CN107907104B - Concrete wall pouring template perpendicularity detection device and detection method - Google Patents

Abstract

The invention discloses a concrete wall pouring template perpendicularity detection device and a detection method, and solves the problem that the existing wall template perpendicularity detection method is poor in detection data accuracy. The measuring scale is fixedly arranged on the lower portion of the vertical rod sleeve (1) to support the ram (12), the top end of the lifting vertical rod (7) is fixedly provided with an infrared plummet instrument horizontal supporting rod (13), the infrared plummet instrument horizontal supporting rod (14) is arranged on the infrared plummet instrument horizontal supporting rod (13), a steel ball (15) is arranged on the outer end side face of the infrared plummet instrument horizontal supporting rod (13), the vertical rod sleeve (1) and the measuring scale support the ram (12) to form a 90-degree angle, the infrared plummet instrument horizontal supporting rod (13) and the vertical rod sleeve (1) form a 90-degree angle, and the measuring ruler (17) is arranged on the measuring scale to support the ram (12) after passing through the measuring scale through hole (16). The detection operation is simple, the labor intensity of the measuring personnel is low, and the measuring period is short.

Description

Concrete wall pouring template perpendicularity detection device and detection method

Technical Field

The invention relates to a device for detecting the perpendicularity of a building wall template, in particular to a device and a method for detecting the perpendicularity of the template during main body construction.

Background

At present, in the concrete wall construction of building subject, need first carry out wall template and erect, then carry out wall concrete placement, after wall template erects and accomplishes, will prop up the good wall template straightness that hangs down and detect whether its straightness that hangs down meets the standard requirement, prior art is after wall template shaping, utilizes the method of line weight plumb line to measure the straightness that hangs down of wall template, and the concrete process is: an operating personnel climbs the top that detects wall form, from top to bottom hang the line and weigh down, in addition alone at the template lower extreme, utilize ruler measure template side and the line distance of weighing down between, after the measurement through a plurality of points, compare measured data, whether perpendicular in order to judge wall form, this kind of detection method has artificial operating error big, under the high higher condition of wall form, it is big that still there is the line to weigh down the range of swaying, the data accuracy that leads to surveying is not high, additionally, still there is survey personnel intensity of labour big, the potential safety hazard is many and the problem of measuring cycle length.

Disclosure of Invention

The invention provides a concrete wall pouring template perpendicularity detection device and a detection method, and solves the problem that the existing wall template perpendicularity detection method is poor in detection data accuracy.

The invention solves the technical problems by the following technical scheme:

the utility model provides a concrete wall pours template straightness detection device that hangs down, including wall form, one side activity at wall form is provided with the pole setting sleeve, install the level bubble on the pole setting sleeve, it supports the ram to be provided with the dipperstick in the telescopic lower part of pole setting is fixed, the fixed infrared plummet appearance horizontal support pole that is provided with in top of lift pole setting, be provided with infrared plummet appearance on infrared plummet appearance horizontal support pole, be provided with the steel ball on infrared plummet appearance horizontal support pole's outer end side, the pole setting sleeve supports the ram with the dipperstick and becomes 90 degrees angles, infrared plummet appearance horizontal support pole becomes 90 degrees angles with the pole setting sleeve, be provided with the dipperstick clearing hole on the pole setting sleeve of ram junction is supported with the dipperstick, it sets up on the dipperstick supports the ram after the dipperstick passes through the dipperstick clearing hole to measure the ruler.

The head of the measuring ruler is provided with an arc-shaped end face, the supporting ram of the measuring ruler is provided with a positioning pin of the measuring ruler, and the steel ball on the side face of the outer end of the horizontal supporting rod of the infrared plumb bob instrument and the arc-shaped end face arranged at the head of the measuring ruler are respectively connected to the wall template in a propping manner.

The activity is provided with the lift pole setting in the pole setting sleeve, be provided with the lift snap ring between pole setting sleeve and lift pole setting, be provided with the spacing block tongue of lift between lift snap ring and lift pole setting, be provided with L shape horizontal connecting piece at the telescopic middle part of pole setting, L shape horizontal connecting piece is in the same place through connecting bolt and pole setting muffjoint, hinge seat and back hinge seat before being provided with respectively on the pole setting sleeve, it has preceding leg bar of telescopic to articulate on the hinge seat in the front, it has telescopic back leg bar to articulate on the hinge seat of back, the telescopic bottom of pole setting is the toper, the bottom of preceding leg bar and the bottom of back leg bar are the toper.

A concrete wall pouring template perpendicularity detection method comprises the following steps:

the method comprises the following steps that firstly, a measuring scale supporting ram is fixedly arranged at the lower part of a vertical rod sleeve, an infrared plumb bob instrument horizontal supporting rod is fixedly arranged at the top end of a lifting vertical rod, an infrared plumb bob instrument is arranged on the infrared plumb bob instrument horizontal supporting rod, a steel ball is arranged on the outer end side surface of the infrared plumb bob instrument horizontal supporting rod, the vertical rod sleeve and the measuring scale supporting ram form a 90-degree angle, the infrared plumb bob instrument horizontal supporting rod and the vertical rod sleeve form a 90-degree angle, a measuring scale through hole is formed in the vertical rod sleeve at the joint of the measuring scale supporting ram, and a measuring scale is arranged on the measuring scale supporting ram after passing through the measuring scale through hole;

secondly, supporting a vertical rod sleeve outside a wall formwork, butting steel balls on the side surface of the outer end of a horizontal supporting rod of the infrared plumb bob instrument against the wall formwork, and observing leveling bubbles mounted on the vertical rod sleeve by adjusting a front supporting rod and a rear supporting rod connected on an L-shaped horizontal connecting piece arranged in the middle of the vertical rod sleeve to keep the vertical rod sleeve in a vertical state with the ground;

thirdly, abutting an arc-shaped end face arranged at the head of the measuring ruler on a wall template, and reading the reading of the measuring ruler according to infrared rays downwards emitted by the infrared plummet;

and fourthly, adjusting the height of the lifting vertical rod, repeating the second step to the third step to obtain the reading of the measured point on the other wall formwork, and comparing the reading with the reading obtained in the third step to judge the perpendicularity error of the wall formwork.

The template verticality detection data obtained by the method is high in accuracy, simple in detection operation, low in labor intensity of measuring personnel and short in measuring period.

Drawings

FIG. 1 is a schematic view of the structure of the detecting unit of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention during detection;

FIG. 3 is a diagram of the fit between the support ram 12 of the measuring tape and the measuring straightedge 17 of the present invention;

fig. 4 is a schematic view of the structure of the measuring straightedge 17 of the present invention.

Description of the preferred embodiment

The invention is described in detail below with reference to the accompanying drawings:

the utility model provides a concrete wall pours template straightness detection device that hangs down, including wall form 20, one side activity at wall form 20 is provided with pole setting sleeve 1, install level bubble 4 on pole setting sleeve 1, fixed dipperstick support ram 12 that is provided with in the lower part of pole setting sleeve 1, fixed infrared plummet appearance horizontal support pole 13 that is provided with in the top of lift pole setting 7, be provided with infrared plummet appearance 14 on infrared plummet appearance horizontal support pole 13, be provided with steel ball 15 on infrared plummet appearance horizontal support pole 13's outer end side, pole setting sleeve 1 supports ram 12 with the dipperstick and becomes 90 degrees angles, infrared plummet appearance horizontal support pole 13 becomes 90 degrees with pole setting sleeve 1, be provided with dipperstick 16 on the pole setting sleeve 1 with dipperstick support ram 12 junction, set up on dipperstick support ram 12 after measuring ruler 17 passes through dipperstick 16.

The head of the measuring ruler 17 is provided with an arc-shaped end face 18, the measuring ruler supporting ram 12 is provided with a measuring ruler positioning pin 19, and the steel ball 15 on the outer end side face of the infrared plumb bob instrument horizontal supporting rod 13 and the arc-shaped end face 18 arranged at the head of the measuring ruler 17 are respectively connected to the wall formwork 20 in a propping mode.

The lifting vertical rod sleeve 1 is movably provided with a lifting vertical rod 7, a lifting clamping ring 5 is arranged between the vertical rod sleeve 1 and the lifting vertical rod 7, a lifting limiting clamping tongue 6 is arranged between the lifting clamping ring 5 and the lifting vertical rod 7, an L-shaped horizontal connecting piece 2,L is arranged in the middle of the vertical rod sleeve 1 and connected with the vertical rod sleeve 1 through a connecting bolt 3, a front hinge seat 8 and a rear hinge seat 9 are respectively arranged on the vertical rod sleeve 1, a telescopic front supporting leg rod 10 is hinged on the front hinge seat 8, a telescopic rear supporting leg rod 11 is hinged on the rear hinge seat 9, the bottom end of the vertical rod sleeve 1 is conical, and the bottom end of the front supporting leg rod 10 and the bottom end of the rear supporting leg rod 11 are conical.

A concrete wall pouring template perpendicularity detection method comprises the following steps:

firstly, fixedly arranging a measuring scale supporting ram 12 at the lower part of an upright rod sleeve 1, fixedly arranging an infrared plumb bob instrument horizontal supporting rod 13 at the top end of a lifting upright rod 7, arranging an infrared plumb bob instrument 14 on the infrared plumb bob instrument horizontal supporting rod 13, arranging a steel ball 15 on the outer end side surface of the infrared plumb bob instrument horizontal supporting rod 13, forming a 90-degree angle between the upright rod sleeve 1 and the measuring scale supporting ram 12, forming a 90-degree angle between the infrared plumb bob instrument horizontal supporting rod 13 and the upright rod sleeve 1, arranging a measuring scale through hole 16 on the upright rod sleeve 1 at the joint of the measuring scale supporting ram 12, and arranging a measuring ruler 17 on the measuring scale supporting ram 12 after passing through the measuring scale through hole 16;

secondly, the upright sleeve 1 is supported outside a wall formwork 20, steel balls 15 on the side surface of the outer end of a horizontal support rod 13 of the infrared plumb bob instrument are abutted on the wall formwork 20, and the upright sleeve 1 and the ground are kept in a vertical state by adjusting a front support leg rod 10 and a rear support leg rod 11 which are connected on an L-shaped horizontal connecting piece 2 arranged in the middle of the upright sleeve 1 and observing a leveling bubble 4 arranged on the upright sleeve 1;

thirdly, butting an arc-shaped end face 18 arranged at the head of the measuring ruler 17 on a wall template 20, and reading the reading of the measuring ruler 17 according to the infrared rays downwards emitted by the infrared plummet 14;

and fourthly, adjusting the height of the lifting upright stanchion 7, repeating the second step to the third step to obtain the reading of the measured point on the other wall formwork 20, and comparing the reading with the reading obtained in the third step to judge the perpendicularity error of the wall formwork 20.

Claims (2)

1. A concrete wall pouring template verticality detection device comprises a wall template (20), wherein a vertical rod sleeve (1) is movably arranged on one side of the wall template (20), and leveling bubbles (4) are arranged on the vertical rod sleeve (1), and the device is characterized in that a measuring scale support ram (12) is fixedly arranged on the lower portion of the vertical rod sleeve (1), an infrared plumb bob instrument horizontal support rod (13) is fixedly arranged at the top end of a lifting vertical rod (7), an infrared plumb bob instrument (14) is arranged on the infrared plumb bob instrument horizontal support rod (13), a steel ball (15) is arranged on the outer end side face of the infrared plumb bob instrument horizontal support rod (13), the vertical rod sleeve (1) and the measuring scale support ram (12) form a 90-degree angle, the infrared plumb bob instrument horizontal support rod (13) and the vertical rod sleeve (1) form a 90-degree angle, a measuring scale through hole (16) is arranged on the sleeve (1) connected with the measuring scale support ram (12), and a measuring scale (17) is arranged on the measuring scale support ram (12) after passing through the measuring scale through the measuring scale through hole (16); an arc-shaped end face (18) is arranged at the head of the measuring ruler (17), a measuring ruler positioning pin (19) is arranged on the measuring ruler supporting ram (12), and a steel ball (15) on the outer end side face of the infrared plummet horizontal supporting rod (13) and the arc-shaped end face (18) arranged at the head of the measuring ruler (17) are respectively abutted against a wall formwork (20); the lifting and falling device is characterized in that a lifting vertical rod (7) is movably arranged in a vertical rod sleeve (1), a lifting clamping ring (5) is arranged between the vertical rod sleeve (1) and the lifting vertical rod (7), a lifting limiting clamping tongue (6) is arranged between the lifting clamping ring (5) and the lifting vertical rod (7), an L-shaped horizontal connecting piece (2) is arranged in the middle of the vertical rod sleeve (1), the L-shaped horizontal connecting piece (2) is connected with the vertical rod sleeve (1) through a connecting bolt (3), a front hinge seat (8) and a rear hinge seat (9) are respectively arranged on the vertical rod sleeve (1), a telescopic front supporting leg rod (10) is hinged on the front hinge seat (8), a telescopic rear supporting leg rod (11) is hinged on the rear hinge seat (9), the bottom end of the vertical rod sleeve (1) is conical, and the bottom ends of the front supporting leg rod (10) and the rear supporting leg rod (11) are conical.

2. A concrete wall pouring template perpendicularity detection method comprises the following steps:

the method comprises the following steps that firstly, a measuring scale supporting ram (12) is fixedly arranged on the lower portion of a vertical rod sleeve (1), an infrared plummet instrument horizontal supporting rod (13) is fixedly arranged at the top end of a lifting vertical rod (7), an infrared plummet instrument (14) is arranged on the infrared plummet instrument horizontal supporting rod (13), a steel ball (15) is arranged on the outer end side face of the infrared plummet instrument horizontal supporting rod (13), the vertical rod sleeve (1) and the measuring scale supporting ram (12) form a 90-degree angle, the infrared plummet instrument horizontal supporting rod (13) and the vertical rod sleeve (1) form a 90-degree angle, a measuring scale through hole (16) is formed in the vertical rod sleeve (1) at the joint of the measuring scale supporting ram (12), and a measuring ruler (17) is arranged on the measuring scale supporting ram (12) after passing through the measuring scale through hole (16);

secondly, supporting a vertical rod sleeve (1) at the outer side of a wall formwork (20), butting a steel ball (15) on the side surface of the outer end of a horizontal support rod (13) of the infrared plumb bob on the wall formwork (20), and keeping the vertical rod sleeve (1) and the ground in a vertical state by adjusting a front supporting leg rod (10) and a rear supporting leg rod (11) which are connected on an L-shaped horizontal connecting piece (2) arranged at the middle part of the vertical rod sleeve (1) and observing a level bubble (4) arranged on the vertical rod sleeve (1);

thirdly, an arc-shaped end face (18) arranged at the head of the measuring ruler (17) is abutted against a wall template (20), and the reading of the measuring ruler (17) is read according to the infrared rays emitted downwards by the infrared plummet (14);

and fourthly, adjusting the height of the lifting upright stanchion (7), repeating the second step to the third step to obtain the reading of the measured point on the other wall form (20), and comparing the reading with the reading obtained in the third step to judge the verticality error of the wall form (20).

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