KR20190100746A - Lightweight pipe clamp - Google Patents

Abstract

The present invention relates to a clamp for construction scaffolding and, more specifically, to a clamp for construction scaffolding which injection-molds a synthetic resin (nylon resin) instead of iron to reduce weight to improve workability, greatly reduce manufacturing costs, and minimize accidents, integrally injection-molds a pair of support bodies making up the clamp instead of separately manufacturing and coupling the support bodies to improve assembly and expect the stiffness of a conventional iron clamp, and couples a hinge shaft to be eccentric in a force acting direction to compensate for a coupling portion between the support bodies and a support cover and between the support bodies and a tightening member receiving the most effect of force when the support cover enclosing a pipe for scaffolding inserted into the support bodies is tightened by the tightening member and the reaction of force is generated by the action of tightening force. According to the present invention, the clamp for construction scaffolding comprises: a pair of support bodies arranged to be bound to alternately arranged pipes for scaffolding; a support cover to enclose pipes inserted into the support bodies; and a tightening member to perform a tightening operation to allow the support cover to press the pipes. Each component is manufactured by injection-molding a synthetic resin.

Description

Lightweight Pipe Clamps {LIGHTWEIGHT PIPE CLAMP}

The present invention relates to a construction scaffolding clamp, and in particular, by manufacturing by injection molding synthetic resin (nylon resin) instead of steel, compared to the conventional iron clamp can reduce the weight of about 1 / 2.5 to 1/3 to more workers It is possible to carry a large quantity, which can improve the work efficiency and shorten the working time, and the manufacturing cost can be drastically reduced by manufacturing synthetic resin, especially nylon resin, which is cheaper than steel. Increasing market competitiveness, especially by injection molding integrally, rather than separately manufacturing a pair of supporting bodies for binding to cross-aligned scaffolding pipes, further reduces manufacturing costs and improves assembly and The rigidity of the steel clamp can be expected, and the tightening of the fastening member Tightening members or supports that are pushed by the scaffolding pipes so that each hinge axis of the fastening member and the support cover are inclined in the direction of the action of the force, thereby compensating for the direction of the reaction of the force and being pushed by the reaction. The present invention relates to a construction scaffolding clamp having an improved coupling structure in order to prevent damage to a hinge shaft coupling area of a cover.

The building is framed and the outdoor construction of the building is performed first, and then the indoor construction is performed. To do the outdoor construction, the exterior wall construction of the building is performed with the safety net installed by fixing the scaffold on the outside part of the building. At this time, the scaffold installed for the construction of the outer wall of the building is arranged to cross the pipe horizontally and vertically, and to use the scaffolding clamp to firmly combine the intersections.

Various techniques for such construction scaffolding clamp, Korean Patent Publication No. 10-2004-0076170 (August 31, 2004, published, "prior art 1") "construction scaffold clamp" is presented, The prior art 1 has a structure in which a stone piece and a through hole are formed on two support plates into which pipes are inserted, respectively, and welded from the other side to be integrated with each other in a state in which the stone piece penetrates the through hole. In addition, the Republic of Korea Patent Publication No. 10-2006-0097168 (2006.09.14, published, "prior art 2") "construction scaffold clamp" is presented, the prior art 2, the left and right support portion is a coupling hole and obstacles The additional male and female have a structure that allows the riveting coupling through the through.

As described through the prior arts 1 and 2, the conventional clamp is made of steel, the pair of bodies made of steel to be joined by welding (prior art 1) or to combine through riveting coupling (prior art) 2) become. Existing clamps increase the time or cost of joining a pair of bodies, and the process of assembling such a large amount of parts increases, and the clamp made of steel goes through a plating process and is used as a material. Due to the rising cost of raw materials, manufacturing costs are increasing due to materials and assembly.

In addition, the existing steel clamps are heavy, so the worker can carry them around and install them, so there is a limit to the quantity of them. There is a hassle to climb to the structure, which takes a lot of time.

In addition, if a worker accidentally falls down, the weight causes injury to other workers.

Therefore, it is possible to significantly reduce the weight of the existing steel clamp, and to retain the rigidity of the iron while replacing expensive iron used as a material, as well as to shorten the assembly process to significantly reduce the manufacturing cost, There is a demand for construction scaffolding clamps that can maximize work efficiency, shorten the air, and minimize safety accidents.

Republic of Korea Patent Publication No. 10-2004-0076170 (2004.08.31, published) Republic of Korea Patent Publication No. 10-2006-0097168 (2006.09.14, published)

The present invention provides a construction scaffolding clamp that can be expected to contribute to the reduction in weight, improved work efficiency, reduced working time and reduced manufacturing cost by manufacturing a clamp by injection molding through synthetic resin, in particular, nylon instead of steel. For the purpose of

In another aspect, the present invention by integrally injection molding a pair of support bodies that are tied to the cross-arranged scaffolding pipes, can further reduce the manufacturing cost and manufacturing time, as well as improve the assemblability of existing steel clamps It is an object of the present invention to provide a clamp for construction scaffolding which can be expected to have rigidity.

Furthermore, the present invention is to provide a construction scaffolding clamp that enables the compensation of the reaction of the force by arranging the hinge axis to be biased by the action of the force on the rotational coupling portion in each support cover and tightening member rotatably coupled to the support body. For the purpose of

In order to solve the above problems, the construction scaffold clamp according to the present invention is lighter than the conventional iron clamp to improve the workability and significantly reduce the manufacturing cost and to minimize safety accidents A pair of support bodies formed at right angles and having curved portions formed on an inner circumferential surface thereof;

A support cover rotatably coupled to one end of the support body to surround the scaffolding pipe disposed on the curved portion of the support body; And

It consists of a fastening member which is rotatably coupled to the other end of the support body to fix the support cover wrapped around the scaffolding pipe,

The pair of support bodies are coupled to allow binding to two scaffolding pipes arranged crosswise, and the support body or the support cover or the fastening member or both are formed by injection molding a synthetic resin.

In addition, the pair of supporting bodies may be manufactured by injection molding integrally instead of separately manufacturing and combining the pair of supporting bodies, and at the same time expecting the rigidity obtained from the conventional steel clamps. It is integrally injection molded, and the synthetic resin is characterized in that the nylon resin (nylon).

And, the scaffolding pipe is inserted into the curved portion of the support body and the support cover is rotatably coupled to one end of the support body is tightened through the tightening member, the scaffolding pipe due to the tightening force is generated a repulsive force, That is, in order to compensate for the coupling portion between the support body and the support cover, the force of which is most affected by the action and reaction of the force, a corresponding curved portion is formed on the inner circumferential surface of the support cover, and a corresponding shaft hole is formed at one end thereof. One end of the support body is formed, the shaft hole for the corresponding shaft hole is formed, the shaft hole is formed to be biased toward the center of the curved portion and the corresponding curved portion in the state in which the support cover is closed with respect to the support body, A hinge shaft is coupled to the shaft hole and the corresponding shaft hole.

In addition, when compared with the shaft hole of the support body, the corresponding shaft hole of the support cover is formed to be biased against the shape formed by the shaft hole, it can be expected to improve the durability for the rotational coupling site. Therefore, for this purpose, the corresponding shaft hole of the support cover is characterized in that formed in the opposite direction to the center of the curved portion and the corresponding curved portion formed in the state in which the support cover is closed with respect to the support body.

And, the clamping member is inserted into the curved portion of the support body and the tightening member rotatably coupled to the other end of the support body is coupled to the support cover to tighten the support cover, wherein the action of the force tightened through the tightening member and its In order to compensate for the coupling portion between the support body and the tightening member, in which the influence of the force is most affected by the reaction of the force acting on the contrary, the tightening member is provided with a coupling shaft hole at one end thereof and a thread formed at the other end thereof. And a tightening nut is coupled to the thread of the coupling portion, and the shaft hole for the corresponding shaft hole is formed at the other end of the support body, and the shaft hole is formed in the coupling groove formed at the other end of the support cover. It is formed to be biased in the direction tightened through the tightening nut, the hinge shaft in the shaft hole and the corresponding shaft hole It is characterized by being combined.

Finally, the support cover is characterized in that it further comprises a reinforcement for increasing the rigidity.

The construction scaffold clamp according to the present invention, by manufacturing a pair of supporting bodies integrally through the injection molding of synthetic resin, minimizes the assembly process of the number of parts, and select the synthetic resin, in particular nylon resin instead of iron to manufacture significantly In addition to reducing weight, the weight can be reduced to almost 1/3 compared to the conventional iron clamp, which contributes to the weight reduction, thereby increasing the work efficiency and reducing the air.

1 is a partially exploded perspective view showing a clamp according to the present invention,
Figure 2 is a perspective view showing a state in which the clamp according to the present invention bound to the pipe,
3 is a plan view of a clamp according to the present invention;
4 is a view for explaining D1 to D6 on a plan view of a clamp according to the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In addition, in order to clearly disclose the present invention, parts not related to the present invention are omitted, and the same or similar reference numerals denote the same or similar elements in the drawings.

The objects and effects of the present invention may be naturally understood or more apparent from the following description, and the objects and effects of the present invention are not limited only by the following description.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a partially exploded perspective view showing a clamp according to the present invention, Figure 2 is a perspective view showing a state in which the clamp according to the invention is bound to the pipe, Figure 3 is a plan view of the clamp according to the invention, Figure 4 It is a figure for demonstrating D1-D6 on the top view of the clamp which concerns on this invention.

As shown in Figures 1 to 4, the construction scaffolding clamp according to the present invention, consisting largely of a support body, a support cover and a fastening member, looking at each component in detail as follows.

The support body has a first connection portion formed with a shaft hole at one end, a second connection portion integrally connected with one end at a right angle to the other end of the first connection portion, and a shaft hole formed at the other end, and the first connection portion. It includes a curved portion formed to the inner peripheral surface of the second connecting portion via the inner peripheral surface of the first connecting portion.

At this time, the curved portion is preferably formed to have a radius of curvature with respect to the diameter of the scaffolding pipe.

And, the support body is made of a pair, each of the second connecting portion in the pair of support body is connected to each other, the coupling of the support body of the pair to enable binding to the scaffolding pipes arranged to cross They are connected to each other by rotating one of them 90 degrees.

In the present invention, the pair of support bodies are not connected separately, but are manufactured by injection molding integrally. Particularly, injection molding is performed using nylon resin, which is a synthetic resin instead of iron, which is a material used in a conventional clamp. The support cover and the tightening member are also injection molded from nylon resin.

Nylon resin is known as nylon or polyamide, and the material is tough, resistant to fatigue, impact and solvents, reversibly absorbs trace amounts of water with low friction, and has a low melting point, so it can be processed at low temperatures. The molding temperature range is wide and shows easy physical properties.

Therefore, it is widely used as a material for fibers and mechanical parts because of its outstanding wear resistance and rigidity compared to other plastics.

On the other hand, referring to Figure 4, the shaft hole of the first connecting portion is formed to be biased toward the center of the curved portion and the corresponding curved portion to be described later in the state that the support cover is closed with respect to the support body, the shaft hole and the corresponding to be described later As the hinge shaft is coupled to the shaft hole, the support cover is rotated with respect to the support body.

That is, when the support cover is rotated through the tightening member, a reaction of the force against the action of the force for pressurizing the pipe is generated, and the coupling portion between the support body and the support cover that is most affected by the force. The cracks, etc. will be broken.

Accordingly, the distance from the center of the shaft hole to the end of the shaft hole toward the end toward the center of the curved portion is D1, and the direction opposite to the center of the curved portion from the center of the shaft hole. The distance to the end toward the end is set to D2, and in this case, in the present invention, D2 has a larger value (distance) as compared with D1, that is, the shaft hole is arranged to be biased toward the center of the curved portion, so that the support When the cover pressurizes the pipe through the fastening member, the shaft hole, which is a rotational coupling site affected by the repulsive force of the pipe by the pressurized force, will compensate for it.

On the other hand, the shaft hole formed at the other end of the second connecting portion of the support body is the direction of the force that the tightening member is tightened when the center of the shaft hole and the support cover is pressed through the tightening member in the state wrapped around the scaffolding pipe In a straight line, the distance from the center of the shaft hole to the end of the tightening member in the direction of the force is tightened to D3, and the opposite direction of the force to tighten the tightening member from the center of the shaft hole. The distance to the end toward the end is set to D4, and in this case, in the present invention, D4 has a larger value (distance) compared to D3, that is, the shaft hole is arranged to be biased in the direction of the force to which the tightening member is tightened. By doing so, when the tightening nut of the tightening member is tightened, the support cover is rotated inward, thereby pressurizing the pipe. The shaft hole, which is a rotational coupling site that is affected by the repulsive force of the pipe by the force that is pressed, compensates for it.

The support cover is rotatably coupled to the shaft hole through the hinge shaft at the first connection portion of the support body to surround the scaffolding pipe disposed on the curved portion of the support body, a corresponding curved portion formed on an inner circumferential surface, one end of the shaft hole Comprising a corresponding shaft hole formed to correspond to, the coupling groove is formed on the other end, the corresponding shaft hole is located in the shaft hole of the support body, by coupling the hinge shaft to the shaft hole and the corresponding shaft hole, connected to the support body do.

In this case, the corresponding curved portion is preferably formed to have a radius of curvature with respect to the diameter of the scaffolding pipe. In addition, the coupling groove is inserted into the coupling portion of the tightening member to be described later, the protruding jaw is further formed integrally so that the tightening nut fastened to the screw thread of the coupling portion is not detached in close contact with the upper end of the coupling groove.

On the other hand, the support cover is further formed to enhance the rigidity to withstand the external force more. In addition, when compared with the shaft hole of the support body, the corresponding shaft hole of the support cover is formed to be biased against the shape formed by the shaft hole, it can be expected to improve the durability for the rotational coupling site. Therefore, for this purpose, the corresponding shaft hole of the support cover is formed in a direction opposite to the center of the curved portion and the corresponding curved portion in the state in which the support cover is closed with respect to the support body.

Referring to Figure 4, in more detail with respect to the corresponding shaft hole of the support cover, the support cover is rotated at the rotational coupling portion of the support cover and the support body wraps the pipe inserted into the curved portion of the support body and tightening member When pressurized through, the rotational coupling portion of the support cover is a force that is to be separated from the support body by the tightening force of the tightening member acts, thereby improving the problem, such as damage to the rotational coupling portion by this force At the same time, the corresponding shaft hole is biased in the direction of the force to be separated, that is, when the direction of the force and the direction opposite to the force in a straight line, the opposite direction of the force is formed thicker with respect to the corresponding shaft hole.

That is, when the distance to the inner end is D5 and the distance to the outer end is D6 based on the corresponding shaft hole in the direction in which the force acts, D6 has a smaller value (distance) in comparison with D5 in the present invention. Thus, it is possible to expect the durability improvement that can be tolerated by the D5 more strongly against the force that the rotating coupling portion of the support cover is pushed outward by the tightening member.

The fastening member is rotatably coupled to the other end of the support body to fix the support cover surrounding the scaffolding pipe, a coupling part having a screw shaft formed at a corresponding shaft hole and the other end at one end thereof, and fastened to the thread of the coupling part. Consists of a tightening nut.

At this time, the corresponding shaft hole is located in the second connecting portion shaft hole of the support body and the hinge shaft is coupled, so that the tightening member is rotated to the second connecting portion of the support body. On the other hand, in the present invention, it is preferable that the support body, the support cover and the tightening member constituting the clamp is produced by injection molding with nylon resin, but in some cases, the fastening member may be made of iron and connected to the support body. Various modifications and variations will be possible.

The clamp of the present invention is significantly lighter than the conventional iron clamp to be able to carry a large number of workers, thereby resulting in a significant effect, such as increased work efficiency.

Before the operator installs the clamp of the present invention on the cross-arranged scaffolding pipe, the operator opens the support cover and the fastening member connected to the support body, and the pair of the support body is adapted to the scaffold pipes arranged vertically and horizontally. Position each curved part to be in contact with each other, wrap the pipe with an open support cover, and insert the coupling portion of the fastening member into the coupling groove of the support cover.

At this time, the tightening nut fastened to the thread of the coupling portion may be located outside the inner side of the support cover, that is, the tightening nut may be in close contact with the upper end of the coupling groove when tightening the tightening nut.

When the tightening nut is tightened by using a separate tool, the tightening nut moves along the thread of the coupling part, and thus, the support cover is rotated based on the hinge shaft coupled to the shaft hole and the corresponding shaft hole, which are rotational coupling parts. Done.

Therefore, the pivoted support cover pressurizes the pipe, thereby binding the scaffolding pipes arranged vertically and horizontally.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. Should be regarded as falling within the scope of the above claims.

As those skilled in the art to which the present invention pertains, various permutations, modifications, and changes are possible without departing from the technical spirit of the present invention. It is not limited by.

In the exemplary system described above, the methods are described based on a flowchart as a series of steps or blocks, but the invention is not limited to the order of steps, and certain steps may occur in a different order or concurrently with other steps than those described above. Can be. In addition, those skilled in the art will appreciate that the steps shown in the flowcharts are not exclusive and that other steps may be included or one or more steps in the flowcharts may be deleted without affecting the scope of the present invention.

Claims (6)

A pair of support bodies formed at right angles and having curved portions formed on an inner circumferential surface thereof;
A support cover rotatably coupled to one end of the support body to surround the scaffolding pipe disposed on the curved portion of the support body; And
It consists of a fastening member which is rotatably coupled to the other end of the support body to fix the support cover wrapped around the scaffolding pipe,
The pair of supporting bodies are coupled to enable bonding to two scaffolding pipes arranged crosswise, and the supporting body or the supporting cover or the fastening member or both are formed by injection molding synthetic resin. Clamps.
The method of claim 1,
The pair of support bodies are integrally injection molded,
The synthetic resin clamps for construction scaffold, characterized in that the nylon resin (nylon 樹脂).
The method of claim 1,
A corresponding curved portion is formed on an inner circumferential surface of the support cover, and a corresponding shaft hole is formed at one end thereof.
A shaft hole for the corresponding shaft hole is formed at one end of the support body, and the shaft hole is formed to be biased toward the center of the curved portion and the corresponding curved portion in a state in which the support cover is closed with respect to the support body. Clamping construction scaffold, characterized in that the hinge shaft is coupled to the corresponding shaft hole.
The method of claim 3, wherein
The corresponding shaft hole of the support cover is clamped for the construction scaffold, characterized in that formed in the opposite direction to the center formed by the curved portion and the corresponding curved portion in the state in which the support cover is closed.
The method of claim 1,
The tightening member is provided with a coupling portion formed with a screw thread at the other end and a corresponding shaft hole at one end, the tightening nut is coupled to the screw thread of the coupling portion,
A shaft hole for the corresponding shaft hole is formed at the other end of the support body, and the shaft hole is formed to be biased in the direction of tightening through the tightening nut in a state where the coupling part is fitted into a coupling groove formed at the other end of the support cover. And a hinge shaft coupled to the corresponding shaft hole.
The method according to any one of claims 1 to 5,
The support cover is a clamp for construction scaffold, characterized in that it further comprises a reinforcement for increasing the rigidity.

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