CN204855122U - A device for detecting building structure component amount of deflection - Google Patents

Abstract

The utility model discloses a device for detecting building structure component amount of deflection, it includes amount of deflection detection device body, amount of deflection detection device body includes that base and the amesdial fixing device who is provided with the amesdial, amesdial fixing device are connected with the base or amesdial fixing device lug connection to base through length control pole removable and/or adjustable length, and be provided with the monitor that is used for real -time supervision amesdial indicating value on amesdial fixing device. The utility model discloses the precision is high, and the error is little, and it is comparatively accurate to measure, carry out real time monitoring through setting up the monitor to the amesdial reading, both the initial deflection of detectable building structure component amount of deflection worth and that add behind the load was worth, can observe the amount of deflection change that the component is adding the lotus in -process again, high accessible length control pole is controlled, can satisfy the not measuring of co -altitude building structure member amount of deflection, simple structure, it is easy and simple to handle, need not carry out professional training to operating personnel and can use.

Description

A kind of device for detecting building structural element amount of deflection

Technical field

The utility model relates to building structure inspection qualification field, particularly relates to a kind of device for detecting building structural element amount of deflection.

Background technology

Amount of deflection is the important indicator during building structure or the deformation of member detect.All corresponding requirements is had to the deflection metrology of building structure or component in many this standard.As specified the security authentication of concrete structure member in " Standard for reliability evaluation of civil buildings " GB50292, should by four inspection items such as load-bearing capacity, the displacement (or distortion) constructing and be unsuitable for continuation carrying and cracks.

Point out in " building structure inspection technical standard " GB50344, the amount of deflection of concrete component, the methods such as laser range finder, spirit-leveling instrument or bracing wire can be adopted to detect.But not high, the operation inconvenience of listed method testing precision in standard and can not monitoring in real time the amount of deflection of building structural element.

Utility model content

For the deficiency of prior art, the utility model provides a kind of device for detecting building structural element amount of deflection.

For detecting a device for building structural element amount of deflection, it comprises deflection detector body; Described deflection detector body comprises base and is provided with the clock gauge stationary installation of clock gauge, and described clock gauge stationary installation to be connected with described base by the cut to lengthen bar of replaceable and/or adjustable length or described clock gauge stationary installation is connected directly to described base; And the monitor be provided with in described clock gauge stationary installation for clock gauge indicating value described in Real-Time Monitoring.

According to one preferred embodiment, described base comprises chassis, be arranged at circular horizontal bubble on chassis and fixed bar, and be evenly provided with on described chassis at least three described for detecting the WidFin bolt of the device levelness of building structural element amount of deflection for regulating.

According to one preferred embodiment, on the fixed bar of described base, the length direction along described fixed bar is provided with multiple first and regulates screw.

According to one preferred embodiment, described clock gauge stationary installation comprise connecting link, be connected with described connecting link be provided with the left side stator of left fixed block and be provided with the right side stator of right fixed block; Wherein, described left side stator and described right side stator have symmetrical structure.

According to one preferred embodiment, described left side stator is symmetrically connected with described connecting link by bolt with described right side stator; Wherein, the right fixed block on the left fixed block on the stator of described left side and described right side stator is combined as fixed block, and described clock gauge stands upside down and is arranged on described fixed block.

According to one preferred embodiment, on the connecting link of described clock gauge stationary installation, the length direction along described connecting link is provided with multiple second and regulates screw.

According to one preferred embodiment, described cut to lengthen bar is provided with second on multiple and described connecting link regulate on screw and described fixed bar first to regulate screw to match the 3rd regulates screw, and described connecting link and/or described fixed bar are connected by the adjustment screw different from described cut to lengthen bar and control the position of described clock gauge.

According to one preferred embodiment, described cut to lengthen bar is removable cut to lengthen bar, the cut to lengthen bar of adjustable length or the cut to lengthen bar of both replaceable also adjustable lengths; Wherein, the length of removable described cut to lengthen bar is 300mm or 1000mm; Wherein, the length adjusting range of the described cut to lengthen bar of adjustable length is 100mm to 1500mm.

According to one preferred embodiment, described clock gauge stationary installation is connected with the fixed bar on described base by bolt.

According to one preferred embodiment, described monitor comprises camera and computing machine; Described camera is arranged at also just to described clock gauge in described clock gauge stationary installation, and described camera is connected to the described computing machine for showing and record described clock gauge indicating value in real time.

Compared with prior art, the beneficial effects of the utility model are:

(1) the utility model adopts clock gauge to make in detect the instrument of building structural element, and its precision is high, and error is little, and it is comparatively accurate to measure;

(2) the utility model is monitored clock gauge reading in real time by arranging monitor, both can detect the initial deflection value of building structural element and the deflection value after adding load, can observe again the amount of deflection change of component in loading process;

(3) the utility model height controls by cut to lengthen bar, can meet the detection of differing heights building structural element amount of deflection;

(4) the utility model structure is simple, and easy and simple to handle, cost of development is low, and not needing to carry out professional training to operating personnel can use.

Accompanying drawing explanation

Fig. 1 is front elevation of the present utility model;

Fig. 2 is right view of the present utility model;

Fig. 3 is vertical view of the present utility model;

Fig. 4 is base front elevation of the present utility model;

Fig. 5 is base vertical view of the present utility model;

Fig. 6 is the structural representation of left side stator in clock gauge stationary installation of the present utility model;

Fig. 7 is the structural representation of right side stator in clock gauge stationary installation of the present utility model;

Fig. 8 is the side view of left side stator or right side stator in clock gauge stationary installation of the present utility model;

Fig. 9 is connecting link structural representation in clock gauge stationary installation of the present utility model;

Figure 10 is cut to lengthen bar schematic diagram of the present utility model.

In above-mentioned accompanying drawing, the component names that Reference numeral is corresponding is as follows:

1-clock gauge stationary installation, 2-clock gauge, 3-cut to lengthen bar, 4-base, stator on the left of 5-, stator on the right side of 6-, 7-fixed block, 8-connecting link, 9-fixed bar, 10-spirit bubble, 11-WidFin bolt, 210-camera, 310-the 3rd regulates screw, 410-chassis, the left fixed block of 510-, the right fixed block of 610-, 810-second regulates screw, and 910-first regulates screw.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail, and embodiment of the present utility model includes but not limited to the following example.

embodiment 1

As shown in Figure 1, Figure 2, Figure 3 shows, it illustrates a kind of device for detecting building structural element amount of deflection, it comprises deflection detector body.Deflection detector body comprises base 4 and is provided with the clock gauge stationary installation 1 of clock gauge 2, and clock gauge stationary installation 1 is connected with base 4 by cut to lengthen bar 3 that is replaceable and/or adjustable length.Clock gauge stationary installation 1 is provided with the monitor for Real-Time Monitoring clock gauge 2 indicating value.

Monitor is preferably camera 210 and computing machine (not shown).Camera 210 is arranged at also just to clock gauge 2 in clock gauge stationary installation 1, and camera 210 is connected to the computing machine for showing and record clock gauge 2 indicating value in real time.Computing machine can be arranged in clock gauge stationary installation 1, also can be the independently computing machine be connected with camera.

As shown in Figure 4, Figure 5, base 4 comprise chassis 410, the circular horizontal bubble 10 and fixed bar 9 be arranged on chassis 410.And be evenly provided with at least three on chassis 410 for regulating the WidFin bolt 11 of the device levelness for detecting building structural element amount of deflection.By rotating horizontal trimming bolt and observing circular horizontal bubble, be used in the device detecting building structural element amount of deflection and be in horizontality.

On the fixed bar 9 of base 4, the length direction along fixed bar 9 is provided with multiple first and regulates screw 910.

As shown in Fig. 2, Fig. 6 to Fig. 9, clock gauge stationary installation 1 comprises connecting link 8, the left side stator 5 being provided with left fixed block 510 be connected with connecting link 8 and the right side stator 6 being provided with right fixed block 610.Wherein, left side stator 5 and right side stator 6 have symmetrical structure.

Left side stator 5 is symmetrically connected with connecting link 8 by bolt with right side stator 6.Wherein, the left fixed block 510 on left side stator 5 is combined as fixed block 7 with the right fixed block 610 on right side stator 6.Clock gauge 2 stands upside down and is arranged on fixed block 7.

On the connecting link 8 of clock gauge stationary installation 1, the length direction along connecting link 8 is provided with multiple second and regulates screw 810.

As shown in Figure 10, cut to lengthen bar 3 is provided with multiple regulate on screw 810 and fixed bar 9 first to regulate screw 910 to match with second on connecting link 8 the 3rd regulate screw 310.Connecting link 8 and/or fixed bar 9 are connected by the adjustment screw different from cut to lengthen bar 3 and control the position of clock gauge 2.Namely by making the second adjustment screw 810 on connecting link 8 regulate screw 310 to be connected with the 3rd of diverse location on cut to lengthen bar 3, or make on fixed bar 9 first to regulate screw 910 to regulate screw 310 to be connected with the 3rd of diverse location on cut to lengthen bar 3, or by regulating the link position of above-mentioned cut to lengthen bar 3, fixed bar 9 and connecting link 8 simultaneously, the adjustment to clock gauge 2 position can be realized.

Cut to lengthen bar 3 is removable cut to lengthen bar, the cut to lengthen bar of adjustable length or the cut to lengthen bar of both replaceable also adjustable lengths.Wherein, the length of removable cut to lengthen bar 3 is 300mm or 1000mm.Wherein, the length adjusting range of the cut to lengthen bar 3 of adjustable length is 100mm to 1500mm.

embodiment 2

The difference of the present embodiment and embodiment 1 is, clock gauge stationary installation 1 is connected directly to base 4.Clock gauge stationary installation 1 is connected with the fixed bar 9 on base 4 by bolt.By regulating on the connecting link 8 of clock gauge stationary installation 1 second annexation regulating on screw 810 and the fixed bar 9 of base 4 first to regulate screw 910, realize the adjustment to clock gauge 2 position.All the other structures are identical with embodiment 1.

According to above-described embodiment, just the utility model can be realized well.What deserves to be explained is; under prerequisite based on said structure design; for solving same technical matters; even if some making on the utility model are without substantial change or polishing; the essence of the technical scheme adopted is still the same with the utility model, therefore it also should in protection domain of the present utility model.

Claims (10)

1. for detecting a device for building structural element amount of deflection, it is characterized in that, comprising deflection detector body; Described deflection detector body comprises base (4) and is provided with the clock gauge stationary installation (1) of clock gauge (2), and described clock gauge stationary installation (1) is connected with described base (4) by cut to lengthen bar (3) that is replaceable and/or adjustable length;

Or described clock gauge stationary installation (1) is connected directly to described base (4);

Described clock gauge stationary installation (1) is provided with the monitor for clock gauge described in Real-Time Monitoring (2) indicating value.

2. the device for detecting building structural element amount of deflection according to claim 1, it is characterized in that, described base (4) comprises chassis (410), circular horizontal bubble (10) and the fixed bar (9) be arranged on chassis (410), and be evenly provided with on described chassis (410) at least three for described in regulating for detecting the WidFin bolt (11) of the device levelness of building structural element amount of deflection.

3. the device for detecting building structural element amount of deflection according to claim 2, is characterized in that, the fixed bar (9) in described base (4) is upper, the length direction of described fixed bar (9) is provided with multiple first regulates screw (910).

4. the device for detecting building structural element amount of deflection according to claim 3, it is characterized in that, described clock gauge stationary installation (1) comprise connecting link (8), be connected with described connecting link (8) be provided with the left side stator (5) of left fixed block (510) and be provided with the right side stator (6) of right fixed block (610);

Wherein, described left side stator (5) and described right side stator (6) have symmetrical structure.

5. the device for detecting building structural element amount of deflection according to claim 4, is characterized in that, described left side stator (5) is symmetrically connected with described connecting link (8) by bolt with described right side stator (6);

Wherein, the left fixed block (510) on described left side stator (5) is combined as fixed block (7) with the right fixed block (610) on described right side stator (6), and described clock gauge (2) stands upside down and is arranged on described fixed block (7).

6. the device for detecting building structural element amount of deflection according to claim 5, it is characterized in that, on the connecting link (8) of described clock gauge stationary installation (1), the length direction along described connecting link (8) is provided with multiple second and regulates screw (810).

7. the device for detecting building structural element amount of deflection according to claim 6, it is characterized in that, described cut to lengthen bar (3) is provided with second on multiple and described connecting link (8) regulate on screw (810) and described fixed bar (9) first to regulate screw (910) to match the 3rd regulates screw (310)

Described connecting link (8) and/or described fixed bar (9) control the position of described clock gauge (2) by being connected from the upper different adjustment screw of described cut to lengthen bar (3).

8. the device for detecting building structural element amount of deflection according to claim 7, it is characterized in that, the cut to lengthen bar of the cut to lengthen bar that described cut to lengthen bar (3) is removable cut to lengthen bar, adjustable length or both replaceable also adjustable length;

Wherein, the length of removable described cut to lengthen bar (3) is 300mm or 1000mm;

Wherein, the length adjusting range of the described cut to lengthen bar (3) of adjustable length is 100mm to 1500mm.

9. the device for detecting building structural element amount of deflection according to claim 6, is characterized in that, described clock gauge stationary installation (1) is connected with the fixed bar (9) on described base (4) by bolt.

10. according to the device for detecting building structural element amount of deflection one of claim 1 to 9 Suo Shu, it is characterized in that, described monitor comprises camera (210) and computing machine;

It is upper also just to described clock gauge (2) that described camera (210) is arranged at described clock gauge stationary installation (1), and described camera (210) is connected to the described computing machine for showing and record described clock gauge (2) indicating value in real time.