CN213632133U - Device for measuring verticality of vertical component - Google Patents

Abstract

The utility model relates to a measure vertical component straightness's that hangs down device, including the base, with this base parallel arrangement's first dead lever and connect perpendicularly in the vertical pole between this base and this first dead lever, the suspension is connected with a laser emitter on this first dead lever, and just under this laser emitter's transmitting terminal is located, is connected with a calibrated scale on this vertical pole perpendicularly, and this calibrated scale is located this laser emitter below, and is on a parallel with this base. The utility model discloses a deviation position and specific reading of laser ray of laser emitter transmission on the calibrated scale to the straightness that hangs down of adjustment vertical component and pier stud, the technical problem that the straightness measuring method precision that hangs down among the prior art is low has been solved, has strengthened and has carried out the measuring capability of component straightness that hangs down under high altitude or windy operating mode, and the straightness rapid survey that hangs down to the cylinder of high altitude, artifical inconvenient operation has good effect.

Description

Device for measuring verticality of vertical component

Technical Field

The utility model relates to a building construction field refers in particular to a measure vertical component straightness's that hangs down device.

Background

With the further development of the domestic urbanization process, the construction of large-scale buildings and municipal works puts higher requirements on the construction technology. Because the accumulative deviation of the verticality is very important for the quality control of the building structure, the component verticality is ensured to play an important role in ensuring the construction precision of the structure. For a long time, the rapid and accurate measurement of vertical members and piers in the construction process has not been completely solved. The existing verticality measuring methods comprise a vertical line method, a longitude and latitude method, a running rule method and the like, wherein the vertical line method can measure the verticality under the windless condition, but is greatly influenced by wind and column height, and cannot measure the underwater upright column; the longitude and latitude method can detect the horizontal deviation and the inclination of the part with the characteristic points; the traditional running rule method is convenient to measure, but is difficult to accurately measure the verticality of the stand column.

SUMMERY OF THE UTILITY MODEL

The utility model provides a measure the device of vertical component straightness that hangs down, the device of measuring vertical component straightness that hangs down has solved the low technical problem of straightness measurement method precision among the prior art.

The utility model discloses a measure vertical component straightness's that hangs down device, including the base, with this base parallel arrangement's first dead lever and connect perpendicularly in the vertical pole between this base and this first dead lever, the suspension is connected with a laser emitter on this first dead lever, and just under this laser emitter's transmitting terminal is located, is connected with a calibrated scale on this vertical pole perpendicularly, and this calibrated scale is located this laser emitter below, and is on a parallel with this base.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, is equipped with the air level that is used for adjusting this base levelness on this base.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this calibrated scale is zero scale point, outwards increases up the circular calibrated scale of scale for the center.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this vertical pole is the telescopic link.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this base includes many second dead levers, and the one end of many these second dead levers is crossing and connects in this vertical pole, and the other end of many these second dead levers is to disperse the form and extend to the direction of keeping away from this vertical pole.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this first dead lever is connected with this vertical pole through the pivot, and this second dead lever is connected with this vertical pole through the pivot.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this calibrated scale is connected on this vertical pole through a third dead lever.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this third dead lever is the telescopic link.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this third dead lever rotates around this vertical pole to be connected.

The utility model discloses measure the straightness's that hangs down device of vertical component further improves and lies in, and this third dead lever is connected on this vertical pole vertically with sliding, is equipped with on this vertical pole to supply the gliding vertical chute of this third dead lever.

Compared with the prior art, the utility model, its effect is positive and obvious. The utility model discloses a deviation position and specific reading of laser ray of laser emitter transmission on the calibrated scale to the straightness that hangs down of adjustment vertical component and pier stud, the technical problem that the straightness measuring method precision that hangs down among the prior art is low has been solved, has strengthened and has carried out the measuring capability of component straightness that hangs down under high altitude or windy operating mode, and the straightness rapid survey that hangs down to the cylinder of high altitude, artifical inconvenient operation has good effect.

Drawings

Fig. 1 is the utility model discloses a measure the straightness's of straightness's that hangs down device of vertical component structure schematic diagram after expandes.

Fig. 2 is the utility model discloses a measure the straightness's of verticality of vertical component device after the structure schematic diagram.

Fig. 3 is the utility model discloses a measure the straightness's of straightness's that hangs down structural schematic of device calibrated scale of vertical component.

Fig. 4 is the utility model discloses a measure the device of vertical component straightness that hangs down and expand the spatial structure schematic diagram after.

Detailed Description

The invention is further described with reference to the following figures and examples.

As shown in fig. 1, fig. 3 and fig. 4, the utility model discloses a measure device of vertical component straightness that hangs down, including the base, with this base parallel arrangement's first dead lever 1 and connect perpendicularly in the vertical pole 5 between this base and this first dead lever 1, the suspension is connected with a laser emitter 2 on this first dead lever 1, and just under this laser emitter 2's transmitting terminal is located, is connected with a calibrated scale 7 perpendicularly on this vertical pole 5, and this calibrated scale 7 is located this laser emitter 2 below, and is on a parallel with this base.

The measuring device is placed by a component 10 through the level bubble 8, the vertical rod 5 is attached to the component 10, the laser of the laser emitter 2 irradiates the center of the circle of the dial 7 when the verticality standard is achieved, if the verticality of the component 10 does not reach the standard, the laser emitted by the suspended laser emitter 2 irradiates the dial 7 with deviation and cannot be located on the zero scale of the dial 7, and the component 10 is adjusted according to the corresponding scale so as to achieve the design standard. The measuring device enhances the capability of measuring the verticality of the component 10 under high altitude or windy working conditions, reduces the measuring error, and is convenient and quick to measure. This laser emitter 2 passes through the chain that hangs down to be connected on this first dead lever 1, and the chain that hangs down makes laser emitter 2 connect first dead lever 1 more firm, is difficult to the fracture.

Preferably, the base is provided with a level bubble 8 for adjusting the levelness of the base.

The level vial 8 allows for quick leveling of the base prior to use of the device, keeping the entire device level.

Preferably, the dial is a circular dial with a zero scale point at the center and increasing scales outwards.

When the component 10 reaches the standard of verticality, the laser of the laser emitter 2 irradiates the center of the circle of the dial 7, if the verticality of the component 10 does not reach the standard, the laser emitted by the suspended laser emitter 2 irradiates the dial 7 with deviation and cannot be positioned on the zero scale of the dial 7, and then the component 10 is adjusted according to the corresponding scale.

Preferably, the vertical rod 5 is a telescopic rod.

The vertical rod 5 has a telescopic function so that the vertical rod 5 can be adjusted in height to accommodate members 10 of various heights.

Preferably, the base comprises a plurality of second fixing rods 9, one ends of the second fixing rods 9 are intersected and connected to the vertical rod 5, and the other ends of the second fixing rods 9 extend in a divergent manner in a direction away from the vertical rod 5.

The base is a second fixed rod 9, so that the area of the base is smaller, and the measuring device is more convenient to carry.

Preferably, as shown in fig. 2, the first fixing rod 1 is connected to the vertical rod 5 through a rotation shaft 4, and the second fixing rod 9 is connected to the vertical rod 5 through the rotation shaft 4.

When the measuring device needs to be used, the rotating shaft 4 can enable the first fixing rod 1 and the second fixing rod 9 to be folded and attached to the vertical rod 5, so that the measuring device is convenient to store and turn around.

Preferably, as shown in fig. 1, the dial 7 is connected to the vertical rod 5 by a third fixing rod 6.

The vertical rod 5 makes the adjustment of the position of the dial 7 easier.

Preferably, the third fixing rod 6 is a telescopic rod.

The third fixing rod 6 can adjust the distance of the dial 7 relative to the vertical rod 5 by telescoping.

Preferably, the third fixing bar 6 is rotatably coupled around the vertical bar 5.

The third fixing lever 6 is rotatable about the vertical lever 5 to adjust the relative angle of the dial 7 and the first fixing lever 1. An annular chute for rotating the third fixed 6 rod can be arranged on the vertical rod 5, so that the vertical rod 5 can rotate more conveniently, and the resistance is smaller.

Preferably, the third fixing rod 6 is vertically slidably connected to the vertical rod 5, and a vertical sliding groove for the third fixing rod 6 to slide is formed on the vertical rod 5.

The slide groove allows the third fixing rod 6 to slide along the vertical rod 5 to adjust the relative distance between the scale disk 7 and the first fixing rod 1 so that the laser emitted from the laser emitter 2 can be clearly displayed on the scale disk 7.

The method comprises the following steps:

(1) before measurement, the measurement device is assembled, the bottom support is opened and then placed on a smooth horizontal plane to be leveled through the leveling bubble 8, the vertical rod piece is perpendicular to the horizontal plane, the position of the transparent circular dial 7 is adjusted through the third fixing rod 6, and the laser ray emitted by the upper laser emitter 2 irradiates the round point (0 scale) of the bottom dial 7;

(2) at this time, the connecting line between the laser ray emitted by the upper laser emitter 2 and the round point of the dial 7 at the bottom is parallel to the side frame and vertical to the horizontal plane, so as to adjust the working state of the verticality measuring device;

(3) the vertical rod 5 of the device is tightly attached to the surface of the component 10 in the construction process, and the scale reading of the bottom dial 7 irradiated by the laser ray is read out, so that the verticality measurement of the component 10 can be rapidly completed.

The utility model discloses a deviation position and specific reading of laser ray of laser emitter transmission on the calibrated scale to the straightness that hangs down of adjustment vertical component and pier stud, the technical problem that the straightness measuring method precision that hangs down among the prior art is low has been solved, has strengthened and has carried out the measuring capability of component straightness that hangs down under high altitude or windy operating mode, and the straightness rapid survey that hangs down to the cylinder of high altitude, artifical inconvenient operation has good effect.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention has been disclosed with the preferred embodiment, it is not limited to the present invention, and any skilled person can make modifications or changes equivalent to the equivalent embodiment without departing from the scope of the present invention, but all the technical matters of the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides a measure device of vertical component straightness that hangs down, its characterized in that, including the base, with base parallel arrangement's first dead lever and connect perpendicularly in the base with vertical pole between the first dead lever, hang on the first dead lever and be connected with a laser emitter, just laser emitter's transmitting terminal is located under, be connected with a calibrated scale perpendicularly on the vertical pole, the calibrated scale is located the laser emitter below, and be on a parallel with the base.

2. The apparatus of claim 1, wherein the base is provided with a level bubble for adjusting the levelness of the base.

3. A device for measuring the perpendicularity of a vertical member according to claim 1, wherein the scale is a circular scale centered at a zero scale point and graduated in increments outward.

4. The device for measuring the perpendicularity of a vertical component according to claim 1, wherein the vertical rod is a telescopic rod.

5. The apparatus of claim 1, wherein the base comprises a plurality of second fixing rods, one ends of the second fixing rods intersect and are connected to the vertical rods, and the other ends of the second fixing rods extend in a diverging manner away from the vertical rods.

6. The apparatus of claim 5, wherein the first fixed rod is connected to the vertical rod by a rotating shaft, and the second fixed rod is connected to the vertical rod by a rotating shaft.

7. The apparatus of claim 1, wherein the dial is connected to the vertical rod by a third fixing rod.

8. The apparatus of claim 7, wherein the third fixed rod is a telescopic rod.

9. The apparatus of claim 7, wherein the third rod is pivotally connected about the vertical rod.

10. The apparatus of claim 7, wherein the third fixing rod is vertically slidably connected to the vertical rod, and the vertical rod is provided with a vertical sliding groove for sliding the third fixing rod.

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