KR102435829B1 - Beam clamp - Google Patents

Abstract

The present invention relates to a beam clamp for fixing a modular rack to the ceiling of a building, wherein the sliding block elevates according to the inclination of the second sliding surface of the support block configured in the support housing, and a pressure bolt fastened to one end of the sliding block point contact is made with the flange at the lower end of the plate so that the vertical fixing force is applied to the flange by the point contact, thereby exerting a firm fixing force and arbitrarily releasing the fixing force even when external forces such as vibration act on the building The purpose is to improve the functionality that is not available.
To this end, the present invention, a support housing comprising a body having a seating space inserted into one side of the rack modular, and a support plate having a first insertion hole formed at each of both ends of the body; a sliding block configured on the support plate of the support housing and having a rectangular sliding groove at one end and a fastening hole at the other end; a support block configured between the support housing and the sliding block; a fixing bolt and a nut for firmly fixing the sliding block to the support housing; and a pressing bolt that is fastened to the fastening hole of the sliding block to exert a fixing force.

Description

Beam clamp for fixing the rack modular to the ceiling of a building {BEAM CLAMP}

The present invention relates to a beam clamp for fixing the rack modular to the ceiling of a building, and more particularly, the sliding block elevates according to the inclination of the second sliding surface of the support block configured in the support housing, and at one end of the sliding block The lower end of the fastened pressure bolt is in point contact with the flange, and by point contact, the pressure bolt exerts a vertical fixing force on the flange, thereby exerting a firm fixing force and even when external forces such as vibration act on the building. It relates to a beam clamp for modular rack fixing to the ceiling of a building to improve the functionality that the fixing force is not released arbitrarily.

In general, on the ceiling of a building, ancillary facilities such as plumbing equipment, electrical equipment, or duct equipment, which are composed of a water supply pipe, a hot water pipe, a rainwater pipe, and a sewage pipe, are installed.

In addition, when an 'H' beam or an 'I' beam is installed on the ceiling of a building, a cable tray method, a fixing member method, or a rack modular method, etc. (hereinafter, ' A beam clamp is used so that the rack modular is fixed to the 'H' beam or the 'I' beam.

Looking at an example of a conventional beam clamp, the beam clamp of Korean Patent No. 10-948662 is provided with a computerized bolt 3 fastened on a spiral hole 1aa on one side as shown in FIG. 1, and at both edges The lower end 1a in which a plurality of lower teeth 1ab are formed, and the fastening bolt 2 formed to correspond to the lower end 1a are fastened on the through-hole 1ba formed in the upper central portion, and a plurality of at both edges A body 1 having an approximately 'C' shape including an upper end portion 1b in which the upper teeth 1ba are formed, and a fastening bolt 2 coupling the beam 4 and the body 1 to each other, and a pipe It includes a channel (5) for loading (6) and a computerized bolt (3) connecting the main body (1).

Therefore, when the opening portion is inserted in the main body 1 of the beam clamp on one side of the beam 4 and the tightening bolt 2 is inserted through the through hole 1ba of the upper end to be fastened, the main body 1 and the beam (4) is coupled, and one end of the computerized bolt (3) is inserted and fastened through the spiral hole (1aa) formed in the lower end (1a) of the main body (1), and the other end is fastened with one side of the channel (5), The channel 5 on which the pipe 6 is loaded is stably fixed with respect to the beam 4 .

However, in the conventional beam clamp, scratches and scattering dust on the flange of the beam 4 by the upper teeth 1ba and the lower teeth 1ab and the tightening bolts 2 formed on the body 1 on the flange of the beam 4 In particular, there is a problem that the installation is inappropriate in a place where an ultra-clean environment such as a clean room, for example, a semiconductor factory must be maintained.

As a method to solve the above problems, the beam clamp 100 of the present applicant's Patent No. 10-2097694 has a lower support plate 10 in close contact with the lower flange of the beam, as shown in FIG. 2 , and the beam An upper support plate 20 that is in close contact with the upper flanges of both sides around the web of the and a fastening member 30 connecting between the lower support plate 10 and the upper support plate 20, the lower support plate 10 A position variable end 40 is formed on the top to vary the installation position of the support frame to which the pipe is coupled in the lateral direction or the longitudinal direction.

Accordingly, it is possible to install the pipe installed below the beam in the transverse direction and in the longitudinal direction, scratches or scattering dust is not generated by the clamp coupled to the flange of the beam.

However, in the conventional beam clamp, the size of the upper support plate is standardized regardless of the width (or length) of the flange of the beam. There is a problem in that a large number of clamps must be manufactured.

In particular, the conventional beam clamp is configured to be face-close to the flange of the beam, and in this case, as the flange of the beam is formed with an inclination of approximately 8°, the fixing direction provided by the beam clamp is twisted by the inclination of the flange, There is a problem in that it does not exhibit a firm fixation force.

Due to the above problems, the beam clamp can be easily released from the beam provided on the ceiling of the building due to earthquakes or vibrations or shocks acting from the inside or outside of the building. There is a problem that the rack modular can fall.

Republic of Korea Patent No. 10-2070238 (2020.01.29. Announcement) Republic of Korea Patent No. 10-2097694 (2020.04.06. Announcement)

As a method for solving the above problems, an object of the present invention is to elevate the sliding block according to the inclination of the second sliding surface of the support block configured in the support housing, and the pressure bolt fastened to one end of the sliding block. The lower end is in point contact with the flange, and the pressure bolt exerts a vertical fixing force on the flange by point contact. An object of the present invention is to provide a beam clamp for fixing the rack modular to the ceiling of a building to improve functionality.

The present invention for achieving the above object, a body having a seating space to be inserted into one side of the rack modular, and a support housing comprising a support plate in which first insertion holes are formed at both ends of the body; a sliding block configured on the support plate of the support housing and having a rectangular sliding groove at one end and a fastening hole at the other end; a support block that is configured between the support housing and the sliding block, and that when the sliding block is pushed toward the web side of the beam, the sliding block is raised so as to be spaced apart from the flange of the beam by a predetermined distance; a fixing bolt and a nut inserted into the sliding groove of the sliding block to guide the transfer of the sliding block, and to allow the sliding block to be transferred to the support housing to be firmly fixed to the support housing; and a pressing bolt that is fastened to the fastening hole of the sliding block, and that the end is in point contact with the flange of the beam so that a vertical fixing force is provided regardless of the thickness of the flange so that a firm fixing force is exerted on the beam clamp with respect to the beam It is characterized in that it contains;

In the present invention, the sliding groove of the sliding block includes: a first groove into which the head of the fixing bolt is inserted to facilitate fastening with the nut without a separate tool; and a sliding block formed under the first groove and formed to be stepped with the first groove so that the head of the fixing bolt is pressed when the fixing bolt is fastened and fixed by a nut, so that the sliding block is firmly attached to the support housing. It is preferable to include a; second groove into which the spiral portion of the fixing bolt is inserted so as to be fixed.

According to claim 1, wherein the lower surface of the sliding block comprises a first sliding surface inclined at a certain angle; The upper end of the support block is formed at the same or similar inclination to the first sliding surface, and when the sliding block is transferred to the web side of the beam, a second sliding surface is supported so that a synergistic action is made; it is preferable to include.

In the present invention, the support block is integral to the support housing; Alternatively, it is preferable to be configured as a separable type that can maintain a fixed state together with the support housing and the sliding block by the fastening force of the fixing bolt and the nut.

In the present invention, the lower end of the pressing bolt, when pressing the flange of the beam with the pressing bolt, regardless of the thickness of the flange, includes a fixed end that induces a vertical fixing force to act by point contact; The fixed end has a tip shape or a hemispherical shape; it is preferable.

In the present invention, the pressing bolt includes a lock nut for pressing the flange of the beam to prevent the pressing bolt from being arbitrarily loosened by an external force when a fixing force is exerted to fix the beam clamp with respect to the beam. it is preferable

According to the present invention, the sliding block ascends and descends according to the inclination of the second sliding surface of the support block configured in the support housing, and the lower end of the pressing bolt fastened to one end of the sliding block is in point contact with the flange, By allowing the pressing bolt to apply a vertical fixing force to the flange, it exerts a firm fixing force and improves the functionality in which the fixing force is not arbitrarily released even when an external force such as vibration acts on the building.

1 is a configuration diagram of a beam clamp showing an example of the prior art.
Figure 2 is an exploded perspective view of a beam clamp showing another conventional example.
3 is a schematic configuration diagram showing a state in which the rack module is fixed to the beam by the beam clamp according to the present invention.
Figure 4 is an exploded perspective view of the beam clamp according to the present invention.
5 is a side view showing a state in which a beam clamp is configured on a beam according to the present invention.
6a to 6c are process diagrams showing the working state of the beam clamp according to the present invention.
7 is a front view showing another example of the beam clamp according to the present invention.

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

The rack modular fixing beam clamp of the present invention provides a fixing force so that the rack modular can be stably fixed to the 'H' beam or 'I' beam (hereinafter referred to as 'beam') provided on the ceiling of a building. carry out

For reference, the rack modular system is configured in a cable tray method or a fixing member method, a rack or a rack modular method, etc. that support ancillary facilities such as piping facilities, electrical facilities and duct facilities on the inside so that they can be stably fixed to the ceiling of a building It is called being

3 to 6, the beam clamp includes a support housing 10, a sliding block 20, a support block 30, a fixing bolt 42, a nut 44, and a pressing bolt ( 50).

The support housing 10 is configured on one side of the upper end of the rack modular 1 , and performs a function of supporting the rack modular 1 .

The support housing 10 includes a body 110 having a seating space 112 having a predetermined depth therein, and a support plate 120 extending to both upper ends of the body 110 .

In addition, the support housing 10 is integrally formed with the body 110 and the support plate 120 . For example, the support housing 10 is formed by a bending method of bending an iron plate to a predetermined shape.

The body 110 allows a part of the rack modular 1 to be seated.

That is, one side of the rack located at the upper end of the racks constituting the rack modular (1) is seated to be inserted into the seating space (112) formed in the body (110).

Accordingly, by being fixed in such a way that the rack modular 1 is seated in the seating space 112 of the body 110, in the conventional case consisting of a conventional fastening method consisting of a bolt and a nut, it is easily caused by an earthquake or vibration, etc. It prevents the weakening of the fixing force due to loosening.

A support plate 120 having a predetermined width is included on each of both upper ends of the body 110 .

One side of the support plate 120 is in close contact with the lower end of the flange 2a of the beam 2, and the sliding block 20 is positioned on the other side of the pressing bolt 50 configured on one side of the sliding block 20. It performs a supporting function so that a firm fixing force can act on the flange 2a of the beam 2 by the pressing force.

In addition, the support plate 120 is configured to have a flat surface.

In addition, one side of the support plate 120 includes a first insertion hole 122 into which a part of the fixing bolt 42 for supporting the sliding block 20 is transported for a predetermined distance to be maintained in a stationary state.

The first insertion hole 122 forms a hole through which a part of the fixing bolt 42 , that is, a spiral portion of the fixing bolt 42 is inserted, and fastened by the nut 44 . Of course, the present invention is not limited thereto, and in the first insertion hole 122 , the nut 44 may be omitted, and a female screw portion may be formed so that the spiral portion of the fixing bolt 42 can be directly fastened.

The sliding block 20 is configured on one side of the support housing 10 and serves to support the beam 2 in the width direction of the flange 2a so that the fixing force can be exerted.

The sliding block 20 includes a rectangular sliding groove 210 so that the head and the spiral portion of the fixing bolt 42 are inserted on one side and guided by the fixing bolt 42 to be transported for a predetermined length.

The sliding groove 210 has a first groove 212 for allowing the head of the fixing bolt 42 to be seated, and a stepped structure below the first groove 212, so that the screw of the fixing bolt 42 is formed in a stepped structure. It is composed of a second groove 214 into which the addition is inserted.

In this case, the first groove 212 has a hexagonal shape so that the head of the fixing bolt 42 is seated and fastening or loosening can be stably performed by the nut 44 without using a separate tool. formed in a rectangular shape.

In addition, the other side of the sliding block 20 includes a fastening hole 50 to which the pressing bolt 50 is fastened so that the pressing bolt 50 is fastened, so that a substantial fixing force can be exerted from the pressing bolt 50 . .

In addition, the lower end of the sliding block 20 is raised and lowered according to the transport distance when the sliding block 20 is transported a certain distance based on the fixing bolt 42, so that the thickness of the flange 2a of the beam 2 is not limited. It includes a first sliding surface 230 inclined at a certain angle to be used for general purpose without.

The first sliding surface 230 is formed at a certain angle, for example, 5° to 20° inclination, and when the sliding block 20 is transferred to the side of the web configured in the beam 2, the thickness of the flange 2a It can be used for general purpose without overcoming the limitations of use.

In addition, the lower end of the sliding block 20, that is, one side of the first sliding surface 230 is configured to be recessed to a certain depth, and when the sliding block 20 is transferred to the web side by the beam 2, the flange ( 2a) and the lower end of the sliding block 20 include a stepped surface 240 for supporting so as to maintain a spaced state so as not to contact.

In this case, the stepped surface 240 can be omitted as long as it does not adhere to the flange 2a even when the sliding block 20 is transported by the inclination angle of the first sliding surface 230 .

The support block 30 is configured between the support housing 10 and the sliding block 20, and when the sliding block 20 is transported, parallelism is maintained between the sliding block 20 and the support housing 10 functions that make it possible.

The support block 30 has a second sliding surface 32 having the same or similar inclination as the first sliding surface 230 of the sliding block 20 is formed on the upper surface.

In this case, the lower surface of the support block 30 is formed flat so that the surface adhesion to the support plate 120 of the support housing 10 can be stably made.

In addition, the support block 30 includes a second insertion hole 34 through which the spiral portion of the fixing bolt 42 inserted into the sliding groove 210 of the sliding block 20 is inserted.

That is, the second insertion hole 34 of the support block 30 is configured on the same line as the first insertion hole 122 of the support housing 10 , and the spiral portion of the fixing bolt 42 is inserted into the second insertion hole. It is inserted into the ball 34 and the first insertion hole 122 .

On the other hand, the support block 30 may be formed separately or integrally with the support plate 120 of the support housing 10. If the support block 30 is integral with the support housing 10, the second The insertion hole 34 is omitted, and only the first insertion hole 122 is formed.

The fixing bolt 42 performs a reference point function so that the sliding block 20 can be lifted by sliding in a state supported by the support block 30 .

The fixing bolt 42 includes a head portion and a spiral portion extending a predetermined length from one end of the head portion and having a spiral formed on the outer periphery.

In this case, the fixing bolt 42 is preferably composed of a hexagonal head bolt as shown. Of course, the present invention is not limited thereto, and the fixing bolt 42 is supported on the support housing 10 so that the sliding block 20 is transported and then the sliding block 20 is firmly fixed to the support housing 10 . Any structure or shape may be used.

When the screw portion of the fixing bolt 42 protrudes through the first insertion hole 122 configured in the support plate 120 of the support housing 10, the nut 44 is fastened to the support housing 10 as it is fastened with the screw portion. ) performs a function of exerting a fastening force so that the sliding block 20 on the support plate 120 can maintain a firmly fixed state.

Accordingly, the nut 44 slides on the support housing 10 as the head of the fixing bolt 42 presses the first groove 212 formed in the sliding groove 210 of the sliding block 20 by the fastening force. The transfer position of the block 20 is fixed.

In this case, a loosening preventing member such as a washer for preventing the nut 44 from being arbitrarily loosened by vibration or the like after fixing the sliding block 20 by fastening with the fixing bolt 42 to the nut 44 is provided. may include more.

The pressing bolt 50 is fastened to the fastening hole 220 configured on one side of the sliding block 20, so that the end portion presses the flange 2a of the beam 2, the beam clamp of the beam 2 It performs the function of maintaining the fixation.

When pressing the flange (2a) of the beam (2) after being fastened to the fastening hole (220) of the sliding block (20) at the lower end of the pressing bolt (50), the flange (2a) is in point contact rather than in surface contact. This includes a fixing end 52 to provide a vertical fixing force with respect to the flange (2a).

The fixed end 52 is preferably a pointed tip shape or a hemispherical shape. Of course, the present invention is not limited thereto, and any structure or shape may be adopted for the fixing end 52 as long as a vertical fixing force can be applied to the flange 2a.

In addition, the pressing bolt 50 is fastened to the pressing bolt 50, and after pressing the flange 2a of the beam 2 by the pressing bolt 50, the pressing bolt 50 by vibration or the like. It includes a lock nut 54 to prevent any loosening.

Of course, the present invention is not limited thereto, and a spring washer or a pin may be used instead of the lock nut 54 to prevent arbitrarily loosening by a fixing force due to vibration or the like. The nut 54 may be omitted.

The operation state of the beam clamp configured as described above is as follows.

First, a rack configured on one side of the upper end of the rack modular is inserted into the seating space 112 of the support housing 10 .

In this case, after the support block 30 and the sliding block 20 are seated on the support plate 120 of the support housing 10 , they are temporarily fixed with the fixing bolts 42 and the nuts 44 .

Thereafter, the support housing 10 is positioned on one side of the flange 2a of the beam 2 .

Then, the sliding block 20 is pushed toward the web side of the beam 2 .

Accordingly, while the sliding block 20 is pushed with respect to the fixing bolt 42, the sliding block 20 along the second sliding surface 32 of the support block 30 located below the sliding block 20 ), the first sliding surface 230 formed at the lower end is slid, and accordingly, the sliding block 20 is raised in the support housing 10 by the inclination of the first and second sliding surfaces 230 and 32. are transported together

Then, when the pressing bolt 50 configured at one end of the sliding block 20 is tightened, the fixed end 52 configured at the end of the pressing bolt 50 is pressed into point contact with the flange 2a.

Accordingly, universal use is possible regardless of the thickness of the flange (2a) of the beam (2) by elevating the sliding block (20), thereby obtaining the effect of overcoming the limitations of use.

On the other hand, the beam clamp is, as shown in FIG. 7, a plurality of sliding blocks 20 and a support block 30 on the support plate 120 of the support housing 10 so as to exert a firm fixing force with respect to the beam. The fixing bolt 42 and the nut 44 and the pressing bolt 50 may be configured.

What has been described above is only one embodiment for implementing the beam clamp for fixing the rack modular to the ceiling of a building, and the present invention is not limited to the above embodiment. Those of ordinary skill in the art to which the present invention pertains will understand that various modifications can be made without departing from the gist of the present invention.

10: support housing 110: body
112: seating space 120: support plate
122: first insertion hole 20: sliding block
210: sliding groove 212: first groove
214: second groove 220: fastening hole
230: first sliding surface 240: stepped surface
30: support block 32: second sliding surface
34: second insertion hole 42: fixing bolt
44: fixing nut 50: pressure bolt
52: fixed end 54: lock nut

Claims (6)

a support housing including a body having a seating space inserted into one side of the rack modular, and a support plate having a first insertion hole formed at both ends of the body;
a sliding block configured on the support plate of the support housing and having a rectangular sliding groove at one end and a fastening hole at the other end;
a support block that is configured between the support housing and the sliding block, and that when the sliding block is pushed toward the web side of the beam, the sliding block is raised so as to be spaced apart from the flange of the beam by a predetermined distance;
a fixing bolt and a nut inserted into the sliding groove of the sliding block to guide the transfer of the sliding block, and to allow the sliding block to be transferred to the support housing to be firmly fixed to the support housing; and
a pressing bolt that is fastened to the fastening hole of the sliding block, and that the end is in point contact with the flange of the beam so that a vertical fixing force is provided regardless of the thickness of the flange so that a firm fixing force is exerted on the beam clamp;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that it comprises a.
According to claim 1, The sliding groove of the sliding block,
a first groove into which the head of the fixing bolt is inserted to facilitate fastening with the nut without a separate tool; and
The sliding block is firmly fixed to the support housing as the head of the fixing bolt is pressed when the fixing bolt is fastened and fixed by the nut and is formed below the first groove and stepped with the first groove. a second groove into which the spiral portion of the fixing bolt is inserted;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that it comprises a.
The method of claim 1,
The lower surface of the sliding block includes a first sliding surface inclined at a certain angle;
a second sliding surface formed at the upper end of the support block at the same or similar inclination as the first sliding surface to support a synergistic action when the sliding block is transferred to the web side of the beam;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that it comprises a.
According to claim 3, wherein the support block,
integral to the support housing;
Or a detachable type to maintain a fixed state together with the support housing and the sliding block by the fastening force of the fixing bolt and the nut;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that consisting of.
According to claim 1, wherein the lower end of the pressure bolt,
When pressing the flange of the beam with the pressing bolt, regardless of the thickness of the flange, comprising a fixed end that induces a vertical fixing force to act by point contact;
The fixed end has a tip shape or a hemispherical shape;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that.
According to claim 1, wherein the pressure bolt,
a lock nut for pressing the flange of the beam to prevent the pressing bolt from being arbitrarily loosened by an external force when a fixing force is exerted to fix the beam clamp with respect to the beam;
A beam clamp for fixing the rack modular to the ceiling of a building, characterized in that it comprises a.

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