed on the outer circumferential surface of the first ship by contacts to sockets and plugs between each ship. Provided with a laser level receiver mounting frame that can be displayed immediately on the elevation indicator.

As described above, the present invention has a gear and an information transfer contact connecting the separation prevention and the upper and lower operations at the maximum withdrawal position of each of the first, second and nth chucks. It is possible to drive the position of the receiver to be activated in the n-th ship of the, and the height of the light receiver can be read from the elevation indicator installed on the outer surface of the first ship chuck to provide the operator with the convenience of the survey operation, as well as the survey value Because it can measure precisely, it is effective to make accurate construction by using as basic construction data of various civil design and architectural design.

On the other hand, the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and variations can be made within the technical scope of the present invention, it is natural that such variations and modifications belong to the appended claims.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 1a, b is a side view shown when the present invention the chuck body is extracted and fixed to the maximum withdrawal position.

The laser level receiver-mounted chucking body of the present invention is assembled by extraction so that the first, second, and n-th chucks 110, 120, 130 can be driven up and down.

In addition, when the light receiver holder 610 is installed on the upper part of the n-th chuck 130 and is driven up and down in a state where the light receiver 620 is attached, the amount of change of the n-th chuck lower gear 530 is changed by the sensor. In order to convert the digital value and read the converted digital value by the first trap 110, the elevation indicator 650 is provided on the surface.

In the present invention, the chuck body has a structure in which the second chuck 120 and the n-th chuck 130 are sequentially inserted into the first and second chucks 110 located below and pulled out and fixed up and down.

Accordingly, the first chuck 110 has a bottom shape in which the bottom bottom is sealed, and a first bottom chuck lower socket 210 is installed at one side of the bottom, and the first chuck upper socket 215 and the first chuck upper gear 410 are located at the top. ) Is installed.

In addition, the outer circumferential surface of the first chuck 110 is connected to the first chuck upper gear 410 and the shaft to the top of the first chuck 110 so as to operate by driving the first chuck upper gear 410. An elevation indicator 650 connected to the first chuck outer handle 510 and the first chuck upper socket 215 is installed.

Also, the second chuck 120 inserted into the upper portion of the first chuck 110 has a tubular shape and is located below the first chuck upper gear 410 on the lower side thereof so as to be engaged with the second chuck lower gear 520. A second chuck plug 320 is installed at the bottom and bottom to selectively fit the first chuck upper and lower sockets 215 and 210.

In addition, a second lower chuck socket 220 is connected to the first chuck plug 310 and a lower second chuck upper gear 420 is connected to the inner and outer peripheral surfaces of the tubular upper side by a pair of left and right. Is installed.

On the other hand, the second chuck upper and lower gears 225 and 220 and the first chuck upper gear 410 are driven by a belt.

Also, the second chuck 120 inserted into the upper portion of the first chuck 110 is tubularly positioned at the lower side of the second chuck lower gear 420 on the lower side thereof to engage the n-th chuck lower gear 530. And an n-th impregnated upper gear 430 is installed on the upper vertical line of the n-th impregnated lower gear 530 and driven by a belt.

In addition, an n th chuck sensor plug 330 and a second chuck chuck upper socket 225 positioned above the n th chuck sensor plug 330 are installed at a lower bottom of the n th chuck 130.

The n th chuck center upper gear 450 is positioned at the upper center and horizontally connected to the n th chuck upper gear 430 to be driven together, and the n th chuck center upper gear 450 is located at the lower center corresponding to the n th chuck center upper gear 450. The lower center gear 460 is positioned and driven by the belt.

In addition, the balance weight 630 for holding the center between the n-th chuck center upper and lower gears 450 and 460 and a light receiver holder 610 are installed on the outer circumferential surface to attach the light receiver 620.

In the present invention, the chuck body is manipulated by the first chuck outer handle 510 formed on the outer circumferential surface of the first chuck 110 to level, and then rotates in one direction. The second chuck lower gear 520 engaged with the gear 410 is driven while the second chuck upper gear 420 is driven and driven together by the belt while being engaged with the second chuck upper gear 420. Simultaneously with the gear 530 to drive, the n-th chuck lower gear 530 and the n-th chuck upper gear 430 are driven by the belt and raised to be extracted.

On the other hand, it is characterized in that for transmitting the fine adjustment signal of the light receiver 620 driven in the n-th chuck 130 to the elevation indicator 650 through the information transmission line 640.

Therefore, when the n-th chuck 130 is fixed to the maximum withdrawal position, the n-th chuck lower gear 530 and the second chuck upper gear 420 are engaged, and the second chuck upper gear 420 is It engages with the first chuck upper gear 410 and drives the light receiver 620 mounted to the n-th chuck 130 by manipulating the attached external handle 510 of the first chuck 110.

Then, the n-th trap 130 is fixed at the maximum pull-out position, while the n-th trap sensor plug 330 is coupled to the second retract upper socket 225, the digital value of the height difference indicator 650 is pulled out from the default value. A value obtained by adding a position and a difference is displayed. The digital value of the variation obtained in the n th chuck 130 is connected to a connection contact through a socket and a plug of the n th and second chucks 130 and 120, respectively. Pass to 110 to read from elevation indicator 650.

Figure 2a, b is a side view showing when the present invention is fixed to the maximum insertion position.

The present invention shows a case in which the chuck body is fixed to the maximum insertion position. When the first chuck outer handle 510 attached to the first chuck 110 is rotated in the opposite direction, the n th chuck upper gear 430 is turned. The second chuck upper gear 420 and the first chuck upper gear 410 are engaged by the belt and driven downward to drive the light receiver 620 mounted on the n th chuck 130 downward.

Then, when the n-th chuck 130 is fixed at the maximum withdrawal position, the n-th chuck sensor plug 330 and the second chuck upper socket 225 are separated, and all the chucks have the lowest receiver 620 at the maximum insertion position. When moving to and pressing the reset button, the digital value of the height difference indicator 650 has a structure in which a basic value is set at the lowest position.

Figure 1a, b is a side view showing when the present invention the chuck body is extracted and fixed to the maximum withdrawal position.

Figure 2a, b is a side view showing when the present invention is fixed to the maximum insertion position.

Explanation of symbols on the main parts of the drawings

110: first ship 120: second ship 130: control ship

210: first lower chuck socket 215: first lower chuck socket

220: second lower chuck socket 225: second lower chuck socket

310: first plug plug 320: second plug plug

330: n-th chuck sensor plug 410: first chuck upper gear

420: second chuck upper gear 430: n-th chuck upper gear

450: nth ship center upper gear 460: nth ship center lower gear

510: first chuck outer handle 520: second chuck lower gear

530: control ship lower gear 610: receiver cradle

620: Receiver 630: Counterweight

640: information transmission line 650: elevation indicator

Claims (9)

The chucking body capable of level surveying is assembled by extracting the first, second, and n-th chucks 110, 120, and 130 so as to be driven up and down, and the n-th chuck 130 has a light receiver ( The height difference indicator 650 is installed on the surface to convert the change amount of the lower gear of the n-th chuck 130 into a digital value by the sensor, and to read the converted digital value by the first chuck 110 through 620. A ship for mounting a laser level receiver, characterized in that. According to claim 1, wherein the chuck body is a tubular shape of the bottom bottom is sealed bottom one side of the first socket lower socket 210, the upper first chuck upper socket 215 and the first chuck upper gear 410 And an elevation indicator connected to the first chuck outer handle 510 and the first chuck upper socket 215 on the outer circumferential surface of the first chuck 110 and connected to the first chuck upper gear 410 for driving operation. A first ship 110 installed with 650; A second lower lower gear 520 and a lower bottom first to engage with the lower bottom side of the first chuck upper gear 410 in the tubular shape is inserted into the upper portion of the first chuck 110 in the lower side. A second pit plug 320 installed to selectively fit into the pit upper and lower sockets 215 and 210, a second pit lower socket 220 connected to the first pit plug 310, and the tubular upper portion A pair of left and right pairs of upper and lower pairs of upper and lower gears 420 and the second and upper upper and lower gears 420 and 520 and the first and second upper chucks 410 are driven on the inner and outer peripheral surfaces of the side surfaces by belts. 2 chuck 120; The lower side of the second chuck 120 is inserted into the upper tubular shape on the lower side of the second lower chuck lower gear 520 is engaged with the n-th chuck lower gear 530, the lower n-th chuck The n-th impregnated upper gear 430 connected by a belt located on the upper vertical line of the gear 530, the n-th impregnated sensor plug 330 on the lower bottom, and the n-th impregnated sensor plug 330. A second chuck upper socket 225, an n-th chuck center upper gear 450 positioned horizontally with the n-th chuck upper gear 430 at the upper center to be driven together, and the n-th chuck center upper gear Corresponding to the 450, the lower center of the n-th chuck center lower gear 460, the balance weight 630 between the n-th pit center upper and lower gears 450, 460, and the upper portion of the n-th chuck 130 An n-th ship chuck 130 is installed on the receiver holder 610 attached to the outer circumferential surface thereof. Hamcheok the body for mounting the light receiver, characterized in that the laser level. The height indicator 650 according to claim 2, wherein the digital value of the variation obtained in the n-th chuck 130 is transmitted to the first chuck 110 through a connection contact of each of the n-th and second chucks 120 and 130. ) Can be read in the laser level receiver mounting body. According to claim 2, wherein the chuck body, when the n-th chuck 130 is fixed to the maximum insertion position, the n-th chuck upper gear 430, the second chuck upper gear 420, the first chuck upper gear 410 ) Is driven by the belt and drives the light receiver 620 mounted on the nth chuck 130 by operating the outer handle 510 attached to the upper outer circumferential surface of the first chuck 110. Characterized in that it is equipped with a laser level receiver. The second chuck upper gear 420 meshes with the second chuck upper gear 420 when the n-th cap 130 is fixed at the maximum retracted position. The gear 420 meshes with the first chuck upper gear 410 and drives the light receiver 620 mounted to the n-th chuck 130 by manipulating the attached external handle 510 of the first chuck 110. A ship for mounting a laser level receiver, characterized in that. According to claim 2, When the n-th chuck 130 and the second chuck 120 is fixed to the maximum retracted position, the n-th chuck lower gear 530 and the second chuck upper gear 420 is engaged, The second chuck upper gear 420 and the second chuck lower gear 520 are connected by a belt, and the second chuck lower gear 520 is engaged with the first chuck upper gear 410 to drive the first chuck outer driving knob. Operation of the (510) to drive the receiver 620 attached to the n-th chuck 130, characterized in that the laser level receiver mounting chuck body. The digital value of the height difference indicator 650 is set to the default value at the lowest position when all the chucks move the receiver 620 to the lowest position at the maximum insertion position and press the reset button. Attachment for mounting laser level receivers. 3. The digital value of the elevation indicator 650 according to claim 2, wherein when the n th chuck 130 is fixed to the maximum retracted position, the n th chuck sensor plug 330 is coupled to the second chuck upper socket 225. Is a maximum level with which the maximum withdrawal position and the difference is displayed. The laser level receiver of claim 1, wherein the fine adjustment signal of the light receiver 620 driven by the n-th ship 130 is transmitted to the height difference indicator 650 through the information transmission line 640. Dragon ship body.

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