CN111521154A - Assembled building wall perpendicularity detection angle instrument - Google Patents

Abstract

The perpendicularity detection angle gauge for the assembled building wall comprises a running rule (01), a measuring gauge shell (02), an angle sensor and a display screen (03); the measuring instrument shell (02) is embedded in the guiding rule (01); the display screen (03) is fixed on the front cover of the measuring instrument shell (02); the angle sensor is arranged in the measuring instrument shell (02) and is vertical to the display screen (03). A protective cap (08) is arranged at the end part of the guiding rule (01); the inclination angle of the wall body can be rapidly and accurately displayed; the structure is simple and easy to operate; the structural device of the assembled building wall perpendicularity detection angle instrument is convenient to store; manpower and labor cost can be reduced; the workload of workers can be greatly reduced.

Description

Assembled building wall perpendicularity detection angle instrument

Technical Field

The invention belongs to the field of structural design of special equipment for an assembly type building, and particularly relates to a structural device of an angle instrument for detecting the perpendicularity of a wall body of the assembly type building.

Technical Field

Assembly buildings have been used for decades, and in recent years, with the continuous progress of science and technology and the continuous maturity of technology, assembly buildings are more and more widely used. Because the assembly type building can greatly improve the building efficiency. Compared with the traditional building method, the method saves the trouble of manually building one layer by one layer, greatly reduces the workload of workers, and consumes a large amount of manpower and material resources if the traditional method of manually building one layer by one layer is adopted. In addition, compared with the traditional building method, the assembly type building is more beneficial to guaranteeing the safety of workers, the traditional building method is characterized in that the workers need to work high above the ground, the workers are higher in risk of being injured by falling objects, the personal safety of the workers is greatly threatened, the assembly type building can be beneficial to saving labor cost, and compared with the traditional building, the number of the workers required to participate in the assembly type building is relatively reduced. Although the overall building level is obviously improved compared with the prior art, the building has the defects. The perpendicularity detection adopts a common adjustable bubble running rule, workers judge the perpendicularity of the detected wall body by observing the relative position of the amplified bubble embedded in the aluminum alloy running rule, and the perpendicularity detection needs to be completed by matching of a plurality of workers, and meanwhile, the workers also judge according to experience in the measurement process, so that estimation errors occur, as people cannot observe accurately, the tacit degree between the workers is also tested, different people do different tasks, the coordination of work is not facilitated, the adjustment efficiency is relatively low, meanwhile, the data recording is not convenient, the difference between the perpendicularity of the wall body and the required precision requirement cannot be determined, and the perpendicularity of the wall body is judged by using the experience adjustment to meet the requirement.

Disclosure of Invention

The purpose of the invention is as follows:

the invention relates to an angle gauge structure device for detecting the perpendicularity of an assembly type building wall, which aims to solve the problems in the prior art.

The technical scheme is as follows:

assembled building wall body straightness angle detection appearance that hangs down, its characterized in that: the angle gauge comprises a running rule (01), a measuring instrument shell (02), an angle sensor and a display screen (03);

the measuring instrument shell (02) is embedded in the guiding rule (01);

the display screen (03) is fixed on a front cover of the measuring instrument shell (02) (the front cover is basically flush with the surface of the guiding ruler (01));

the angle sensor is arranged in the measuring instrument shell (02) and is vertical to the display screen (03).

A protective cap (08) is arranged at the end part of the guiding rule (01).

An anti-skid handle (07) is arranged on the guiding rule (01).

The anti-skid handle (07) is fixed on the guiding rule (01) through an inner hexagon screw (06).

The guiding rule (01) is made of an aluminum alloy square pipe, and the measuring instrument shell (02) is made of an ABS material.

The size of the circuit board (09) of the display screen (03) is the same as the size and shape of the main circuit board (10), and the two are overlapped.

The circuit board of the angle sensor is arranged on the side wall in the main circuit board bin of the measuring instrument shell (02).

The advantages and effects are as follows:

the perpendicularity detection angle instrument structure for the assembly type building wall comprises a display device, a supporting device and a contact device.

The perpendicularity of the traditional fabricated building wall is detected by manually utilizing a plumb bob, and is easily influenced by subjective factors and environments of people, so that the measurement precision is influenced. In order to overcome the defects, the invention provides an assembled building wall perpendicularity detection angle instrument structure which comprises a display device, a supporting device and a contact device. The display device is arranged on the instrument shell which plays a role in supporting, and the supporting device is fixed on the guiding rule which is tightly combined with the wall body through screws. The invention is characterized in that the verticality of the wall body can be accurately measured, the measured angle can be compared with the required precision, and the measured angle can be recorded.

The invention mainly comprises a running rule (01), a measuring instrument shell (02), a display screen (03), an anti-skidding handle (07) and a running rule end protective cap (08).

Measuring instrument shell (02) is fixed on guiding rule (01), and inlay in guiding rule (01), can reduce the risk that the instrument was collided with and is strikeed like this, guiding rule (01) tip adds protective cap (08), also can avoid the guiding rule tip to bear the striking and warp, guiding rule (01) closely laminates with the wall body, guarantee simultaneously that guiding rule (01) have certain rigidity, difficult emergence bending deformation, because bending deformation can produce the influence to our measuring result, the back at measuring instrument shell (02) protecgulum is fixed in display screen (03), anti-skidding handle (07) are fixed on guiding rule (01) through interior hexagonal screw (06).

The guiding rule (01) has certain rigidity, meanwhile, the measuring instrument shell (02) is better connected with the guiding rule (01), the measuring result is more accurate, materials and characteristics of the guiding rule (01) are comprehensively considered, meanwhile, better flatness and straightness are needed, good flatness and straightness can guarantee that the guiding rule (01) is in good contact with a measured wall body, meanwhile, the guiding rule (01) is better connected with the measuring instrument shell (02) can be guaranteed, economy and feasibility are comprehensively considered, the guiding rule (01) is made of aluminum alloy square pipes, and the measuring instrument shell (02) is made of ABS materials.

The tight connection of measuring instrument shell (02) and guiding rule is guaranteed in order to guarantee measuring accuracy, adopts embedded structure, guarantees that the main part embedding of measuring instrument shell (02) is in guiding rule (01), and the edge passes through screw (05) to be fixed on the guiding rule.

Besides ensuring the better combination of the running rule (01) and the measuring instrument shell (02), the structure of the measuring instrument is designed and optimized, a power supply selected by the measuring instrument is a 18650 rechargeable battery, a battery bin (A) needs to be designed on the measuring instrument shell (02), and the power consumption of a screen is relatively high. Therefore, in view of convenience in charging the battery, the battery is mounted on the front surface of the measuring instrument case (02), and the battery box (04) with a switch is mounted in the battery compartment. The battery is convenient to disassemble and assemble. In the instrument shell (02), the display screen (03) and the main circuit board need to be installed in the shell of the measuring instrument shell (02), in order to save the installation space of the display screen and the main circuit board and further reduce the overall structure size of the measuring instrument, the size of the main circuit board is basically similar to that of the circuit board of the installation screen after being designed, and the size of the circuit board of the display screen (03) and the size of the main circuit board are designed to be the same, so that the display screen and the main circuit board can be placed in an overlapped mode, and space saving is facilitated.

The internal structure of the meter shell (02) of the measuring instrument is optimized, because an angle measuring sensor needs to be installed inside the meter shell (02), due to the properties of the angle sensor, certain requirements are also met for the placement of the angle sensor, the angle sensor needs to be perpendicular to the display screen (03), namely perpendicular to a measured wall body, and therefore the circuit board of the angle sensor is installed on the side wall in the main circuit board bin

In addition, because the measurement instrument is limited, when measuring, a plurality of workers are required to cooperatively measure, the needed manpower is relatively more, when judging whether the wall meets the requirement, the workers can only judge according to naked eyes, and the degree of inclination of the wall cannot be exactly known, and the degree of the inclination of the wall is different from the precision required by the building. Design an assembled building wall body straightness angle detection appearance structure that hangs down to above problem, it has advantages such as work efficiency height, convenient operation are swift, measurement accuracy to can reduce the spending for the enterprise, increase the profit.

The assembled building wall perpendicularity detection angle instrument structure comprises a contact device, a display device and a supporting device, wherein the supporting device is installed on the contact device, and the display device is embedded into the supporting device and is installed on the supporting device. The invention is characterized in that the verticality of the wall body can be accurately measured.

The contact device is tightly attached to the measured wall body, certain flatness and rigidity need to be achieved, the gap between the contact device and the wall body can be smaller due to the higher flatness, the measured wall body is tightly attached to the measuring guiding rule, the measuring precision is improved, the guiding rule is not prone to deformation due to the better rigidity, and if the rigidity of the guiding rule is low, deformation is easy to occur in the using and taking and placing processes, and great influence can be caused on the measuring precision.

Display device installs in the meter housing, like this can effectual reduction display device by the risk of colliding with, display device's screen is the touch-sensitive screen, will consider display device's overall dimension when designing the meter housing, and the appearance that the design satisfies the requirement, when satisfying convenient reading, also needs to make the display screen place position conveniently carry out the interface editing, guarantees that the design can satisfy the functional requirement of measuring apparatu.

The supporting device is arranged on the guiding ruler, the supporting device is used for supporting the display screen and other required electronic elements, the specific appearance of the supporting device is designed according to the appearance size, arrangement and connection requirements of all relevant elements, all the elements arranged in the supporting device can work normally, and the working requirements of the measuring instrument are met.

In summary, the angle measuring instrument mainly comprises a contact device tightly attached to a measured wall body, a display device for displaying the current angle and a supporting device for mounting a display screen and other electronic elements. When the angle measuring instrument is used for detection, firstly, the guiding ruler is tightly attached to a detected wall body, then fine adjustment is carried out through experience, the guiding ruler is placed as vertically as possible, then a switch of a battery box of the measuring instrument is opened, and the measuring instrument is powered.

The supporting device is embedded into the guiding rule device, and meanwhile, the aluminum alloy guiding rule is guaranteed to have good flatness, so that the measuring result is more accurate.

The contact device which is tightly attached to the measured wall body needs to be tightly leaned on the surface of the measured wall body, meanwhile, the angle of the contact device is guaranteed to be in the vertical direction as far as possible, the angle measuring instrument displays the current wall body angle and feeds the current wall body angle back to the working personnel, the working personnel can adjust the result through feedback, and finally the verticality of the wall body meets the requirement.

The invention has the following specific advantages:

(1) the inclination angle of the wall body can be rapidly and accurately displayed;

(2) the structure is simple and easy to operate;

(3) the structural device of the assembled building wall perpendicularity detection angle instrument is convenient to store;

(4) manpower and labor cost can be reduced;

(5) the workload of workers can be greatly reduced.

Description of the drawings:

FIG. 1 is a schematic structural assembly view of an assembled building wall perpendicularity detection angle gauge provided in an embodiment of the invention;

FIG. 2 is a three-dimensional schematic diagram of a main circuit board and a display screen circuit board part of the fabricated building wall perpendicularity detection angle gauge structure provided in the embodiment of the invention;

FIG. 3 is a three-dimensional schematic diagram of the structure of a display screen circuit board and an angle sensor circuit board of the fabricated building wall perpendicularity detection angle gauge provided in the embodiment of the invention;

FIG. 4 is a three-dimensional schematic view of a rear cover portion of an assembled building wall perpendicularity detection goniometer structure provided in an example of the present invention; in FIG. 4, 14 is a bottom surface of the gauge housing (02), and 15 is a fixing member (e.g., a rivet, a bolt, etc.)

Fig. 5 is a three-dimensional schematic view of a guiding ruler for tightly attaching the assembled construction wall perpendicularity detection angle gauge structure device provided by the embodiment of the invention to a wall.

Detailed Description

Assembled building wall body straightness angle detection appearance that hangs down, its characterized in that: the angle gauge comprises a running rule (01), a measuring instrument shell (02), an angle sensor and a display screen (03);

the measuring instrument shell (02) is embedded in the guiding rule (01);

the display screen (03) is fixed on a front cover of the measuring instrument shell (02) (the front cover is basically flush with the surface of the guiding ruler (01));

the angle sensor is arranged in the measuring instrument shell (02) and is vertical to the display screen (03).

A protective cap (08) is arranged at the end part of the guiding rule (01).

An anti-skid handle (07) is arranged on the guiding rule (01).

The anti-skid handle (07) is fixed on the guiding rule (01) through an inner hexagon screw (06).

The guiding rule (01) is made of an aluminum alloy square pipe, and the measuring instrument shell (02) is made of an ABS material.

The size of the circuit board (09) of the display screen (03) is the same as the size and shape of the main circuit board (10), and the two are overlapped.

The circuit board of the angle sensor is arranged on the side wall in the main circuit board bin of the measuring instrument shell (02).

The present invention is described in detail below:

the utility model provides an assembled building wall body straightness angle detection appearance constructional device that hangs down includes contact device, strutting arrangement, display device, and contact device closely laminates with the wall body of being surveyed, and display device installs on strutting arrangement. The invention is characterized in that the verticality of the wall body can be accurately measured, the measured angle can be compared with the required precision, and the measured angle can be recorded.

The contact device is a guiding rule closely attached to a measured wall, and the guiding rule 01 is also used for installing the meter shell 02 of the measuring instrument. The guiding rule end protective cap 04 is embedded at the end of the guiding rule 01, the guiding rule end protective cap 04 can be tightly attached to the inner wall of the guiding rule through elastic deformation of the guiding rule end protective cap 04, the anti-skid handle 05 is installed for convenient extraction and use, the anti-skid handle is fixed on the guiding rule 01 through the hexagon socket head cap screws 06, and the anti-skid handle is helpful for an operator to use.

The display device is a device for displaying measured data, the display device comprises a display screen, a display screen circuit board and related electronic components, the display device is embedded into the inside of the meter case 02 of the measuring instrument, and the display device is installed in the meter case 02 of the measuring instrument through screws.

The supporting device is used for supporting the display device and other required electronic elements, contains the required various electronic elements of this equipment in the measuring instrument table, including this instrument singlechip CPU, the chip of corresponding function, temperature sensor and angle sensor, draw required PCB board through the required electronic element of experiment and the circuit of putting up, then confirm the inner structure and the size of measuring instrument shell 02 according to the size of PCB board and installation requirement.

The angle sensor sends the information to the single chip CPU for processing and then displays the information on the display screen.

When the assembled building wall perpendicularity detection angle instrument structure device is used, firstly, the measuring device is tightly attached to a measured wall, and the direction is the vertical direction; then, the power switch is turned on, the instrument editing interface is entered, then measurement and adjustment are carried out, an operator can adjust the inclination of the measured wall body by using the adjusting device according to the data displayed by the measuring instrument, when the inclination of the wall body is adjusted to meet the requirements required by our buildings, the measured data can be compared with the required precision, and the data can also be recorded and filed. In conclusion, the measuring instrument greatly improves the accuracy of measurement, and simultaneously greatly reduces the workload of workers.

Claims (7)

1. Assembled building wall body straightness angle detection appearance that hangs down, its characterized in that: the angle gauge comprises a running rule (01), a measuring instrument shell (02), an angle sensor and a display screen (03);

the measuring instrument shell (02) is embedded in the guiding rule (01);

the display screen (03) is fixed on the front cover of the measuring instrument shell (02);

the angle sensor is arranged in the measuring instrument shell (02) and is vertical to the display screen (03).

2. The fabricated building wall perpendicularity detection angle gauge according to claim 1, characterized in that: a protective cap (08) is arranged at the end part of the guiding rule (01).

3. The fabricated building wall perpendicularity detection angle gauge according to claim 1, characterized in that: an anti-skid handle (07) is arranged on the guiding rule (01).

4. The fabricated building wall perpendicularity detection angle gauge according to claim 3, characterized in that: the anti-skid handle (07) is fixed on the guiding rule (01) through an inner hexagon screw (06).

5. The fabricated building wall perpendicularity detection angle gauge according to claim 3, characterized in that: the guiding rule (01) is made of an aluminum alloy square pipe, and the measuring instrument shell (02) is made of an ABS material.

6. The fabricated building wall perpendicularity detection angle gauge according to claim 1, characterized in that:

the size of the circuit board (09) of the display screen (03) is the same as the size and shape of the main circuit board (10), and the two are overlapped.

7. The fabricated building wall perpendicularity detection angle gauge according to claim 1, characterized in that: the circuit board of the angle sensor is arranged on the side wall in the main circuit board bin of the measuring instrument shell (02).

Images