CN112880553A - Device and method for detecting installation flatness of dry-hanging stone curtain wall - Google Patents

Abstract

The invention relates to a device and a method for detecting the installation flatness of a dry-hanging stone curtain wall, and the device comprises a locking support, a sliding frame, a lifting push rod, a detection support, an arc-shaped electric slide block and a detection mechanism, wherein the locking support is of an annular structure, the locking support consists of two semi-annular frames, the ends of one ends of the semi-annular frames are hinged with each other, the other ends of the semi-annular frames are locked by bolts, the upper side surface of each semi-annular frame is provided with a dovetail sliding groove along the arc-shaped structure of the semi-annular frame, and the sliding frame is connected to the dovetail. The invention can solve the following problems in the prior art when flatness detection is carried out on stone outside a cylinder: the precision that artifical carries out the roughness to the stone material and detects is poor, and the deviation that produces between the stone material can't audio-visual sees the testing result, and the detection in gap between the roughness of stone material and the stone material can't go on simultaneously, and when the size of cylinder was great, the manual work was comparatively inconvenient to its detection.

Description

Device and method for detecting installation flatness of dry-hanging stone curtain wall

Technical Field

The invention relates to the field of building construction, in particular to a device and a method for detecting the installation flatness of a dry-hanging stone curtain wall.

Background

The dry hanging stone is a novel construction process in the prior wall decoration; the method uses the metal hanging piece to directly hang the facing stone on the wall surface or hang the facing stone on the steel frame in the air, and grouting and pasting are not needed. Circular stand in the building also adopts the mode of hanging the stone material futilely to decorate more, and circular stand adopts curved stone material board to splice each other.

Need detect the gap between its roughness and the stone material after the construction of hanging the stone material futilely in the circular stand outside is accomplished, current detect to above-mentioned stone material time measuring adopt artifical measuring mode to go on more, the problem that exists when the stone material to the cylinder outside carries out the roughness to the current is detected as follows:

the precision that artifical carries out the roughness to the stone material and detects is poor, and the deviation that produces between the stone material can't audio-visual sees the testing result, and the detection in gap between the roughness of stone material and the stone material can't go on simultaneously, and when the size of cylinder was great, the manual work was comparatively inconvenient to its detection.

Disclosure of Invention

In order to solve the problems, the invention provides a device for detecting the installation flatness of a dry-hanging stone curtain wall, which comprises a locking bracket, a sliding frame, a lifting push rod, a detection bracket, an arc-shaped electric slide block and a detection mechanism, wherein the locking bracket is of an annular structure, the locking bracket consists of two semi-annular frames with one ends hinged with each other, the other ends of the semi-annular frames are locked by bolts, the upper side surface of each semi-annular frame is provided with a dovetail sliding groove along the arc structure of the semi-annular frame, the sliding frame is connected on the dovetail sliding groove in a sliding fit manner, the top of the sliding frame is provided with the detection bracket by the lifting push rod, the detection bracket is of an arc structure, the upper end of the detection bracket is provided with an arc-shaped groove, the middle part of the detection bracket is provided with an arc-shaped transverse plate, the arc-shaped electric slide block is arranged on the upper side surface, the inner side surface of the L-shaped support is provided with the detection mechanism, the flatness and the splicing seam gap of the stone curtain wall on the outer side of the cylinder can be detected, firstly, the locking support can be placed on the ground, the free ends of the semicircular frames are locked through bolts, the position of the locking support is adjusted at the moment, the central line of the locking support corresponds to the axial lead of the cylinder to be detected, the lifting push rod can drive the detection support to perform height adjustment, the detection mechanism can detect the positions of the cylinder with different heights, and the arc-shaped electric slide block can drive the detection mechanism to move along the arc-shaped structure of the detection support, so that the detection mechanism can detect the circular arc degree of the cylinder.

The upper end middle part of carriage be provided with positioning groove, all be provided with a location fixture block on the middle part lateral surface of every semicircular frame, the upper end of location fixture block can block in positioning groove, can fix a position the position of carriage through the location fixture block for the position that detects the support obtains the locking, increases detection mechanism and examines the stability of time measuring to the cylinder.

The detection mechanism comprises a frame arranged on the inner side surface of the L-shaped support, the side wall of the frame, far away from the L-shaped support, is connected with the middle part of the pressure regulating bolt in a thread fit mode, the inner end of the pressure regulating bolt is connected with a pressing plate in a rotation fit mode, two ends of the outer side surface of the pressing plate are symmetrically provided with limiting columns, and the limiting columns penetrate through the inner side wall of the frame;

the upper end and the lower end of the pressing plate are both connected with pressing elastic columns in a sliding fit mode, the inner ends of the pressing elastic columns are connected with detection pressing plates, the inner ends of the detection pressing plates are symmetrically provided with rotating plates which are obliquely arranged, the inner ends of the rotating plates are connected through rotating pin shafts, the middle parts of the outer ends of the rotating pin shafts are provided with connecting rods, and the rotating pin shafts are installed on the inner side surfaces of the detection pressing plates through the connecting rods;

the outer end of each rotating plate is provided with an expansion plate through a hinge, the expansion plate is arranged in parallel to the side surface of the detection pressing plate, the expansion plates are symmetrically distributed on the outer side of the detection pressing plate, the expansion plates are connected to the side surface of the detection pressing plate through telescopic rods, during specific work, the detection mechanism can detect the flatness of stones paved on the outer side surface of a cylinder, when the circular arc degree formed by splicing the stones is poor, the detection mechanism is prevented from moving so as to directly see the circular arc degree of the stones, when the arc-shaped electric sliding block circularly moves, the L-shaped support can drive the frame-shaped frame to synchronously move, the position of the pressing plate can be adjusted through rotating the pressure adjusting bolt, so that the connecting end of each rotating plate can be pressed on the outer side surface of the stone with certain force, and the position adjustment of the pressing plate enables the invention to be suitable for detecting the flatness of cylinders, the movement of the arc-shaped electric sliding block can be hindered when the gap between the stones or the inward deflection angle is not satisfactory.

As a preferred technical scheme of the invention, the middle part of the detection pressure plate is inserted with a regulating rod, two ends of the regulating rod pass through the detection pressure plate, the regulating rod and a connecting rod on the rotating pin shaft are arranged in a staggered manner, one end of the regulating rod close to the pressing plate is of a cylindrical structure, the outer side surface of the cylindrical structure of the regulating rod is provided with an external thread, the detection pressure plate is provided with an internal thread matched with the external thread on the regulating rod, the other end of the regulating rod is of a square column structure, the joint position of the cylindrical structure of the regulating rod and the square structure can rotate relatively, the side surface of the regulating rod corresponding to the rotating plate is connected with one end of a linkage rod through a hinge, the other end of the linkage rod is arranged on the inner side surface of the rotating plate through a hinge, the cylindrical end of the regulating rod can drive, the distance between the expansion plates can move synchronously, and the telescopic rod can be matched with the expansion plate to stretch.

As a preferred technical solution of the present invention, the position of the detection pressing plate corresponding to each telescopic rod is provided with a circular hole, the fixed end of the telescopic rod is connected in the circular hole, the telescopic end of the telescopic rod is provided with a T-shaped slider, the expansion plate is provided with a T-shaped chute slidably engaged with the T-shaped slider, when the rotation plate performs angle adjustment, a position change occurs between the telescopic rod and the expansion plate, at this time, the T-shaped slider can slide in the T-shaped chute, and the telescopic rod can automatically perform telescopic engagement, so that the rotation plate can smoothly rotate.

As a preferable technical scheme of the invention, one end of the rotating plate, which is far away from the rotating pin shaft, and the outer side surface of the expansion plate are positioned in the same vertical plane, and the arrangement ensures that the expansion plate can synchronously move into the gap between the stones when the rotating plate completely moves into the gap between the stones.

As a preferred technical scheme of the invention, a linkage frame is arranged on the top of the detection pressing plate, the middle part of the upper end of the linkage frame is of a telescopic structure, a warning frame is arranged on the top of the frame and is of an L-shaped structure, a warning lamp is arranged at the upper end of the warning frame, a vertical plate is arranged on the lower side surface of the horizontal section of the warning frame, the vertical plate and the outer end of the linkage frame are arranged in parallel, a button for starting the warning lamp is arranged on the inner side surface of the vertical plate, when the stone deflects outwards, the linkage frame can move outwards and press the button down to enable the warning lamp to light up, and the arrangement mode can give a warning when the stone deflects outwards.

As a preferred technical scheme of the invention, adjusting rods are symmetrically arranged on the inner side surface of each semi-annular frame, an attaching plate is arranged on the inner side surface of each adjusting rod, an anti-skid layer is arranged on the inner side surface of each attaching plate, and the inner and outer positions of each attaching plate can be adjusted through synchronous position adjustment of the adjusting rods, so that each attaching plate can be stably attached to the outer side surface of the stone at the lower end of the cylinder.

As a preferable technical scheme of the invention, the adjusting rod is an adjusting cylinder.

As a preferred technical scheme, one end, located at the positioning clamping groove, of the positioning clamping block is of an elastic telescopic structure, a vertical pull rod is arranged on the telescopic structure of the positioning clamping block, the end head of the telescopic end of the positioning clamping block is of an arc-shaped structure, the positioning clamping block can be driven to shrink by manually pulling the vertical pull rod outwards, so that the position of the sliding frame can be adjusted, and the sliding frame can be moved to different semi-annular frames, so that the whole cylindrical stone surface can be detected.

The method for detecting the flatness of the dry-hanging stone curtain wall by adopting the device for detecting the mounting flatness of the dry-hanging stone curtain wall comprises the following steps:

firstly, locking a bracket for positioning: firstly, a locking bracket can be placed on the outer side of a cylinder needing flatness detection, the free ends of the semicircular frames are locked through bolts, and the position of the locking bracket is adjusted at the moment, so that the center line of the locking bracket corresponds to the axis line of the cylinder needing flatness detection;

secondly, positioning a sliding frame: the sliding frame slides to a proper position on the dovetail sliding groove, so that the upper end of the positioning clamping block can be clamped in the positioning clamping groove, the position of the detection support is locked, the stability of the detection mechanism in detecting the cylinder is improved, the lifting push rod can drive the detection support to perform height adjustment, and the detection mechanism can detect the positions of the cylinder with different heights;

thirdly, detecting the position adjustment of the pressing plate: after the position of the sliding frame is adjusted, the position of the pressing plate can be adjusted by rotating the pressure adjusting bolt, so that the connecting end of the rotating plate can be pressed against the outer side surface of the stone with certain force, the cylindrical end of the adjusting rod can rotate to drive the adjusting rod to move, the angle between the rotating plates can be adjusted, the distance between the expansion plates can synchronously move when the rotating plates perform angle adjustment, at the moment, the telescopic rod can be matched with the telescopic rod to stretch, and the qualified standard of gaps between the stones can be adjusted by adjusting the angle of the rotating plates;

step four, detecting the flatness of the cylindrical stone: the arc-shaped electric sliding block is controlled to move circularly, the L-shaped support can drive the frame-shaped frame to move synchronously, the flatness of the stone is detected by a structure formed by the rotating plate and the expanding plate, the movement of the arc-shaped electric sliding block can be hindered when a gap between the stones or an inward deflection angle does not meet the requirement, when the stone deflects outwards, the linkage frame can move outwards and press the button, so that the warning lamp is lightened, and the arrangement mode can warn when the stone deflects outwards;

fifthly, integrally detecting the cylindrical stone: the vertical pull rod is pulled outwards manually to drive the positioning fixture block to contract, so that the position of the sliding frame can be adjusted, and the sliding frame is moved to different semi-annular frames, so that the whole cylindrical stone surface can be detected.

The invention has the beneficial effects that:

the detection mechanism can detect the flatness of the dry-hanging stone outside the cylinder, and the movement of the detection mechanism can be blocked when the flatness of the stone and a gap between the stone do not meet the standard, so that a detector can visually see that the detection mechanism can adjust the qualified standard of the stone, and different defects of the dry-hanging stone can be warned in different modes;

the inner and outer positions of the attaching plate can be adjusted through synchronous position adjustment of the adjusting rod, so that the attaching plate can be stably attached to the outer side surface of the stone at the lower end of the cylinder, the central line of the locking support corresponds to the axial lead of the cylinder to be detected, and the accuracy of the stone flatness detection of the invention is improved;

the position of the pressing plate can be adjusted by rotating the pressure adjusting bolt, so that the connecting end of the rotating plate can be pressed against the outer side surface of the stone with certain force, and the position adjustment of the pressing plate enables the device to be suitable for detecting the flatness of cylinders with different diameters;

when the stone with the gap between stones or the inward deflection angle not meeting the requirement is detected, the stone can block the movement of the arc-shaped electric sliding block, when the stone deflects outwards, the linkage frame can move outwards and press the button, so that the warning lamp is lightened, and the arrangement mode can give a warning when the stone deflects outwards;

and fifthly, the adjusting rod can be driven to move by rotating the cylindrical end of the adjusting rod, so that the angle between the rotating plates is adjusted, the distance between the expansion plates can synchronously move when the rotating plates adjust the angle, the telescopic rod can be matched with the telescopic rod to stretch, and the qualified standard of the gap between the stones can be adjusted by adjusting the angle of the rotating plates.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a first configuration of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is an enlarged view of the portion A of FIG. 2;

FIG. 4 is a schematic view of a third construction of the present invention;

FIG. 5 is an enlarged view of the portion B in FIG. 4;

FIG. 6 is a schematic structural view of the semi-annular frame, the sliding frame, the lifting push rod, the detection support, the arc-shaped electric slide block and the detection mechanism of the invention;

FIG. 7 is a schematic view of the structure of the detection mechanism of the present invention;

FIG. 8 is a cross-sectional view of the detection mechanism of the present invention with the frame, the pressure adjustment bolt, and the spacer removed;

FIG. 9 is a cross-sectional view of the present invention between the sensing platen and the expansion platen;

FIG. 10 is a schematic view of the detecting mechanism of the present invention detecting unqualified stones;

fig. 11 is a schematic view of the detection mechanism of the present invention detecting the stone with a qualified gap.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 11, a device for detecting the installation flatness of a dry-hanging stone curtain wall comprises a locking bracket 1, a sliding bracket 2, a lifting push rod 3, a detecting bracket 4, an arc-shaped electric slider 5 and a detecting mechanism 6, wherein the locking bracket 1 is of an annular structure, the locking bracket 1 is composed of two semi-annular frames 11 with one ends hinged to each other, the other ends of the semi-annular frames 11 are locked by bolts, dovetail chutes 12 are arranged on the upper side surfaces of the semi-annular frames 11 along the arc-shaped structure, the sliding bracket 2 is connected to the dovetail chutes 12 in a sliding fit manner, the detecting bracket 4 is installed on the top of the sliding bracket 2 through the lifting push rod 3, the detecting bracket 4 is of an arc-shaped structure, an arc-shaped groove is arranged on the upper end of the detecting bracket 4, an arc-shaped transverse plate 41 is arranged in the middle of the detecting bracket 4, the arc-shaped electric slider 5 is installed on the upper, the L-shaped support 51 is in sliding fit with the arc-shaped grooves in the detection support 4, and the detection mechanism 6 is mounted on the inner side face of the L-shaped support 51, so that the flatness and the splicing seam gap of a stone curtain wall on the outer side of a cylinder can be detected, firstly, the locking support 1 can be placed on the ground, the free ends of the semi-annular frame 11 are locked through bolts, the position of the locking support 1 is adjusted at the moment, the central line of the locking support 1 corresponds to the axial lead of the cylinder to be detected, the lifting push rod 3 can drive the detection support 4 to perform height adjustment, the detection mechanism 6 can detect the positions of different heights of the cylinder, the arc-shaped electric slide block 5 can drive the detection mechanism 6 to move along the arc-shaped structure of the detection support 4, and the detection mechanism 6 can detect the arc degree of the cylinder.

Every the medial surface of semi-annular frame 11 on the symmetry be provided with adjust the pole 13, adjust pole 13 for adjust the cylinder, be provided with attaching plate 14 on adjusting the medial surface of pole 13, attaching plate 14's medial surface is provided with the skid resistant course, can adjust attaching plate 14's inside and outside position through adjusting the synchronous position regulation of pole 13 to attaching plate 14 can be stable on the lateral surface of the stone material of cylinder lower extreme.

The upper end middle part of carriage 2 be provided with positioning groove 21, all be provided with a positioning fixture block 22 on the middle part lateral surface of every semicircular frame 11, positioning fixture block 22's upper end can block in positioning groove 21, can fix a position carriage 2's position through positioning fixture block 22 for the position that detects support 4 obtains the locking, increases the stability that detection mechanism 6 detected time measuring to the cylinder.

One end, located at the positioning clamping groove 21, of the positioning clamping block 22 is of an elastic telescopic structure, a vertical pull rod 23 is arranged on the telescopic structure of the positioning clamping block 22, the end head of the telescopic end of the positioning clamping block 22 is of an arc-shaped structure, the vertical pull rod 23 can be pulled outwards manually to drive the positioning clamping block 22 to contract, so that the position of the sliding frame 2 can be adjusted, and the sliding frame 2 can be moved to different semi-annular frames 11, so that the whole cylindrical stone surface can be detected.

The detection mechanism 6 comprises a frame 61 arranged on the inner side surface of the L-shaped support 51, the side wall of the frame 61, far away from the L-shaped support 51, is connected with the middle part of a pressure regulating bolt 62 in a thread fit mode, the inner end of the pressure regulating bolt 62 is connected with a pressing plate 63 in a rotation fit mode, two ends of the outer side surface of the pressing plate 63 are symmetrically provided with limiting columns 64, and the limiting columns 64 penetrate through the inner side wall of the frame 61;

the upper end and the lower end of the pressing plate 63 are both connected with pressing elastic columns 65 in a sliding fit mode, the inner ends of the pressing elastic columns 65 are connected with detection pressing plates 66, the inner ends of the detection pressing plates 66 are symmetrically provided with rotating plates 67 which are obliquely arranged, the inner ends of the rotating plates 67 are connected through rotating pin shafts 68, the middle parts of the outer ends of the rotating pin shafts 68 are provided with connecting rods, and the rotating pin shafts 68 are installed on the inner side surfaces of the detection pressing plates 66 through the connecting rods;

the outer end of each rotating plate 67 is provided with an expansion plate 69 through a hinge, the expansion plate 69 is arranged in parallel with the side surface of the detection pressing plate 66, the expansion plates 69 are symmetrically distributed on the outer side of the detection pressing plate 66, the expansion plates 69 are connected to the side surface of the detection pressing plate 66 through telescopic rods 610, during specific work, the detection mechanism 6 can detect the flatness of the stone paved on the outer side surface of the cylinder, when the circular arc degree formed by splicing the stones is poor, the detection mechanism 6 can be prevented from moving, so that the circular arc degree of the stone can be directly seen, when the arc-shaped electric slide block 5 circularly moves, the L-shaped bracket 51 can drive the frame 61 to synchronously move, the position of the pressing plate 63 can be adjusted through rotating the pressure adjusting bolts 62, so that the connecting end of the rotating plate 67 can be pressed on the outer side surface of the stone with a certain force, and the position adjustment of the pressing plate 63 enables the invention to be suitable for detecting the flatness of cylinders, therefore, when the rotating plate 67 moves to the sunken position of the stone, the rotating plate 67 can move inwards under the action of the abutting elastic columns 65, and when the rotating plate 67 moves to the position of the adjacent stone, the expansion plate 69 connected with the outer end of the rotating plate 67 can abut against the stone, so that the arc-shaped electric sliding block 5 cannot move, the position of the stone needs to be corrected manually, when the gap between the stones is larger than the distance between the outer side surfaces of the expansion plate 69, the rotating plate 67 and the expansion plate 69 move into the gap of the stone under the action of the abutting elastic columns 65, so that the electric sliding block 5 cannot move, and therefore the gap between the stones is unqualified, when the gap between the stones is smaller than the distance between the outer side surfaces of the expansion plate 69, the rotating plate 67 can abut against the gap of the stone, and because the rotating plate 67 is arranged obliquely, the arc-shaped electric sliding block 5 can drive the detection mechanism 6 to move, so that the gap between the stones is qualified.

The middle part of the detection pressing plate 66 is inserted with an adjusting rod 661, two ends of the adjusting rod 661 penetrate through the detection pressing plate 66, the adjusting rod 661 is arranged in a staggered manner with the connecting rod on the rotating pin 68, one end of the adjusting rod 661 close to the pressing plate 63 is of a cylindrical structure, the outer side surface of the cylindrical structure of the adjusting rod 661 is provided with an external thread, the detection pressing plate 66 is provided with an internal thread matched with the external thread on the adjusting rod 661, the other end of the adjusting rod 661 is of a square column structure, the joint position of the cylindrical structure and the square structure of the adjusting rod 661 can rotate relatively, the adjusting rod 661 is connected with one end of the linkage rod 662 through a hinge on the side surface corresponding to the rotating plate 67, the other end of the linkage rod 662 is installed on the inner side surface of the rotating plate 67 through a hinge, the cylindrical end of the, when the angle of the rotating plate 67 is adjusted, the distance between the expansion plates 69 can move synchronously, at the moment, the expansion rod 610 can expand and contract in a matched manner, and the qualified standard of the gap between the stones can be adjusted through the adjustment of the angle of the rotating plate 67.

The position that detects clamp plate 66 and correspond every telescopic link 610 all be provided with round hole 663, the stiff end of telescopic link 610 is connected in round hole 663, be provided with T type slider 664 on the flexible end of telescopic link 610, expansion plate 69 is provided with T type spout 665 with T type slider 664 sliding fit mutually, when rotor plate 67 carries out angle modulation, can take place position change between telescopic link 610 and the expansion plate 69, T type slider 664 can slide in T type spout 665 this moment, and telescopic link 610 can stretch out and draw back the cooperation automatically, so that rotor plate 67 can smooth and easy rotation.

One end of the rotating plate 67, which is far away from the rotating pin shaft 68, and the outer side surface of the expansion plate 69 are in the same vertical plane, and by the arrangement, when the rotating plate 67 completely moves into the gap between the stones, the expansion plate 69 can synchronously move into the gap between the stones.

The top of the detection pressing plate 66 is provided with a linkage frame 666, the middle part of the upper end of the linkage frame 666 is of a telescopic structure, the top of the frame-shaped frame 61 is provided with a warning frame 611, the warning frame 611 is of an L-shaped structure, the upper end of the warning frame 611 is provided with a warning lamp 612, the lower side surface of the horizontal section of the warning frame 611 is provided with a vertical plate, the vertical plate is arranged in parallel with the outer end of the linkage frame 666, the inner side surface of the vertical plate is provided with a button 613 for starting the warning lamp 612, when the stone deflects outwards, the linkage frame 666 can move outwards and press the button 613, so that the warning lamp 612 lights up, and the arrangement mode can warn when the stone deflects outwards.

The method for detecting the flatness of the dry-hanging stone curtain wall by adopting the device for detecting the mounting flatness of the dry-hanging stone curtain wall comprises the following steps:

first, positioning of a locking bracket 1: firstly, the locking bracket 1 can be placed on the outer side of a cylinder needing flatness detection, the free ends of the semi-annular frame 11 are locked through bolts, and the inner and outer positions of the attaching plate 14 can be adjusted through synchronous position adjustment of the adjusting rod 13, so that the attaching plate 14 can be stably attached to the outer side surface of a stone at the lower end of the cylinder, and the central line of the locking bracket 1 corresponds to the axial lead of the cylinder needing flatness detection;

second, positioning of the sliding frame 2: the sliding frame 2 slides to a proper position on the dovetail sliding groove 12, so that the upper end of the positioning fixture block 22 can be clamped in the positioning fixture groove 21, the position of the detection support 4 is locked, the stability of the detection mechanism 6 in detecting the cylinder is improved, the lifting push rod 3 can drive the detection support 4 to adjust the height, and the detection mechanism 6 can detect the positions of the cylinder with different heights;

thirdly, detecting the position adjustment of the pressure plate 66: after the position of the sliding frame 2 is adjusted, the position of the pressing plate 63 can be adjusted by rotating the pressure adjusting bolt 62, so that the connecting end of the rotating plate 67 can be pressed against the outer side surface of the stone with a certain force, the cylindrical end of the adjusting rod 661 can be rotated to drive the adjusting rod 661 to move, the angle between the rotating plates 67 is adjusted, when the rotating plate 67 is adjusted in angle, the distance between the expansion plates 69 can be synchronously moved, at the moment, the telescopic rod 610 can be matched with the telescopic motion, and the qualified standard of the gap between the stones can be adjusted by adjusting the angle of the rotating plate 67;

step four, detecting the flatness of the cylindrical stone: the arc-shaped electric sliding block 5 is controlled to move circularly, the L-shaped support 51 can drive the frame-shaped frame 61 to move synchronously, the flatness of the stone is detected by a structure formed by the rotating plate 67 and the expanding plate 69, the movement of the arc-shaped electric sliding block 5 can be blocked when a gap between the stones or an inward deflection angle does not meet requirements, when the stone deflects outwards, the linkage frame 666 can move outwards and press the button 613 to light the warning lamp 612, and the arrangement mode can warn when the stone deflects outwards;

fifthly, integrally detecting the cylindrical stone: the vertical pull rod 23 is pulled outwards manually to drive the positioning fixture block 22 to contract, so that the position of the sliding frame 2 can be adjusted, and the sliding frame 2 is moved to different semi-annular frames 11, so that the whole cylindrical stone surface can be detected.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a hang stone material curtain installation roughness detection device futilely, includes locking support (1), carriage (2), lifting push rod (3), detection support (4), electric slider of arc (5) and detection mechanism (6), its characterized in that: the locking bracket (1) is of an annular structure, the locking bracket (1) consists of two semi-annular frames (11) which are hinged with each other, the other ends of the semi-annular frames (11) are locked by bolts, dovetail chutes (12) are arranged on the upper side surfaces of the semi-annular frames (11) along the arc structures of the semi-annular frames, the sliding frame (2) is connected to the dovetail chutes (12) in a sliding fit manner, the top of the sliding frame (2) is provided with the detection bracket (4) by lifting the push rod (3), the detection bracket (4) is of an arc structure, the upper end of the detection bracket (4) is provided with an arc groove, the middle part of the detection bracket (4) is provided with an arc transverse plate (41), the arc electric slide block (5) is arranged on the upper side surface of the arc transverse plate (41), the upper end of the arc electric slide block (5) is provided with an L-shaped bracket (51), the L-shaped bracket, a detection mechanism (6) is arranged on the inner side surface of the L-shaped bracket (51); wherein:

a positioning clamping groove (21) is formed in the middle of the upper end of the sliding frame (2), a positioning clamping block (22) is arranged on the outer side face of the middle of each semi-annular frame (11), and the upper end of each positioning clamping block (22) can be clamped in the corresponding positioning clamping groove (21);

the detection mechanism (6) comprises a frame (61) arranged on the inner side surface of the L-shaped support (51), the side wall, away from the L-shaped support (51), of the frame (61) is connected with the middle of a pressure regulating bolt (62) in a threaded fit mode, the inner end of the pressure regulating bolt (62) is connected with a pressing plate (63) in a rotation fit mode, two ends of the outer side surface of the pressing plate (63) are symmetrically provided with limiting columns (64), and the limiting columns (64) penetrate through the inner side wall of the frame (61);

the upper end and the lower end of the pressing plate (63) are connected with pressing elastic columns (65) in a sliding fit mode, the inner ends of the pressing elastic columns (65) are connected with detection pressing plates (66), the inner ends of the detection pressing plates (66) are symmetrically provided with rotating plates (67) which are obliquely arranged, the inner ends of the rotating plates (67) are connected through rotating pin shafts (68), the middle parts of the outer ends of the rotating pin shafts (68) are provided with connecting rods, and the rotating pin shafts (68) are installed on the inner side surfaces of the detection pressing plates (66) through the connecting rods;

the outer end of each rotating plate (67) is provided with an expansion plate (69) through a hinge, the expansion plates (69) are arranged in parallel to the side face of the detection pressing plate (66), the expansion plates (69) are symmetrically distributed on the outer side of the detection pressing plate (66), and the expansion plates (69) are connected to the side face of the detection pressing plate (66) through a telescopic rod (610).

2. The installation flatness detection device for the dry-hanging stone curtain wall according to claim 1, characterized in that: detect the middle part of clamp plate (66) and alternate regulation pole (661), the both ends of adjusting pole (661) all pass and detect clamp plate (66), it is the cylinder type structure to adjust pole (661) to be close to the one end of supporting clamp plate (63), the lateral surface of adjusting pole (661) cylindrical structure is provided with the external screw thread, it is provided with the internal thread with adjusting the external screw thread matched with on pole (661) on clamp plate (66) to detect, the other end of adjusting pole (661) is square column type structure, the cylindrical structure of adjusting pole (661) can rotate relatively with the handing-over position of square structure, it all is connected with the one end of gangbar (662) through the hinge on the side of regulation pole (661) correspondence rotor plate (67), the other end of gangbar (662) passes through hinged joint installation on the medial surface of rotor plate (.

3. The installation flatness detecting device for the dry-hanging stone curtain wall as claimed in claim 2, is characterized in that: the position that detects clamp plate (66) correspond every telescopic link (610) all be provided with round hole (663), the stiff end of telescopic link (610) is connected in round hole (663), be provided with T type slider (664) on the flexible end of telescopic link (610), expansion plate (69) are provided with T type spout (665) with T type slider (664) looks sliding fit.

4. The installation flatness detecting device for the dry-hanging stone curtain wall as claimed in claim 3, is characterized in that: one end of the rotating plate (67) far away from the rotating pin shaft (68) and the outer side surface of the expansion plate (69) are positioned in the same vertical plane.

5. The installation flatness detection device for the dry-hanging stone curtain wall according to claim 1, characterized in that: the top of detection clamp plate (66) on be provided with linkage frame (666), the upper end middle part of linkage frame (666) is extending structure, be provided with warning frame (611) on the top of frame (61), warning frame (611) are L type structure, the upper end of warning frame (611) is provided with warning light (612), the horizontal segment downside of warning frame (611) is provided with the riser, the riser is arranged with linkage frame (666)'s outer end parallel, the medial surface of riser is provided with button (613) that are used for starting warning light (612).

6. The installation flatness detection device for the dry-hanging stone curtain wall according to claim 1, characterized in that: the inner side surface of each semi-annular frame (11) is symmetrically provided with adjusting rods (13), the inner side surface of each adjusting rod (13) is provided with a binding plate (14), and the inner side surface of each binding plate (14) is provided with an anti-skid layer.

7. The installation flatness detecting device for the dry-hanging stone curtain wall as claimed in claim 6, is characterized in that: the adjusting rod (13) is an adjusting cylinder.

8. The installation flatness detection device for the dry-hanging stone curtain wall according to claim 1, characterized in that: the end, located at the positioning clamping groove (21), of the positioning clamping block (22) is of an elastic telescopic structure, a vertical pull rod (23) is arranged on the telescopic structure of the positioning clamping block (22), and the end head of the telescopic end of the positioning clamping block (22) is of an arc-shaped structure.

9. The installation flatness detecting device for the dry-hanging stone curtain wall as claimed in claim 4, is characterized in that: the method for detecting the flatness of the dry-hanging stone curtain wall by using the dry-hanging stone curtain wall installation flatness detection device comprises the following steps:

firstly, positioning a locking bracket (1): firstly, a locking bracket (1) can be placed on the outer side of a cylinder needing flatness detection, the free ends of a semi-annular frame (11) are locked through bolts, and the position of the locking bracket (1) is adjusted, so that the center line of the locking bracket (1) corresponds to the axial lead of the cylinder needing flatness detection;

secondly, positioning a sliding frame (2): the sliding frame (2) slides to a proper position on the dovetail sliding groove (12), so that the upper end of the positioning clamping block (22) can be clamped in the positioning clamping groove (21), the position of the detection support (4) is locked, and the lifting push rod (3) can drive the detection support (4) and the detection mechanism (6) to carry out height adjustment;

thirdly, detecting the position adjustment of the pressure plate (66): after the position of the sliding frame (2) is adjusted, the position of the pressing plate (63) can be adjusted by rotating the pressure adjusting bolt (62), so that the connecting end of the rotating plate (67) can be pressed against the outer side surface of the stone, the adjusting rod (661) can be driven to move by rotating the cylindrical end of the adjusting rod (661), the angle between the rotating plates (67) can be adjusted, and the distance between the expansion plates (69) can synchronously move when the rotating plate (67) adjusts the angle;

step four, detecting the flatness of the cylindrical stone: the arc-shaped electric sliding block (5) is controlled to move circularly, the L-shaped support (51) can drive the frame (61) to move synchronously, so that the flatness of the stone is detected by a structure formed by the rotating plate (67) and the expanding plate (69), and the arc-shaped electric sliding block (5) is blocked when a gap between the stones or an inward inclined angle does not meet the requirement;

fifthly, integrally detecting the cylindrical stone: the manual end positioning fixture block (22) locks the position of the sliding frame (2) and moves the sliding frame (2) to the other semi-annular frame (11), so that the whole stone surface of the cylinder is detected.

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