CN212512998U - A detect guiding rule for building engineering - Google Patents

Abstract

The utility model discloses a detection guiding ruler for building engineering, which comprises a support rod, two connecting rods and two sliders, wherein each connecting rod corresponds to one slider, a first sliding groove is arranged on one side of the support rod, the connecting rods are arranged on the sliders, and the sliders are arranged in the first sliding grooves; a level gauge and a first graduated scale are arranged on one side of the supporting rod, one side of the connecting rod is arranged on the sliding block, a detection block is arranged on the other side of the connecting rod, and a detection surface is arranged on one side, away from the supporting rod, of the detection block; the detection block is provided with a second sliding groove, a sliding rod is arranged in the second sliding groove, the sliding rod is provided with a detection mechanism, the detection mechanism comprises a fixed block, a side ruler and a second graduated scale are arranged at the left end and the right end of the fixed block respectively, and the fixed block is further provided with a horizontal tube and a knob matched with the second graduated scale. The utility model discloses simple structure, the simple operation can play the effect of measuring wall face roughness and straightness that hangs down simultaneously, and measurement effect is good, and application scope is wide.

Description

A detect guiding rule for building engineering

Technical Field

The utility model relates to a building detection area, concretely relates to a detect guiding ruler for building engineering.

Background

With the continuous development of the construction industry and the higher and higher requirements of the house quality of the owners, the construction industry must improve the self-construction level to meet the development requirements of the companies. In order to ensure the final goal of constructing high-quality and high-efficiency fine works, the actual measurement system is gradually paid more and more attention as a quality control inspection means capable of reflecting the real construction quality and condition on site, and the corresponding operation and data requirements are gradually refined and perfected in continuous practice.

At present, a guiding rule (also called a feather tail rule) is mainly used for detection, a vertical line is marked on the guiding rule, a hanging hammer is arranged on the guiding rule, the guiding rule is attached to a wall surface, and the perpendicularity of the wall body is verified according to the coincidence degree of the hanging hammer and the vertical line. The guiding rule has a simple structure, but the hanging hammer is the same as the simple pendulum, so that the stability is poor, and the precision is influenced particularly under the outdoor wind condition.

And when the verticality and the flatness need to be measured, two sets of equipment are needed, time and labor are wasted, and the use cost is high.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a detect guiding ruler for building engineering, simple structure, the simple operation can play the effect of measuring wall flatness and straightness that hangs down simultaneously, and measuring effect is good, and application scope is wide.

In order to solve the technical problem, the utility model provides a detection guiding ruler for building engineering, which comprises a support rod, two connecting rods and two sliders, wherein each connecting rod corresponds to one slider, a first sliding groove is arranged on one side of the support rod, the connecting rods are arranged on the sliders, the sliders are arranged in the first sliding grooves, and the sliders can drive the connecting rods to move up and down in the first sliding grooves; a level gauge and a first graduated scale are arranged on one side of the supporting rod, one side of the connecting rod is arranged on the sliding block, a detection block is arranged on the other side of the connecting rod, and a detection surface is arranged on one side, away from the supporting rod, of the detection block;

the detection device is characterized in that a second sliding groove is formed in the detection block, a sliding rod is arranged in the second sliding groove, a detection mechanism is arranged on the sliding rod and comprises a fixed block, a side ruler and a second graduated scale are arranged at the left end and the right end of the fixed block respectively, the side ruler is parallel to the axis of the second graduated scale, the side ruler is parallel to the plane of the end face of the second graduated scale, the second graduated scale can axially move left and right, and a horizontal tube and a first knob matched with the second graduated scale are further arranged on the fixed block.

Further, the connecting rod is connected with the sliding block in a hinged mode.

Furthermore, the first sliding groove on the supporting rod comprises a fixed plate and a movable plate, the fixed plate and the movable plate are matched to form the first sliding groove, an eccentric wheel is arranged on the supporting rod on one side of the movable plate, a butt joint block is arranged between the eccentric wheel and the movable plate, a handle is further arranged on the eccentric wheel, the eccentric wheel rotates to drive the butt joint block to move, and the butt joint block moves to drive the movable plate to move left and right to control the width of the sliding groove.

Furthermore, the support rod and the fixing block are provided with scales.

Furthermore, a supporting plate is arranged at the bottom of the supporting rod, and the supporting rod is hinged with the supporting plate in a connecting mode.

Furthermore, a second knob is arranged on one side of the fixed block and drives the fixed block to move back and forth on the sliding rod, and the initial position of the detection block relative to the connecting rod protrudes out of the initial position of the fixed block relative to the connecting rod.

Furthermore, baffles are arranged on two sides of the sliding rod.

The utility model has the advantages that: 1. the device can conveniently test the verticality of the wall surface by using the mode that the detection block on the connecting rod is matched with the level gauge, and then the detection mechanism arranged on the sliding rod is used for testing the flatness of the wall surface by using the mode that the second graduated scale and the level pipe are matched for use;

2. when the template flatness detection device is used, the flatness or the verticality can be calculated only by matching the graduated scale with the horizontal pipe or the level gauge, so that the operation is quick, the conclusion whether the template flatness meets the design and standard requirements can be obtained on the spot, and the use efficiency is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the supporting rod structure of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is a schematic structural diagram of the detection mechanism of the present invention.

The reference numbers in the figures illustrate: 1. a support bar; 2. a connecting rod; 3. a slider; 4. a first sliding groove; 41. a fixing plate; 42. moving the plate; 43. an eccentric wheel; 44. a grip; 45. a butting block; 5. a level gauge; 6. a first scale; 7. a detection block; 8. detecting a surface; 9. a second sliding groove; 10. a slide bar; 11. a detection mechanism; 12. a fixed block; 13. a lateral ruler; 14. a second scale; 15. a horizontal tube; 16. a first knob; 17. a support plate; 18. a second knob, 19, a baffle.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 to 4, an embodiment of a guiding ruler for building engineering of the present invention includes a support rod 1, two connecting rods 2 and two sliders 3, each connecting rod 2 corresponds to one slider 3, a first sliding groove 4 is disposed on one side of the support rod 1, the connecting rod 2 is disposed on the slider 3, the slider 3 is disposed in the first sliding groove 4, and the slider 3 can drive the connecting rod 2 to move up and down in the first sliding groove 4; a level gauge 5 and a first graduated scale 6 are arranged on one side of the supporting rod 1, one side of the connecting rod 2 is arranged on the sliding block 3, a detection block 7 is arranged on the other side of the connecting rod 2, and a detection surface 8 is arranged on one side, away from the supporting rod 1, of the detection block 7; the detection block 7 is provided with a second sliding groove 9, a sliding rod 10 is arranged in the second sliding groove 9, a detection mechanism 11 is arranged on the sliding rod 10, the detection mechanism 11 comprises a fixed block 12, a side ruler 13 and a second graduated scale 14 are respectively arranged at the left end and the right end of the fixed block 12, the side ruler 13 is parallel to the axis of the second graduated scale 14, the plane where the end face of the side ruler 13 is located is parallel to the plane of the second graduated scale 14, the second graduated scale 14 can axially move left and right, and the fixed block 12 is further provided with a horizontal pipe 15 and a first knob 16 matched with the second graduated scale 14.

When the device is used, a worker vertically places the supporting rod 1, aligns the detection surfaces 8 on the detection blocks 7 with a wall, then presses the supporting rod 1 to enable the detection surfaces 8 to be close to the wall, and then observes whether the level 5 swings or not, if the level swings, the inclination of the wall surface can be calculated through the first graduated scales 6 on the two sides of the level 5, and if the level does not swing, the wall surface is vertical; later can detect the roughness of wall, utilize slide bar 10 to remove on the sliding tray, can remove detection mechanism 11 and take the wall to wait the position that detects, later remove fixed block 12, side chi 13 on fixed block 12 pastes the wall closely, utilize first knob 16 to remove second scale 14, when horizontal pipe 15 is in horizontal position, judge whether second scale 14 touches the wall, if touch, the wall is level and smooth, if second knob 18 can continue to rotate, then when second scale 14 touches the wall, observe the reading of second scale 14, can calculate the roughness of wall this moment.

The connecting rod 2 is hinged with the sliding block 3, and when the detection surface 8 of the detection block 7 touches the wall, the support rod 1 is convenient to move to obtain the best measurement result; scales are arranged on the supporting rod 1 and the fixing block 12 and used for showing the positions of the connecting rods 2 and the positions of the fixing block 12 in real time; the bottom of the supporting rod 1 is provided with a supporting plate 17, the supporting rod 1 is hinged to the supporting plate 17, the supporting plate 17 can replace manpower at a proper position, the effect of fixing the supporting rod 1 is achieved, and the application range is wide.

The first sliding groove 4 on the supporting rod 1 comprises a fixed plate 41 and a moving plate 42, the fixed plate 41 and the moving plate 42 are matched to form the first sliding groove 4, an eccentric wheel 43 is arranged on the supporting rod 1 on one side of the moving plate 42, a butting block 45 is arranged between the eccentric wheel 43 and the moving plate 42, a handle 44 is further arranged on the eccentric wheel 43, the eccentric wheel 43 rotates to drive the butting block 45 to move, the butting block 45 moves to drive the moving plate 42 to move left and right to control the width of the sliding groove, the eccentric wheel 43 is utilized, the width of the sliding groove is conveniently adjusted, the horizontal position of the connecting rod 2 can be adjusted at will, the application range is wide, and.

One side of the fixed block 12 is provided with a second knob 18, the second knob 18 drives the fixed block 12 to move back and forth on the sliding rod 10, the initial position of the detection block 7 relative to the connecting rod 2 protrudes out of the initial position of the fixed block 12 relative to the connecting rod 2, the position of the fixed block 12 relative to the position of the detection block 7 is closer to the connecting rod 2 during use, namely, when the detection surface 8 of the detection block 7 is attached to a wall surface to be detected, the side ruler 13 on the fixed block 12 is not close to the wall surface, and then the second knob 18 is utilized to drive the fixed block 12 to move back and forth so that the fixed block 12 can measure the flatness.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (7)

1. A detection guiding ruler for constructional engineering is characterized by comprising a support rod, two connecting rods and two sliding blocks, wherein each connecting rod corresponds to one sliding block, a first sliding groove is formed in one side of the support rod, the connecting rods are arranged on the sliding blocks, the sliding blocks are arranged in the first sliding grooves, and the sliding blocks can drive the connecting rods to move up and down in the first sliding grooves; a level gauge and a first graduated scale are arranged on one side of the supporting rod, one side of the connecting rod is arranged on the sliding block, a detection block is arranged on the other side of the connecting rod, and a detection surface is arranged on one side, away from the supporting rod, of the detection block;

the detection device is characterized in that a second sliding groove is formed in the detection block, a sliding rod is arranged in the second sliding groove, a detection mechanism is arranged on the sliding rod and comprises a fixed block, a side ruler and a second graduated scale are arranged at the left end and the right end of the fixed block respectively, the side ruler is parallel to the axis of the second graduated scale, the side ruler is parallel to the plane of the end face of the second graduated scale, the second graduated scale can axially move left and right, and a horizontal tube and a first knob matched with the second graduated scale are further arranged on the fixed block.

2. The detection guiding rule for constructional engineering as claimed in claim 1, wherein the connecting rod is connected with the sliding block in an articulated manner.

3. The detection guiding rule for building engineering as claimed in claim 1, wherein the first sliding groove on the supporting rod comprises a fixed plate and a moving plate, the fixed plate and the moving plate cooperate to form the first sliding groove, one side of the moving plate is provided with an eccentric wheel on the supporting rod, an abutting block is arranged between the eccentric wheel and the moving plate, the eccentric wheel is further provided with a handle, the eccentric wheel rotates to drive the abutting block to move, and the abutting block moves to drive the moving plate to move left and right to control the width of the sliding groove.

4. The detection guiding rule for constructional engineering as claimed in claim 1, wherein the support bar and the fixing block are provided with scales.

5. The detection guiding rule for building engineering as claimed in claim 1, wherein the bottom of the supporting rod is provided with a supporting plate, and the supporting rod is connected with the supporting plate in a hinged manner.

6. The guiding rule for constructional engineering as claimed in claim 1, wherein a second knob is provided at one side of the fixing block, the second knob drives the fixing block to move back and forth on the sliding bar, and the initial position of the detecting block relative to the connecting bar protrudes from the initial position of the fixing block relative to the connecting bar.

7. The detection guiding rule for building engineering as claimed in claim 1, wherein the sliding bar is provided with a baffle at both sides.

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