CN112325728B - Glass decoration column connector position calibration device and calibration method thereof - Google Patents

Abstract

The application discloses a device and a method for checking the position of a connecting piece of a glass decoration column, wherein the checking device comprises two reference slide rails, a checker slidably mounted on the two reference slide rails, a linkage piece for connecting the two reference slide rails together to realize relative rotation or lifting, and a plurality of groups of positioning bases for positioning the positions of the reference slide rails; the benchmark slide rail includes multiunit slide rail unit, the mounting groove has been seted up to slide rail unit surface length, the installation has inlayed the fixed block with two slide rail unit looks rigid couplings in the mounting groove and with fixed block threaded connection's fixed jackscrew. The glass decoration column refutes union piece position calibration device and the calibration method thereof have the advantage of convenient calibration, can improve the regularity of refuting union piece installation, and ensure the installation effect of glass panels.

Description

Glass decoration column connector position calibration device and calibration method thereof

Technical Field

The application relates to the field of architectural decoration structures, in particular to a device and a method for checking positions of connecting pieces of glass decoration columns.

Background

With the rapid development of the decoration industry, higher requirements are placed on various decoration shapes, decoration processes and effects. At present, some commercial and entertainment places need to create magnificent scene effects, so some beautiful scenes need to be decorated.

The glass decorative column is a decoration widely existing in the places, the glass decorative column is internally provided with the highlight LED point matrix multi-color lamp, colorful and gorgeous lighting effects can be displayed through programming control, the glass decorative column is coordinated with the surrounding environment, the glass decorative column brings out the best in each other, and a strong commercial atmosphere is created.

In the related art, the glass decoration column includes a column body with a central light effect, and a glass column surrounding the column body; wherein, the glass post includes glass skeleton, glass panels and refutes the connecting piece, and the glass skeleton surrounds in the cylinder outside, and the glass panels is installed on the glass skeleton through refuting the connecting piece.

The flatness degree of the glass panel is directly related to the refute connector, namely the tidier the refute connector is installed on the glass framework, and the installation and adjustment of the glass panel are facilitated.

The calibration work of refuting the union piece position at present mainly accomplishes through the plummet chi, and the calibration process is loaded down with trivial details and time consuming is longer.

Disclosure of Invention

In order to conveniently check the mounting position of the refuting piece, the application provides a device and a method for checking the position of the refuting piece of the glass decorative column.

First aspect, this application provides a glass decoration post refutes union piece position calibration equipment, adopts following technical scheme:

the utility model provides a glass decoration post refutes union piece position calibration equipment, includes two benchmark slide rails, slidable mounting on two benchmark slide rails calibrator, links together two benchmark slide rails and realizes the linkage piece that relative rotation or go up and down to and carry out the multiunit location base of fixing a position to benchmark slide rail position.

By adopting the technical scheme, before checking, a group of positioning bases are arranged on the ground outside each vertical beam, during checking, the positions of the connecting pieces of the two groups of vertical beams are simultaneously measured by using the checker, and the measurement results are synchronously marked on the vertical beams; after the two groups of vertical beams are checked, one of the reference slide rails is rotated to be fixed on the next positioning base, the check is performed again, the checking process is convenient and fast, the checking result is determined by taking the first check as a reference, the positions of the refuting pieces of the next group of vertical beams are determined, the detection of the positions of the refuting pieces of each group of vertical beams is completed in a reciprocating mode, the uniformity of installation of the refuting pieces is improved, and the installation effect of the glass panel is guaranteed.

Optionally, the benchmark slide rail includes multiunit slide rail unit, the slide rail unit surface is led to the length and has been seted up the mounting groove, the mounting groove is embedded to have the fixed block of two slide rail unit looks rigid couplings and the fixed jackscrew with fixed block threaded connection.

Through adopting above-mentioned technical scheme, during the installation of benchmark slide rail, aim at the tip of two adjacent slide rail units, get two fixed blocks and respectively by the one end slip grafting of mounting groove to the junction of two adjacent slide rail units, screw up fixed jackscrew, make it pass the fixed block and support tightly at the tank bottom of mounting groove, can be in the same place two slide rail units quick installation.

Optionally, the section of the mounting groove is trapezoidal, and the groove opening is closed; the fixed block is matched with the mounting groove in shape.

Through adopting above-mentioned technical scheme, the mounting groove cross-section is trapezoidal, can prevent effectively that the fixed block from deviating from the mounting groove, improves the stability of slide rail unit connection.

Optionally, the calibrator comprises two sets of sliding sleeves, an adjusting rod positioned between the two sliding sleeves, and a measuring instrument installed on the sliding sleeves; the two sets of sliding sleeves are respectively matched with the two sets of reference sliding rails in a sliding manner; the adjusting rod is connected with the sliding sleeve through a spherical hinge.

By adopting the technical scheme, the sliding sleeve is matched with the reference sliding rail in a sliding manner, so that the measuring instrument can check along the reference sliding rail conveniently; the adjusting rod is connected with the sliding sleeve through a spherical hinge, so that the angle between the adjusting rod and the sliding sleeve is adjustable, the angle between the calibrator and the reference sliding rail is adjustable, the calibrator can adapt to frameworks of different types, and the calibrator is wider in adaptability.

Optionally, the sliding sleeve is an openable annular structure.

By adopting the technical scheme, the calibrator and the reference slide rail are convenient to mount or separate, and the calibration process is more flexible.

Optionally, the linkage member includes a connecting rod, two screws respectively rotatably mounted at the end of the connecting rod, and an adjusting nut threadedly connected to the screws; the screw is in sliding fit with the end part of the reference slide rail; and the adjusting nut is rotatably connected with the end part of the reference sliding rail.

Through adopting above-mentioned technical scheme, when rotating adjusting nut, the screw rod with its threaded connection rises or reduces along the axis, through the transmission of connecting rod, makes another benchmark slide rail can rise or reduce in step, realizes benchmark slide rail height control.

Optionally, the positioning base is connected with the reference sliding rail through a flange.

Through adopting above-mentioned technical scheme, flange joint has the connection and closely, and fixed nimble advantage is higher with benchmark slide rail adaptability through flange fixed position base.

Optionally, a positioning rod is arranged on the positioning base, and a positioning hole is formed in the bottom of the reference sliding rail.

Through adopting above-mentioned technical scheme, the locating lever cooperates the effect of playing the direction to the installation of benchmark slide rail with the locating hole, makes things convenient for benchmark slide rail and location base to aim at the installation.

Optionally, the length and size of the calibrator and the linkage member are adjustable.

Through adopting above-mentioned technical scheme, the scalable setting of ware and linkage piece is tested so that calibration equipment adapts to not unidimensional skeleton.

In a second aspect, the application provides a method for checking the position of a connecting piece of a glass decoration column, which adopts the following technical scheme:

a method for checking the position of a glass decoration column connector comprises the following steps:

a group of positioning bases are arranged on the basis of the outer side of each beam to be measured;

mounting the linkage and the calibrator on two reference slide rails;

two groups of reference slide rails are arranged on two adjacent positioning bases

Checking the mounting position on the beam to be tested along the height direction;

the connection between one group of reference slide rails and the positioning base is released, so that the group of reference slide rails are in a movable state, the adjusting nuts of the fixed reference slide rails are rotated, the screw rods are driven to ascend along the axis by rotating the adjusting nuts, and the height of the movable reference slide rails is synchronously ascended;

rotating the movable reference slide rail by taking the fixed reference slide rail as a center to enable the movable reference slide rail to be positioned above the next group of positioning bases, reversely rotating an adjusting nut of the fixed reference slide rail, and fixing the movable reference slide rail with the lower positioning base after the movable reference slide rail falls back for verification;

and sequentially reciprocating until all the beams to be tested are verified, and disassembling the verifying device.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the checking result of the checking device is based on the first checking, the position of the refute piece of the next group of vertical beams is measured, the installation uniformity of the refute piece can be effectively improved, the installation effect of the glass panel is guaranteed, the whole checking process is convenient and rapid, and the operation of people is convenient;

2. the sliding sleeve of the calibrator is of an openable structure, so that the calibrator and the reference sliding rail can be conveniently installed or separated, and the calibration process is more flexible;

3. through with calibrator and linkage self length size adjustable setting for calibration equipment adapts to not unidimensional skeleton, and adaptability is wider.

Drawings

FIG. 1 is a front view of a glass trim post in an embodiment of the present application;

FIG. 2 is a top view of a glass trim post in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a verification device in an embodiment of the present application;

fig. 4 is a schematic structural view of a link member in the embodiment of the present application.

Description of reference numerals: 1. a reference slide rail; 11. a slide rail unit; 12. mounting grooves; 13. a connecting table; 2. a checker; 21. a sliding sleeve; 22. adjusting a rod; 23. adjusting a jackscrew; 24. a cephalic ball joint; 25. an accommodating chamber; 3. a linkage member; 31. a connecting rod; 32. a screw; 33. adjusting the nut; 34. a slider; 35. connecting blocks; 4. positioning a base; 41. positioning a rod; 5. a connecting assembly; 51. a trapezoidal block; 52. fixing the jackscrew; 6. a base cylinder; 61. a stone column base; 62. a primary structure column; 7. a glass column; 71. a glass skeleton; 72. a glass panel; 73. refute the union piece.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

As shown in fig. 1 and 2, the glass decoration column includes a base column 6 with a central light effect, and a glass column 7 surrounding the base column 6; wherein the foundation column 6 includes stone material column base 61 and primary structure post 62, and primary structure post 62 is through the vertical fixing on stone material column base 61 of bloated bolt, the top and the curtain furred ceiling line parallel and level of primary steel structure post.

The glass column 7 comprises a glass framework 71, a glass panel 72 and a connecting piece 73, wherein the glass framework 71 mainly comprises a plurality of groups of vertical beams and a plurality of groups of ring beams, the bottoms of the vertical beams are fixed on the stone column base 61 through expansion bolts, and the tops of the vertical beams are 5-10cm lower than the tops of the original structural columns 62; the vertical beams and the ring beams are matched to splice the mounting unit. The connectors 73 are vertically fixed to the vertical beams, and the glass panel 72 is mounted on the mounting unit of the glass frame 71.

The embodiment of the application discloses piece position calibration equipment is refuted to glass decoration post, installs the outside at glass skeleton 71 during calibration of calibration equipment.

As shown in fig. 3, the glass decoration column refute piece position verifying device comprises two sets of reference slide rails 1, a calibrator 2 slidably mounted on the two reference slide rails 1, a linkage piece 3 connecting the two reference slide rails 1 together, and a positioning base 4 for positioning the reference slide rails 1.

Wherein, benchmark slide rail 1 is formed by the equipment of many slide rail units 11, and the cross-section of slide rail unit 11 is the rectangle, offers two mounting grooves 12 of symmetry on slide rail unit 11's lateral wall, and mounting groove 12 all extends and runs through slide rail unit 11 along slide rail unit 11's length direction. The slide rail unit 11 has evenly seted up multiunit verification hole in mounting groove 12, and the verification hole runs through two mounting grooves 12 of slide rail unit 11. The slide rail unit 11 is made of light material.

The section of the mounting groove 12 is trapezoidal, the groove walls on two sides of the mounting groove gradually approach from inside to outside, and a connecting assembly 5 is arranged between two vertically adjacent sliding rail units 11; the connecting assembly 5 includes a trapezoidal block 51 fitted into the mounting groove 12 and a fixing jackscrew 52 screwed to the trapezoidal block 51.

When the reference slide rail 1 is installed, aligning the end parts of two adjacent slide rail units 11, taking two trapezoidal blocks 51, respectively inserting the two trapezoidal blocks 51 into the joint of the two adjacent slide rail units 11 from one end of the installation groove 12 in a sliding manner, and screwing the fixed jackscrew 52 to enable the fixed jackscrew to penetrate through the trapezoidal blocks 51 and abut against the bottom of the installation groove 12; the above operation is repeated until the reference slide rail 1 reaches the design length. In the installation process, the straightness of installation of benchmark slide rail 1 is guaranteed through laser collimator.

The calibrator 2 comprises two groups of sliding sleeves 21, an adjusting rod 22 positioned between the two sliding sleeves 21 and a linearity measuring instrument arranged on the sliding sleeves 21; the main body of the sliding sleeve 21 is in a rectangular tube shape, and the sliding sleeve 21 is sleeved on the reference sliding rail 1 and matched with the reference sliding rail 1; one side wall of the sliding sleeve 21 is set as a movable side wall, the other side walls are set as fixed side walls, and the movable side wall and the main body structure of the sliding sleeve 21 can be connected in an inserting or bolting mode; when the sliding sleeve 21 is separated from the movable side wall, the sliding sleeve 21 can be directly separated from the reference sliding rail 1.

The fixed lateral wall of the sliding sleeve 21 is connected with an adjusting jackscrew 23 in a threaded manner, the end part of the adjusting jackscrew 23 can be inserted into the sliding sleeve 21, and the sliding sleeve 21 is fixed on the reference sliding rail 1 by screwing the adjusting jackscrew 23.

The tip of adjusting pole 22 all is provided with head ball joint 24, offers on the outer wall of sliding sleeve 21 with the chamber 25 that holds of head ball joint 24 looks adaptation, and the dress of head ball joint is inlayed and is holding behind the chamber 25, both normal running fit, and the contained angle that makes between adjusting pole 22 and the sliding sleeve 21 can be adjusted freely in a flexible way.

As shown in fig. 3 and 4, the linkage 3 includes a connecting rod 31 and two screws 32 rotatably mounted at the ends of the connecting rod 31, the screws 32 are threadedly connected with adjusting nuts 33, and the axes of the screws 32 are perpendicular to the axes of the connecting rod 31; the top of the slide rail unit 11 positioned at the uppermost end of the reference slide rail 1 is provided with a connecting hole for accommodating the screw rod 32 along the axis, and is provided with a connecting platform 13 which is rotationally matched with the adjusting nut 33, and the connecting platform 13 and the connecting hole are coaxial; the connecting table 13 is provided with a yielding hole for the screw rod 32 to pass through.

As shown in fig. 4, the connecting rod 31 and the screw rod 32 may rotate in a manner that an inverted T-shaped slider 34 is fixedly connected to the connecting rod 31, a corresponding cavity is provided at an end of the screw rod 32, and the slider 34 is embedded in the cavity to realize the rotating fit between the connecting rod 31 and the screw rod 32.

The rotation mode of the adjusting nut 33 and the connecting table 13 can be set in such a way that a plurality of connecting blocks 35 which are distributed in a circumferential manner are fixedly connected to the adjusting nut 33, and the cross sections of the connecting blocks 35 are in an inverted T shape; an annular groove with a closing structure is formed in the connecting table 13, and the connecting block 35 is rotatably installed in the annular groove; the necking structure can prevent the connecting block 35 from being accidentally disengaged from the annular groove.

After the two reference slide rails 1 are respectively connected with the two screw rods 32 of the linkage part 3, the reference slide rails 1 can rotate to realize angle adjustment; when one of the adjusting nuts 33 is rotated, the screw rod 32 connected with the screw rod is lifted or lowered along the axis, and the other reference slide rail 1 can be lifted or lowered synchronously through the transmission of the connecting rod 31, so that the height adjustment of the reference slide rail 1 is realized, and vice versa.

The number of the positioning bases 4 is set to be multiple groups, the positioning bases are matched with the number of the vertical beams of the glass framework 71 to be inspected, and the positioning bases 4 are fixed on the basis of the outer sides of the vertical beams through expansion bolts.

The top of the positioning base 4 is fixedly connected with a conical positioning rod 41, the sliding rail unit 11 located at the lowest end of the reference sliding rail 1 is provided with a corresponding positioning hole at the bottom, and the positioning rod 41 is matched with the positioning hole to facilitate the reference sliding rail 1 to be vertically installed on the positioning base 4. The positioning base 4 and the reference sliding rail 1 can be connected together through flanges.

When the calibration device calibrates the position of the connecting piece 73 arranged on the vertical beam, firstly, a group of positioning bases 4 are arranged on the ground outside each vertical beam, then two groups of reference slide rails 1 are assembled by taking the length of the vertical beam as a reference, and a linkage piece 3 is arranged on the two reference slide rails 1; the assembled reference slide rails 1 are supported and fixed on a positioning base 4 in a hoisting mode, so that the two reference slide rails 1 are positioned at the outer sides of two adjacent vertical beams to be measured; then, the calibrator 2 is installed on the two reference slide rails 1, and the straightness measuring instrument on the calibrator 2 can be directly positioned to the docking piece 73 through the calibration hole, and also can be positioned to the docking piece 73 from the outer side of the reference slide rail 1.

During verification, the positions of the connecting pieces 73 of the two groups of vertical beams are simultaneously measured by using the verifier 2, and the measurement results are synchronously marked on the vertical beams; the checking direction can be from top to bottom or from bottom to top, and the checking direction can be operated in sequence.

After the two groups of vertical beams are verified, one group of reference slide rails 1 and the positioning base 4 are released from fixation, then the adjusting nuts 33 of the reference slide rails 1 in the fixed state are rotated, the reference slide rails 1 in the free state are lifted upwards until the positioning rods 41 are separated from the positioning holes, then the reference slide rails 1 in the free state are rotated by taking the reference slide rails 1 in the fixed state as the center, the reference slide rails 1 in the free state are stopped when the reference slide rails 1 in the free state are positioned right above the next positioning base 4, and the adjusting nuts 33 are rotated reversely to enable the reference slide rails 1 in the free state to fall back for fixation; before the rotation process, the checker 2 is detached.

Then the position of the refuting piece 73 of the next vertical beam is determined by taking the above group of test results as a reference, and the test is sequentially carried out, so that the test of the position of the refuting piece 73 of each vertical beam is completed, the installation uniformity of the refuting piece 73 is improved, and the installation effect of the glass panel 72 is guaranteed.

The inspection method can also be applied to marking the mounting positions of the docking members 73 before the mounting of the docking members 73.

The connecting rod 31 and the adjusting rod 22 of the checking device can be arranged in a telescopic mode, so that the checking device can adapt to frameworks with different sizes.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.

Claims (9)

1. The utility model provides a glass decoration post refutes union piece position calibration equipment which characterized in that: the device comprises two reference slide rails (1), a calibrator (2) slidably mounted on the two reference slide rails (1), a linkage piece (3) for connecting the two reference slide rails (1) together to realize relative rotation or lifting, and a plurality of groups of positioning bases (4) for positioning the positions of the reference slide rails (1);

the linkage piece (3) comprises a connecting rod (31), two screw rods (32) which are respectively rotatably arranged at the end part of the connecting rod (31), and an adjusting nut (33) which is in threaded connection with the screw rods (32);

the screw rod (32) is in sliding fit with the end part of the reference sliding rail (1);

the adjusting nut (33) is rotatably connected with the end part of the reference sliding rail (1);

when one adjusting nut is rotated, the screw rod in threaded connection with the adjusting nut ascends along the axis, the other reference slide rail synchronously ascends through the transmission of the connecting rod and is separated from the positioning base below the screw rod, then the reference slide rail in a free state is rotated by taking the reference slide rail in a fixed state as the center, the reference slide rail in the free state stops when being positioned right above the next positioning base, and the adjusting nut is reversely rotated to enable the reference slide rail in the free state to fall back for fixing;

and then, taking the above group of inspection results as a reference, and determining the position of the connecting piece of the next group of vertical beams.

2. The glass decoration post refutes union piece position calibration equipment of claim 1, its characterized in that: benchmark slide rail (1) includes multiunit slide rail unit (11), mounting groove (12) have been seted up to slide rail unit (11) surface length, the mounting groove (12) is embedded to have the fixed block with two slide rail unit (11) looks rigid couplings and fixed jackscrew (52) with fixed block threaded connection.

3. The glass decoration post refutes union piece position calibration equipment of claim 2, its characterized in that: the section of the mounting groove (12) is trapezoidal, and the groove opening is closed; the fixed block is matched with the mounting groove (12) in shape.

4. The glass decoration post refutes union piece position calibration equipment of claim 1, its characterized in that: the calibrator (2) comprises two groups of sliding sleeves (21), an adjusting rod (22) positioned between the two sliding sleeves (21) and a measuring instrument arranged on the sliding sleeves (21);

the two groups of sliding sleeves (21) are respectively in sliding fit with the two groups of reference sliding rails (1);

the adjusting rod (22) is connected with the sliding sleeve (21) through a spherical hinge.

5. The glass decoration post refutes union piece position calibration equipment of claim 4, its characterized in that: the sliding sleeve (21) is of an annular structure capable of being opened and closed.

6. The glass decoration post refutes union piece position calibration equipment of claim 1, its characterized in that: the positioning base (4) is connected with the reference sliding rail (1) through a flange.

7. The glass decorative column refutes union piece position calibration equipment of claim 6, its characterized in that: the positioning base (4) is provided with a positioning rod (41), and the bottom of the reference sliding rail (1) is provided with a positioning hole.

8. The glass decoration post refutes union piece position calibration equipment of claim 1, its characterized in that: the length sizes of the calibrator (2) and the linkage piece (3) are adjustable.

9. The utility model provides a glass decoration post refutes union piece position verification method which characterized in that: the glass decorative column connector position verifying device of any one of claims 1 to 8 is adopted to realize the following processes:

a group of positioning bases (4) are arranged on the basis of the outer side of each beam to be measured;

mounting a linkage piece (3) and a calibrator (2) on two reference slide rails (1);

two groups of reference slide rails (1) are arranged on two adjacent positioning bases (4);

checking the mounting position on the beam to be tested along the height direction;

the connection between one group of the reference slide rails (1) and the positioning base (4) is released, so that the group of the reference slide rails (1) are in a movable state, the adjusting nuts (33) of the fixed reference slide rails (1) are rotated, the screw rods (32) are driven to ascend along the axis by rotating the adjusting nuts (33), and the height of the movable reference slide rails (1) is synchronously ascended;

rotating the reference slide rail (1) in the movable state by taking the reference slide rail (1) in the fixed state as a center to enable the reference slide rail (1) in the movable state to be positioned above the next group of positioning bases (4), reversely rotating an adjusting nut (33) of the reference slide rail (1) in the fixed state, fixing the reference slide rail (1) in the movable state with the positioning base (4) below after the reference slide rail (1) in the movable state falls back, and then measuring the position of the connecting piece of the next group of vertical beams by taking the inspection result of the group as a reference;

and sequentially reciprocating until all the beams to be tested are verified, and disassembling the verifying device.

Images