KR20120110475A - A clamp for steel pipe - Google Patents

Abstract

PURPOSE: A clamp for a pipe with an adjustable diameter is provided to improve workability by simply clamping a pipe various diameters or shapes. CONSTITUTION: A clamp for a pipe with an adjustable diameter comprises a U-shaped body(200), a U-shaped cover(300), and a hinge part. The body receives a pipe therein, and a first coupling end(220) engaging with the cover is formed on one end thereof. The cover covers the pipe received in the body, and a second coupling end(320) engaging with the first coupling end is formed on the other end thereof. The hinge part hinges the cover on the body and comprises a cut hole(400), a rotation hole(600), and a hinge pin(500). The hinge pin continuously penetrates through the cut hole and the rotation hole and is used as a hinge shaft.

Description

A Clamp for Steel Pipe

The present invention relates to a clamp for pipes that can be adjusted in diameter, in particular to a clamp for diameter pipe that can be fixed while tightening the pipe to accommodate a very simple operation for connecting and fixing pipes of various diameters and shapes. It is about.

Clamps are often used to connect or secure scaffolding pipes, one of the materials typically used in construction or building sites.

1 is related to a conventional clamp for pipe, as shown in Figure 1 'b' shaped reinforcement fixing portion 10 for fixing one end of the reinforcement, and formed integrally with the reinforcement fixing portion 10 And a semicircular pipe accommodating portion 20 for accommodating the pipe, a cover 30 hinged to one end of the pipe accommodating portion 20 so as to be rotatable, and mounted at one end of the cover 30. It is composed of a fastening pin 40.

The cover 30 is formed in a semi-circular shape that can close the opening of the pipe receiving portion 20, the upper side of the cover 30 has a width that can be inserted into the upper groove of the pipe receiving portion 20 A bent portion is formed, and a hook for hanging the fastening pin 40 is fixed to the bent portion.

The lower end of the cover 30 is formed with an annular portion for inserting the hinge pin (50). In addition, the fastening pin 40 hanging on the hook of the cover 30 has a guide groove formed in its longitudinal direction at the center thereof, so that the fastening pin 40 can be moved and rotated in a state of being hooked. At this time, the width of the fastening pin 40 is formed smaller than the width of the groove, it is formed to be tapered by a predetermined angle in the longitudinal direction.

Looking at the structure in which the construction scaffolding pipe is installed, the pipe receiving portion 20 is in close contact with the pipe of the scaffolding, the cover 30 is rotated so that the upper bent portion is inserted into the groove of the pipe receiving portion 20. . At this time, the opening of the pipe receiving portion 20 is closed by the cover 30, the fastening pin 40 is located on the reinforcement fixing portion 10 side with respect to the pipe receiving portion 20, rotated 90 degrees And pressurized in the width direction of the groove.

Accordingly, the pipe receiving portion 20 and the cover 30 are fastened so that the pipe receiving portion 20 and the cover 30 pressurize and fix the scaffolding pipe located between them.

However, such a conventional pipe clamp can only clamp a pipe corresponding to the inner diameter when the pipe accommodating portion 20 and the cover 30 are fastened, and in order to clamp a pipe having various diameters, A separate clamp with a suitable inner diameter shall be provided.

As a result, the cost is high, and workability is greatly reduced due to the trouble of having to find a clamp suitable for the diameter of the pipe in the field, and there is a problem that a safety accident may occur due to the incorrect use of the clamp. In addition, since the pipe accommodating portion 20 and the cover 30 have a semi-circular shape, there is an inconvenience in that only the circular pipe is clamped but cannot be used for a rectangular square pipe.

The present invention has been made to solve the above problems of the prior art, a circular pipe having a variety of diameters, as well as a square angular pipe as a clamp so as to clamp the pipe accommodated in a very simple structure as a clamping diameter It is an object of the present invention to provide an adjustable pipe clamp.

Another object of the present invention, by adjusting the hinge portion through the incision hole and at the same time to adjust the length of the coupling end is coupled to the pipe clamp having a diameter adjustable to easily and simply accommodate a pipe having a variety of diameters To provide.

Another object of the present invention, the hinge pin coupled to the incision hole consisting of toggle pins or bent hinge pins, the clamp is composed of the body and the cover is raised up and fitted with a diameter adjustable pipe to enable very simple diameter adjustment To provide a clamp.

The present invention will be implemented by the embodiment having the following configuration in order to achieve the above object, and includes the following configuration.

Pipe clamp of the present invention for achieving the above object, the U-shaped body 200, the pipe is accommodated and seated, the U-shaped cover 300 to cover and tighten while tightening the pipe received in the body, and the In the pipe clamp consisting of a hinge portion of the body and the cover hinged at the end, the body and the cover is a bent portion formed by bending the curved portion 211 and the tube is accommodated in a circular pipe seat inside the bent tube bending portion 213, 313), one end of the body is formed with a coupling end 220 to engage the concave and convex coupling, the cover end is formed in the shape of the concave-convex longitudinally in the longitudinal direction on the outside and the coupling end 220 of the body and A coupling end 320 is formed to be engaged with each other, and the hinge portion is a through hole 400 formed by cutting in the longitudinal direction, and formed to enable a hinge rotational movement. A hinge pin through the cutting hole 400 including a rotating hole 600 which is a circular through hole, and a hinge pin 500 successively penetrating the cutting hole 400 and the rotating hole 600 to function as a hinge axis. Moving to 500 to adjust the length according to the size of the pipe to accommodate the hinge rotation movement is possible.

The coupling end 320 of the cover is a fixed end 321 bent inside and a first coupling hole 323 that is coupled to the coupling end 220 of the body when the outer unevenness to accommodate the large diameter circular pipe and When the small-diameter circular pipe is accommodated is characterized in that the second coupling port 325 is provided with the coupling end 220 of the body is engaged.

The inside of the body is characterized in that the upper fixing jaw 240 is coupled to the fixed end 321 when the small diameter circular pipe is accommodated.

The body is characterized in that the lower binding groove 230 is formed as a groove bent at the lower end of the portion where the coupling end 320 of the cover is bound.

The first coupling port 323 and the second coupling port 325 of the cover is formed in an inclined form toward a direction away from the body from the upper side to the lower side, one end of the coupling end 220 of the body is the first It is characterized in that it is formed in an inclined form corresponding to the shape of the first coupler 323 and the second coupler 325.

Coupling end 220 of the body is characterized in that it is formed in a tapered shape so as to increase in thickness from the upper side to the lower side.

The body and the cover is further characterized in that it further comprises side bending parts (250, 350) bent to the outside.

The curved portion 211 is formed with a curvature corresponding to the outer circumferential surface of the small-diameter circular pipe.

The hinge pin 50 is characterized in that the toggle pin is bent by the rotation of the central portion.

The cutting hole 400 is formed of a pin moving hole 410 to which the hinge pin 500 moves and a hinge hole 430 formed at both ends of the pin moving hole 410, and the pin moving hole 410. ) Is formed in a circular cross section cut up and down, it is characterized in that it is connected to the upper side, the center or the lower side of the hinge hole 430.

The pin moving hole 410 is characterized in that formed in a straight or curved shape.

Coupling ends 220 and 320 of the body and the main body are separated up and down, respectively, and include upper and lower coupling ends 220a, 220b, 320a, and 320b, and the hinge pin 500 is divided into upper and lower portions of the first hinge. A pin 550a and a second hinge pin 550b, wherein a space is provided between the upper coupling end 220a and the lower coupling end 220b of the body, and the space is a lower coupling end of the cover. It is characterized in that the same as the vertical height of 320b or longer than the vertical height.

The separation preventing tabs 551a and 551b are formed at ends of the first hinge pin 550a and the second hinge pin 550b, respectively.

The hinge pin 500 is a bending hinge pin 570 bent in a '' 'shape, the upper surface of the cover is formed with an auxiliary hole 610 is inserted into one side of the bending hinge pin 570, the The lower surface of the cover is characterized in that the bending pin binding hole 630 is inserted into one side of the bending hinge pin 570.

The bending pin binding hole 630 is characterized in that it is formed to be tapered to fix the end of the bending hinge pin 570.

INDUSTRIAL APPLICABILITY As described above, the present invention can achieve the following effects according to the above-described problem solving means and the construction and operation to be described later.

As described above, the present invention can fix pipes having various diameters or shapes, and therefore, it is not necessary to provide a separate clamp according to the size or shape of the pipes to be fixed, thereby reducing costs and providing general purpose. By the clamp, there is no need to find a clamp that fits the diameter of the pipe in the field, thereby improving workability.

In another aspect, the present invention, by adjusting the hinge portion through the incision hole to be able to adjust the length at the coupling end is bound to easily and simply accommodate the pipe having a variety of apertures, the hinge pin coupled to the incision hole It consists of toggle pins and bent hinge pins, which make the clamp of the body and the cover up and up so that the diameter can be adjusted very simply.

1 shows a clamp for a pipe according to the prior art.
Figure 2 is a view showing a diameter adjustable clamp pipe according to the invention.
Figure 3 is an operation view showing a clamp for pipe diameter control of the present invention.
Figure 4 is a view showing a state in which the clamp for the diameter adjustable pipe of the present invention to tighten a large diameter pipe or square tube.
Figure 5 is a view showing a state in which the clamping pipe for diameter adjustment of the present invention tighten the small diameter pipe.
Figure 6 is a view showing a function of tightening the outer diameter of the pipe containing the coupler of the present invention.
Figure 7a and 7b is a view showing a state in which the present invention sandwiched large diameter pipe and small diameter pipe in the receiving portion.
8A and 8B are sectional views showing the clamp operation of the present invention.
Figure 9 is a view showing the width adjustment according to the diameter of the pipe in the cutting hole of the present invention.
10 is a view showing various embodiments of the incision of the present invention.
Figure 11 is a perspective view of a pipe clamp capable of adjusting the diameter according to another embodiment of the present invention.
12 is a perspective view showing a state in which a clamp for diameter control is coupled according to another embodiment of the present invention.
13a and 13b is a cross-sectional view showing the operation of the diameter adjustable pipe clamp according to another embodiment of the present invention.
14 is a view showing a pipe clamp capable of adjusting the diameter using a bending hinge pin according to another embodiment of the present invention.
15a and 15b is a plan view showing a pipe clamp capable of adjusting the diameter using a bending hinge pin according to another embodiment of the present invention.
16A and 16B are cross-sectional views illustrating the operation of a clamp using a bending hinge pin according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the clamp for diameter adjustable pipe according to the present invention will be described in detail.

Prior to this, terms and words used in the present specification and claims should not be construed as being limited to ordinary or dictionary terms, and the inventor should appropriately define the concept of the term to describe its invention in the best way The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

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

2 and 3 is a view showing a diameter adjustable pipe clamp according to the present invention, Figure 4 is a view showing a tightening state of a large diameter pipe or a pipe, Figure 5 shows a tightening a small diameter pipe. 6 is a view illustrating a function of tightening the outer diameter of a pipe in which the coupling tool of the present invention is accommodated.

7A and 7B are views illustrating a state in which the present invention is fitted with a large-diameter pipe and a small-diameter pipe in a receiving portion, and FIGS. 8A and 8B are cross-sectional views illustrating the clamping operation of the present invention, and FIG. 9 is the present invention. Figure showing the width control according to the diameter of the pipe at the cutting hole of the.

Referring to Figure 2 and 3 with reference to the pipe clamp can be adjusted in diameter of the present invention, the present invention is a steel-shaped clamp formed to hold a circular tube or a square tube, the U-shaped that the pipe is received and seated It consists of a body 200 and the U-shaped cover 300 which tightens and constrains the pipe received in the body.

The body 200 has a curved portion 211 in which a circular pipe is seated and received therein, and a curved portion 311 in which the circular pipe is seated and received is also formed in the cover 300. Since the above configurations are the same as in the prior art, the description will be mainly focused on the changed or added parts in the present invention.

First, the body 200 is formed with a coupling end 220 to engage with the cover 300 at one end, the coupling end 220 is formed as a protrusion protruding in the longitudinal longitudinal direction, as shown in FIG. Has been combined with the one end of the cover 300 uneven.

On the other end of the body 200, a hinge portion for hinge coupling the cover 300 is formed, and the hinge portion is a cutting hole 400 which is a through-hole cut in the longitudinal direction so that one side portion of the cover 300 is inserted. Is formed.

In addition, the hinge portion includes a rotary hole 600 which is a circular through hole formed to enable the hinge rotational movement, and a hinge pin 500 that continuously passes through the incision and the rotation hole to function as a hinge axis. ) And the rotating hole 600 is installed divided into the body and the cover, respectively. In FIG. 2, the incision hole 400 is formed in the body, and the rotation hole 600 is formed in the cover. In contrast, the incision hole 400 is formed in the body and the rotation hole 600 is formed in the cover. Could be

The cutting hole 400 has a hinge hole 430 is formed at both ends with a pin moving hole 410 between the hinge holes 500 to adjust the length by the hinge pin 500, which allows the hinge rotational movement. This is to adjust the length according to the diameter of the pipe to move to the hinge pin 500 through the ball 400.

2 and 3, the cover 300 has a coupling end 320 that is bent at an outer side of the longitudinal length that is engaged with and coupled to the coupling end 220 of the body at one end thereof. In addition, the opposite end is formed with a rotating hole 600 that allows the hinge pin 500 to pass through the incision hole 400 in the hinge portion to allow the hinge rotational movement.

The hinge rotational movement in the hinge portion of the body 200 and the cover 300 formed as described above, the hinge pin 500 in the incision hole 400 is moved to the inner hinge hole 430 through the pin moving hole 410 When it is possible to accommodate the pipe of a small diameter, when moving to the hinge hole 430 outside it is possible to accommodate a large diameter of the pipe. The diameter control function by the incision and the hinge pin will be described in more detail below.

The body 200 and the cover 300 includes the bent tube formed by bending the bent portion (213, 313), which can be accommodated when the construction scaffolding pipe is made of a square pipe by using a single clamp It can be used for the pipe of the form.

The body 200 and the cover 300 includes a body 200 and the cover 300, which is typically made of a thick iron plate material, including side bent portions 250 and 350 that are bent to the outside to the outside as shown in FIG. ) Can withstand the bending force.

As shown in Figure 2 and 3, the coupling end 320 of the cover 300, the outer side is made of a concave-convex shape in the longitudinal longitudinal direction, the fixed end 321 and the outer concave-convex inwardly bent The first coupling sphere 323 and the second coupling sphere 325 is formed. At this time, the first coupler 323 and the second coupler 325 of the cover 300 is engaged with the coupling end 220 of the body 300 to bind the pipe according to the large and small diameters. . This operation relationship will be described in more detail with reference to FIGS. 4 and 5, 7A and 7B.

4 and 5, 7a and 7b, it can be seen that the clamp of the present invention accommodates large diameter circular pipes and square tubes and small diameter circular pipes. That is, in the case of FIGS. 4 and 7A for accommodating a large diameter circular pipe and a tube, the hinge pin 500 is located at the hinge hole at the outer side of the incision hole 400 so as to rotate the hinge and move the body ( 200 and the coupling ends 220 and 320 of the cover 300 such that the first coupling port 323 of the cover 300 is caught inside the coupling end 220 of the body 200. In addition, in FIG. 5 and FIG. 7B, the second coupling hole 325 of the cover 300 is caught inside the coupling end 220 of the body by accommodating the small diameter circular pipe.

That is, as shown in FIG. 3, when the cover 300 is first lifted from the hinge portion in the vertical direction, and then the hinge pin 500 is moved from the incision hole 400 to the outer hinge hole 430, a large diameter or Clamps are formed according to the respective pipes, and the first coupling port 323 on the outer side is coupled to the coupling end 220 of the body when the cover is closed in the raised state and then lowered to the lower side to accommodate the large diameter. Do it. (See FIG. 4 and FIG. 7A)

On the contrary, when the hinge pin 500 is moved to the inner hinge hole 430 of the incision hole 400 and tightened, when the cover 300 is raised and lowered to the lower side, the inner side of the hinge pin 500 is lowered. The two coupling holes 325 are bound inside the coupling end 220 of the body to accommodate the small diameter. 3, 5 and 7b, when receiving a small diameter, the fixing end 321 formed at the end of the coupling end 320 of the cover 300 has an upper fixing jaw formed inside the body 200. By contacting the abutment 240, it is possible to improve the binding force.

In addition, the body 200 has a lower binding groove 230 may be formed at the lower end of the portion where the coupling end 320 of the cover 300 is bound, formed as a bent groove as shown in FIGS. It is. The lower binding groove 230 is a bent groove formed in the lower inner coupling end of the body 300 as shown in Figures 4 and 5, 7a and 7b when receiving a large diameter pipe (Figs. 4 and 7a) When the fixed end 321 of the cover and the lower end of the first coupling hole 323 are inserted and fixed, and accommodates a small diameter pipe (FIGS. 5 and 7 b), the first coupling hole 323 and the second coupling of the cover The lower end of the sphere 325 is indented and fixed. In this way, the lower binding groove 230 is coupled to the lower end of the coupling end 320 of the cover to be more solid binding.

Hereinafter, the coupling operation of the coupling end 220 of the first coupling sphere 323 and the second coupling sphere 325 and the body 200 in the coupling end 320 of the cover 300 in the present invention with reference to FIG. Look at the relationship. 6 is a detailed view showing the binding at the coupling ends 220 and 320 when accommodating a small diameter circular pipe. First, the first coupling hole 323 and the second coupling hole 325 of the cover 300 are upper side. The lower side is made in the form inclined in the direction away from the body 200. By doing so, when the cover 300 is lowered from the upper side to the lowered state, the inner diameter of the clamp is contracted and the pipe to be received is tightened more securely.

The same holds true for housing large diameter pipes and pipes. That is, the coupling end 220 of the body 200 that is bound inside the second coupling sphere 325 is tightened in such a way that the inner diameter of the clamp is reduced by the inclined second coupling sphere 325, which is accommodated. Strong pressure on the pipe.

Separately, the coupling end 220 of the body 200 may be formed in a tapered shape in the longitudinal length while the upper side is formed in a thin thickness and the lower side is formed in a thick thickness. When the coupling end 220 formed as described above enters between the first coupling hole 323 and the second coupling hole 325, the coupling end 220 may have a strong binding force due to the pressing force due to the wedge effect.

In the present invention, the curved portions 211 and 311 for accommodating the circular tube formed in the pipe receiving portion of the body and the cover generally have a curvature according to the diameter of the small diameter circular pipe.

As shown in FIG. 7A, in the case of accommodating the large-diameter circular pipe 700a, the curved portions 211 and 311 are not completely in contact with the outer circumferential surface of the pipe, but are in close contact with each other at four ends of the curved portion. In addition, the coupling end (220, 320) side and the hinge side also to be in contact with the outer circumferential surface of the large-diameter circular pipe to strongly tighten the clamping pipe.

However, as shown in FIG. 7B, when accommodating the small-diameter circular pipe 700b, the curvature of the outer circumferential surface of the small-diameter circular pipe 700b and the curvatures of the curved portions 211 and 311 coincide with each other to be pressed and supported. Tighten the pipe tightly so that it can be clamped.

In addition, although not shown in the drawing, in the case of clamping the pipe, as shown in Fig. 7a through the operation of clamping the large diameter pipe in place of the pipe of the large diameter pipes bent corners (213,313) formed in the corner of the receiving portion of the body and cover Make sure that you can strongly press and support.

8A and 8B are cross-sectional views illustrating the operation of the clamp according to the present invention. The cover 300 is lifted upward from the body 200 and the hinge pin 500 is adjusted through the incision 400. After recombination, the clamp can be adjusted according to a large or small diameter.

Here, the hinge pin 500 may be formed of a toggle pin, as shown in FIGS. 8A and 8B, but may also be formed of a general pin. That is, if the conventional pin is formed by the cover 300, the length of the pin should be raised to about twice the thickness of the clamp, and after joining as shown in FIG. 8A, the portion protruding upward remains. If the protruding parts remain like this, there is a risk of a safety accident at the construction site, and if the hinge pin 500 is broken, a problem arises in that it cannot fulfill the role of the clamp. Thus, in one embodiment of the present invention, the hinge pin 500 may be formed of a toggle pin having a structure that allows the central portion to be bent by rotating.

9 is a view showing a function of adjusting the inner diameter of the clamp according to the diameter of the pipe accommodated by the hinge pin 500 through the cutting hole 400 in the hinge of the present invention.

In the clamp of the present invention, the hinge portion rotates by the hinge pin 500, wherein the hinge pin 500 successively passes through the incision hole 400 and the rotation hole formed at one end of the body 200 and the cover 300. To mutually rotate the hinges. The cutting hole 400 is composed of a pin moving hole 410 and the hinge hole 430 of both ends to move the hinge pin 500. At this time, the cross section of the hinge pin 500 is made of a flat shape cut up and down in a circular cross section as shown in FIG.

Here, the circular outer circumferential surface serves to enable rotation in the hinge hole 430, and the flat outer circumferential surface is flattened and functions to move through the pin moving hole 410 of the incision hole. Accordingly, the flatly cut plane has a length corresponding to the width of the pin moving hole 410, and the circular cross-sectional diameter has a length corresponding to the diameter of the hinge hole 430.

The body 200 and the cover 300 through the incision hole 400 to adjust the length at the hinge portion, and eventually the clamp of the present invention can accommodate a variety of construction scaffolding pipe of large diameter or small diameter do.

10 is a view showing various forms of incision in the present invention. According to another embodiment of the present invention, the cutting hole 400 may be implemented in various forms. As shown in FIG. 10, the hinge holes 430 on both sides may be formed to protrude upward as in (a). As shown in (b), it may be located in the center, and as shown in (c), it may be formed in a shape projecting downward.

In addition, although the pin moving hole 410 is disclosed in a straight shape in FIG. 10, the pin moving hole 410 may be implemented in various forms as long as the hinge pin 500 is moved, such as having a curved shape.

Hereinafter, with reference to Figures 11 to 13b will be described in detail the clamp for the pipe can be adjusted according to another embodiment of the present invention.

11 and 12 are a perspective view showing a pipe clamp for adjustable diameter according to another embodiment of the present invention, Figure 13a and 13b is an operation of the pipe clamp can be adjusted according to another embodiment of the present invention It is a cross-sectional view showing.

Looking at another embodiment of the present invention with reference to Figures 11 and 12, the clamp of the present invention the body 200, the cover 300, the incision hole 400, the hinge pin 500 and the rotating hole 600 In this case, the operation relationship and configuration of the clamp according to the embodiment shown in FIGS. 2 to 10 are the same.

Accordingly, another embodiment of the present invention will be described based on the configuration and operation that is roughly different from the previous embodiment. Referring to FIG. 11, the clamp of the present invention is configured by separating the coupling ends 220 and 320 up and down. That is, the coupling end 220 of the body 200 is formed by vertically separated into the first coupling end 220a and the second coupling end 220b, the coupling end 320 of the cover 300 is also vertically up and down It is composed of a fixed end (321a, 321b), the upper and lower first coupler (323a, 323b) and the upper and lower second coupler (325a, 325b). In addition, the lower binding groove 230 formed in the body is also composed of the first lower binding groove 230a and the second lower binding groove 230b located below.

Here, there is a space between the upper and lower coupling end (220a, 220b) formed in the body 200, the vertical height of the space is the vertical height of the lower coupling end 320b of the cover 300 and It is equal to or slightly longer than the height.

In addition, the hinge portion in the same manner as in the previous embodiment to adjust the diameter of the pipe accommodated by the hinge pin through the cutting hole 400 and the rotating hole 600 to make the hinge rotational movement, the hinge pin in the embodiment The upper and lower parts are divided into a first hinge pin 550a and a second hinge pin 550b.

The reason why the hinge pin is divided into two upper and lower parts is that when the clamp is first coupled, the hinge pin is formed as a general pin, and thus the hinge pin is formed to protrude more as the height of the clamp in the vertical height direction. In the case of use, the protruding portion can be bent and folded, but the production cost of the toggle pin is also increased, which leads to inconsistency. In addition, the toggle pin also has a problem that the repair or replace the entire clamp if the bent portion is broken.

Accordingly, in the embodiment of FIG. 11, the coupling pins 220 and 320 and the hinge pins 500 are divided into upper and lower parts to prevent the hinge pins from protruding and to be clamped more simply.

Apart from this embodiment, the tightening effect is improved and the binding force is enhanced by the wedge effect through the coupler 323a and 325b and the coupling end 220a and 220b. In addition, the first coupling holes 323a and 323b and the second coupling holes 325a and 325b of the cover are inserted into the lower binding grooves 230a and 230b of the body to have the same effect of improving the bonding force.

As shown in Figures 11 and 12, the clamping operating relationship has an operating relationship that is tightened while lifting down the cover 300 and wrapping down the received pipe and then downward as in the previous embodiment. However, in this embodiment, the height of lifting the cover 300 from the body 200 is about half of the previous embodiment.

This operating relationship can be seen in Figures 13a and 13b, first lift the cover 300 upward (left), as shown in Figure 13b and then the first and second hinge pins (550a, 550b) penetrated through the incision 400 Adjusting the length of the hinge using, and after wrapping the pipe back down (300) to the lower (right) to bind the coupling end to clamp the received pipe (Fig. 13a). In this case, the cover 300 is hinge-rotated in a state of being lifted by about half of the clamp thickness from the body 200 due to the separated first hinge pins 550a and the second hinge pins 550b. (Prepared with reference to FIGS. 8A and 8B)

At this time, the cover 300 and the body 200 from the first hinge pin 550a and the second hinge pin 550b is prevented from being separated from the ends of the first hinge pin 550a and the second hinge pin 550b. Tabs 551a and 551b may be formed. As shown in FIG. 13A, when the body 200 and the cover 300 are coupled and clamped, the release preventing tabs 551a and 551b come into contact with each other to support the hinge part.

As such, it is much easier to work because it is lifted to about half of the height of the clamp to adjust the width or the hinge rotational movement through the incision hole 400 after lifting the cover 300. In addition, it is possible to minimize the part spaced apart from the body and the cover during the hinge rotation movement for clamping to prevent damage to the device, it is possible to improve the durability.

Hereinafter, with reference to Figures 14 to 16b will be described in detail the clamp for the pipe can be adjusted according to another embodiment of the present invention.

14 is a perspective view showing a pipe clamp capable of adjusting the diameter using a bending hinge pin according to another embodiment of the present invention, Figures 15a, 15b and 16a, 16b is bent in accordance with another embodiment of the present invention A plan view and a cross-sectional view showing a pipe clamp capable of adjusting a diameter using a hinge pin.

Looking at another embodiment of the present invention with reference to Figure 14, the clamp of the present invention includes a body 200, the cover 300, the cutting hole 400, the coupling end (220,320) and the rotating hole 600 In this case, the operation relationship and configuration of the clamp according to the embodiment shown in Figs. 2 to 10 are the same.

Therefore, another embodiment of the present invention will be described based on the configuration and operation that is roughly different from the previous embodiment. Referring to FIG. 14, the clamp of the present invention may be formed of a hinge pin 570 in which a hinge pin for hinge rotation at the hinge portion is bent in a 'c' shape. In addition, a separate auxiliary hole 610 and the bending pin binding hole 630 together with the rotation hole 600 formed in the cover 300.

As shown in FIGS. 14 and 16A and 16B, first, when the cover 300 is lifted up to the top of the body 200, the cover 300 is stable in a flat state even when the cover 300 is lifted due to the bending hinge pin 570. To enable the hinge rotational movement, and at the same time to be able to move the length of the bending hinge pin 570 adjustable in the incision 400. The 'c' shaped bending hinge pin 570 is preferably to be made of a very rigid pin, the portion that is inserted into the cutting hole 400, the pin moving hole 410 of the cutting hole 400 as described above The upper and lower sides are cut so that the length can be adjusted while moving through. However, since the portion that is inserted through the auxiliary hole 610 is only a hinge rotational movement, it is preferable to have a circular cross section.

The reason why the hinge pin is configured as the bending hinge pin 570 is as follows. First, when the clamp is coupled, in the previous embodiment, when the hinge pin is formed as a general pin, it must be formed to protrude further by the height of the clamp in the longitudinal height direction, which may cause a safety problem, and the hinge pin may be damaged. It may be. In the case where the toggle pin is used, the protruding portion may be bent and folded, but the manufacturing cost of the toggle pin is also increased, resulting in uneconomical efficiency. In addition, the toggle pin also has a problem that the repair or replace the entire clamp if the bent portion is broken.

Accordingly, in the embodiment of FIG. 14, the hinge pin is prevented from being protruded, and the hinge pin 57 that is bent by the letter 'c' is provided to prevent the hinge pin from protruding, thereby protruding the portion protruding from the clamped state. You can eliminate it. (See Figure 16A)

Referring to FIGS. 16A and 16B, when the 'c'-shaped bending hinge pin 570 is inserted into the auxiliary hole 610 and inserted into the bending pin binding hole 630 to bind the bending pin binding hole 630. ) May be formed to be tapered. Accordingly, when the end of the bending hinge pin 57 enters the bending pin binding hole 630, it can be fixed with a greater coupling force by the wedge effect.

The above-described embodiment is just a preferred embodiment for a person having ordinary skill in the art (hereinafter referred to as a person skilled in the art) to easily implement a clamp for diameter adjustment according to the present invention. However, the scope of the present invention is not limited to the above-described embodiments and the accompanying drawings. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made hereto without departing from the spirit of the present invention, and it is obvious that those parts easily changeable by those skilled in the art are also included in the scope of the present invention.

In the above embodiments, a coupling end 220 formed as a protrusion protruding in the longitudinal length direction is provided inside one end of the body 200, and one end of the cover 300 is engaged to engage with the coupling end 220 of the body 200. Although described as being coupled to the longitudinal end bent in the longitudinal longitudinal direction 320, the present invention is not necessarily limited thereto.

That is, the present invention may be modified to form coupling ends 220 and 320 formed on the body 200 and the cover 300 at opposite positions.

In addition, the present invention is coupled to the coupling end 220 of the body 200 is coupled to the coupling end 320 inside the cover 300, the coupling end 220 of the body 200 to the outside of one end of the body 200 And the coupling end 320 of the cover 300 may be changed to form an inner side of one end of the cover 300.

Major description of the main parts of the drawing
10: reinforcement inventory part 20: pipe receiving part
30: clamp cover 40: fastening pin
50: hinge pin 200: body
211: curved portion 213: square tube bending portion
220: coupling end 220a, 220b: first and second coupling end
230: lower binding groove 230a, 230b: first and second lower binding groove
240: upper fixing jaw 250: side bent portion
300: cover 311: curved portion
313: bend pipe 320: coupling end
321: fixed end 323, 325: first and second coupler
350: side bent portion 400: incision hole
410: pin moving ball 430: hinge ball
500: hinge pin 570: bending hinge pin
550a, 550b: first and second hinge pins 551a, 551b: release preventing tab
600: rotating ball 610: auxiliary ball
630: bending pin binding hole 700a, 700b: round tube (pipe)
700c: each tube

Claims (15)

Pipe clamp consisting of a U-shaped body 200, the pipe is accommodated and seated, a U-shaped cover 300 for tightening and restraining the pipe accommodated in the body, and a hinge portion hinged at the end of the body and the cover To
The body and the cover includes a bent portion 211 and a bent tube formed by bending the tube 211, 313, 313, which is housed in a circular pipe seated therein,
One end of the body is coupled to the coupling end 220 is engaged with the cover irregularities are formed,
One end of the cover is formed in the shape of concave-convex in the longitudinal length on the outside is formed with a coupling end 320 is engaged with the coupling end 220 of the body,
The hinge portion is cut through the hole 400 formed in the longitudinal direction cut,
Rotating hole 600 that is a circular through hole formed to enable the hinge rotational movement and
Including the hinge pin 500 to successively penetrate the cutting hole 400 and the rotating hole 600 to function as a hinge axis.
The diameter adjustable pipe clamp, characterized in that to enable the hinge rotational movement while adjusting the length according to the diameter of the pipe to move to the hinge pin (500) through the cutting hole (400). The method of claim 1, wherein the coupling end 320 of the cover
Fixed end 321 bent inward and
The first coupling port 323 is coupled to the coupling end 220 of the body when the outer unevenness to accommodate the large diameter circular pipe and
When the small-diameter circular pipe is accommodated, the diameter adjustable pipe clamp, characterized in that the second coupling hole 325 is provided to engage and engage the coupling end 220 of the body. The method of claim 2, wherein the inner side of the body
When the small-diameter circular pipe is accommodated, the clamp for the diameter adjustable pipe, characterized in that the upper fixing jaw 240 is formed to which the fixed end 321 is coupled. The method of claim 2, wherein the body is
Clamp for diameter adjustable pipe, characterized in that the lower binding groove 230 is formed as a groove bent at the bottom of the portion where the coupling end 320 of the cover is bound. The method of claim 2,
The first coupling sphere 323 and the second coupling sphere 325 of the cover is formed in an inclined form toward a direction away from the body from the upper side to the lower side,
One side of the coupling end of the body 220 is a diameter adjustable pipe clamp, characterized in that formed in an inclined form corresponding to the shape of the first coupler 323 and the second coupler (325). 6. The method of claim 5,
Coupling end 220 of the body is a diameter adjustable pipe clamp, characterized in that formed in a tapered shape so as to increase in thickness from the upper side to the lower side. The method of claim 1, wherein the body and the cover are each
Clamp for a diameter adjustable pipe, characterized in that it further comprises a side bent portion (250, 350) bent to the outside. The method of claim 1, wherein the curved portion 211 is
Clamp for diameter control pipe, characterized in that formed in the curvature corresponding to the outer circumferential surface of the small diameter circular pipe. The method of claim 1, wherein the hinge pin 50 is
Diameter adjustable pipe clamp, characterized in that the toggle pin is bent by the rotational movement. The method of claim 1,
The cutting hole 400 and the pin moving hole 410 to which the hinge pin 500 is moved
Is formed as a hinge hole 430 formed at both ends of the pin movement hole 410,
The pin moving hole 410 is formed of a circular cross-section cut top and bottom, the diameter adjustable pipe clamp, characterized in that connected to the upper, center or lower sides of the hinge hole (430). The method of claim 10, wherein the pin movement hole 410 is
Clamp for adjustable diameter pipe, characterized in that formed in a straight or curved shape. The method of claim 1,
Coupling ends (220, 320) of the body and the main body is separated up and down, respectively, and includes upper and lower coupling ends (220a, 220b, 320a, 320b),
The hinge pin 500 is divided into upper and lower parts and includes a first hinge pin 550a and a second hinge pin 550b.
A space is provided between the upper coupling end 220a and the lower coupling end 220b of the body,
The separation space is a diameter adjustable pipe clamp, characterized in that the same as the longitudinal height of the lower coupling end (320b) of the cover or longer than the vertical height. 13. The method of claim 12,
A clamp for diameter control of the pipe, characterized in that the release preventing tabs (551a, 551b) are formed at the ends of the first hinge pin (550a) and the second hinge pin (550b), respectively. The method of claim 1,
The hinge pin 500 is a bending hinge pin 570 bent in a '''shape,
An auxiliary hole 610 into which one side of the bending hinge pin 570 is inserted is formed on an upper surface of the cover,
The lower surface of the cover is a clamp for diameter adjustable pipe, characterized in that the bending pin binding hole (630) in which one side of the bending hinge pin (570) is inserted. The method of claim 14, wherein the bending pin binding hole (630)
Clamping diameter adjustable pipe, characterized in that formed to be tapered to fix the end of the bending hinge pin (570).

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