KR101846521B1 - Staf fasteners for underground facilities - Google Patents

Abstract

The present invention relates to a socket box of a wall surface embedding type apartment house in an electricity field, and more specifically, relates to a staff fixing device for measuring underground facilities in which a horizontal staff and a vertical staff crossing in a cross shape can be easily and simply fixed and separated, and a structure of the staff fixing device is simple such that production can be fairly and easily facilitated and damages on the surface of the staff during operation can be prevented.

Description

{Staf fasteners for underground facilities}

[0001] The present invention relates to an outlet box of a wall-mounted type apartment house in an electric field in the field of underground facilities surveying technology, and more particularly to an outlet box for a wall-mounted apartment house which is capable of easily and easily fixing and separating cross- The present invention relates to a star fixation device for measuring underground facilities which is simple in construction and which is easy to manufacture and which prevents surface damage of a staff member during operation.

Generally, geodetic surveying should be done first for various civil engineering design and architectural design.

Geodetic surveying is the measurement of horizontal distance, elevation difference and direction, determining the location of each measuring point, displaying it in figures or numerical values, and staking out all activities in the field.

In recent years, attention has been paid to the accuracy and the updateability of data due to the increase of spatial information activity. Especially recently, data update has been secured through actual updating of DBs caused by new burial of waterworks and sewage pipes.

Here, the actual measurement of underground facilities means direct measurement (separation distance and depth measurement) in a condition that can be visually confirmed at the time of construction before completion of construction.

As a conventional inspection apparatus, there is a Korean Registered Utility Model No. 20-0408374, wherein a plurality of staffs are installed through the first and second coupling members to measure the width of the upper end portion and the width and depth of the lower end portion at one time It is quite easy to do.

However, according to the conventional technique, the staff are respectively coupled to the first and second engagement members. In this case, when the staff is moved to the side or the side, the staff is easily scratched by the first and second engagement members, There is a serious problem that the scale of ESTAFF is damaged. To solve such a problem, there is a fundamental problem that it is difficult to secure the fixation when loosely coupled, and it is difficult to make accurate measurement.

In addition, when one end of the long staff is to be inserted from the beginning when the staff is to be joined to the first and second engagement members, installation is considerably cumbersome, and only a staff having a certain standard can be installed.

Further, since the first and second engagement members are structured such that the 'D' -shaped grip is rotatably coupled through the rivet, the first and second engagement members are inconvenient because they are inconvenient and difficult to manufacture.

Korea Patent Registration No. 10-1477729 (December 23, 2014) 'Staff Fixing Device for Underground Facilities Survey'

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems in the prior art, and it is an object of the present invention to provide a cross-shaped cross-stapler and cross stapler which can be easily and easily fixed and separated, The main purpose is to provide a fastening device for underground facility surveying which is quite easy and prevents the surface damage of the staff during operation.

The present invention provides, as means for achieving the above-mentioned object, a plate-like fastening part (2) disposed at the rear of the vertical stud (2) for fixing a cross staple (2) and a cross staple A pair of horizontal portions 12 extending in parallel to the upper end of the fastening portion 11 with the vertical stud 2 interposed therebetween and resting on the upper surface of the horizontal staple 1, A bracket 10 extending vertically from the distal end of each horizontal part 12 to face the horizontal stiffener 11 and disposed in front of the horizontal stiffener 1; A bolt 21 which is movably fastened to the coupling part 11, a handle 22 which is fixed to one end of the bolt 21 and a pressing part 23 which is fixed to the other end of the bolt 21 A sphere 20; A locking hole 13a formed in the support portion 13 and a center indicator 30 detachably attached to the coupling hole 13a, An insert member 100 is formed integrally with the pressing portion 23 and integrally formed with the pressing portion 23. The pressing portion 23 is made of a water-soluble acrylic-modified urethane-alkyd resin containing 5% by weight and allopen 4.5% by weight of allophane powder and the remaining polyethylene resin; The insert member 100 includes a base plate 102 having a threaded periphery, a connecting rod 106 integrally extending from the center of the upper surface of the base plate 102, The connecting rod 106 and the filling cup 108 are insert-molded integrally with the base plate 102 protruding from the one end face of the pressing part 23, A first ball bearing 110 is disposed on an outer surface of the base disk 102 and a slip disk 120 is disposed in contact with the first ball bearing 110. The slip disk 120 has a center The protrusion 122 protrudes vertically and integrally with the first ball bearing 110 with the second ball bearing 130 inserted in the coupling protrusion 122 with respect to the slip disc 120, The second ball bearing 130, the slip disk 120 and the first ball bearing 110 are embedded in a cover 140 screwed around the base disk 102, Is exposed to the outside through the center of the cover 140; The bolt 21 has an engaging portion 21a in the form of a groove and the engaging portion 21a is screwed with the engaging projection 122. The engaging portion 21a is provided with a bolt 21 Wherein a through hole (HOL) penetrating in the radial direction is formed and a fixing pin (PIN) for penetrating and fixing the coupling protrusion (122) is fitted and fixed in the through hole (HOL) Thereby providing a fixing device.

According to the present invention, it is possible to easily and securely fasten and separate the horizontal stiff and the vertical stiff crossed in a cross shape, and the structure is simple, so that the manufacture is remarkably easy and the effect of preventing the surface damage of the staff .

1 is an assembled perspective view of a star fixation device for underground facilities survey according to the present invention;
FIG. 2 is an exploded perspective view of a stocking fixture for surveying underground facilities according to the present invention. FIG.
3 is a cross-sectional view of a fastening device for underground facility survey according to the present invention.
4 is a perspective view showing a state where a staff is fixed using a staff fixing device for underground facilities survey according to the present invention.
FIG. 5 is a view for surveying an underground facility using a staff fixing device for underground facilities according to the present invention; FIG.
FIG. 6 is a view illustrating a modified example of a press fitting structure of a stationary fixing device for underground facilities surveying according to the present invention; FIG.
Figure 7 is an exemplary view of the insert member in Figure 6;
FIG. 8 is an exemplary diagram showing an example of lighting in FIG. 6; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Prior to the detailed description, the present invention uses the configuration of the above-mentioned Japanese Patent No. 10-1477729 as it is and further improves the structure and assembly form of the pressing portion.

1 to 4, a star fixing device according to the present invention is composed of a bracket 10 and a tightening tool 20, and a center indicator 30 is further reinforced thereon, (1) and the vertical stiffener (2) can be easily and easily connected to each other, and an underground facility (for example, a pipeline, etc.) buried in the ground by using the horizontal stiffener ) Can be measured very conveniently by the operator alone.

For reference, the horizontal stiffener (1) and vertical stiffener (2) are scaled bars used in the field of surveying.

Referring to FIGS. 1 to 4, the bracket 10 is formed as a U-shaped member as a whole. In the present embodiment, the bracket 10 is hung on a cross staple 1 and a vertical staple 2, It functions to detach a street staff (1) and a vertical staff (2).

The bracket 10 includes a plate-like fastening portion 11, a horizontal portion 12 extending horizontally from the upper or lower front of the fastening portion 11, and a horizontal portion 12 extending horizontally And a support portion (13) extending perpendicularly from the distal end of the portion (12).

2) is integrally formed on the inner circumferential surface of the fastening portion 11, and a bolt 21 of the fastening port 20 is fastened to the nut (see FIG. 2) do.

In particular, the bracket 10 may be made opaque using a metal material or may be made opaque or transparent using a synthetic resin material. Particularly, when the bracket 10 is made transparent, Can be grasped (confirmed) as a related article.

According to the present embodiment, as shown in FIGS. 1 and 4, the front and top surfaces are opened in an 'a' shape so that the horizontal stiffener 1 and the vertical stiffener 2, which are crossed in a cross shape, There is an advantage that the installation work is considerably convenient because it can be put on or off, and the structure is very simple, which is advantageous in manufacturing.

In the present embodiment, a nut (see FIG. 2) is integrally formed on the fastening portion 11, but this is merely an example. For example, when the bracket 10 is formed of a synthetic resin material A nut may be inserted into the fastening portion 11 or may be formed by welding when the bracket 10 is formed of a metal material.

1 to 3, the tightening tool 20 is a mechanism for pressing and fixing the horizontal stiff 1 and the vertical stiff 2, and in the case of the present embodiment, the fastening portion 11 of the bracket 10 And presses the horizontal stiffener 1 so as to come into close contact with the support portion 13 via the vertical stiffener 2. [

The tightening tool 20 includes a bolt 21 which is movably fastened to a nut of the fastening part 11 and a handle 21 which is formed at one end of the bolt 21 and is capable of tightening or loosening the bolt 21 And a pressing portion 23 formed at the other end of the bolt 21 and pressing the back surface of the vertical stud 2. [

Particularly, since the pressing portion 23 is rotated by the bolt 21, it is easy to damage (scratch) the vertical stud 2 when it is rotated against the back surface of the vertical stud 2. Therefore, It is preferable to manufacture them with one material.

On the other hand, as described above, even if the pressing portion 23 is made of a soft material such as rubber, it is inconvenient that the damage (scratch) of the vertical stud 2 can not be completely prevented.

Thus, in the case of the present embodiment, the bolt 21 and the pressing portion 23 are structured so as to be idled with each other, thereby solving the above-mentioned problem.

More specifically, the bolt 21 is provided at its other end with a coupling portion 21a having an inner circumferential surface formed with a screw tab. The coupling bolt 24 is coupled to the coupling portion 21a, A pressing portion 23 is provided between the holding bolts 21a and 21a so as to be able to idle.

Therefore, according to the present embodiment, even if the bolt 21 is tightened when the pressing portion 23 is brought into contact with the back surface of the vertical stud 2, the pressing portion 23 is not pressed but rotated, Can damage the back surface of the vertical stud 2 and can solve the problem.

In the present embodiment, the bolt 21 and the pressing portion 23 are shown as being rotatable through the transfer bolt 24. However, the present invention is not limited thereto. For example, It is not preferable to insert the bearing into the insert-molded bearing 23 and to bond the other end of the bolt 21 to the insert-formed bearing, as described above.

The operation of the present invention constructed as described above will be described.

FIG. 5 is a view for surveying an underground facility using a stationary fixture for underground facilities according to the present invention.

First, the bracket 10 is hooked on the horizontal stiffener 1 and the vertical stiffener 2 which are crossed in a cross shape, and the horizontal stiffener 1 and the vertical stiffener 2 are detached, The vertical stud 2 is pushed forward by the tightening tool 20 so that the horizontal stud 1 is brought into contact with the supporting portion 13. [

The horizontal stiffener 1 and the vertical stiffener 2, which are intermittently combined via the bracket 10 and the tightening tool 20, are inserted into the excavated ground G as described above.

At this time, the horizontal stiffener (1) is placed on the upper surface of the underground (G), and the horizontal stiffener (1) To the top.

When the setting is completed as described above, the horizontal stiffener 1 and the vertical stiffener 2 are tightly tightened so as not to be loosened and set by using the tightening tool 20. [

The distance between the reference point formed on the ground and the center of the pipe (P) can be read by the lateral staff (1), and the depth can be read by the pipe The distance from the upper surface of the horizontal staple 1 to the lower end of the horizontal stiffener 1 can be read by the vertical staf 2.

When the surveying operation is completed, the operator moves to the next place and measures the underground facilities in the same manner as described above.

In the meantime, one of the other features of the present invention is general-purpose, and in the case where only one vertical stiffener 2 is prepared, it can be used as a substitute for a horizontal stiffener by using surrounding pipes, It can be easily fixed together with the vertical stapler 2 using the staple fixing device according to the present invention.

For example, the vertical studs 2 and the pipes (or the like) are intersected with each other in a cross shape, fixed using a star fixation apparatus according to the present invention, and then measured by the above-described method.

As a reference, since the scale is not displayed on the pipe (or other items), check the center of the pipe (P) on the pipe and check the separation distance using a tape measure or the like.

On the other hand, in the above-described embodiment, there is a problem that accuracy is significantly reduced when the operator checks the center of the pipe P on the pipe in the snow, or the pipe between the supports 13 is measured using a tape measure or the like, There is a problem that the method takes a long time.

Thus, in the present embodiment, the center indicator 30, which is detachably mounted on the support portion 13 of the bracket 10, is provided to solve the inconvenience as described above.

In this embodiment, a coupling hole 13a is formed in the support portion 13, and the projection 31 of the center indicator 30 is detachably coupled to the coupling hole 13a.

The center indicator 30 is a plate integrally formed with a triangular protrusion protruding upward at the center, and the triangle represents the center of the protrusion 13 between the supports 13.

If necessary, it is preferable to apply a luminous material to the protruding projecting portion in a triangular shape to facilitate identification at night.

According to the present embodiment, since the center indicator 30 is provided on the support 13 of the bracket 10, it is possible to grasp the position of the center of the center at a glance without checking the pipe separately. Therefore, There is an advantage that the time can be shortened.

In addition, a marking portion 32 may be provided at the center of the central indicator 30. [

The marking portion 32 is a hole for allowing a worker to take a point on a pipe or the like in a state in which a pencil or a ballpoint pen is inserted.

In order to improve the structure and the assembling structure of the pressing portion 23 so as to prevent scratches on the surface of the vertical stud 2 when the vertical stud 2 is pressed and fixed, Is a feature according to a further embodiment of the present invention.

3, even if the pressing portion 23 is constructed as an idler, the rotational force of the bolt 21 can not be transmitted. Therefore, if an excessive force is applied to the pressing portion 23, Is forced to rotate at a certain angle and this can not but make scratches on the surface of the staff, especially the vertical staff (2).

In addition, when the bolt 21 is rotated in the releasing direction of the capturing bolt 24, the coupling with the pressing portion 23 may be loosened or may be separated while being loosened.

Accordingly, in a further embodiment according to the present invention, the structure itself is modified to prevent loosening or loosening of the coupling, and slippage occurs at the interface without transmitting the rotational force itself, so that the pressing portion 23 and the bolt 21 are mutually So that the scratch occurrence itself is blocked.

6 and 7, the engaging portion 21a of the bolt 21 is formed with a through hole (HOL) penetrating in the radial direction, and a fixing pin (PIN) is inserted and fixed in the through hole (HOL) do.

At this time, since the fixing pin (PIN) is fixed through the coupling protrusion (122) while the coupling protrusion (122) described later is screwed to the coupling portion (21a), the coupling protrusion (122) The pin is restrained by the pin (PIN), so that the loosening does not occur.

The pressing portion 23 is formed in a state in which the insert member 100 is inserted at the time of molding.

Further, the pressing portion 23 is manufactured by foam-molding a mixture of 5% by weight of the water-soluble acrylic-modified urethane-alkyd resin, 4.5% by weight of allophane powder having a particle size of less than 0.1 탆 and the rest of the polyethylene resin .

At this time, the water-soluble acrylic-modified urethane-alkyd resin is added for imparting tackiness to enhance adhesion with the material and to exhibit super water repellency, and the allopen powder is a clay mineral generated in the weathering process of volcanic ash, Is added as an amorphous clay powder for enhancing the VOC abatement effect and durability, and the polyethylene resin is added in order to maintain the elasticity and impact absorbing property and ensure the easiness of molding.

7, that is, a base plate 102, a connecting rod 106 integrally extending from the center of the upper surface of the base plate 102, and a connecting rod 106 And a filling cup 108 integrally fixed to the upper end of the filling cup 108.

In this case, the insert member 100 is also formed by molding a synthetic resin material. In order to increase the strength and moldability, 10% by weight of silicon and polyvinyl alcohol are contained in the insert member 100.

In addition, the insert molding is configured such that only the connecting rod 106 and the filling cup 108 are inserted while the base plate 102 is disposed so as to protrude from one end face of the pressing portion 23.

When the filling cup 108 is thus formed, the mixture constituting the pressing portion 23 is filled in the filling cup 108, so that the probability that the insert member 100 is separated from and released from the pressing portion 23 becomes close to zero.

Particularly, at least two to three sets of threads are formed on the peripheral surface of the base disc 102.

The cover 140 is screwed to the screw thread formed around the base plate 102.

Here, before the cover 140 is screwed, a first ball bearing 110 is disposed on the outer surface of the base disk 102, and a slip disk 120 is disposed in contact with the first ball bearing 110 A coupling protrusion 122 vertically and integrally protrudes from the center of one side of the slip disk 120 and a second ball bearing 130 is inserted into the coupling protrusion 122 with respect to the slip disk 120 And is disposed opposite to the first ball bearing 110.

In this state, the first and second ball bearings 110 and 130 and the slip disk 120 are not detached but are built in such that the bearings operate while being inserted into the cover 140 and screwed into threads formed around the base disk 102 .

In addition, the engaging protrusion 122 is exposed through the center of the cover 140 and exposed to the outside. The exposed end is fixed to the engaging portion 21a of the bolt 21 as described above, (PIN).

Since the slip disk 120 slips between the first and second ball bearings 110 and 130 when the pressing portion 23 is pressed against the vertical stapler 2 even when the bolt 21 rotates, It is not transmitted to the pressing portion 23 at all and the surface of the vertical stud 2 is not scratched.

8, the lead wire 152 is wired in a state in which the piezoelectric element 150 is fixed in the filling cup 108 of the insert member 100, and in this state, the pressing portion 23 is formed If the at least one small LED 160 is installed on the peripheral surface of the molded pressing part 23 after the pressing part 23 is pressed, the piezoelectric element 150 is pressed against the pressing part 23 due to the characteristic of the pressing part 23, Since the LED 160 is turned on by electricity, the operator can visually confirm the moment when the pressing portion 23 is pressed, thereby stopping the excessive tightening work. Therefore, the work efficiency and tightness There is an advantage that the limit of the work can be gauged.

In addition, since the bracket 10 is required to have surface activity for preventing contamination and is always exposed to the outside air, the chemical resistance and durability must be strong.

To this end, a reinforcing coating layer is further formed on the outer surface of the bracket 10 in the present invention.

At this time, the reinforcing coating layer may be coated by a known coating method such as a spray method.

This reinforcing coating layer comprised 2.5% by weight of a water-soluble acrylic-modified urethane-alkyd resin, 3.0% by weight of zinc (Zn (NO ₃ ) ₂ .6H ₂ O), 2.5% by weight of 1-chloro-2,3- 2.5% by weight of methyltrimethoxysilane, 3.5% by weight of an allophane powder having a particle size of less than 0.1 μm, 5.5% by weight of a resin solution having a polyurethane resin aqueous with decyl ether, and CH ₃ COONa and 3H ₂ O) 4.0% by weight, and 2.0% by weight formic acid, and with the zirconium oxide powder having a particle size of less than 6.0% 0.1㎛, thiocyanate copper 5.0 wt%, MEHEC (methylethylhydroxyethylcelluloe) 2.5% by weight , 8.5 wt% of a resin-silica composite, and the rest of the polycarbonate resin.

Here, the water-soluble acrylic-modified urethane-alkyd resin is added in order to impart adhesiveness to enhance adhesion with a material and to exhibit super water repellency.

In addition, zinc sulfate is added to enhance thermal stability by increasing the heat retaining force due to the formation of eutectic points. 1-Chloro-2,3-epoxypropane is a chlorine-based material having high reactivity and is used for stabilizing the reaction of the composition And methyltrimethoxysilane is added to enhance durability by enhancing the bonding force between emulsified materials by hydrophobicity.

In addition, alophene powder is a clay mineral generated from the weathering process of volcanic ash, which is an exceptionally amorphous clay powder which has no crystal structure and is added to enhance the VOC abatement effect. The resin liquid in which the polyurethane resin is decolorized with ether It is used to maintain adhesion and weatherability.

In addition, sodium acetate is added to enhance durability and heat resistance by strengthening the heat retention due to eutectic point formation, and formic acid is prepared by adding glycerin to the acid, .

The zirconium oxide powder is an amorphous white powder which is added as a kind of ceramics having a melting point of 2.677 캜, a density of 5.6 g / cm ³ and a Mohs hardness of 7 in order to increase the hardness and to enhance the wear resistance, and the thiocyan copper is added to the copper- , And MEHEC (methylethylhydroxyethylcellulose) is added as a cellulose derivative composed of anhydrous glucoside monomer chain to enhance surface activity and chemical resistance.

In addition, the resin-silica composite is heated at a temperature of 600-800 ° C. in a state in which the colloidal silica and the acrylic polymer are immersed in a mixture of the acrylic polymer and the acrylic polymer in a weight ratio of 1: 1, To have a resin-silica composite form according to condensation.

At this time, the condensation reaction is carried out as follows, and the film adhesion and the texture density are drastically improved.

[Colloidal silica: - (HO-Si-OH-) n]

[Acrylic polymer: CH2CCH3CO-OH]

[- (HO-Si-OH- ) n + CH2CCH3CO-OH = - (HO-Si-O-CH2CCH3CO) - n + H 2 O]

In addition, the polycarbonate resin is added for high transparency and high hardness, strength maintenance and durability improvement.

A sample having such a coating layer was prepared, and water resistance was first tested to confirm the surface condition.

In the water resistance test, the sample pipe was immersed in a constant temperature water bath (60 ° C.), and the surface state was checked in units of 500 hours. As a result, no microscopic whitening, cracks, or white rust occurred.

In order to confirm the heat stability, the sample pipe was placed in a beaker, sealed (60 ° C), left in a dry oven for 5 days, and the state was measured. As a result, there was no surface reaction such as gelation.

In addition, to confirm the corrosion resistance, the sample pipe was tested according to KS-D-9502 (standard 240 hr) salt spray test method, and the result was good without occurrence of white rust.

1: Horizontal staff 2: Vertical staff
10: bracket 11: fastening part
12: horizontal part 13: support part
20: fastening port 23:
30: center indicator

Claims (1)

(11) arranged on the rear side of the vertical stud (2) for fixing the vertical studs (2) and the horizontal studs (1) intersecting with each other and the vertical studs A pair of horizontal portions 12 which extend from the upper end of the fastening portion 11 and are placed on the upper surface of the horizontal stiffener 1 and the ends of the horizontal portions 12 facing the fastening portion 11, And a support portion (13) vertically extending from the horizontal stiff (1) and disposed in front of the horizontal stiff (1); A bolt 21 which is movably fastened to the coupling part 11, a handle 22 which is fixed to one end of the bolt 21 and a pressing part 23 which is fixed to the other end of the bolt 21 A sphere 20; A locking hole 13a formed in the support portion 13 and a center indicator 30 detachably attached to the coupling hole 13a,
An insert member 100 is formed integrally with the pressing portion 23 and integrally formed with the pressing portion 23. The pressing portion 23 is made of a water-soluble acrylic-modified urethane-alkyd resin containing 5% by weight and allopen 4.5% by weight of allophane powder and the remaining polyethylene resin; The insert member 100 includes a base plate 102 having a threaded periphery, a connecting rod 106 integrally extending from the center of the upper surface of the base plate 102, The connecting rod 106 and the filling cup 108 are insert-molded integrally with the base plate 102 protruding from the one end face of the pressing part 23,
A first ball bearing 110 is disposed on an outer surface of the base disk 102 and a slip disk 120 is disposed in contact with the first ball bearing 110. The slip disk 120 has a center The protrusion 122 protrudes vertically and integrally with the first ball bearing 110 with the second ball bearing 130 inserted in the coupling protrusion 122 with respect to the slip disc 120, The second ball bearing 130, the slip disk 120 and the first ball bearing 110 are embedded in a cover 140 screwed around the base disk 102, Is exposed to the outside through the center of the cover 140;
The bolt 21 has an engaging portion 21a in the form of a groove and the engaging portion 21a is screwed with the engaging projection 122. The engaging portion 21a is provided with a bolt 21 Wherein a through hole (HOL) penetrating in the radial direction is formed and a fixing pin (PIN) for penetrating and fixing the coupling protrusion (122) is fitted and fixed in the through hole (HOL) Fixing device.

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