CN205718990U - A kind of device detecting elevator perpendicularity and headroom size - Google Patents

Abstract

A kind of device detecting elevator perpendicularity and headroom size, including fixed support, laterally survey chi, longitudinally survey chi and laser zenith telescope, fixed support is H-shaped structure, it is additionally provided with the second four-way contiguous block on linkage section, longitudinally surveys chi and be perpendicular to linkage section and arrange and pass and be fixed on the second four-way contiguous block；Being positioned at the fixed support section of elevator to be provided with and laterally survey chi, laterally survey chi and be parallel to linkage section and arrange, and laterally survey chi and fixed by the first four-way contiguous block with longitudinally survey chi intersection location, the first four-way contiguous block is provided with through hole.By using said structure, it is ensured that elevator perpendicularity and the high efficiency of headroom size detection and pinpoint accuracy.

Description

A kind of device detecting elevator perpendicularity and headroom size

Technical field

This utility model relates to building detection technique field, particularly a kind of detection elevator perpendicularity and headroom size Device.

Background technology

The building elevator built up must be carried out before installing elevator elevator perpendicularity and the inspection of headroom size Surveying, existing commonly used detection method is that ribbon joined by employing suspension weight line or total powerstation is directly measured.Hang weight line to join Although ribbon method is simple, but need to prepare oil drum and weight, in addition it is also necessary to completing as measuring table by hanging basket, one is Preparation is many, the most time-consumingly；Two is that safety guarantee difficulty is big；Three be the elevator discrepancy in elevation big time, plumb bob poor stability, measure essence Degree cannot ensure.Total powerstation direct measuring method is direct, but needs by repeatedly building instrument platform, and repeatedly base is measured in transmission Standard just can complete, and one is to set for this platform time-consuming, and efficiency is low；Two is that measuring basis repeatedly transmits the error brought greatly, causes Certainty of measurement cannot ensure.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of dress detecting elevator perpendicularity and headroom size Put, it is possible to increase building elevator perpendicularity and the efficiency of headroom size detection and precision.

For solving above-mentioned technical problem, this utility model be the technical scheme is that a kind of detection elevator perpendicularity With the device of headroom size, including fixed support, laterally surveying chi, longitudinally survey chi and laser zenith telescope, fixed support is H-shaped structure Body, with support bracket fastened linkage section as boundary line, the fixed support section of linkage section side is fixed on job platform, linkage section another It is interior and unsettled that the fixed support of side stretches into elevator；

The fixed support section being positioned at elevator is provided with slideway, and linkage section is additionally provided with the second four-way contiguous block, longitudinally Survey chi to be perpendicular to linkage section and arrange and pass and be fixed on the second four-way contiguous block；

It is positioned at the fixed support section of elevator to be provided with and laterally survey chi, laterally surveys chi and be parallel to linkage section and arrange, and horizontal Being fixed by the first four-way contiguous block with longitudinally survey chi intersection location to surveying chi, the first four-way contiguous block is provided with through hole.

Preferably in scheme, described laterally survey chi can be perpendicular to the side of linkage section upwardly along the cunning on fixed support Road slides；

Longitudinally surveying chi, the first four-way contiguous block and the second four-way contiguous block can be in linkage section side upwardly along on linkage section Slideway slides.

Preferably in scheme, the first described four-way contiguous block also tilting to be provided with illuminator, illuminator is towards operation horizontal Platform direction is arranged diagonally downward.

Preferably in scheme, the first described four-way contiguous block and the second four-way contiguous block are provided with longitudinal ruler groove, longitudinally Surveying chi to be arranged on longitudinal ruler groove, the first four-way contiguous block and fixed support are positioned at one end of elevator and are provided with horizontal chi Groove, laterally surveys chi and is arranged on horizontal chi groove.

Preferably in scheme, described chi two ends of laterally surveying are provided with transversal stretching Sopwith staff, longitudinally survey chi and are positioned at elevator One end be provided with longitudinal extension Sopwith staff.

Preferably in scheme, described longitudinal direction is surveyed chi and is provided with zero point baffle plate near one end of job platform.

A kind of device detecting elevator perpendicularity and headroom size that this utility model provides, by using above-mentioned knot Structure, it is possible to be more applicable for the elevator perpendicularity in skyscraper house and the detection operation of headroom size, measures scale and makes Low cost, method are simple to operation, and precision is high, it is adaptable to various building elevator perpendicularity and headroom size detection；Method saves Shi Shengli, safety is good, efficiency is high, can ensure that precision and cost-effective；Whole measurement scale ensure that elevator perpendicularity and The high efficiency of headroom size detection and pinpoint accuracy.

Accompanying drawing explanation

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings:

Fig. 1 is plan structure schematic diagram of the present utility model.

Fig. 2 is measurement scale portion structural representation of the present utility model.

Fig. 3 is the Section A-A sectional structure schematic diagram of this utility model Fig. 2.

Fig. 4 is the section B-B sectional structure schematic diagram of this utility model Fig. 2.

Fig. 5 is measuring point distribution schematic diagram of the present utility model.

Fig. 6 be this utility model detection during face structural representation.

In figure: fixed support 1, laterally survey chi 2, longitudinally survey chi 3, the first four-way contiguous block 4, the second four-way contiguous block 5, lead to Hole 6, illuminator 7, longitudinal ruler groove 8, fluorescent screen 9, zero point baffle plate 10, horizontal chi groove 11, laser zenith telescope 12, linkage section 101, horizontal To flexible Sopwith staff 201, longitudinal extension Sopwith staff 301.

Detailed description of the invention

A kind of device detecting elevator perpendicularity and headroom size, including fixed support 1, laterally survey chi 2, longitudinally survey chi 3 and laser zenith telescope 12, fixed support 1 is H-shaped structure, with the linkage section 101 of fixed support 1 as boundary line, and linkage section 101 1 The fixed support of side 1 section is fixed on job platform, and it is interior and unsettled that the fixed support 1 of linkage section 101 opposite side stretches into elevator；

The fixed support 1 section being positioned at elevator is provided with slideway, and linkage section 101 is additionally provided with the second four-way contiguous block 5, Longitudinally survey chi 3 to be perpendicular to linkage section 101 and arrange and pass and be fixed on the second four-way contiguous block 5；

The fixed support 1 section being positioned at elevator is provided with laterally survey chi 2, and horizontal survey chi 2 is parallel to linkage section 101 and sets Put, and laterally survey chi 2 and longitudinally survey chi 3 intersection location are fixing by the first four-way contiguous block 4, and the first four-way contiguous block 4 sets There is through hole 6.

Preferably in scheme, described laterally survey chi 2 can be perpendicular to the side of linkage section 101 upwardly along fixed support 1 On slideway slide；

Longitudinally survey chi the 3, first four-way contiguous block 4 and the second four-way contiguous block 5 can be linkage section 101 side upwardly along connection Slideway in section 101 slides.

Preferably in scheme, the first described four-way contiguous block 4 also tilting to be provided with illuminator 7, illuminator 7 is towards operation Platform direction is arranged diagonally downward.

Preferably in scheme, the first described four-way contiguous block 4 and the second four-way contiguous block 5 are provided with longitudinal ruler groove 8, vertical Being arranged on longitudinal ruler groove 8 to surveying chi 3, the first four-way contiguous block 4 and fixed support 1 are positioned at one end of elevator and are provided with horizontal stroke To chi groove 11, laterally survey chi 2 and be arranged on horizontal chi groove 11.

Preferably in scheme, described chi 2 two ends of laterally surveying are provided with transversal stretching Sopwith staff 201, longitudinally survey chi 3 and are positioned at elevator One end in well is provided with longitudinal extension Sopwith staff 301.

Preferably in scheme, described longitudinal direction is surveyed chi 3 and is provided with zero point baffle plate 10 near one end of job platform.

Using said structure, it is provided that cost of manufacture is low, method is simple to operation, precision is high, it is adaptable to various buildings electricity The detection device of stair shaft perpendicularity and headroom size, it is ensured that elevator perpendicularity and the high efficiency of headroom size detection and high-precision Exactness.

Claims (6)

1. detect elevator perpendicularity and a device for headroom size, including fixed support (1), laterally survey chi (2), longitudinally survey Chi (3) and laser zenith telescope (12), is characterized in that: fixed support (1) is H-shaped structure, with the linkage section of fixed support (1) (101) being boundary line, fixed support (1) section of linkage section (101) side is fixed on job platform, linkage section (101) opposite side Fixed support (1) stretch in elevator and unsettled；

Fixed support (1) section being positioned at elevator is provided with slideway, and linkage section (101) is additionally provided with the second four-way contiguous block (5), longitudinally survey chi (3) to be perpendicular to linkage section (101) and arrange and pass and be fixed on the second four-way contiguous block (5)；

It is positioned at fixed support (1) section of elevator to be provided with and laterally survey chi (2), laterally surveys chi (2) and be parallel to linkage section (101) Setting, and it is fixing by the first four-way contiguous block (4) with longitudinally survey chi (3) intersection location laterally to survey chi (2), the first four-way connects Block (4) is provided with through hole (6).

A kind of device detecting elevator perpendicularity and headroom size the most according to claim 1, is characterized in that: described Laterally survey chi (2) to slide upwardly along the slideway on fixed support (1) in the side being perpendicular to linkage section (101)；

Longitudinally survey chi (3), the first four-way contiguous block (4) and the second four-way contiguous block (5) can linkage section (101) just upwardly along Slideway on linkage section (101) slides.

A kind of device detecting elevator perpendicularity and headroom size the most according to claim 1 and 2, is characterized in that: institute Also tilting to be provided with illuminator (7) on the first four-way contiguous block (4) stated, illuminator (7) is towards job platform direction diagonally downward Arrange.

A kind of device detecting elevator perpendicularity and headroom size the most according to claim 3, is characterized in that: described First four-way contiguous block (4) and the second four-way contiguous block (5) are provided with longitudinal ruler groove (8), longitudinally survey chi (3) and are arranged on longitudinal ruler On groove (8), the first four-way contiguous block (4) and fixed support (1) are positioned at one end of elevator and are provided with horizontal chi groove (11), horizontal It is arranged on horizontal chi groove (11) to surveying chi (2).

A kind of device detecting elevator perpendicularity and headroom size the most according to claim 1, is characterized in that: described Laterally surveying chi (2) two ends and be provided with transversal stretching Sopwith staff (201), one end that longitudinal survey chi (3) is positioned at elevator is provided with longitudinal direction Flexible Sopwith staff (301).

A kind of device detecting elevator perpendicularity and headroom size the most according to claim 1, is characterized in that: described Longitudinally survey chi (3) and be provided with zero point baffle plate (10) near one end of job platform.