KR20200006344A - Pipe cross connector for vinyl house with improved constructability - Google Patents

Abstract

The present invention relates to a pipe cross connection device for a greenhouse with an improved constructability, comprising: a fixing port formed to be inserted by intersecting a first pipe and a second pipe with each other; a supporting port formed to be attachable to/detachable from a lower end of the fixture to support the first pipe and the second pipe so as not to be separated from the fixture; and a pressing port wherein one end is axially coupled so as to rotate in a center of the support port and protrudes toward the second pipe to press and fix the first pipe and the second pipe in the direction of the fixing port by rotation.

Description

Pipe cross connector for vinyl house with improved constructability

The present invention relates to a pipe cross-linking device for a vinyl house with improved workability, and more particularly, to improve the workability for connecting vertical and horizontal pipes or connecting arched pipes and horizontal pipes when installing a frame of a vinyl house. It relates to a pipe cross connecting device for the house.

In general, the plastic house is a building made to artificially control the temperature and humidity of the plant's main growth environment. It covers the outer wall with vinyl to collect the solar heat inside and block the cold air from entering the inside. Refers to the structure to be made.

In order to form the frame of the vinyl house, the hollow pipes are vertically spaced vertically from the ground, and the pipes are installed horizontally in the pipes connected to each other to connect the respective pipes, and then the arch-shaped pipes forming the roof of the vinyl house are connected. Combine to complete the framing of the vinyl house.

In this case, when connecting the horizontal and vertical pipes, or when connecting the arch-shaped pipe and the horizontal pipe is used a separate connector, the most representative of them is the pipe connector made by bending the wire.

However, the pipe connector using the wire is deformed when the load is generated in the frame by snow or wind, there was a problem that the plastic house collapses.

Korean Utility Model Publication No. 20-2009-0009276 is to solve the above problems, as shown in Figure 1 has a U-shaped body bent in the U-shaped iron pieces, U-shaped body on both surfaces U-shaped It has fastening grooves each, and fastens the 'c' shaped fasteners on the inner side of the U-shaped body on both sides of the U-shaped fastening groove, and forms an incision surface roundly cutting both sides of the bent portion of the U-shaped body made by bending the iron piece. , Along the outer edge of the U-shaped fastening groove, to form a fastening groove reinforcing edge protruding outward, in the middle portion of the fastening groove reinforcing edge to form a pipe support protrusion protruding toward the inside of the U-shaped fastening groove and The plastic house which connects the pipes by forming a fastening end by forming a fastening end at the surface of the fastening body by cutting the surface into a rectangular hole and bending the extracted part in the A shape. It relates to a pipe connector.

However, in the prior art as described above, when inserting a fixture having a ramp formed by hitting it with a hammer, it is difficult to hit because the fixture is located at the lower part of the pipe, which takes a long time and requires much manpower.

In addition, in the case of the prior art as described above, it is difficult to reuse after being inserted once by hitting the fixture, and if the construction is wrong, there is a problem in that the cost is increased because the fixture and the body are broken.

In addition, Korean Patent Registration No. 10-1484860 relates to a bone ties device for a vinyl house, as shown in Figure 2 is coupled to the U-band that is used in the cross point between the crossroads and crossroads constituting the vinyl house frame By providing the nut and bolt in the center of the assembly plate, the bolts can be firmly fixed to the central point of the runner.The frame of the vinyl house can be unbonded due to seasonal temperature changes, rain, wind and snowstorms. It is to be able to solve the change in the binding.

However, in the prior art as described above, since the contact area between the bolt and the pipe is small, the contact point can be easily shifted. In addition, the wall portion of the metal plate is tapered to press the bolt in an inclined state, thereby reducing the pressing force. There was this.

Korean Utility Model Publication No. 20-2009-0009276 Korean Patent Registration No. 10-1484860

An object of the present invention for solving the problems as described above is a pipe cross-linking device for improved construction properties that can be easily fixed without using a separate coupling member or hitting the pipe after inserting the pipe when fixing the cross To provide.

In addition, another object of the present invention is to provide a pipe cross-linking device for a vinyl house improved in the workability can be reused by separating easily without damage when the construction is incorrectly separated from the pipe, the construction again.

In addition, another object of the present invention is to prevent the pipe from slipping from the connecting device after fixing the cross to the pipe, and for improved construction of the plastic house to prevent the connecting device from being deformed or damaged by external force applied from the outside of the plastic house. To provide a pipe cross connecting device.

The pipe cross-linking device for a vinyl house improved construction of the present invention for solving the above problems is a fastener formed so as to be inserted by crossing the first pipe and the second pipe, and is formed to be detachable to the lower end of the fastener A support for supporting the first pipe and the second pipe so as not to be separated from the fastener, and formed to move vertically from the center of the support to the fastener direction to move the first pipe and the second pipe in the direction of the fastener It characterized in that it comprises a pressing port for fixing by pressing.

In addition, the pipe cross-linking device for a vinyl house improved construction of the present invention is formed on the upper end of the fastener and the first seat is inserted into the first seating portion to protrude to the front and rear of the fixture when the first pipe is inserted, the suspension of the fixture It is formed in the second pipe is characterized in that it further comprises a second seating portion which is opened to protrude to one side and the other side of the fixture.

In addition, the pipe cross-linking device for a vinyl house improved construction of the present invention is formed in the first seating portion for supporting the first pipe at the upper end of the fixture, when the first pipe is inserted, press the lower side of both sides of the first pipe It characterized in that it further comprises a fixed end for fixing the first pipe.

In addition, the fastener of the pipe cross-linking device for a plastic house improved construction of the present invention protrudes toward the first pipe from the upper inner surface into which the first pipe is inserted and in contact with the outer peripheral surface of the first pipe to the first pipe Is characterized in that it further comprises a pressing projection for pressing to prevent slipping from the fixture.

In addition, both sides of the lower end of the fastener of the pipe cross-linking device for a plastic house improved construction of the present invention has a plurality of cradles protruding toward the inside of the fastener so that both sides of the support can be inserted when the support is mounted It further comprises.

In addition, the support of the pipe cross-linking device for a plastic house improved construction of the present invention is one end and the other side protrudes to the bottom and the bottom end is formed with a plurality of mounting grooves so that the lower end of the fixture can be mounted, and It is formed on one side and the other rear of the support and protrudes to the outer surface so that the rear of the support is in close contact with the front or rear of the fixture when the support is inserted from the front or rear of the fixture to fix the position of the support It is characterized by consisting of a protruding end.

In addition, the end of the pressing hole of the pipe cross-linking device for a plastic house improved construction of the present invention further comprises a pressing end that is rounded to be in contact with the second pipe, the contact with the second pipe of the pressing end Slip preventing means is formed on the surface is characterized in that to prevent the slip is generated from the second pipe.

In addition, the pressure port of the pipe cross-linking device for a vinyl house improved construction of the present invention is screwed into the through-hole formed in the center of the support end is projected to the upper portion of the support and the other end is a bolt head to be rotatable by a tool It is made of a rotating body, and formed on one end of the rotating body can be rotated independently, characterized in that consisting of a pressing end formed in a circular shape so as to widen the area in contact with the outer peripheral surface of the second pipe.

In addition, when the pressing end of the pipe cross-linking device for a vinyl house improved construction of the present invention is pressed in contact with the second pipe, both sides are bent based on the contacted portion and in close contact with the outer circumferential surface of the second pipe. It is characterized by preventing the pipe from slipping.

In addition, it characterized in that it further comprises a friction groove for improving the frictional force so that the second pipe does not slip by forming a plurality of irregularities radially from the upper center of the pressing end of the pipe cross-linking device for a plastic house pipe construction improved in the present invention do.

As described above, according to the pipe cross-linking device for improved construction of the plastic house according to the present invention has an effect that can be easily fixed without inserting or hitting a separate coupling member after inserting the pipe when fixing the pipe cross. have.

In addition, according to the pipe cross-linking device for improved plastic house according to the present invention when the construction is wrong and separated from the pipe is easily removed without damage, there is an effect that can be reused by the construction again.

In addition, the pipe cross-linking device for a vinyl house improved construction according to the present invention prevents the pipe from slipping from the connecting device after fixing the pipe cross, and the connection device is deformed or damaged by an external force applied from the outside of the plastic house There is an effect to prevent.

1 is a perspective view showing a pipe connector for a conventional plastic house.
Figure 2 is a side view showing a bone binding device for a vinyl house in the prior art.
Figure 3 is a perspective view showing the pipe is crossed and fixed to the pipe cross-linking device for a plastic house improved construction according to the present invention.
Figure 4 is an exploded view showing the components separated from the pipe cross-linking device for improved plastic house construction according to the present invention.
Figure 5 is a perspective view showing a fixture of the pipe cross-linking device for improved construction according to the present invention.
Figure 6 is a front view showing a state in which the pipe is inserted into the pipe cross-linking device for a plastic house improved construction according to the present invention.
Figure 7 is a bottom perspective view showing a state in which the support and pressurization of the pipe cross-linking device for a plastic house improved construction according to the present invention is assembled to the fixture.
Figure 8 is a front view showing a state in which the pressure port of the pipe cross-linking device for improved plastic house according to the present invention is moved vertically to fix the pipe.
9 is a cross-sectional view showing a state in which the pipe is fixed by the pipe cross-linking device for improved construction of the greenhouse according to the present invention.
10 is an exploded view showing the components separated from the pipe cross-linking device for improved construction of the plastic house according to the first embodiment.
11 is a cross-sectional view showing a state in which a pipe is fixed by the pipe cross-linking device for improved plastic house according to the first embodiment.
12 is a bottom perspective view showing the detailed configuration of the support of the pipe cross-linking device for a vinyl house improved construction according to the second embodiment.
Figure 13 is a bottom perspective view showing a state in which the support of the pipe cross-linking device for improved plastic house according to the second embodiment is fixed so as not to be separated from the fixture.
14 is a coupling diagram showing a state in which the fixture is deformed to an arch to connect the arched pipe of the pipe cross-linking device for a vinyl house improved construction according to the third embodiment.
15 is a view showing a state in which the fixture is deformed arched to connect the arched pipe of the pipe cross-linking device for a vinyl house improved construction according to the third embodiment.
FIG. 16 is a view showing a state in which a fixed end for supporting a pipe is deformed to a fixture of a pipe cross-linking device for a plastic house improved in accordance with a fourth embodiment;
FIG. 17 is a view showing a state in which a fixed end for supporting a pipe is deformed to an arcuate fixture of a pipe cross connection device for a plastic house improved in accordance with a fifth embodiment;

Specific features and advantages of the invention will now be described in detail with reference to the accompanying drawings. Prior to this, when it is determined that the detailed description of the function and its configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

The present invention relates to a pipe cross-linking device for a vinyl house with improved workability, and more particularly, to improve the workability for connecting vertical and horizontal pipes or connecting arched pipes and horizontal pipes when installing a frame of a vinyl house. It relates to a pipe cross connecting device for the house.

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

Figure 3 is a perspective view showing the pipe is fixed to the cross-linking device for the pipe house for improved construction according to the present invention, Figure 4 is a construction of the pipe cross-linking device for improved construction according to the present invention Is an exploded view showing

3 to 4, the pipe cross-linking device for improved plastic house according to the present invention is a fixture formed so that the first pipe 10 and the second pipe 20 can be inserted to cross each other. And a supporter 200 formed to be detachably attached to the lower end of the fixture 100 to support the first pipe 10 and the second pipe 20 from being separated from the fixture 100, and a supporter ( It is formed so as to be moved vertically in the direction of the fixture 100 in the center of the 200 includes a pressing device 300 for pressing and fixing the first pipe 10 and the second pipe 20 toward the fixture 100 direction. Characterized in that.

Fixture 100 is for correcting and fixing the position so that the central axis of the pipe that is installed to cross the plastic house cross, it is made of an inverted U-shape.

Since the fixture 100 is formed in an inverted U shape, the first pipe 10 can be inserted into the opened portion between the lower sides of the fixture 100 so as to be in close contact with the upper end of the fixture 100, and the upper portion of the fixture is the first pipe 10. It is preferably made of a shape corresponding to the outer shape of the first pipe 10 so that the can be in close contact.

The first pipe 10 inserted into the fixture 100 may protrude to the front and rear of the fixture 100, and the second pipe 20 may be connected to the first pipe 10 at the stop of the fixture 100. It is inserted so as to cross at a right angle to protrude to one side and the other side of the fixture (100).

At this time, the one side and the other side of the fixture 100 is preferably opened so that the second pipe 20 can be inserted, the one side and the other side of the stopper 100 is in close contact with the second pipe 20. It is preferable to be made in a shape corresponding to the outer shape of the second pipe 20 so as to be.

The support 200 is inserted into the front from the bottom rear of the fixture 100, and the first pipe 10 and the second pipe 20 is supported so as not to fall through the open bottom of the fixture 100.

At this time, the direction in which the support 200 is inserted may be inserted in the rear direction from the front of the fixture 100.

In addition, formed on the upper end of the fixture 100, when the first pipe 10 is inserted into the first seating portion 110 and protruded to the front and rear of the fixture 100, and is formed in the middle of the fixture 100 When the second pipe 20 is inserted, it is characterized in that it further comprises a second seating portion 120 opened to protrude to one side and the other side of the fixture 100.

The first seating part 110 is formed to penetrate from the front surface of the fixture 100 to the rear surface so as to insert the first pipe 10 to correspond to the outer surface of the first pipe 10.

In this case, since the fixture 100 is formed in an inverted U shape, the front and rear surfaces of the stopper 100 and the bottom of the fixture 100, which are lower portions of the first seating part 110, are opened, thereby fixing the first pipe 10 through the fixture. It is possible to insert from the bottom to the top of the (100).

The second seating part 120 is opened by penetrating one side and the other side of the fixture 100 from the lower end to the middle so that the second pipe 20 is intersected at right angles from the central axis of the first pipe 10. As a result, the second pipe 20 can be inserted from the lower end of the fixture 100.

In addition, the first seating part 110 and the second seating part 120 are opened in a circular shape so that the first pipe 10 and the second pipe 20 which are circular are inserted, but the first seating part 100 and One or more second seating parts 120 may be squarely opened depending on the shape of the pipe to be inserted.

In addition, the second seating part 120 may be formed along the opened portion of the second seating part 120 on one side and the other side of the fixture 100 so as to increase the area that can be in contact with the second pipe 20. It is preferable to form to protrude to the outer surface.

In addition, it is formed on the first seating portion 110 for supporting the first pipe 10 at the upper end of the fixture 100, when the first pipe 10 is inserted to press the lower side of both sides of the first pipe 10 It characterized in that it further comprises a fixed end 111 for fixing the one pipe (10).

The fixed end 111 is formed to protrude toward the inner surface of the first seating unit 110. When the first pipe 10 is inserted into the first seating unit 110, the lower ends of both sides of the first pipe 10 are fixed. By pressing or supporting, the first pipe 10 can be temporarily fixed so as not to be separated from the fixture 100.

At this time, the fixed end 111 is preferably formed below the horizontal center line of the first pipe 10 when the first pipe 10 is inserted into the first seating portion 110, through which the first pipe ( When 10) is inserted into the first seating unit 110, it is possible to widen the area in close contact with the upper inner surface of the fixture 100.

That is, when the fixed end 111 is formed on both sides of the horizontal center line of the first pipe 10, the diameter of the first seating hole is larger than the diameter of the first pipe 10, so that the area contacted by the fixed end 111 is narrow. It is preferable that the fixed end 111 is formed below the horizontal center line.

In addition, the fixing end 111 may be formed by bending both sides of the fixture 100 to protrude inwards, in which case the first seating portion 110 of the fixture 100 may be prevented from being deformed or opened by an external force. Will be.

In addition, both sides of the lower end of the fixture 100 further includes a plurality of holders 140 protruding toward the inside of the fixture 100 so that both sides of the support 200 can be inserted and mounted when the support 200 is mounted. Characterized in that.

The cradle 140 is formed at the bottom and one side of the fixture 100, respectively, and is bent toward the center of the fixture 100 so that it is supported by the cradle 140 bent when the support 200 is inserted at the bottom. The earth 200 is formed to be mounted.

At this time, the supporter 140 is detached from the supporter 200 when the supporter 200 is mounted on the fixture 100, and then the supporter 200 is pressed from the fixture 100 by the pressing device 300 in the lower direction of the fixture 100. In order to prevent it from being prevented, it should be a form that surrounds the mounting end 210 formed on both sides of the support 200.

That is, the cradle 140 is bent so that the angle is in the range of 30 to 80 degrees toward the inner center with respect to one side or the other side of the fixture 100, and when the angle is less than 30 degrees of the fixture 100 The interval between one side and the cradle 140 or between the other side and the cradle 140 is narrowed so that the cradle 210 can not be inserted.

In addition, when the bending angle exceeds 80 degrees, the distance between one side of the fixture 100 and the holder 140 or between the other side and the holder 140 is too wide so that the holder 140 supports the supporter 200. When the supporter 200 is not supported, and the supporter 200 is pushed toward the bottom of the fixture 100 by the pressurizer 300, the supporter 200 is separated while the bottom of the fixture 100 is opened to both sides. .

Therefore, the cradle 140 is preferably formed between 30 to 80 degrees bent toward the inside on one side or the other side reference, the shape of the cradle 140 is formed to protrude on both sides of the support (200) It is preferably formed so as to be in close contact with the bent end 210 to be in close contact with the bent cradle 140 is bent.

In addition, a plurality of fixing ribs 150 are formed on one side and the other side of the fixture 100 to prevent the external shape of the fixture 100 from being deformed by an external force, and the fixing ribs 150 are provided on both sides of the second opening. By forming it, it is possible to prevent plastic deformation from occurring by the fixing ribs 150 when the fixture 100 is opened to both sides.

In addition, the supporter 200 is one side and the other side protrudes to the bottom and each of the mounting stage 210 is formed with a plurality of mounting grooves to be inserted into the bottom of the fixture 100, and one side of the support 200 It is formed on the rear and the other side respectively and protrudes to the outside so that the back of the support 200 is in close contact with the front or rear of the fixture 100 when the support 200 is inserted from the front or rear of the fixture 100. Characterized in that it consists of a protruding end 220 for fixing the position of the earth (200).

The cradle 210 is protruded downward from one side and the other side of the support 200 to be inserted into the cradle 140 of the fixture 100, the cradle 140 according to the angle of bending The thickness of the support 210 may be varied so that the 210 may be inserted into the cradle 140, and when the external force is applied by bending both sides of the support 200 when the cradle 210 is formed, It can also be used as a force to prevent plastic deformation from occurring in the front and rear directions.

In addition, the mounting groove 211 formed in the mounting end 210 is for inserting the mounting bracket 140 formed at the bottom of the fixture 100, when the support 200 is coupled to the lower end of the fixing fixture 100 ( Each cradle 140 is inserted into 211 to fix the position of the support 200 to the fixture 100.

Protruding end 220 is formed on the front or rear of the support 200, and protrudes further lower than the mounting end 210, the support 200 is sliding in the front or rear bottom of the fixture 100 is inserted When the protruding end 220 protruding more than the mounting end 210 is in close contact with the front or rear of the fixture 100 to prevent the support 200 from moving in one direction.

A through hole 230 penetrating from the top to the bottom is formed in the center of the support 200, and the through hole 230 has a screw thread formed on the inner circumferential surface thereof to be coupled to the screw thread formed on the outer surface of the rotor 310. It is formed to be.

In addition, support ribs 250 protruding toward both sides of the supporter 200 are formed at both upper ends of the supporter 200 such that the supporter 200 is warped or bent due to the load applied from the pressing device 300. It is possible to prevent plastic deformation from occurring.

At this time, the support rib 250 is a through hole to which the pressing hole 300 is coupled so that the periphery of the through hole 230 is not deformed by the repulsive force generated when the pressing hole 300 presses the outer circumferential surface of the second pipe 20. It is preferable that it is formed around the 230, and is formed in both ends of the support 200, respectively, so that the overall shape of the support 200 is not deformed.

In addition, one end of the pressure port 300 is screwed into the through-hole 230 formed in the center of the support 200 to protrude to the upper portion of the support 200, the other end is formed of a bolt head to be rotatable by the tool It is formed on the whole 310, one end of the rotating body 310 can be rotated independently, characterized in that consisting of a pressing end 320 formed in a circular shape so as to widen the area in contact with the outer peripheral surface of the second pipe (20) do.

The pressurizing member 300 is screwed to the supporter 200 and is formed to move vertically in the direction of the fixture 100 according to the rotation direction, and is formed on the second seating portion 120 of the fixture 100. It is for fixing the first pipe 10 and the second pipe 20 to the fastener 100 by pressing the two pipes 20 upwards so as to be in close contact with the first pipe 10.

Rotating body 310 has one end is made of a cylindrical shape and a thread is formed on the outer circumferential surface, the other end is larger than one end diameter and the bolt head is formed to be rotatable by the tool.

In addition, one end of the rotating body 310 is screwed into the through-hole 230 of the support 200, and then protrudes in the upper direction of the support 200, one end according to the direction in which the rotating body 310 is rotated The second pipe 20 can be moved vertically.

At this time, the bolt head formed at the other end of the rotor 310 is formed larger than the diameter of the through hole 230 to prevent the rotor 310 from completely penetrating the through hole 230. Dish head, round head, umbrella head, hex head, flange, wrench can be made of any.

The pressing end 320 is formed at one end of the rotating body 310, and when the rotating body 310 is moved upwardly from the support 200 toward the second pipe 20, the second pipe 20 may be formed. In contact with the outer circumferential surface to press the second pipe 20 in the upper direction.

At this time, the pressing end 320 is made in a circular shape to widen the area in contact with the outer circumferential surface of the second pipe 20 made of a cylinder, through which the second pipe 20 having a different diameter is inserted into the fixture 100 or Even if the diameter of the second pipe 20 is changed by the dimensional error, the pressing end 320 may press the second pipe 20.

In particular, when the central axis of the rotating body 310 is not perpendicular to the central axis of the second pipe 20 due to the dimensional error, the rotating body 310 presses the side surface of the second pipe 20 to reduce the pressing force. Although there is a problem in that, by forming the pressing end 320 in the rotating body 310, even if the central axis is shifted it is possible to smoothly press the second pipe (20).

In addition, it characterized in that it further comprises a friction groove 321 to improve the friction force so that the second pipe 20 does not slip by forming a plurality of irregularities radially from the upper center of the pressing end 320.

The friction groove 321 is formed on the upper end of the pressing end 320 and a plurality of radially formed to form the unevenness on the upper end of the pressing end 320, each of the unevenness is the pressing end 320 is the second The second pipe 20 is prevented from slipping when contacted and pressurized with the pipe 20.

At this time, since the friction groove 321 is radially formed, the unevenness generated by the friction groove 321 is uniform because the position of the unevenness generated by the friction groove 321 does not change significantly even when the pressing end 320 is free to rotate. The frictional force can be transmitted to the second pipe 20 to prevent the second pipe 20 from slipping.

Figure 5 is a perspective view showing a fixture 100 of the pipe cross-linking device for a plastic house improved in accordance with the present invention.

As shown in Figure 5, the fixture 100 of the pipe cross-linking device for a plastic house improved in accordance with the present invention is the first pipe of Figure 3 in the upper inner surface into which the first pipe 10 of Figure 3 is inserted It further comprises a pressing protrusion 130 protruding toward 10 and in contact with the outer circumferential surface of the first pipe 10 of FIG. 3 to press the first pipe 10 of FIG. 3 so as not to slip from the fixture 100. It features.

A plurality of pressing protrusions 130 protruding toward the first pipe 10 of FIG. 3 are formed on the upper inner surface of the fixture 100, and the first seating portion of the fixture 100 is provided through the pressing protrusions 130. The area that is in contact with the outer circumferential surface of the first pipe 10 of FIG. 3 inserted into the 110 is increased to prevent the fixture 100 from slipping from the first pipe 10 of FIG. 3.

That is, while the second pipe 20 of FIG. 3 of FIG. 3 is pressed upward by the pressing tool 300, the first pipe 10 of FIG. 3 is also pressed toward the upper end of the fixture 100. The first pipe 10 of FIG. 3 is pressed while being in contact with the pressing protrusion 130 so that the first pipe 10 of FIG. 3 may be fixed without slipping.

In order to form the pressing protrusion 130 more easily, the protrusions projecting inwardly may be utilized as the pressing protrusion 130 while forming holes penetrating through the punches at the upper end of the fixing tool 100, 100) The first pipe 10 of FIG. 3 may be fixed to the first seating part 110 by using a fastening member made of a piece or a bolt in the upper through hole 230.

In addition, the pressing protrusion 130 may be formed on the upper front and rear surfaces of the fixture 100. In this case, the inner surface is directed toward the first seating part 110 by hitting the front and rear surfaces of the fixture 100 inward. It can be formed to protrude.

The pressing protrusion 130 is preferably formed along the inner diameter formed in the first seating portion 110 of the fixture 100, through which the first pipe of FIG. 3 when the first pipe 10 of FIG. By the pressing protrusion 130, even if the size of the first pipe 10 of FIG. 3 is small or the area of contact with the first seating portion 110 due to a dimensional error is small so that the outer circumferential surface of the 10 may be contacted. It is possible to improve the pressing force.

Figure 6 is a front view showing a state in which the pipe is inserted into the pipe cross-linking device for a plastic house improved construction according to the present invention.

As shown in Figure 6, the pipe cross-linking device for improved construction according to the present invention when the first pipe 10 is inserted from the lower end to the fixture 100 is inserted into the first seat 110 It is caught by the fixing end 111 protruding inward of the first seating portion (110).

At this time, when a load is applied to the first pipe 10 to be drawn in, both sides of the fixture 100 are opened, and the first pipe 10 is inserted into the first seating part 110 to both sides of the fixture 100. Is returned to its original position by the elastic force.

The upper part of the first pipe 10 inserted into the first seating part 110 is in contact with the pressing protrusion 130 protruding from the inner side of the upper part of the fixing part, and the lower end of the first pipe part 10 is fixed to the first seating part 110. Both sides are supported by the 111 to prevent the first pipe 10 from being separated from the first seating part 110.

At this time, the position of the fixed end 111 is preferably formed to be spaced apart from the center line of the first pipe 10 inserted into the first seating portion 110, the first pipe 10 through the first It is preferable that the area in contact with the seating portion 110 is widened.

7 is a bottom perspective view showing a state in which the supporter 200 and the pressure port 300 of the pipe cross-linking device for improved construction according to the present invention is assembled to the fixture 100.

As shown in Figure 7, the construction of the pipe cross-linking device for improved plastic house according to the present invention after inserting the second pipe 20 to the second seating portion 120 of Figure 4 the bottom of the fixture 100 Inserting the support 200 is equipped with a pressure port 300 to prevent the second pipe 20 from being separated to the lower end of the fixture 100.

The protruding end 220 formed in the support 200 prevents the support 200 from completely penetrating the front of the fixture 100 when the support 200 is inserted from the rear of the fixture 100 to the front. It is in close contact with the back of the fixture 100 so that the pressing device 300 is located on the central axis of the second pipe (20).

In addition, the cradle end 210 protruding from both sides of the support 200 is inserted into the cradle 140 bent inwardly from the bottom of the fixture 100, the cradle end 210 inserted into the cradle 140 The support 200 is seated on the fixture 100 so that the second pipe 20 can be supported so as not to be separated in the lower direction of the fixture 100 by gravity.

In addition, the mounting groove 211 formed in the mounting end 210 is formed so that the mounting bracket 140 formed in the fastener 100 can be inserted inward, so that the support member 200 is completely inserted into the fixing tool 100. When the cradle 140 is seated in the mounting groove 211, it is possible to fix the position of the support 200.

That is, it is possible to prevent the support 200 from being separated from the fixture 100 by the external force through the mounting groove 211, even when the pressing device 300 pressurizes the second pipe 20. As a result, the supporter 200 can be prevented from being pushed.

8 is a front view showing a state in which the pressure port 300 of the pipe cross-linking device for improved construction of the plastic house according to the present invention is moved vertically to fix the pipe, Figure 9 is a plastic house with improved construction according to the present invention It is sectional drawing which showed the pipe fixed by the cross pipe connecting device.

As shown in Figure 8 to 9, the pressure port 300 of the pipe cross-linking device for a plastic house improved in accordance with the present invention supports the lower surface of the second pipe 20 inserted into the fixture 100 It is formed to be, and when rotated by the tool is moved from the support 200 to the upper direction is characterized in that the second pipe 20 is in close contact with the first pipe 10 to be fixed.

In addition, the end of the pressure port 300 is formed in a circular shape so that the area in contact with the outer circumferential surface of the second pipe 20 is wide, the friction groove of Figure 4 is formed on the surface in contact with the second pipe 20 It is characterized in that the slip from the two pipes 20 is prevented from occurring.

One end of the rotating body 310 of the pressure port 300 is located above the support 200, and the other end is located below the support 200. When the bolt head of the other end is rotated with a tool, Accordingly, the rotatable body 310 moves up or down the support 200 to change the position of the second pipe 20.

In addition, the pressing end 320 formed at the end of the pressing hole 300 is in contact with the lower surface of the second pipe 20 to press the second pipe 20 upward by the lifting of the rotating body 310 The first pipe 10 is in close contact with the second pipe 20 and the first pipe 10 so as not to be separated from the fixture 100.

At this time, since the pressing end 320 is formed in a circular shape to widen the contact area, the pressing end 320 facilitates the second pipe 20 even if the diameter of the second pipe 20 varies depending on the dimensional error. It can be pressurized.

In addition, the center of the pressing end 320 is formed with a hole into which the rotating body 310 can be inserted, so that the pressing end 320 and the rotating body 310 are axially coupled, and the pressing end 320 is the rotating body 310. Can be freely rotated.

In this case, in order to prevent the rotor 310 from being in direct contact with the second pipe 20, the pressing end 320 is preferably formed in a dish or trumpet shape.

In addition, when one end of the rotating body 310 is inserted in the center of the pressing end 320, it is preferable to prevent the pressing end 320 from being separated by hitting one end of the rotating body 310 to widen the end diameter. .

As a result, since the pressing end 320 may be independently rotated from the rotating body 310, the pressing end 320 may be maintained in close contact with the second pipe 20 regardless of the rotation of the rotating body 310.

In addition, the pressing end 320 may be pin-coupled with the rotating body 310 to form the pressing end 320 independently from the rotating body 310.

The pressure port 300 moves the second pipe 20 vertically to the upper end of the second seating part 120, and the first seating part 110 of FIG. 4 by the fixing end 111 of the fastener 100. The first pipe 10 is temporarily placed in contact with the first pipe 10, and the pressing force generated when the pressure port 300 moves vertically presses the second pipe 20 and the first pipe 10 The second pipe 20 and the first pipe 10 can be fixed to the fixture 100.

Slip preventing means is formed on the outer surface of the pressing end 320 in contact with the second pipe 20 may prevent the slip is generated between the second pipe 20 and the pressing end 320.

At this time, the slip preventing means is formed of a synthetic resin layer of any one of rubber, silicon, urethane or a plurality of saw blades are formed on the outer surface of the pressing end 320 to press the second pipe 20 in order to reduce the frictional force. By improving, slip can be prevented.

In addition, when the slip preventing means is formed of a synthetic resin layer, the synthetic resin layer is compressed by the pressing force, and thus the contact area between the second pipe 20 and the pressing end 320 is widened, and is inserted into the fixture 100. Even if the diameter of the second pipe 20 is changed, it is possible to use one pressing end 320.

In addition, since the synthetic resin layer increases the frictional force between the pressing end 320 and the second pipe 20, it is possible to prevent the slip.

When the through hole 230 is formed in the support 200, the length of the through hole 230 is lengthened by deep drawing or extruding the center of the support 200 so that the through hole 230 protrudes downward. It is preferable to make the area in contact with the rotor 310 wider.

That is, as the length of the through hole 230 becomes longer, the threads generated through the tap processing increase, so that the area for screwing with the rotor 310 becomes wider, so that the rotor 310 is stable in the through hole 230. It can be supported by.

In addition, when the pressing end 320 is in contact with the second pipe 20 and pressed, both sides thereof are bent based on the contacted portion, and are in close contact with the outer circumferential surface of the second pipe 20 to prevent the second pipe 20 from slipping. It is characterized by.

The pressing end 320 has a plate shape having a hole formed at the center thereof. When the initial second pipe 20 is pressed and raised, the pressing force does not greatly act on the pressing end 320 so that the upper surface has a flat shape. .

However, when the pressing force is continuously generated to fix the second pipe 20 in contact with the first pipe 10, the center of the pressing end 320 in contact with the second pipe 20 is recessed, whereby In response, both side surfaces of the pressing end 320 are bent toward the second pipe 20, and the pressing end 320 changes into an arc shape to be in close contact with the second pipe 20.

As a result, the pressing end 320 increases the area in contact with the outer surface of the pipe, and as the contact area increases, the friction groove 321 of FIG. 4 formed of the pressing end 320 prevents the second pipe 20 from sliding. By applying frictional force, the second pipe 20 can be pressurized and fixed.

10 is an exploded view showing the components of the pipe cross-linking device for improved plastic house according to the first embodiment, and Figure 11 is a pipe cross-linking device for improved construction according to the first embodiment This is a cross-sectional view showing the pipe fixed.

As shown in Figure 10 to 11, the pressure port 300 of the pipe cross-linking device for a plastic house improved in accordance with the first embodiment of the first through hole 230 formed in the center of the support 200 Screwed to the protruding to the upper portion of the support 200 and the other end is formed on the rotating body 310 made of a bolt head and one end of the rotating body 310 to be rotatable by the tool can be independently rotated The pressing end 320 is formed in a circular shape so that the area in contact with the outer circumferential surface of the two pipes 20 is widened, and is formed on the upper surface of the supporter 200 and is screwed with the rotor 310 so that the rotor 310 When pressing the second pipe 20 is characterized in that it consists of a support block 330 for fixing the support 200 to the fixture 100 by pressing the support 200 in the opposite direction.

In addition, the upper surface of the support 200 further protrudes to the outer surface so that the support block 330 to support the edge of the support block 330 so that the support block 330 is not rotated by the rotor 310 further includes It features.

A through hole 230 penetrating from the top to the bottom is formed in the center of the support 200, and the through hole 230 is formed larger than one end diameter of the rotor 310 and does not form a thread. Through the 230, the rotary body 310 of the pressure port 300 is able to move freely vertically.

At this time, the diameter of the through hole 230 is preferably larger than the diameter of one end of the rotor 310 and smaller than the diameter of the other end on which the bolt head is formed so that the other end of the rotor 310 does not pass through the through hole 230. .

In addition, one end of the rotating body 310 is inserted into the through-hole 230 of the support 200, and then protrudes in the upper direction of the support 200, the threaded hole is not formed in the through-hole 230 The whole 310 can be freely moved in the vertical direction without being constrained.

At this time, the other end of the rotating body 310 is formed larger than the diameter of the through hole 230 to prevent the rotating body 310 from penetrating the through hole 230, the bolt head is the plate head, round head , Umbrella head, hex head, frenzy, or a wrench.

The pressing end 320 is formed at one end of the rotating body 310, and when the rotating body 310 is moved upwardly from the support 200 toward the second pipe 20, the second pipe 20 may be formed. In contact with the outer circumferential surface to press the second pipe 20 in the upper direction.

At this time, the pressing end 320 is formed in an arc shape to widen the area in contact with the outer circumferential surface of the second pipe 20 made of a cylinder, through which the second pipe 20 having a different diameter is inserted into the fixture 100 or Even if the diameter of the second pipe 20 is changed by the dimensional error, the pressing end 320 may press the second pipe 20.

The support block 330 is formed on the upper surface of the support 200, there is a fastening hole 331 is formed in the center of the screw thread when one end of the rotor 310 is inserted is screwed to rotate the rotor 310 The rotating body 310 and the pressing end 320 are raised or lowered based on the support block 330 according to the direction.

In addition, the support block 330 is screwed to the rotating body 310 to prevent the rotating body 310 from falling out of the support 200, the rotating body 310 is rotated to support the block ( Reaction generated while the pressure end 320 presses the second pipe 20 while being moved upward in the 330 is transmitted to the support 200 by the support block 330.

That is, the support block 330 is to transmit the force due to the reaction generated when the pressing end 320 presses the second pipe 20 in the upper direction as the rotor 310 is raised to the support 200. Through this, the support block 330 can be fixed to the fixture 100 by pressing the support 200 to be in close contact with the mounting end 210.

In addition, the support end 240 protruding to the outer surface is formed on the upper surface of the support 200 so that the support block 330 is not rotated along the rotation direction of the rotor 310.

The support end 240 protrudes to the upper surface of the support 200, so that the support block 330 is not rotated, one side and the other side of the support block 330, the front and rear of the support block 330, the support block 330 Protrude from one side, the other side, front and rear of the support) to support the support block 330 is not rotated.

That is, the support end 240 is in contact with at least two of the four surfaces of the support block 330 to prevent the support block 330 is not rotated, formed higher than the thickness of the support block 330 support block ( It is preferable that the 330 is caught by the support end 240 even if it is rotated after being moved to the upper end of the support end 240 by the rotor 310.

In addition, the support end 240 and the support 200 may be formed to maintain a close contact with each other by a magnetic field using a magnet.

One end of the rotating body 310 of the pressure port 300 is located above the support 200, and the other end is located below the support 200. When the bolt head of the other end is rotated with a tool, Accordingly, the rotatable body 310 moves up or down the support 200 to change the position of the second pipe 20.

At this time, one end of the rotating body 310 is screwed with the support block 330 formed on the upper surface of the support 200, the support block 330 is a support protruding from the upper surface of the support 200 to the outer surface Since it is supported not to rotate by the stage 240, the rotary body 310 can be elevated in accordance with the rotation direction.

The pressure port 300 moves the second pipe 20 vertically to the upper end of the second seating part 120, and the first seating part 110 of FIG. 4 by the fixing end 111 of the fastener 100. The first pipe 10 is temporarily placed in contact with the first pipe 10, and the pressing force generated when the pressure port 300 moves vertically presses the second pipe 20 and the first pipe 10 The second pipe 20 and the first pipe 10 can be fixed to the fixture 100.

In addition, the reaction force of the pressing force generated while the pressure port 300 moves the second pipe 20 and the first pipe 10 vertically is transmitted to the lower direction of the support 200 by the support block 330. As a result, the support 200 is pressed to be in close contact with the holder 140 of the fixture 100 so that the support 200 and the fixture 100 can be fixed so as not to be separated.

12 is a bottom perspective view showing a detailed configuration of the support 200 of the pipe cross-linking device for improved construction of the plastic house according to the second embodiment, Figure 13 is a pipe for the improved plastic house according to the second embodiment A bottom perspective view showing a state in which the support 200 of the cross connecting device is fixed so as not to be separated from the fixture 100.

As shown in FIGS. 12 to 13, the pipe cross-linking device for a plastic house with improved construction according to the second embodiment is formed on one side and the other side of the support 200 and protrudes to the outside to support the support 200. ) Is inserted from the front or rear of the fixture 100 is in close contact with one side and the other side of the fixture 100, characterized in that it further comprises a departure prevention end 260 to prevent the support 200 from being separated in the reverse direction do.

The separation prevention end 260 is protruded from the one side and the other side of the support 200 to the outer surface, respectively, one end and the other end of the thickness is formed different from each other is formed so as to form a right triangle when viewed from the top.

That is, one end thickness of the separation prevention end 260 is formed smaller than the other end thickness, the inclined surface is gradually increased from one end to the other end is formed.

At this time, the thickness of one end of the separation prevention step 260 is to prevent the separation when the support 200 is inserted into the front or rear of the fixture 100 by making a small protrusion from one side or the other side of the support 200. It is preferable that the front surface of the stage 260 is not caught on both sides of the fixture 100.

When the supporter 200 is inserted in the front or rear direction of the fixture 100, the fixture 100 is opened in both directions by the release preventing end 260 and the other end of the release preventing end 260 is the second pipe ( When the 20 reaches the second seating portion 120 opened to be inserted, both sides of the fixing device 100 which are opened are restored by the elastic force.

At this time, the cradle 140 of the fixture 100 is formed between the other end and the protruding end 220 of the separation prevention end 260 formed in the support 200, the support 200 is the front of the fixture 100 Or the front direction is prevented from being moved by the protruding end 220 when moved to the rear by the external force, the rear direction is prevented from being moved by the escape prevention.

Through this, the support 200 inserted into the lower end of the fixture 100 can be prevented from moving in the front or rear direction of the fixture 100 so that the position of the pressing device 300 of FIG. 20) in the vertical direction.

In addition, the supporter 200 is formed on one side and the lower side of the supporter 200, respectively, and a plurality of blades are formed so that the supporter 200 slides from the fixture 100 when the supporter 200 is inserted into the lower end of the fixture 100. It characterized in that it further comprises a contact end 270 to prevent.

The contact end 270 is to increase the contact area with the inner surface of the holder 140 bent from the bottom of the fixture 100 and to improve the pressing force when the support member 200 presses the holder 140, the supporter One side and the other side of the 200 is formed on the lower surface.

At this time, the contact end 270 is composed of a plurality of saw blades when the support 200 is mounted on the cradle 140, the area in contact with the inner surface of the bent cradle 140 can be increased, of FIG. When the support 200 is in close contact with the holder 140 by the pressure port 300, the pressing force is improved while intensively pressing the parts in contact with the plurality of saw blades.

Through this, even when the departure preventing end 260 is not formed, it is possible to prevent the support 200 from being separated from the fixture 100, and the contact end 270 is the support 200 to the fixture 100 When inserted into the cradle 140 is preferably present in the position formed.

14 is a coupling diagram showing a state in which the fixture 100 is deformed into an arch to connect an arched pipe of the pipe cross connection device for a plastic house with improved construction according to the third embodiment, and FIG. 15 is a third embodiment. It is a view showing the appearance that the fixture 100 is deformed into an arch to connect the arch pipe of the pipe cross-linking device for a plastic house improved construction.

As shown in Figure 14 to 15, the fixture 100 of the pipe cross-linking device for a plastic house improved in the construction according to the third embodiment is the upper end of the arched shape so as to connect the first pipe (10) The arch is formed so as to correspond to the first pipe 10.

That is, the first seating part 110 into which the arcuate first pipe 10 is inserted is formed to correspond to the arcuate first pipe 10, and the first seating part to support the first pipe 10. The fixed end 111 protruding inwardly (110) is also preferably formed to correspond to the arcuate first pipe (10).

In addition, since the second pipe 20 is pressed by the pressing hole 300, the first pipe 10 should be in close contact with the upper end of the fixture 100, so that the second seating part 120 into which the second pipe 20 is inserted is provided. It is preferable that the opening be to a position capable of pressing the lower surface of the arc-shaped first pipe 10.

FIG. 16 is a view illustrating a state in which a fixing end 111 for supporting a pipe is deformed to a fixture 100 of a pipe cross connection device for a vinyl house according to a fourth embodiment, and FIG. 17 is a fifth embodiment. Figure is a view showing a modified state of the fixing end 111 for supporting the pipe in the arch fixture 100 of the pipe cross-linking device for improved construction of the plastic house according to the example.

As shown in Figure 16 to 17, the pipe cross-linking device for improved construction of the plastic house in the form that the fixing end 111 of the fixture 100 is bent inward toward the center of the first seating portion 110 It is formed, and is continuously formed in the front direction from the front of the fixture 100 can be mounted stably by improving the area to be mounted when the first pipe 10 of Figure 4 is inserted into the first seating portion (110) Will be.

As described above, according to the pipe cross-linking device for improved construction of the plastic house according to the present invention can be easily fixed without using a separate coupling member or hitting the pipe after inserting the pipe when the pipe is crossed and fixed, construction If it is accidentally separated from the pipe, it can be easily removed without damage, and can be reused by re-installing it, and after the pipe is fixed in the cross, it prevents the pipe from slipping from the connecting device and is connected by an external force applied outside the plastic house There is an effect of preventing the device from being deformed or broken.

As described above, the present invention has been described based on the preferred embodiments, but various modifications of the present invention can be made without departing from the technical spirit and scope described in the claims of the present invention by those skilled in the art. Can be modified or modified. Therefore, the scope of the invention should be construed by the claims described to include examples of many such variations.

10: first pipe 20: second pipe
100: fixture 110: first seating portion
111: fixed end 120: second seat
130: pressure protrusion 140: holder
150: fixed rib 200: support
211: mounting groove 210: mounting stage
220: protrusion end 230: through hole
240: support end 250: support rib
260: separation prevention step 270: contact end
300: pressure port 310: rotating body
320: pressurized end 321: friction groove
330: support block 331: fastening hole

Claims (10)

A fixture formed to intersect the first pipe and the second pipe with each other;
A supporter formed to be detachably attached to a lower end of the fixture to support the first pipe and the second pipe so as not to be separated from the fixture;
And a pressurizing tool which is formed to be moved vertically from the center of the support toward the fixture and presses the first pipe and the second pipe in the direction of the fixture.
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
A first seating part formed at an upper end of the fastener and opened to protrude to the front and rear surfaces of the fastener when the first pipe is inserted;
And a second seating part formed at the middle of the fixture and opened to protrude to one side and the other side of the fixture when the second pipe is inserted.
One-touch fixation for pipe cross pipes for vinyl houses.
The method of claim 1,
Is formed in the first seating portion for supporting the first pipe from the top of the fixture,
And a fixed end fixing the first pipe by pressing both lower portions of both sides of the first pipe when the first pipe is inserted.
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
The fixture
And a pressurizing protrusion projecting toward the first pipe from the upper inner surface of the first pipe into which the first pipe is inserted and contacting the outer circumferential surface of the first pipe to press the first pipe so that the first pipe does not slip from the fixture. doing
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
Both sides of the lower end of the fixture
And a plurality of cradles protruding toward the inside of the fixture so that both sides of the support can be inserted and mounted when the support is mounted.
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
The support is
One and the other side protrudes to the bottom and the mounting end is formed with a plurality of mounting grooves so that the lower end of the fixture is inserted;
It is formed on one side and the other rear of the support, respectively, and protrudes to the outside so that the rear of the support is in close contact with the front or rear of the fixture when the support is inserted from the front or rear of the fixture to fix the position of the support. To protrude; characterized in that consisting of
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
It is formed at the end of the pressing port and further comprises a pressing end formed in a circular shape so as to be in contact with the second pipe;
Slip preventing means is formed on the surface of the pressing end in contact with the second pipe, characterized in that to prevent the slip is generated from the second pipe
Pipe cross connector for plastic house with improved workability.
The method of claim 1,
The pressure port is
A rotating body formed of a bolt head having one end screwed into a through hole formed at the center of the support and protruding to an upper portion of the support and the other end rotatable by a tool;
It is formed on one end of the rotating body can be rotated independently and the pressing end is formed in a circular shape so that the area in contact with the outer peripheral surface of the second pipe is wide;
Pipe cross connector for plastic house with improved workability.
The method of claim 8,
When the pressing end is in contact with the second pipe and pressurized, both sides are bent based on the contacted portion, thereby being in close contact with the outer circumferential surface of the second pipe to prevent the second pipe from slipping.
Pipe cross connector for plastic house with improved workability.
The method of claim 8,
And a friction groove that forms a plurality of irregularities radially from the upper center of the pressing end to improve the frictional force so that the second pipe does not slip.
Pipe cross connector for plastic house with improved workability.

Images