CN220270435U - A tool for measuring verticality of building construction - Google Patents

Abstract

The utility model discloses a building building verticality measuring tool, which includes a base. The outer surface of the lower end of the base is provided with a universal wheel. The outer surface of the front end of the base is fixedly installed with a control panel. The base The outer surface of the upper end of the base is provided with a scale, the outer surface of the upper end of the base is provided with an automatic rotating support structure for improving the convenience of adjusting the measurement position, and the upper outer surface of the automatic rotating support structure is equipped with an automatic rotating support structure for improving the vertical measurement of the building. A convenient automatic lifting positioning and measuring device, the automatic lifting and positioning measuring device includes a mounting base, a guide slide rail is fixedly connected to the inner surface of one side of the mounting seat, and limit blocks are provided at both ends of the guide slide rail. The utility model describes a house building verticality measuring tool equipped with an automatic lifting and positioning measuring device, which has a simple structure and is convenient to operate. It can measure the verticality of walls at different heights, thereby improving the measurement efficiency and effect.

Description

A tool for measuring verticality of building construction

Technical field

The utility model relates to the technical field of house construction, and is specifically a tool for measuring the verticality of house construction.

Background technique

House construction refers to an entity that provides users or investors with life, production, work or other activities in a planned and designed location. House building structure refers to the classification of building materials based on the main load-bearing components of the house such as beams, columns, walls, etc. The purpose of house structural design is to ensure that the constructed structure is safe and suitable, can meet the requirements of various expected functions within the specified period of time, and is economical and reasonable. After the construction of the internal wall of the house is completed, the staff needs to conduct a verticality test to determine whether the wall is vertical.

Most of the existing building verticality measurement tools are manual hand-held measuring rulers, which are inconvenient to measure at high places, affect the measurement efficiency and effect, and are inconvenient to measure at different locations, which brings certain difficulties to people's use process. Adverse effects, for this reason, we propose a tool for measuring verticality of building construction.

Utility model content

Aiming at the existing problems of the above-mentioned prior art, the utility model provides a tool for measuring the verticality of a house building.

The utility model solves the above technical problems through the following technical means:

A tool for measuring the verticality of a house building, including a base, the outer surface of the lower end of the base is provided with a universal wheel, the outer surface of the front end of the base is fixedly installed with a control panel, and the outer surface of the upper end of the base is provided with a universal wheel. There is a scale, and the upper outer surface of the base is provided with an automatic rotating support structure for improving the convenience of adjusting the measurement position. The upper outer surface of the automatic rotating support structure is equipped with an automatic lifting device for improving the convenience of vertical measurement of the building. Positioning and measuring device. The automatic lifting and lowering positioning and measuring device includes a mounting base. The inner surface of one side of the mounting base is fixedly connected with a guide slide rail. Limit blocks are provided at both ends of the guide slide rail. The upper end of the mounting base There is a chassis fixedly installed on the outer surface. There is a No. 1 drive motor inside the chassis. The other end of the output shaft of the No. 1 drive motor is connected to a threaded screw rod. The threaded screw rod is between the middle part of the inner surface of the upper end of the mounting base. There is a mounting bearing between the other end of the threaded screw rod and the inner surface of the lower end of the mounting base. There is a bearing seat between the other end of the threaded screw rod and the inner surface of the lower end of the mounting seat. The outer ring of the threaded screw rod is equipped with a movable nut seat. The movable nut seat is connected with the guide slide. Positioning slide blocks are provided between the rails, a mounting arm is fixedly connected to the outer surface of the other side of the movable nut seat, and a protractor is provided at the other end of the mounting arm.

Further, the No. 1 drive motor is fixedly connected to the outer surface of the upper end of the mounting base through the chassis. One end of the threaded screw rod is fixedly connected to the other end of the output shaft of the No. 1 drive motor. The other end of the threaded screw rod is fixedly connected to the outer surface of the upper end of the mounting base. Through the movable connection between the bearing seat and the inner surface of the lower end of the mounting seat, the movable nut seat is threadedly connected to the outer ring of the threaded screw rod, the movable nut seat is slidingly connected to the guide slide rail through the positioning slide block, and the guide The slide rail is fixedly connected to the inner surface of one side of the mounting base, and the protractor is fixedly connected to the other outer surface of the movable nut base through the mounting arm.

Further, the movable nut seat is movably connected to the interior of the mounting base through the movable nut seat and the guide slide rail, and the protractor is movably connected to the threaded screw rod through the movable nut seat.

Further, the automatic rotation support structure includes a mounting box. A No. 2 driving motor is fixedly installed inside the mounting box. The other end of the output shaft of the No. 2 driving motor is connected to a rotating shaft. The rotating shaft is connected to the mounting box. There is a rolling bearing between the middle parts of the inner surface of the upper end. The other end of the rotating shaft is connected to a reinforcing shaft. The other end of the reinforcing shaft is provided with a connecting block. The outer surface of the upper end of the connecting block is provided with a connecting seat.

Further, the No. 2 drive motor is fixedly connected to the interior of the installation box, the rotating shaft is fixedly connected to the other end of the output shaft of the No. 2 drive motor, and the rotating shaft is movably connected to the middle part of the upper inner surface of the installation box through a rolling bearing. One end of the reinforced shaft is fixedly connected to the rotating shaft, the connecting seat is fixedly connected to the other end of the reinforced shaft through a connecting block, the connecting seat is fixedly connected to the output shaft of the No. 2 drive motor through the reinforced shaft and the rotating shaft, and the The connecting base is movably connected to the base through the output shaft of the No. 2 drive motor.

Further, the scale is fixedly connected to the outer surface of the upper end of the base, and the automatic lifting and positioning measuring device is movably connected to the base through an automatic rotating support structure.

beneficial effects

Compared with the existing technology, this utility model provides a tool for measuring verticality of building buildings, which has the following beneficial effects:

1. This building verticality measuring tool is equipped with an automatic lifting and positioning measuring device. It has a simple structure and is easy to operate. It can measure the verticality of walls at different heights, improving the measurement efficiency and effect.

2. This kind of house building verticality measuring tool is equipped with an automatic rotating support structure. When it is necessary to measure different positions of the house building wall, after starting the No. 2 drive motor, the output shaft of the No. 2 drive motor After rotation, the rotating shaft at the upper end is driven to rotate, thereby driving the connecting seat at the upper end of the reinforced shaft to automatically rotate, allowing the automatic lifting and positioning measuring device on the connecting seat to rotate, which facilitates measurement of different positions on the wall and further improves measurement efficiency.

Description of drawings

Figure 1 is a schematic diagram of the overall planar structure of a building verticality measuring tool of the present invention.

Figure 2 is a schematic plan view of an automatic lifting and positioning measuring device of a house building verticality measuring tool according to the present invention.

Figure 3 is a schematic plan view of the automatic rotating support structure of a house building verticality measuring tool according to the present invention.

In the picture: 1. Base; 2. Universal wheel; 3. Control panel; 4. Scale; 5. Automatic lifting and positioning measuring device; 6. Mounting base; 7. Guide rail; 8. Limit block; 9 , Chassis; 10. No. 1 drive motor; 11. Threaded screw rod; 12. Mounting bearing; 13. Bearing seat; 14. Movable nut seat; 15. Positioning slider; 16. Installation arm; 17. Protractor; 18. Automatic Rotating support structure; 19. Installation box; 20. No. 2 drive motor; 21. Rotating shaft; 22. Rolling bearing; 23. Reinforced shaft; 24. Connecting block; 25. Connecting seat.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions in the embodiments of the present utility model will be clearly and completely described below in conjunction with the drawings in the embodiments of the present utility model. Obviously, the description The embodiments are part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without making creative efforts fall within the scope of protection of the present utility model.

Example 1

As shown in Figures 1 and 2, a tool for measuring the verticality of a house building includes a base 1, a universal wheel 2 is provided on the lower outer surface of the base 1, and a control panel 3 is fixedly installed on the front outer surface of the base 1 , the upper outer surface of the base 1 is provided with a scale 4, the upper outer surface of the base 1 is provided with an automatic rotating support structure 18 for improving the convenience of adjusting the measurement position, and the upper outer surface of the automatic rotating support structure 18 is provided with an automatic rotating support structure 18 for improving the convenience of adjusting the measurement position. The automatic lifting positioning and measuring device 5 is convenient for vertical measurement of house buildings. The automatic lifting and positioning measuring device 5 includes a mounting base 6. The inner surface of one side of the mounting base 6 is fixedly connected with a guide slide rail 7. Both ends of the guide slide rail 7 are provided with limited The outer surface of the upper end of the bit block 8 and the mounting base 6 is fixedly mounted with a chassis 9. A No. 1 drive motor 10 is provided inside the chassis 9. The other end of the output shaft of the No. 1 drive motor 10 is connected to a threaded screw rod 11. The threaded screw rod 11 There is a mounting bearing 12 between the middle part of the upper end inner surface of the mounting base 6, a bearing seat 13 between the other end of the threaded screw rod 11 and the lower end inner surface of the mounting base 6, and a movable bearing 13 on the outer ring of the threaded screw rod 11. There is a positioning slider 15 between the nut seat 14, the movable nut seat 14 and the guide slide rail 7. A mounting arm 16 is fixedly connected to the outer surface of the other side of the movable nut seat 14, and a protractor 17 is provided at the other end of the mounting arm 16.

The No. 1 drive motor 10 is fixedly connected to the outer surface of the upper end of the mounting base 6 through the chassis 9. One end of the threaded screw rod 11 is fixedly connected to the other end of the output shaft of the No. 1 drive motor 10. The other end of the threaded screw rod 11 passes through the bearing seat. 13 is movablely connected to the inner surface of the lower end of the mounting base 6, the movable nut seat 14 is threadedly connected to the outer ring of the threaded screw rod 11, the movable nut seat 14 is slidingly connected to the guide slide rail 7 through the positioning slide block 15, and the guide slide rail 7 is fixedly connected to one inner surface of the mounting base 6 , and the protractor 17 is fixedly connected to the other outer surface of the movable nut seat 14 through the mounting arm 16 .

The movable nut seat 14 is movably connected to the interior of the mounting base 6 through the movable nut seat 14 and the guide slide rail 7 , and the protractor 17 is movably connected to the threaded screw rod 11 through the movable nut seat 14 .

Example 2

As shown in Figures 1 and 3, an automatic rotation support structure 18 is provided based on Embodiment 1. The automatic rotation support structure 18 includes a mounting box 19, and a No. 2 drive motor 20 is fixedly installed inside the mounting box 19. The other end of the output shaft of the drive motor 20 is connected to a rotating shaft 21. A rolling bearing 22 is provided between the rotating shaft 21 and the middle part of the upper inner surface of the installation box 19. The other end of the rotating shaft 21 is connected to a reinforcing shaft 23, and the other end of the reinforcing shaft 23 is provided with a rolling bearing 22. There is a connecting block 24, and a connecting seat 25 is provided on the outer surface of the upper end of the connecting block 24.

The second drive motor 20 is fixedly connected to the inside of the installation box 19. The rotating shaft 21 is fixedly connected to the other end of the output shaft of the second drive motor 20. The rotating shaft 21 is movably connected to the middle part of the upper inner surface of the installation box 19 through the rolling bearing 22 to strengthen the shaft. One end of 23 is fixedly connected to the rotating shaft 21, the connecting seat 25 is fixedly connected to the other end of the reinforcing shaft 23 through the connecting block 24, the connecting seat 25 is fixedly connected to the output shaft of the second driving motor 20 through the reinforcing shaft 23 and the rotating shaft 21, and is connected The base 25 is movably connected to the base 1 through the output shaft of the No. 2 drive motor 20.

The scale 4 is fixedly connected to the upper outer surface of the base 1, and the automatic lifting and positioning measuring device 5 is movably connected to the base 1 through the automatic rotating support structure 18.

Compared with Embodiment 1, an automatic rotation support structure 18 is added. By providing the automatic rotation support structure 18, when it is necessary to measure different positions of the wall of the building, by starting the No. 2 drive motor 20, the No. 2 drive motor After the output shaft 20 rotates, it drives the upper rotating shaft 21 to rotate, thereby driving the connecting seat 25 at the upper end of the reinforcing shaft 23 to automatically rotate, realizing the automatic lifting and positioning measuring device 5 on the connecting seat 25 to rotate, so as to facilitate the measurement of different positions of the wall. , further improving measurement efficiency.

working principle

When it is necessary to measure different heights of the wall, first move the base 1 to the wall through the universal wheel 2, start the No. 1 drive motor 10, and control the rotation direction of the output shaft of the No. 1 drive motor 10. The output shaft of the drive motor 10 can drive the threaded screw rod 11 to rotate in the mounting base 6 through the mounting bearing 12 and the bearing seat 13. The movable nut seat 14 is driven by the rotation of the threaded screw rod 11 and is guided by the positioning slider 15 at the same time. Under the sliding limit of the slide rail 7, the movable nut seat 14 can move linearly on the threaded screw rod 11, thereby driving the protractor 17 at the other end of the mounting arm 16 to lift, and then move the base 1 through the universal wheel 2. The protractor 17 is closely attached to the wall to measure the verticality. The measured height can be recorded through the scale 4. The structure is simple and the operation is convenient. The verticality of different heights of the wall can be measured, which improves the measurement efficiency and Effect. By providing the automatic rotating support structure 18, when it is necessary to measure different positions of the wall of the house building, after starting the No. 2 drive motor 20, the output shaft of the No. 2 drive motor 20 rotates and drives the upper rotating shaft 21 to rotate. Thereby, the connecting seat 25 at the upper end of the reinforcing shaft 23 is driven to automatically rotate, and the automatic lifting and positioning measuring device 5 on the connecting seat 25 is rotated, which facilitates the measurement of different positions of the wall and further improves the measurement efficiency.

It should be noted that in this article, relational terms such as first and second (No. 1, No. 2), etc. are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or sequence between such entities or operations. Furthermore, the terms "comprises," "comprises," or any other variations thereof are intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus that includes a list of elements includes not only those elements, but also those not expressly listed other elements, or elements inherent to the process, method, article or equipment. Without further limitation, an element defined by the statement "comprises a..." does not exclude the presence of additional identical elements in a process, method, article, or apparatus that includes the stated element.

The basic principles and main features of the present utility model and the advantages of the present utility model are shown and described above. Those skilled in the industry should understand that the present utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principles of the present utility model. Without departing from the spirit and scope of the present utility model, the present utility model can be There will also be various changes and improvements in the new model, and these changes and improvements all fall within the scope of the claimed utility model.

Claims (6)

1. A tool for measuring the verticality of a house building, including a base (1), the outer surface of the lower end of the base (1) is provided with a universal wheel (2), and the outer surface of the front end of the base (1) is fixed A control panel (3) is installed, and the outer surface of the upper end of the base (1) is provided with a scale (4), which is characterized in that: the outer surface of the upper end of the base (1) is provided with a scale to improve the convenience of adjusting the measurement position. The automatic rotating support structure (18) is provided with an automatic lifting and positioning measuring device (5) on the outer surface of the upper end of the automatic rotating supporting structure (18) for improving the convenience of vertical measurement of the building. The automatic lifting and positioning measuring device (5) It includes a mounting base (6). The inner surface of one side of the mounting base (6) is fixedly connected with a guide slide rail (7). The two ends of the guide slide rail (7) are provided with limit blocks (8). , a chassis (9) is fixedly installed on the outer surface of the upper end of the mounting base (6), a No. 1 drive motor (10) is provided inside the chassis (9), and the output shaft of the No. 1 drive motor (10) is The other end is connected to a threaded screw rod (11). A mounting bearing (12) is provided between the threaded screw rod (11) and the middle part of the upper inner surface of the mounting base (6). The other end of the threaded screw rod (11) A bearing seat (13) is provided between one end and the inner surface of the lower end of the mounting seat (6). The outer ring of the threaded screw rod (11) is provided with a movable nut seat (14). The movable nut seat (14) is connected to There is a positioning slider (15) between the guide slide rails (7). A mounting arm (16) is fixedly connected to the outer surface of the other side of the movable nut seat (14). The other end of the mounting arm (16) Equipped with protractor (17). 2. A building construction verticality measuring tool according to claim 1, characterized in that: the No. 1 driving motor (10) is fixedly connected to the upper end outer surface of the mounting base (6) through the chassis (9), so One end of the threaded screw (11) is fixedly connected to the other end of the output shaft of the No. 1 drive motor (10), and the other end of the threaded screw (11) is connected to the mounting base (6) through the bearing seat (13). The inner surfaces of the lower ends are movablely connected. The movable nut seat (14) is threadedly connected to the outer ring of the threaded screw rod (11). The movable nut seat (14) is connected to the guide slide rail (7) through the positioning slider (15). ) sliding connection, and the guide slide rail (7) is fixedly connected to the inner surface of one side of the mounting seat (6), and the protractor (17) is connected to the other side of the movable nut seat (14) through the mounting arm (16) External surface fixed connection. 3. A building construction verticality measuring tool according to claim 1, characterized in that: the movable nut seat (14) is connected to the mounting seat (6) through the movable nut seat (14) and the guide slide rail (7). The protractor (17) is movablely connected to the threaded screw rod (11) through the movable nut seat (14). 4. A house building verticality measuring tool according to claim 1, characterized in that: the automatic rotating support structure (18) includes a mounting box (19), and a mounting box is fixedly installed inside the mounting box (19). The second drive motor (20) has a rotating shaft (21) connected to the other end of the output shaft of the second drive motor (20). There is a rotating shaft (21) between the rotating shaft (21) and the middle part of the inner surface of the upper end of the installation box (19). There is a rolling bearing (22). The other end of the rotating shaft (21) is connected to a reinforcing shaft (23). The other end of the reinforcing shaft (23) is provided with a connecting block (24). The upper end of the connecting block (24) The outer surface is provided with a connecting seat (25). 5. A building building verticality measuring tool according to claim 4, characterized in that: the second drive motor (20) is fixedly connected to the interior of the installation box (19), and the rotating shaft (21) is connected to the second drive motor (20). The other end of the output shaft of the drive motor (20) is fixedly connected, the rotating shaft (21) is movably connected to the middle part of the upper inner surface of the installation box (19) through the rolling bearing (22), and one end of the reinforcing shaft (23) is connected to The rotating shaft (21) is fixedly connected, and the connecting seat (25) is fixedly connected to the other end of the reinforcing shaft (23) through the connecting block (24). The connecting seat (25) is connected through the reinforcing shaft (23) and the rotating shaft (21). It is fixedly connected to the output shaft of the No. 2 drive motor (20), and the connecting seat (25) is movably connected to the base (1) through the output shaft of the No. 2 drive motor (20). 6. A building construction verticality measuring tool according to claim 1, characterized in that: the scale (4) is fixedly connected to the upper end outer surface of the base (1), and the automatic lifting positioning measuring device ( 5) The automatic rotating support structure (18) is movablely connected to the base (1).