CN221630717U - Building engineering straightness detection device that hangs down - Google Patents

Abstract

The utility model discloses a building engineering perpendicularity detection device, which comprises: the anti-slip device comprises a base, wherein an anti-slip pad is arranged at the lower end of the base, a first limit groove is formed in the base, a first connecting rod is arranged in the first limit groove, the left end of the first connecting rod is connected with a handheld rod, the outer surface of the first connecting rod is connected with a first connecting block, and a limit block is arranged on the outer side of the first connecting block; the lifting assembly is arranged at the upper end of the first connecting block and consists of a fixed body, a second limiting groove, a supporting rod, a second connecting rod and a motor, wherein the second connecting block is arranged in the lifting assembly, and the front end of the second connecting block is provided with a dial. This building engineering straightness detection device that hangs down can adjust measuring height at the measurement process, the building object of the not co-altitude of being convenient for measure, the temperature regulation measuring direction of being convenient for simultaneously, it is convenient to use, adaptation more service environment, the practicality is strong.

Description

Building engineering straightness detection device that hangs down

Technical Field

The utility model relates to the technical field of verticality detection devices, in particular to a building engineering verticality detection device.

Background

The perpendicularity detection device mainly measures the angle problem of building construction through the device, for example, angle measurement is carried out on a foundation wall according to the requirements of building engineering, work can be accurately completed through the perpendicularity detection device, the work efficiency can be effectively improved, and the labor intensity is reduced, for example:

The utility model provides a building engineering straightness detection device that hangs down is provided for CN218822332U to bulletin number, concretely relates to building engineering detects the field, including the installation lid, the front end fixedly connected with fuselage of installation lid, the rear end fixedly connected with base of installation lid, the passing groove has been seted up on the right side of fuselage, the mechanism groove has been seted up to the rear end of fuselage, the front end fixed mounting in mechanism groove has the slide rail, the upper and lower both ends of slide rail still respectively fixed mounting have a stopper, the right-hand member sliding connection of slide rail has the slider, the right-hand member fixed mounting of slider has the instrument seat, the instrument seat passes the inside and the right-hand member fixed mounting in passing groove has the amesdial. The building engineering verticality detection device disclosed by the utility model not only can detect the verticality between the wall body and the ground, but also can be used for detecting the verticality of the corner between the wall bodies by adjusting the detection device, has accurate test results, is small in size and convenient to operate, and is particularly suitable for being carried by a building engineering quality inspector.

The prior art solutions described above have the following drawbacks: the conventional verticality detection device cannot adjust the measured height in the measurement process, is inconvenient to measure building objects with different heights, is inconvenient to adjust the measurement direction in temperature, is inconvenient to use, is not suitable for more use environments, and has low practicability, so that the utility model provides the building engineering verticality detection device to solve the problems.

Disclosure of utility model

The utility model aims to provide a building engineering verticality detection device, which solves the problems that the measurement height cannot be adjusted in the measurement process, the measurement of building objects with different heights is inconvenient, the temperature adjustment of the measurement direction is inconvenient, the use is inconvenient, more use environments are not suitable, and the practicability is low in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a construction perpendicularity detection device, comprising:

the anti-slip device comprises a base, wherein an anti-slip pad is arranged at the lower end of the base, a first limit groove is formed in the base, a first connecting rod is arranged in the first limit groove, the left end of the first connecting rod is connected with a handheld rod, the outer surface of the first connecting rod is connected with a first connecting block, and a limit block is arranged on the outer side of the first connecting block;

The lifting assembly is arranged at the upper end of the first connecting block and consists of a fixed body, a second limiting groove, a supporting rod, a second connecting rod and a motor, wherein the second connecting block is arranged in the lifting assembly, the front end of the second connecting block is provided with a dial, the surface of the dial is provided with a pointer, and the right end of the pointer is provided with a measuring plate.

Preferably, the first connecting rod is connected with the base in a relative rotation manner, and the first connecting rod is connected with the first connecting block in a relative threaded manner.

Preferably, the limiting block is in relative sliding connection with the base, the limiting block is arranged symmetrically around the central shaft of the first connecting block, and the longitudinal section of the limiting block is of a T-shaped structure.

Preferably, the fixed body is installed to the upper end of first connecting block, and the second spacing groove has been seted up to the inside of fixed body, the internally mounted of second spacing groove has the bracing piece, and the right-hand member of bracing piece is provided with the second connecting rod, the upper end of second connecting rod is connected with the motor.

Preferably, the support rod is in sliding connection with the second connecting block, and the second connecting rod is in threaded connection with the second connecting block.

Preferably, the second connecting block is connected with the pointer in a relative rotation manner.

Compared with the prior art, the utility model has the beneficial effects that: the building engineering verticality detection device can adjust the measured height in the measuring process, is convenient for measuring building objects with different heights, is convenient for adjusting the measuring direction by temperature, is convenient to use, is suitable for more use environments, and has strong practicability;

1. The limiting block is in relative sliding connection with the base, the handheld rod drives the first connecting rod to rotate in the first limiting groove through rotating the handheld rod, and at the moment, the first connecting rod drives the first connecting block and the limiting block to slide in the base due to the threaded connection relation of the first connecting block and the first connecting rod, so that the adjustment work of the measuring position of the device is completed;

2. When the specified position is reached through the relative threaded connection of the second connecting rod and the second connecting block, the height of the device is adjusted if required, and at the moment, the motor drives the second connecting rod to rotate in the fixed body, so that the second connecting block slides up and down in the fixed body along the supporting rod, and the height adjustment of the device is completed;

3. Through the relative rotation of second connecting block and pointer, accomplish all height and position adjustment back for measuring board laminating is building wall surface, and measuring board drives the pointer and rotates at the surface of calibrated scale simultaneously, accomplishes the measurement work to building wall vertical angle.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

Fig. 4 is an enlarged schematic view of the structure of fig. 1a according to the present utility model.

In the figure: 1. a base; 2. an anti-slip pad; 3. a first limit groove; 4. a first connecting rod; 5. a hand-held lever; 6. a first connection block; 7. a limiting block; 8. a lifting assembly; 801. a fixed body; 802. the second limit groove; 803. a support rod; 804. a second connecting rod; 805. a motor; 9. a second connection block; 10. a dial; 11. a pointer; 12. the plate was measured.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a building engineering straightness detection device that hangs down, includes base 1, and slipmat 2 is installed to the lower extreme of base 1, and the inside of base 1 has seted up first spacing groove 3, and the inside of first spacing groove 3 is provided with head rod 4, and the left end of head rod 4 is connected with handheld pole 5, and the surface of head rod 4 is connected with first connecting block 6, and is provided with stopper 7 outside first connecting block 6;

The lifting component 8 is arranged at the upper end of the first connecting block 6, the lifting component 8 is composed of a fixed body 801, a second limiting groove 802, a supporting rod 803, a second connecting rod 804 and a motor 805, a second connecting block 9 is arranged in the lifting component 8, a dial 10 is arranged at the front end of the second connecting block 9, a pointer 11 is arranged on the surface of the dial 10, and a measuring plate 12 is arranged at the right end of the pointer 11 to form a complete verticality detection device.

As shown in fig. 1 and 3, the first connecting rod 4 is connected with the base 1 in a relatively rotating manner, the first connecting rod 4 is connected with the first connecting block 6 in a relatively threaded manner, the limiting block 7 is connected with the base 1 in a relatively sliding manner, the limiting block 7 is arranged around the central axis of the first connecting block 6 in a front-back symmetrical manner, the longitudinal section of the limiting block 7 is of a T-shaped structure, the handheld rod 5 is rotated to enable the handheld rod 5 to drive the first connecting rod 4 to rotate in the first limiting groove 3, and at the moment, the first connecting rod 4 drives the first connecting block 6 and the limiting block 7 to slide in the base 1 due to the threaded connection relationship between the first connecting block 6 and the first connecting rod 4, so that the adjustment work of the measuring position of the device is completed.

As shown in fig. 1 and 2, the fixed body 801 is installed at the upper end of the first connecting block 6, and the second limiting groove 802 is provided in the fixed body 801, the supporting rod 803 is installed in the second limiting groove 802, the second connecting rod 804 is provided at the right end of the supporting rod 803, the motor 805 is connected to the upper end of the second connecting rod 804, the supporting rod 803 is slidably connected with the second connecting block 9, and the second connecting rod 804 is slidably connected with the second connecting block 9, when reaching the designated position, the height is adjusted if needed, at this time, the motor 805 drives the second connecting rod 804 to rotate in the fixed body 801, so that the second connecting block 9 slides up and down in the fixed body 801 along the supporting rod 803, and the height adjustment for device measurement is completed.

As shown in fig. 1 and fig. 4, the second connecting block 9 is rotatably connected with the pointer 11 relatively, and after all the height and position adjustments are completed, the measuring plate 12 is attached to the surface of the building wall, and meanwhile, the measuring plate 12 drives the pointer 11 to rotate on the surface of the dial 10, so that the measurement work of the vertical angle of the building wall is completed.

Standard parts used in the utility model can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional modes in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that details are not described in detail in the specification, and the utility model belongs to the prior art known to the person skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a building engineering straightness detection device that hangs down which characterized in that includes:

The anti-slip device comprises a base (1), wherein an anti-slip pad (2) is arranged at the lower end of the base (1), a first limit groove (3) is formed in the base (1), a first connecting rod (4) is arranged in the first limit groove (3), a handheld rod (5) is connected to the left end of the first connecting rod (4), a first connecting block (6) is connected to the outer surface of the first connecting rod (4), and a limit block (7) is arranged on the outer side of the first connecting block (6);

Lifting assembly (8), it installs the upper end at first connecting block (6), and lifting assembly (8) comprise fixed body (801), second spacing groove (802), bracing piece (803), second connecting rod (804) and motor (805), the internally mounted of lifting assembly (8) has second connecting block (9), and the front end of second connecting block (9) is provided with calibrated scale (10), the surface mounting of calibrated scale (10) has pointer (11), and measures board (12) are installed to the right-hand member of pointer (11).

2. The construction perpendicularity detection device according to claim 1, wherein: the first connecting rod (4) is connected with the base (1) in a relative rotation mode, and the first connecting rod (4) is connected with the first connecting block (6) in a relative threaded mode.

3. The construction perpendicularity detection device according to claim 1, wherein: the limiting block (7) is in relative sliding connection with the base (1), the limiting block (7) is arranged symmetrically around the central shaft of the first connecting block (6), and the longitudinal section of the limiting block (7) is of a T-shaped structure.

4. The construction perpendicularity detection device according to claim 1, wherein: the upper end of first connecting block (6) is installed fixed body (801), and second spacing groove (802) have been seted up to the inside of fixed body (801), the internally mounted of second spacing groove (802) has bracing piece (803), and the right-hand member of bracing piece (803) is provided with second connecting rod (804), the upper end of second connecting rod (804) is connected with motor (805).

5. The construction perpendicularity detection device according to claim 4, wherein: the support rod (803) is in sliding connection with the second connecting block (9), and the second connecting rod (804) is in threaded connection with the second connecting block (9) relatively.

6. The construction perpendicularity detection device according to claim 1, wherein: the second connecting block (9) is connected with the pointer (11) in a relative rotation mode.