CN206399418U - Template tiltometer - Google Patents

Abstract

The utility model discloses a formwork inclination measuring instrument, which belongs to the technical field of inclination measurement, and comprises a horizontal plate, and one side of the horizontal plate is evenly provided with four support legs for determining the inclination surface of the formwork, wherein one of the two support legs is A spirit level is connected between them, the support legs are threadedly connected to the horizontal plate, and the other side of the horizontal plate is fixedly connected with a vertical rod, and the vertical rod is connected with a protractor, and the origin of the protractor is connected to With pointer pendant. This solution This technical solution effectively solves the problem that there are reinforcing ribs on the formwork in the prior art, and it is not easy to measure the inclination angle of the formwork. The measured inclination is relatively accurate, and the design is simple, easy to operate, and strong in practicability, which is convenient for use in the construction industry. Promote in.

Description

Template inclination measuring instrument

technical field

The utility model belongs to the technical field of measuring inclination.

Background technique

With the continuous development of urban construction, the shape of buildings is becoming more and more changeable, and formwork components in the form of inclined columns and walls are widely used. Such formwork is prone to the problem of formwork inclination deviation in the formwork support process, which will affect the formwork. The force and final forming effect need to be corrected in time. In addition, in the process of building formwork design, there may be situations where the overhanging surface of the formwork body is too large, or the span is too large. In this case, the connection surface of the formwork itself can withstand If the load is limited, add a reinforcing rib on the common vertical surface of the two combined bodies to increase the strength of the combined surface.

The Chinese utility model patent with the authorized notification number CN204757980U discloses an inclination measuring instrument, which includes a housing, a rotating shaft, an angle meter, a pointer and a pointer pendant; the rotating shaft is connected to the center point of the housing; the angle meter passes through the center point of the housing , connected to the lower part of the housing; the pointer is connected to the rotating shaft; the pointer pendant is connected to the lower part of the pointer; wherein, the upper part of the housing is provided with a vertical mark, and the vertical mark is perpendicular to the angle meter.

In the prior art, when measuring the formwork, manual operation is prone to deviation, so it is impossible to determine whether the longitudinal mark can be accurately aligned with the formwork to be measured, which will lead to inaccurate measurement results. It is difficult to check the inclination in the machine, and the usual equipment operation is also very inconvenient.

Utility model content

The utility model intends to provide a formwork inclination measuring instrument to solve the problem in the prior art that there are reinforcing ribs on the formwork and it is not easy to measure the inclination angle of the formwork.

In order to achieve the above object, the basic solution of the utility model provides a formwork inclination measuring instrument, which includes a horizontal plate, and one side of the horizontal plate is evenly distributed with four support legs for contacting the formwork, wherein the adjacent two A spirit level is connected between the two support legs, and the support legs are screwed to the horizontal plate, and the other side of the horizontal plate is fixedly connected with a vertical bar, and the vertical bar is connected with a protractor, and the protractor A pointer pendant is connected to the origin.

The technical principle and beneficial effects of this scheme are: first place the four supporting legs of the device on the surface of the template to be measured, while observing the position of the air bubbles in the level, manually move the entire device and adjust the length of the supporting legs, when the level When the air bubble in the level is at the midpoint of the level, it can be determined that the two support legs connected to the level are on the same plane. Since the four support legs are evenly distributed on the level plate, the other two support legs can be determined by adjusting the length of the support legs. stable, so that the horizontal plate of the device and the template to be tested are in a state parallel to each other; in addition, if the template to be tested is provided with reinforcing ribs, the measurement can be performed by adjusting the length of the supporting legs to be higher than the reinforcing ribs, so that The horizontal plate and the template to be tested are parallel to each other, and the protruding lengths of the four supporting legs are consistent. Under the state of gravity, the pointer is always perpendicular to the ground, the vertical rod is perpendicular to the horizontal plate, and the vertical rod is perpendicular to the template to be tested. Since the pointer is connected to the origin of the protractor, the template to be tested The angle of inclination is the same as the offset angle displayed by the pointer falling on the protractor, so the inclination angle of the measured template can be determined by reading the reading of the protractor.

This technical solution effectively solves the problem that there are reinforcing ribs on the template in the prior art, and it is not easy to measure the inclination angle of the template. By confirming that the horizontal plate in the device is parallel to the template to be tested, it is measured that the pointer falls on the protractor The displayed offset angle can then be used to obtain the inclination angle of the template to be tested. This scheme is simple in design, easy to operate, strong in practicability, and easy to promote in the construction industry.

Preferred option 1, as a further optimization of the basic solution, one end of the support leg is connected to a horizontal plate, and the other end of the support leg is detachably connected with a contact head; due to the fact that the template to be measured exists or has a flat or arc surface , using a detachable connection method, it is convenient for people to replace the contact head on the flat surface or the contact head on the arc surface according to the actual surface of the template to be tested, so as to increase the contact area between the overall device and the template to be tested, so that The measuring instrument designed in this scheme maintains a relatively stable state when measuring the inclination of the template.

The preferred option 2, as a further optimization of the preferred option 1, the free end of the support leg and the contact head are detachably connected; the design of the detachable connection is relatively simple, and it is easy to disassemble manually, and the connection stability is better.

Preferred option 3, as a further optimization of preferred option 1, the contact head is a magnet contact head; since the template to be measured in the actual building is usually a metal material such as steel, the use of a magnet contact head can make the measuring instrument and the template to be tested Maintain a relatively stable state between them, which is convenient for adsorption on the template, easy to fix on the template, and convenient for the operator to operate.

Preferred option four, as a further optimization of the basic solution, the support legs are all provided with scale lines; the setting of the scale lines enables people to determine the height of the support legs by observing the scale lines when adjusting the height of the support legs Whether it is consistent, ensure that the horizontal plate is parallel to the template, so as to further maintain the measurement accuracy of the final template inclination.

Preferred option five, as a further optimization of the basic solution, the level is in the shape of a circular arc; since there will be reinforcing ribs on the template to be tested, the level is designed as a circular arc to avoid the reinforcing ribs on the template.

Description of drawings

Fig. 1 is the structural representation of the template inclination measuring instrument of the embodiment of the present utility model;

Fig. 2 is a schematic structural view of the level part of the template inclination measuring instrument according to the embodiment of the present invention.

detailed description

The utility model is described in further detail below by means of specific embodiments:

The reference signs in the drawings of the description include: horizontal plate 1 , support leg 2 , spirit level 3 , vertical rod 4 , protractor 5 , pointer pendant 6 , contact head 7 , scale line 8 , template 9 .

The embodiment is basically as shown in Figure 1: the utility model is a template inclination measuring instrument, comprising a horizontal plate 1, and one side of the horizontal plate 1 is evenly distributed with four support legs 2 for offsetting with the template 9, and the horizontal plate 1 The vertical horizontal plate 1 on the other side is fixedly connected with a vertical rod 4, one end of the support leg 2 is connected to the horizontal plate 1, and the other end of the support leg 2 is detachably connected with a contact head 7, which is a magnetic contact head 7, wherein A level 3 is connected between two adjacent support legs 2, and the level 3 is in the shape of an arc, as shown in Figure 2, the support legs 2 and the horizontal plate 1 are threadedly connected, and the support legs 2 are provided with scale marks 8 , the vertical bar 4 is connected with a protractor 5, and the origin of the protractor 5 is connected with a pointer pendant 6.

During use, at first the four supporting legs 2 of this device are placed on the surface of the template 9 to be measured, while observing the level 3, manually move the whole device and adjust the length of the supporting legs 2, when the air bubbles in the level 3 are on the level 3 Observe the scale line 8 set on the support leg 2 to ensure that the height of the adjusted support leg 2 is the same, and make sure that the two support legs 2 connected with the spirit level 3 are on the same plane. In the case of reinforcing ribs, the level 3 is made into a circular arc shape to avoid damage to the level 3 due to bumping into the reinforcing ribs. Since the four supporting legs 2 are evenly distributed on the horizontal plate 1, the level can be adjusted by adjusting the height of the supporting legs 2. The length determines the stability of the other two support legs 2, and the splined contact head 7 at the free end of the support leg 2 is a magnet contact head 7. On the one hand, the contact head 7 can be replaced according to the surface of the template 9 to be tested to increase the contact with the template 9. On the other hand, it can keep relatively stable with the tested template 9, so that the horizontal plate 1 of the device and the tested template 9 are parallel to each other; in addition, if the tested template 9 There are reinforcing ribs on the top, and the measurement can be carried out by adjusting the length of the supporting legs 2 to be higher than the reinforcing ribs, so that the horizontal plate 1 and the measured template 9 are in a state parallel to each other, and the extended length of the four supporting legs 2 remains unanimous. The pointer pendant 6 is always perpendicular to the ground in the state of gravity, the vertical rod 4 is perpendicular to the horizontal plate 1, and the vertical rod 4 is perpendicular to the template 9 to be tested. Since the pointer pendant 6 is connected to the protractor 5 At the origin of , the inclination angle of the template 9 under test is the same as the offset angle displayed by the pointer pendant 6 on the protractor 5, so that the inclination angle of the template 9 under test can be determined by reading the reading of the protractor 5. By relatively fixing the device and the tested template 9, the horizontal plate 1 and the tested template 9 are parallel to each other, and then by observing the offset angle displayed by the pointer pendant 6 on the protractor 5, the tested template is obtained. 9 inclination angle, the inclination measured by this scheme is more accurate.

What is described above is only the embodiment of the utility model, and common knowledge such as the specific structure and characteristic known in the scheme is not described too much here. It should be pointed out that for those skilled in the art, under the premise of not departing from the structure of the utility model, some deformations and improvements can also be made, and these should also be regarded as the protection scope of the utility model, and these will not affect the utility model. Effects of novel implementations and utility of patents. The scope of protection required by this application shall be based on the content of the claims, and the specific implementation methods and other records in the specification may be used to interpret the content of the claims.

Claims (6)

1. The template inclination measuring instrument is characterized in that: it comprises a horizontal plate, and one side of the horizontal plate is evenly distributed with four supporting legs for contacting the template, wherein a spirit level is connected between two adjacent supporting legs , the supporting legs are threadedly connected with the horizontal plate, and the other side of the horizontal plate is fixedly connected with a vertical rod vertical to the horizontal plate, the vertical rod is connected with a protractor, and the origin of the protractor is connected with a pointer pendant. 2 . The template inclination measuring instrument according to claim 1 , wherein one end of the support leg is connected to the horizontal plate, and a contact head is detachably connected to the other end of the support leg. 3 . 3. The template inclination measuring instrument according to claim 2, characterized in that: the free end of the support leg and the contact head are detachably connected. 4. The template inclination measuring instrument according to claim 2, characterized in that: the contact head is a magnet contact head. 5. The template inclination measuring instrument according to claim 1, characterized in that: the support legs are provided with scale marks. 6. The template inclination measuring instrument according to claim 1, characterized in that: the level is in the shape of an arc.