CN217980303U - Detection equipment for perpendicularity of construction engineering quality - Google Patents

Abstract

The utility model relates to a building straightness detection device that hangs down field provides a check out test set for building engineering quality hangs down, its mainly used detects the straightness that hangs down of building, including the support body, locate backup plate on the support body, locate center ring on the support body, locate hammer line on the center ring slidable, connect weight on the hammer line, locate the straightness calibrated scale that hangs down on the support body, locate the levelness calibrated scale on the support body, hang down the straightness calibrated scale with 90 degrees settings between the levelness calibrated scale. The back plate is abutted against the wall surface, the degree of the hammer line on the verticality dial is read out, the verticality of the building is measured, the back plate can also be abutted against the ground, the hammer line slides along the center ring, the degree of the hammer line on the horizontality dial is read out, the horizontality of the ground on the periphery of the building is obtained, the building can be better detected, and the technical problem that the existing building verticality detection device cannot detect the horizontality of the ground on the periphery of the building is solved.

Description

Detection equipment for constructional engineering quality verticality

Technical Field

The utility model relates to a building straightness detection device that hangs down field especially relates to a check out test set for building engineering quality hangs down straightness.

Background

In the building work progress, need adopt the straightness that hangs down check out test set to detect the straightness that hangs down of building, if the straightness skew that hangs down is too many, can influence the bearing of whole building, influences the quality of building, and the acceptance check in-process also needs carry out the detection of straightness that hangs down, if not up to standard, leads to acceptance check unqualified, needs to reform transform again, not only consumes the cost, and makes the time that whole time limit for a project dragged. The existing verticality detection equipment usually adopts a heavy hammer and a dial to detect the verticality of a building, can only detect the verticality of the building, is difficult to detect the levelness of the ground around the building, needs other equipment for detection, and is slow in detection.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a check out test set for building engineering quality hangs down straightness. The building verticality detection device solves the technical problem that the existing building verticality detection device cannot detect the levelness of the ground around a building.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a check out test set for building engineering quality hangs down, includes the support body, locate backup plate on the support body, locate center ring on the support body, locate hammer line on the center ring slidable, connect weight on the hammer line, locate the straightness calibrated scale that hangs down on the support body, locate the levelness calibrated scale on the support body, hang down straightness calibrated scale with 90 degrees settings between the levelness calibrated scale.

And further:

be equipped with two card portion of putting on the centre ring, two card portions of putting correspond to straightness calibrated scale and levelness calibrated scale respectively, be equipped with the sliding ring on the hammer line, the sliding ring can block the card that arranges two card portions of putting in groove.

The clamping part is a protrusion, and the clamping groove is a groove capable of being inserted into the protrusion.

The hammer line is fixed on the slip ring and is positioned right below the clamping groove.

A handle is arranged on the frame body.

The frame body is provided with a sliding groove, a sliding seat is arranged on the sliding groove in a sliding mode, and the backup plate is arranged on the sliding seat.

The lead screw is rotationally arranged on the frame body, the sliding seat is in threaded connection with the lead screw, and one end of the lead screw is connected with a rotating piece.

The backup plate is detachably fixed on the sliding seat through a buckle or a bolt.

The upper part of the side edge of the leaning plate is provided with a leaning part.

By adopting the technical scheme, the beneficial effects of the utility model are that:

the utility model can be pressed against the wall surface through the backup plate, the degree of the hammer line on the dial scale of the verticality can be read out, the verticality of the building can be measured, the backup plate can be pressed against the ground, the hammer line slides along the center ring, the degree of the hammer line on the dial scale of the horizontality can be read out, the levelness of the ground around the building can be obtained, the building can be better detected, and the detection is quick and simple; furthermore, the hammer line is clamped on the clamping parts of the two slip rings through the slip ring, so that the measurement is more accurate; furthermore, the backup plate can slide on the sliding seat, and can detect a higher position, so that the detection effect is improved; furthermore, the backup plate is driven to lift through the rotation of the screw rod, so that the lifting of the backup plate is more stable; furthermore, the backup plates are detachably connected, and backup rods with different lengths can be replaced to detect the higher part of the building; furthermore, the upper portion on backup plate side edge is equipped with the portion of leaning on, and the portion of leaning on supports and leans on in the building, and the lower part on backup plate side edge does not contact with the building, the straightness that hangs down of detectable building eminence more.

Drawings

FIG. 1 is a schematic structural diagram of the detection device for detecting the building verticality of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 with the backup plate raised;

FIG. 3 is a schematic diagram of a structure of the detection device for detecting the levelness of the ground;

fig. 4 is a schematic view of the slip ring structure.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 4, the present embodiment provides a detection apparatus for building engineering quality verticality, including a frame body 1, a backup plate 2 disposed on the frame body 1, a center ring 3 disposed on the frame body 1, a hammer line 41 slidably disposed on the center ring 3, a heavy hammer 42 connected to the hammer line 41, a verticality dial 5 disposed on the frame body 1, a levelness dial 6 disposed on the frame body 1, and a 90-degree arrangement between the verticality dial 5 and the levelness dial 6. Be equipped with two card portions of putting 30 on the center ring 3, card portion of putting 30 is protruding, two card portions of putting 30 are corresponding to straightness calibrated scale 5 and levelness calibrated scale 6 of hanging down respectively, be equipped with the sliding ring 43 on the hammer line 41, the sliding ring 43 can block the card groove 430 of arranging two card portions of putting 30 in, card groove 430 is for inserting bellied recess, hammer line 41 is fixed in and is located card groove 430 under on the sliding ring 43, be equipped with leader 7 on the support body 1, be equipped with spout 11 on the support body 1, be equipped with slide 12 on the spout 11 slidable, backup plate 2 locates on slide 12, rotationally be equipped with lead screw 13 on the support body 1, slide 12 threaded connection is in lead screw 13, a rotating member 14 is connected to lead screw 13 one end, the upper portion on backup plate 2 side edges is equipped with support portion 20.

Above-mentioned also can not set up spout 11 on the support body 1, backup plate 2 is the nonslidable setting promptly, and this kind of structure is difficult to measure the straightness that hangs down of the higher department of building, and backup plate 2 also can be with support body 1 integrated into one piece, specifically sets up as the circumstances.

The center ring 3 may not be provided with the engaging portion 30, and this structure may cause a vertical deviation and cause inaccurate measurement.

The handle 7 may be omitted, and will not be described in detail herein.

The backrest plate 2 may be fastened to the slide 12 by means of a snap, a bolt or other means, as is known in the art and as appropriate.

The abutting part 20 is not arranged on the upper part of the side edge of the backup plate 2, so that the whole side edge of the backup plate 2 abuts against a building.

The rotating member 14 is a well-known component and will not be described in detail herein.

The utility model discloses a working method is:

in the utility model, the clamping groove 430 of the slip ring 43 is inserted into the clamping part 30 of the center ring 3 corresponding to the verticality dial 5, as shown in fig. 1, the backup plate 2 is pressed against the wall surface, the degree of the hammer line 41 on the verticality dial 5 is read, and the verticality of the building is measured; when the perpendicularity of the higher position of the building needs to be detected, the rotating piece 14 rotates, so that the sliding seat 12 and the backup plate 2 are lifted, as shown in fig. 2, the backup plate 2 can be abutted against the higher position of the building, and the perpendicularity of the higher position of the building can be detected; insert the card of sliding ring 43 and put the portion of putting 430 on the card portion of putting 30 that corresponds levelness calibrated scale 6 department on the center ring 3, support backup plate 2 on ground, like figure 3, read out the number of degrees of hammer line 41 on levelness calibrated scale 6, obtain the levelness on building week side ground, simple and practical.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a check out test set for building engineering quality hangs down which characterized in that: including the support body, locate backup plate on the support body, locate center ring on the support body, locate the hammer line on the center ring slidable, connect weight on the hammer line, locate the straightness calibrated scale that hangs down on the support body, locate the levelness calibrated scale on the support body, hang down straightness calibrated scale with 90 degrees settings between the levelness calibrated scale.

2. The detection device for the perpendicularity of the construction engineering quality as recited in claim 1, wherein: be equipped with two card portion of putting on the centre ring, two card portions of putting correspond to straightness calibrated scale and levelness calibrated scale respectively, be equipped with the sliding ring on the hammer line, the sliding ring can block the card that arranges two card portions of putting in groove.

3. The equipment for detecting the verticality of the construction engineering quality according to claim 2, characterized in that: the clamping part is a protrusion, and the clamping groove is a groove capable of being inserted into the protrusion.

4. A detection device for the verticality of the quality of construction projects according to claim 3, characterized in that: the hammer line is fixed on the slip ring and is positioned right below the clamping groove.

5. The detection device for the perpendicularity of the construction engineering quality as recited in claim 1, wherein: a handle is arranged on the frame body.

6. The apparatus for detecting the verticality of the construction engineering quality according to any one of claims 1 to 5, wherein: the frame body is provided with a sliding groove, a sliding seat is arranged on the sliding groove in a sliding mode, and the backup plate is arranged on the sliding seat.

7. The detection device for the perpendicularity of the construction engineering quality as recited in claim 6, wherein: the lead screw is rotationally arranged on the frame body, the sliding seat is in threaded connection with the lead screw, and one end of the lead screw is connected with a rotating piece.

8. The detection device for the perpendicularity of the construction engineering quality as recited in claim 6, wherein: the backup plate is detachably fixed on the sliding seat through a buckle or a bolt.

9. The detection device for the perpendicularity of the construction engineering quality as recited in claim 6, wherein: the upper part of the side edge of the leaning plate is provided with a leaning part.

Images