CN219890448U - Civil engineering wall straightness check out test set that hangs down - Google Patents

Abstract

The utility model discloses civil engineering wall perpendicularity detection equipment which comprises a base box, wherein the bottom end of the base box is fixedly connected with a bottom plate, the top end of the bottom plate is in threaded connection with a threaded column, the bottom end of the threaded column is rotatably connected with a first rotating shaft, the bottom end of the first rotating shaft is fixedly connected with a supporting plate, and a horizontal measuring instrument is installed in the base box. The handle on the slip frame that through setting up pulls out the level measurement appearance, rotate the second U type pipe to perpendicular with first U type pipe through the second pivot, then observe whether the water level at first U type pipe both ends and second U type pipe both ends is at same height, if inconsistent, twist the screw thread post that sets up, adjust the water level at first U type pipe both ends and second U type pipe both ends to same height, thereby guarantee that the bottom plate is located the horizontal plane before measuring wall straightness, can let the data of measuring wall straightness more accurate, avoid the wall body to take place the slope, thereby guaranteed the quality of construction.

Description

Civil engineering wall straightness check out test set that hangs down

Technical Field

The utility model relates to the technical field of verticality detection equipment, in particular to civil engineering wall verticality detection equipment.

Background

Civil engineering generally refers to civil engineering, which refers to the planning, construction and maintenance of all infrastructures related to water, soil and culture. Common civil engineering projects at present comprise houses, roads, water affairs, channels, flood control projects, traffic and the like. Civil engineering projects for all civil use are classified into the category in the past, but with the increasing wide engineering science, contents which originally belong to the civil engineering range are independent.

The prior patent (publication number: CN 218097781U) discloses a vertical detection device for construction engineering, and mainly relates to the field of vertical detection equipment for construction engineering. The utility model provides a perpendicular detection device of building engineering, includes the bottom plate, the telescopic link is all installed to bottom plate top surface four corners, four connect through the diaphragm between the telescopic link top, the montant is installed to diaphragm top surface one side, montant periphery slip is equipped with the mounting panel, infrared range finder is installed to mounting panel one side, the board is placed in the installation of montant top, place both sides all install the motor around the board top surface, every motor shaft bottom all installs the lead screw. The utility model has the beneficial effects that: the utility model has simple structure and convenient use, measures the distance between the infrared range finder and the wall body at different positions, and then compares and analyzes the distance according to the data to obtain perpendicularity data, thereby improving the detection precision and efficiency of the perpendicularity of the building engineering, reducing the physical labor of operators and bringing convenience to the detection of the perpendicularity of the building engineering. The inventors found that the following problems exist in the prior art in the process of implementing the present utility model:

the technology can not ensure that the measuring device is placed on the horizontal plane before measurement, thereby possibly causing inaccurate measured data and influencing the construction quality, and simultaneously the device is inconvenient to store when not in use,

disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a civil engineering wall verticality detection device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a civil engineering wall straightness check out test set that hangs down, includes the base case, its characterized in that, the bottom fixedly connected with bottom plate of base case, the top threaded connection of bottom plate has the screw thread post, the bottom of screw thread post rotates and is connected with first pivot, the bottom fixedly connected with backup pad of first pivot, the internally mounted of base case has the level measurement appearance, the top welding of base case has the arc, the arc rotates with the rotation post through first bolt to be connected, the top fixedly connected with spliced pole of rotation post, the spliced pole rotates through second bolt and horizontal pole to be connected, the bottom fixedly connected with scale plate of horizontal pole, the bottom fixedly connected with lifting rope of horizontal pole, the one end fixedly connected with lead cone of lifting rope.

Preferably, a cavity is formed in the base box, and a through hole is formed in one side of the base box.

Preferably, the level gauge comprises a sliding frame, a first U-shaped pipe, a second rotating shaft, a connecting plate and a second U-shaped pipe, wherein the sliding frame is in sliding connection with the base box, the first U-shaped pipe is fixedly installed on the sliding frame, the second rotating shaft is rotationally connected on the sliding frame, the connecting plate is fixedly connected with the outer surface of the second rotating shaft, and the second U-shaped pipe is fixedly installed at the bottom end of the connecting plate.

Preferably, a limiting block is arranged on one side of the top end of the sliding frame, a sliding bar is arranged at the bottom end of the sliding frame, a handle is arranged on one side of the sliding frame, a sliding groove is arranged on the top end of the base box, and the sliding bar at the bottom end of the sliding frame is configured in a manner of being matched with the sliding groove at the top end of the base box.

Preferably, the outer surfaces of the first U-shaped pipe and the second U-shaped pipe are provided with scales, water is filled in the first U-shaped pipe and the second U-shaped pipe, and the size of the first U-shaped pipe is smaller than that of the second U-shaped pipe.

Preferably, the connecting column is provided with a groove, a placing groove is formed in the groove, the placing groove is matched with the lead cone, the size of the cross rod is identical with that of the groove formed in the connecting column, and an embedded handle is arranged at one end of the cross rod.

The utility model has the following beneficial effects:

1. when the device is used, the horizontal measuring instrument is pulled out through the handle on the sliding frame, the second U-shaped tube is rotated to be perpendicular to the first U-shaped tube through the second rotating shaft, then whether the water levels at the two ends of the first U-shaped tube and the two ends of the second U-shaped tube are at the same height or not is observed, if not, the screw columns are screwed, the water levels at the two ends of the first U-shaped tube and the two ends of the second U-shaped tube are adjusted to the same height, so that the bottom plate is positioned on the horizontal plane before the perpendicularity of a wall surface is measured, the data for measuring the perpendicularity of the wall surface can be more accurate, the inclination of the wall body is avoided, and the construction quality is ensured;

2. through the pivoted post that sets up, rotatory pivoted post, with the spliced pole with wait the wall body of measuring closely laminating, first bolt screw up that will set up, thereby fix the position of pivoted post and spliced pole, the embedded handle that sets up on the pulling horizontal pole again, rotate the horizontal pole to with the spliced pole perpendicularly, screw up the second bolt, fix the horizontal pole, observe the position of scale on the scale plate that the lifting rope is located this moment, thereby measure the straightness that hangs down of wall body, when measuring, push into the base incasement portion with the level gauge, screw up the second bolt, rotate the horizontal pole, place the lead cone on the standing groove that sets up in the connecting rod, again rotate the horizontal pole to the recess of connecting rod in, screw up the second bolt, screw up the first bolt again, rotate the spliced pole to horizontal position, screw up first bolt, thereby accomodate and protect this device, make things convenient for the suitable position that this device placed, the precision part of this device is bumped with the condition such as the time, thereby the next use has been influenced in the time.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a civil engineering wall verticality detection device according to the present utility model;

fig. 2 is a schematic diagram of a left-view structure of a device for detecting verticality of a civil engineering wall according to the present utility model;

fig. 3 is a schematic structural diagram of a horizontal measuring instrument of a wall verticality detecting device for civil engineering and construction according to the present utility model;

fig. 4 is a schematic diagram of a local enlarged structure of a device for detecting verticality of a civil engineering wall according to the present utility model;

fig. 5 is a schematic main structure diagram of a device for detecting verticality of a civil engineering wall according to the present utility model.

In the figure: 1. a base box; 2. a bottom plate; 3. a threaded column; 4. a first rotating shaft; 5. a support plate; 6. a level measuring device; 601. a sliding frame; 602. a first U-shaped tube; 603. a second rotating shaft; 604. a connecting plate; 605. a second U-shaped tube; 7. an arc-shaped plate; 8. a first bolt; 9. rotating the column; 10. a connecting column; 11. a second bolt; 12. a cross bar; 13. a scale plate; 14. a hanging rope; 15. and a lead cone.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, a civil engineering wall straightness check out test set that hangs down, including base case 1, its characterized in that, base case 1's bottom fixedly connected with bottom plate 2, bottom plate 2's top threaded connection screw thread post 3, screw thread post 3's bottom rotation is connected with first pivot 4, first pivot 4's bottom fixedly connected with backup pad 5, base case 1's internally mounted has level gauge 6, base case 1's top welding has arc 7, arc 7 rotates with rotation post 9 through first bolt 8 to be connected, rotation post 9's top fixedly connected with spliced pole 10, spliced pole 10 rotates with horizontal pole 12 through second bolt 11 to be connected, horizontal pole 12's bottom fixedly connected with scale 13, horizontal pole 12's bottom fixedly connected with lifting rope 14, lifting rope 14's one end fixedly connected with lead cone 15.

In this embodiment, as shown in fig. 3, a cavity is provided in the base box 1, and a through hole is provided on one side of the base box 1.

In this embodiment, as shown in fig. 3, the level gauge 6 includes a sliding frame 601, a first U-shaped tube 602, a second rotating shaft 603, a connecting plate 604 and a second U-shaped tube 605, the sliding frame 601 is slidably connected with the base box 1, the sliding frame 601 is fixedly provided with the first U-shaped tube 602, the sliding frame 601 is rotatably connected with the second rotating shaft 603, the outer surface of the second rotating shaft 603 is fixedly connected with the connecting plate 604, and the bottom end of the connecting plate 604 is fixedly provided with the second U-shaped tube 605.

In this embodiment, as shown in fig. 3, a stopper is disposed on one side of the top end of the sliding frame 601, a sliding bar is disposed at the bottom end of the sliding frame 601, a handle is disposed on one side of the sliding frame 601, a chute is disposed on the top end of the base case 1, and the sliding bar at the bottom end of the sliding frame 601 is configured to be adapted to the chute at the top end of the base case 1.

In this embodiment, as shown in fig. 3, scales are provided on the outer surfaces of the first U-shaped tube 602 and the second U-shaped tube 605, water is filled in the first U-shaped tube 602 and the second U-shaped tube 605, and the size of the first U-shaped tube 602 is smaller than that of the second U-shaped tube 605.

In this embodiment, as shown in fig. 4, the connecting post 10 is provided with a groove, a placement groove is disposed on the groove, the placement groove is matched with the lead cone 15, the size of the cross rod 12 is identical to the size of the groove disposed on the connecting post 10, and an embedded handle is disposed at one end of the cross rod 12.

The application method and the advantages of the utility model are as follows: when the civil engineering wall perpendicularity detection device is used, the working process is as follows:

when the device is used, the horizontal measuring instrument 6 is pulled out through the handle on the sliding frame 601, the second U-shaped tube 605 is rotated to be perpendicular to the first U-shaped tube 602 through the second rotating shaft 603, then, whether the water levels at the two ends of the first U-shaped tube 602 and the two ends of the second U-shaped tube 605 are at the same height or not is observed, if the water levels are inconsistent, the threaded column 3 is screwed, the water levels at the two ends of the first U-shaped tube 602 and the two ends of the second U-shaped tube 605 are adjusted to the same height, therefore, the bottom plate 2 is located on the horizontal plane before measuring the wall perpendicularity, the rotating column 9 is rotated, the connecting column 10 is tightly attached to a wall to be measured, the first bolt 8 is screwed, the rotating column 9 is fixed to the position of the connecting column 10, then, the embedded handle arranged on the cross rod 12 is pulled, the cross rod 12 is rotated to be perpendicular to the connecting column 10, the second bolt 11 is screwed, the position of the scale plate 13 is observed, the position of the hanging rope 14 is adjusted, the measuring instrument is adjusted to the same height, the bottom plate is screwed into the groove 10 when the measuring instrument is screwed, the second bolt is screwed into the groove 10, the second bolt 11 is screwed, the inside the groove is screwed into the groove 10 is screwed, the groove is screwed into the groove is screwed, and the groove is screwed into the groove, and the groove.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a civil engineering wall straightness check out test set that hangs down, includes base case (1), its characterized in that, the bottom fixedly connected with bottom plate (2) of base case (1), the top threaded connection of bottom plate (2) has threaded column (3), the bottom rotation of threaded column (3) is connected with first pivot (4), the bottom fixedly connected with backup pad (5) of first pivot (4), the internally mounted of base case (1) has level gauge (6), the top welding of base case (1) has arc (7), arc (7) are connected with rotation post (9) rotation through first bolt (8), the top fixedly connected with spliced pole (10) of rotation post (9), spliced pole (10) are connected with horizontal pole (12) rotation through second bolt (11), the bottom fixedly connected with scale plate (13) of horizontal pole (12), the bottom fixedly connected with lifting rope (14) of lifting rope (14), the one end fixedly connected with awl (15) of lifting rope (14).

2. The civil engineering wall verticality detection device according to claim 1, wherein a cavity is formed in the base box (1), and a through hole is formed in one side of the base box (1).

3. The civil engineering wall perpendicularity detection device according to claim 1, wherein the level measuring instrument (6) comprises a sliding frame (601), a first U-shaped tube (602), a second rotating shaft (603), a connecting plate (604) and a second U-shaped tube (605), the sliding frame (601) is in sliding connection with the base box (1), the first U-shaped tube (602) is fixedly installed on the sliding frame (601), the second rotating shaft (603) is rotatably connected on the sliding frame (601), the connecting plate (604) is fixedly connected to the outer surface of the second rotating shaft (603), and the second U-shaped tube (605) is fixedly installed at the bottom end of the connecting plate (604).

4. The civil engineering wall perpendicularity detection device according to claim 3, wherein a limiting block is arranged on one side of the top end of the sliding frame (601), a sliding bar is arranged at the bottom end of the sliding frame (601), a handle is arranged on one side of the sliding frame (601), a sliding groove is arranged at the top end of the base box (1), and the sliding bar at the bottom end of the sliding frame (601) is configured in a manner of being matched with the sliding groove at the top end of the base box (1).

5. The civil engineering wall perpendicularity detection device according to claim 3, wherein scales are arranged on the outer surfaces of the first U-shaped pipe (602) and the second U-shaped pipe (605), water is filled in the first U-shaped pipe (602) and the second U-shaped pipe (605), and the size of the first U-shaped pipe (602) is smaller than that of the second U-shaped pipe (605).

6. The civil engineering wall perpendicularity detection device according to claim 1, wherein the connecting column (10) is provided with a groove, a placing groove is formed in the groove and is matched with the lead cone (15), the size of the cross rod (12) is matched with the size of the groove formed in the connecting column (10), and an embedded handle is arranged at one end of the cross rod (12).