KR102037270B1 - Assembly apparatus of flexible spout pipe for sink faucet - Google Patents

Abstract

The present invention relates to an assembling device for flexible water discharge pipe for receiving a sink, the first and second bushings of which are provided at one side of the base panel and inserted into both ends of the synthetic resin pipe inserted into the flexible pipe supported by the first and second holders, respectively. A joint support block having an injoint support portion and an outjoint support portion on which both the joint and the out joint provided on both ends of the flexible pipe in the state are formed, and the joint and the outjoint supported on the joint support portion and the out joint support portion. The first and second bushing pressing blocks for pressing the first and second bushings to support the first and second holders, and the other side of the base panel, but the second bushing to be fitted to the other end of the synthetic resin pipe Synthesis with synthetic resin tube pull support means for pulling and supporting the other end of the synthetic resin tube exposed by the joint, and the first and second bushing pressure block And control means for controlling the drive of the resin tube pulling support means. The flexible water discharge pipe assembly for sink sink according to the present invention is useful for fitting the first and second bushings at both ends of the synthetic resin pipe to be inserted into the flexible pipe, and fitting them to the joint and the out joint of the flexible pipe.

Description

Assembly apparatus of flexible spout pipe for sink faucet}

The present invention relates to a device for assembling a flexible water discharge tube for sink receiving, and more particularly, to an apparatus for assembling a flexible water discharge pipe used for sink receiving.

In general, a faucet installed in a kitchen sink has a fixed height when building a building. In such a structure, a kitchen sink is usually installed according to the height of the faucet.

Therefore, the faucet installed in the kitchen will always have a constant height, it is necessary to adjust the height or direction for the user's convenience, so that the water jet nozzle of the faucet can be rotated up, down, left and right as a means for convenience. Flexible water discharge pipe called "Java" is used.

As an example of such a flexible water discharge pipe has been proposed Patent No. 10-1158094. This relates to a variable water discharge pipe for a faucet, in the variable water discharge pipe installed in the faucet connected to the water supply, the variable water discharge pipe is made so that the water flows into the inside of the flexible pipe with a bushing inserted at both ends, And a flexible pipe surrounding the outer circumferential surface of the conduit, a holder for fixing both ends of the conduit, and a joint provided at both ends of the flexible pipe to support the holder, respectively.

At this time, the variable water discharge pipe for the faucet of the patent is fixed to the parts constituting the variable water discharge pipe at the both ends of the flexible pipe and the joint is provided to assemble the variable water discharge pipe to the faucet and water cutting machine head, both ends of the pipe Bushings are respectively fitted to the parts, and on the outer surface of the bushings, holders are integrally assembled to the joints and support the respective bushings.

However, in the conventional variable water discharge pipe as proposed in the registered patent, the productivity of the variable water discharge pipe decreases as a series of processes of inserting the pipeline into the flexible pipe, inserting the bushings at both ends, and supporting the holder by manual operation are performed. Due to this, there is a difficulty in mass production and a problem of rising production cost.

Therefore, to solve the problems of the prior art, an object of the present invention is to provide a flexible water discharge pipe assembly for sink sink to minimize the manual work when assembling the flexible water discharge pipe used for sink sinks to increase the assembly productivity. There is this.

In particular, an object of the present invention is to provide an apparatus for assembling a flexible water discharge pipe for sinks, which can insert a synthetic resin pipe in which water moves into a flexible pipe and easily fix both ends of the synthetic resin pipe.

The present invention to solve this technical problem;

Joints and out joints provided at both ends of the flexible pipe provided on one side of the base panel, and the first and second bushings are fitted to both ends of the synthetic resin pipe inserted into the flexible pipe supported by the first and second holders, respectively. A joint support block on which the joint support part and the out joint support part are seated, and the first and second bushings of the joint and the out joint supported on the joint support part and the out joint support part are pressed to the first and second holders. Synthetic resin pipe for pulling the first and second bushing pressure block and the other end of the synthetic resin pipe which is provided on the other side of the base panel and exposed to the out joint so that the second bushing can be fitted to the other end of the synthetic resin pipe. Composed of a pull support means, the control means for controlling the driving of the first and second bushing pressure block and the synthetic resin tube pull support means It provides a number of sink-only flexible soil water pipe assembly device according to claim.

At this time, the first and second bushing pressure block is characterized in that the first and second pressing protrusions are composed of first and second cylinders provided at the lower end of the rod.

And the synthetic resin tube pull support means for pressing the first end of the other end of the synthetic resin tube exposed to the end of the mounting block and the outer joint is mounted on the out joint mounting portion is mounted on the out joint. And a second pressurizing block, a lifting block for transporting the primary contact block upwards, and the other end of the synthetic resin pipe exposed to the end of the out joint when the synthetic resin pipe is pulled upward by the lifting block. It is characterized by consisting of a secondary contact block.

At this time, the primary close contact block is a third cylinder provided with a cradle fixed to the front of the lifting plate, and the first pressure port for advancing forward and backward in the direction of the cradle and pressing the synthetic resin pipe to the front of the cradle. It is characterized in that the configuration.

And the lifting block is fixed to the base panel is composed of a fourth cylinder in which the lifting plate is integrally fixed to the end of the rod, the base panel is a guide block which guides to guide both sides of the lifting plate in the vertical direction It is characterized in that the provided.

In addition, the secondary contact block is fixed to the base panel, characterized in that consisting of a fifth cylinder provided with a second pressure port for pressing the synthetic resin pipe to one side of the mounting block at the end of the rod.

In addition, the base panel is characterized in that it is rotatably installed by a hinge on the upper portion of the base plate.

At this time, the rear side of the base panel is integrally provided with a bracket which is formed with a support hole for fastening the first support bolt, the upper rear side of the support plate is formed in both directions to a plurality of control holes for selectively fastening the second support bolt A fixing member provided side by side in front and rear is integrally provided, one end of the support is hinged to the first support bolt, and the other end of the support is hinged to the second support bolt.

The flexible water discharge pipe assembly for sink sink according to the present invention is useful for fitting the first and second bushings at both ends of the synthetic resin pipe to be inserted into the flexible pipe, and fitting them to the joint and the out joint of the flexible pipe.

In particular, the present invention has the advantage of minimizing manual work when assembling the flexible water discharge pipe and can quickly perform a stable fixing of the synthetic resin pipe, thereby improving productivity and lowering the manufacturing cost.

1 is an overall perspective view of a shock sink flexible receiving water pipe assembly apparatus according to the present invention.
Figure 2 is a front view of a flexible water discharge pipe assembly device for a sink receiving according to the present invention.
3 is a cross-sectional view of a flexible water discharge pipe for receiving a sink according to the present invention.
4 is a view illustrating a state in which a first bushing is inserted into an end portion of a synthetic resin pipe inserted into a flexible water discharge pipe for receiving a sink according to the present invention.
FIG. 5 is a view illustrating a state in which the first bushing is inserted into an end portion of a synthetic resin pipe inserted into a flexible water discharge pipe for receiving a sink according to the present invention.
FIG. 6 is a view illustrating a state in which a first bushing is pressed to an end of a synthetic resin pipe inserted into a flexible water discharge pipe for receiving a sink according to the present invention and coupled to an artificial joint.
Figure 7 is a front view showing a state installed in the synthetic resin tube pull support means for pulling the synthetic resin tube inserted into the flexible water discharge pipe for sink sink according to the present invention.
8 is a view showing a state before pulling the upper end by pressing the end of the synthetic resin pipe inserted into the flexible water discharge pipe for receiving the sink according to the present invention first.
Figure 9 is a view showing a state pulled up the end of the synthetic resin pipe inserted into the flexible water discharge pipe sink sink according to the present invention.
FIG. 10 is a view showing a state in which the exposed end of the synthetic resin tube is pressurized secondly while the end of the synthetic resin tube inserted into the flexible water discharge tube for sink receiving according to the present invention is pulled upward.
11 is a view illustrating a state in which a second bushing is inserted into an end portion of a synthetic resin pipe inserted into a flexible water discharge pipe for receiving a sink according to the present invention.
12 is a view illustrating a state in which the second bushing is pressed to an end portion of the synthetic resin pipe inserted into the flexible water discharge pipe for receiving a sink according to the present invention.
FIG. 13 is a view illustrating a state in which a first bushing is pressed to an end of a synthetic resin pipe inserted into a flexible water discharge pipe for receiving a sink according to the present invention and coupled to an artificial joint.
14 is an overall perspective view of a shock sink flexible receiving pipe assembly apparatus according to another embodiment of the present invention.

Hereinafter, the features of the sink receiving flexible flexible water discharge pipe assembly according to the present invention will be understood by the embodiments described in detail with reference to the accompanying drawings.

As the inventive concept allows for various changes and numerous embodiments, the embodiments will be described in detail in the text. However, this is not intended to limit the present invention to the specific form disclosed, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

1 to 13, the sink water receiving flexible water discharge pipe assembly according to the present invention is for assembling a flexible water discharge pipe (1) used for sink receiving.

First, the flexible water discharge pipe 1 includes a flexible synthetic resin pipe 10 configured to allow water to flow therein, and a flexible pipe 20 surrounding the outer circumferential surface of the synthetic resin pipe 10. The synthetic resin tube 10 may be made of a material having flexibility to be freely bent while harmless to the human body.

The flexible pipe 20 is, for example, as proposed in Korean Patent No. 10-1158094, the surface contact between the first elastic member is wound in the form of a coil of iron core having a circular cross-section, the iron core of the first elastic member As a known structure that can be made of a second elastic member wound in the form of a coil in a state, it can be made in various forms.

Both ends of the flexible pipe 20 are coupled to the joint 22 and the out joint 24 so that the flexible water discharge pipe 1 can be assembled to the faucet and the water separator head, respectively, the joint 22 and the out joint. 24 may be made of a metal material.

Therefore, the joint 22 is connected to a faucet (not shown) and water is introduced, and the out joint 24 is connected to a water heater head (not shown) to discharge water.

In this case, first and second bushings 12 and 14 are fitted to both ends of the synthetic resin tube 10, respectively, and the joint 22 and the outer surfaces of the first and second bushings 12 and 14 are respectively inserted. The first and second holders 16 and 18 support the first and second bushings 12 and 14, respectively, integrally assembled to the out joint 24.

The first and second bushings 12 and 14 are supported by the first and second holders 16 and 18 so that the positions of both ends of the synthetic resin tube 10 are always constant even when the synthetic resin tube 10 is contracted or stretched. It serves to maintain.

The first and second bushings 12 and 14 are composed of a body 12a and 14a, and flange portions 12b and 14b formed at one side of the body 12a and 14a, and the body 12a and 14b. Through holes 12c and 14c through which water can move are formed.

The bodies 12a and 14a of the first and second bushings 12 and 14 have an outer diameter slightly larger than the inner diameter of the synthetic resin tube 10 so that the first and second bushings 12 and 14 are synthetic resin tubes 10. Are fitted tightly).

The bodies 12a and 14a of the first and second bushings 12 and 14 may be more firmly fixed while the first and second bushings 12 and 14 are fitted to both ends of the synthetic resin tube 10. A plurality of engaging projections 12d and 14d are formed at the outer circumference. These locking projections 12d and 14d are formed in a sawtooth shape so as to have a high frictional force.

Meanwhile, the first and second holders 16 and 18 are supported by the first and second bushings 12 and 14, respectively, and the space portions 16a and 18a are formed at the center thereof, so that the synthetic resin pipe 10 and the first holder are formed. Body portions 12a and 14a of the first and second bushings 12 and 14 are inserted, and end portions thereof are flange parts which are in surface contact with the flange portions 12b and 14b of the first and second bushings 12 and 14. 16b and 18b are formed.

The first and second holders 16 and 18 are formed with support grooves 16c and 18c on the outer circumferential surface thereof so as to be in close contact with the inner circumferential surfaces of the joint 22 and the out joint 24. 18d) is fitted. Of course, in this case, the outer surfaces of the first and second holders 16 and 18 are pressurized to be assembled to the joint 22 and the out joint 24 in a press fit manner.

The present invention for assembling the flexible water discharge pipe 1 is provided on one side of the base panel 100, the synthetic resin pipe is inserted into the flexible pipe 20, the first and second holders 16, 18 are supported A joint support part on which the joint 22 and the out joint 24 are provided at both ends of the flexible pipe 20 in which the first and second bushings 12 and 14 are fitted to both ends of the 10, respectively. 112 and the joint support block 110 having the out joint support part 114 formed therein, and the joint 22 and the out joint 24 supported by the joint support part 112 and the out joint support part 114. First and second bushing pressing blocks 120 and 130 for pressing the first and second bushings 12 and 14 to support the first and second holders 16 and 18, and the other side of the base panel 100. But provided with the other end of the synthetic resin tube 10 exposed to the out joint 24 so as to fit the second bushing 14 to the other end of the synthetic resin tube 10. And pulling the supporting plastic pipe support means (140), wherein the bushing consists of a first and second pressure blocks 120 and 130 and control means 150 for controlling the driving of the synthetic resin tube pulling the support means 140.

Hereinafter, the structure of each part of this invention is demonstrated concretely.

First, the base panel 100 is installed on the upper portion of the base plate 200.

In this case, the joint support block 110 provided at one side of the base panel 100 may include the joint 22 and the joint 22 which are supported at both ends of the flexible pipe 20. And an out joint support portion 114 are formed.

In this case, the joint support part 112 and the out joint support part 114 may be formed side by side in the vertical direction so that the joint 22 and the out joint 24 may be seated.

In addition, first and second bushing pressurizations including first and second pressing protrusions 121 and 131 traveling toward the joint support part 112 and the out joint support part 114 on the joint support block 110 are provided. Blocks 120 and 130 are provided.

The first and second bushing pressing blocks 120 and 130 are joint 22 and out of the flexible pipe 20 seated on the joint support 112 and the out joint support 114 of the joint support block 110. Pressing the first and second bushings 12 and 14 toward the joint 22 and the out joint 24 in the direction of the joint 24, is fixed to the base panel 100 and has the same structure. The first and second bushing pressing blocks 120 and 130 are formed of first and second cylinders 123 and 133 having first and second pressing protrusions 121 and 131 provided at lower ends of the rods 122 and 132.

In this case, although the first and second cylinders 123 and 133 constituting the first and second bushing pressurizing blocks 120 and 130 adopt a pneumatic cylinder method, a hydraulic or electric motor method may also be employed. It belongs to the scope.

On the other hand, the synthetic resin tube pull support means 140 is provided on the other side of the base panel 100 to pull and support the other end of the synthetic resin tube 10 exposed to the out joint 24, the out joint 24 ) The other end of the synthetic resin pipe 10 exposed to the end of the mounting block 142 is formed on the out joint mounting portion 142a and the end of the out joint 24 mounted on the out joint mounting portion 142a. The primary close contact block 144 for pressing the primary pressure, the lifting block 146 for transferring the primary close contact block 144 upwards, and the synthetic resin pipe 10 by the lifting block 146 on the upper side When drawn to the secondary joint block 148 for pressing the second end of the other end of the synthetic resin tube 10 is exposed to the end of the joint (24).

At this time, the primary close contact block 144 is a mounting hole (144b) fixed to the front of the elevating plate (144a), and moves forward and backward in the direction of the mounting hole (144b) and the synthetic resin tube 10 to the mounting hole (144b) The first pressure port 144c pressurized to the front surface of the rod 144d includes a third cylinder 144e provided at the end of the rod 144d. At this time, the bracket 144f is provided on one side of the front surface of the elevating plate 144a so that the first pressing hole 144c fixed to the end of the rod 144d of the third cylinder 144e is the mounting hole 144b. The body of the third cylinder (144e) is fixed to face the.

According to this configuration, the rod 144d is moved back and forth by the driving of the third cylinder 144e, and accordingly, the first pressure port 144c moves forward in the direction of the mounting hole 144b, so that the synthetic resin pipe 10 ) Is held in close contact with the holder 144b.

In addition, the elevating block 146 is provided on the other side of the base panel 100 to elevate the mounting block 142 up and down, and is integrally provided by the bracket 146a fixed to the base panel 100. And the fourth cylinder 146c to which the lifting plate 144a is integrally fixed to the end of the rod 146b.

At this time, the front of the base panel 100 is provided with a guide block 145 is formed with a guide portion 145a for guiding both sides of the lifting plate 144a in the vertical direction.

On the other hand, the secondary close block 148 is provided on one side of the top of the mounting block 142, the synthetic resin tube 10 is pulled upward, the synthetic resin tube 10 is exposed to the end of the out joint 24 It is to maintain the pulled state by pressing the other end of the second secondary, it is fixed integrally by the bracket 148a to the base panel 100, and the synthetic resin tube 10 at the end of the rod (148c) mounting block ( The fifth cylinder 148b is provided with a second pressure port 148d for pressing to one side of the 142.

The third to fifth cylinders 144e, 146c, and 148b also employ a pneumatic cylinder method similar to the first and second cylinders 123 and 133 constituting the first and second bushing pressure blocks 120 and 130, Of course, it is also possible to employ the electric motor method belongs to the scope of the present invention.

And the control means 150 is for controlling the driving of the first and second bushing pressure block (120,130) and synthetic resin tube pull support means (140).

In this case, the control means 150 is located at the bottom of the base panel 100 so that the first and second cylinders 123 and 133 constituting the first and second bushing pressing blocks 120 and 130 can be easily manipulated by foot. It is provided with a foot switch 152 so that the operator can step on the foot, the drive for allowing the third to fifth cylinders (144e, 146c, 148b) of the synthetic resin tube pull support means 140 to continuously operate And an operation panel 154 provided with stop buttons 154a and 154b.

At this time, the first and second bushing pressure block (120,130) is made of a structure that is operated at the same time by the operation of one foot switch 152, but if necessary to drive the first and second bushing pressure block (120,130), respectively. In order to operate two footswitch 152 is also possible.

Of course, the control means 150 may be provided with all of the above switches and buttons in one panel, which corresponds to a general configuration, and thus a detailed description thereof will be omitted.

Hereinafter, a process of assembling the sink receiving flexible water discharge pipe using the assembly apparatus according to the present invention with reference to FIGS. 1 to 13.

First, the flexible pipe 20 for assembling the sink receiving flexible water discharge pipe 1 has a structure in which the joint 22 and the out joint 24 are coupled to both ends.

As shown in FIG. 3, one end of the synthetic resin tube 10 is fixed to the second holder 18 in a state in which the second holder 18 having the O-ring 18d is fitted to the out joint 24 of the flexible pipe 20. 18) inserted into the flexible pipe 20 to expose one end of the synthetic resin tube 10 through the joint 22, and then inserted a protective rubber tube 29 of the rubber material into the inside of the joint 22 After that, the first holder 16 on which the O-ring 16d is mounted is inserted into the joint 22 and fixed.

Next, as shown in FIG. 4, after opening the first bushing 12 by opening the end of the exposed synthetic resin tube 10 passing through the first holder 16, the synthetic resin tube 10 is connected to the rear side of the flexible pipe 20. At first, the first bushing 12 moves toward the first holder 16.

As shown in FIG. 5, when the joint 22 is supported on the joint supporting part 112 of the joint supporting block 110 and the foot switch 152 is pressed, the control means 150 controls the first joint. The first pressing protrusion 121 of the bushing pressing block 120 descends and fastens the first bushing 12 into the first holder 16 by interference fit.

After the foot is released from the foot switch 152, as shown in FIG. 6, the first pressing protrusion 121 of the first bushing pressing block 120 is raised, and then the flexible pipe 20 is joint supported block ( Separate from the joint support 112 of (110).

7 and 8, the out joint 24 of the flexible pipe 20 is mounted on the out joint mounting portion 142 a formed on the mounting block 142 of the synthetic resin tube pulling support 140. After arranging the synthetic resin pipe 10 exposed in the direction of the out joint 24 in the direction of the mounting hole 144b fixed to the front surface of the elevating plate 144a, pressing the driving button 154a of the operation panel 154 The primary close contact block 144 is driven to advance the first pressure port 144c to press the synthetic resin tube 10 to the cradle 144b.

In this state, the control means 150 continuously drives the lifting block 146 as shown in FIG. 9 to move the lifting plate 144a upward along the guide block 145. Accordingly, the synthetic resin pipe 10 located inside the flexible pipe 20 is pulled out.

Thereafter, the control means 150 drives the second close contact block 148 as shown in FIG. 10 to the other side of the synthetic resin pipe 10 exposed to the end of the out joint 24. Pressurized to one side of the mounting block 142 to maintain the pulled state.

In such a state, the other side of the synthetic resin tube 10 is cut by using a cutting tool 300 such as scissors, and the end portion of the exposed synthetic resin tube 10 is opened to open the second bushing 14 as shown in FIG. 11. Insert it.

Subsequently, when the stop button 154b of the operation panel 154 is pressed, the second pressing hole 148d of the secondary close block 148 moves backward and returns, and the lifting plate 144a is returned by the lifting block 146. After the lowering, the first pressing hole 144c of the second close contact block 148 moves backward. When such a series of processes are performed, the other end is pulled into the flexible pipe 20 by the restoring force of the synthetic resin tube 10 that is pulled, and the second bushing 14 moves toward the second holder 18.

As shown in FIG. 12, when the out joint 24 is supported on the out joint support part 114 of the joint support block 110 and the foot switch 152 is pressed, the second control unit 150 controls the second control unit 150 through the control of the control means 150. The second pressing protrusion 131 of the bushing pressing block 130 is lowered and the second bushing 14 is forcibly fitted into the second holder 18.

After the foot is released from the foot switch 152, as shown in FIG. 13, the second pressing protrusion 131 of the second bushing pressing block 130 is raised, and then the flexible pipe 20 is joint supported block ( It is separated from the out joint support part 114 of 110 to complete the assembly.

In the above process, the assembly sequence may be fixed to the second bushing 14 first in the direction of the out joint 24 of the flexible pipe 20 through a partial design change of the present invention. It belongs to the scope of the present invention.

On the other hand, Figure 14 is a perspective view of the shock sink flexible receiving water pipe assembly apparatus according to another embodiment of the present invention.

According to this, the base panel 100 is rotatably installed by the hinge 201 on the upper portion of the support plate 200, so that the operator can adjust the angle by raising the base panel 100 vertically or tilting backwards in consideration of the key. .

Accordingly, the rear side of the base panel 100 is integrally provided with a bracket 210 in which a support hole 212 to which the first support bolt 202 is fastened is formed, and the upper rear side of the support plate 200 in both directions. The fixing member 220 is formed to be formed side by side in front and rear side with a plurality of adjustment holes 222 is selectively fastened to the second support bolt 204, the first support bolt 202 has a support ( One end of the 230 is hinged and the other end of the support 230 is hinged to the second support bolt 204.

At this time, it is obvious that the first and second support holes 232 and 234 are formed at one end and the other end of the support 230, respectively. The first and second support bolts 202 and 204 are fastened by the first and second nuts 203 and 205.

According to such a structure, since one end of the support 230 is hinged, the operator may lay the second support bolt 204 in the plurality of adjusting holes 222 in order to lay or stand the base panel 100 at an appropriate angle. It can be adjusted by assembling in any position. In this case, the second support bolt 204 is preferably applied to the butterfly bolt so that it can be easily tightened and released without using a separate tool.

As described above, embodiments of the present invention have been described in detail, but the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to the embodiments of the present invention.

1: Flexible water discharge pipe 10: Synthetic resin pipe
12: first bushing 14: second bushing
16: 1st holder 18: 2nd holder
20: flexible pipe 22: joint
24: Out joint 100: Base panel
110: joint support block 120: first bushing pressure block
130: second bushing pressure block 140: synthetic resin tube pull support means
142: mounting block 144: primary contact block
146: lifting block 148: second contact block
150: control means 200: support plate

Claims (8)

The first and second bushings 12 and 14 are provided at one end of the base panel 100 and are provided at both ends of the synthetic resin pipe 10 inserted into the flexible pipe 20 supported by the first and second holders 16 and 18. Joint support block on which the joint 22 and the out joint support 114 on which the joint 22 and the out joint 24 are provided are provided at both ends of the flexible pipe 20 in which the 110 and the first and second bushings 12 and 14 of the joint 22 and the out joint 24 supported by the joint support 112 and the out joint support 114. And first and second bushing pressurizing blocks 120 and 130 supporting the second holders 16 and 18, and the second bushing 14 provided at the other end of the base panel 100. Synthetic resin tube pull support means 140 for pulling and supporting the other end of the synthetic resin tube 10 exposed to the out joint 24 so as to fit the It consists of a control means 150 for controlling the driving of the two bushing pressure block (120,130) and the synthetic resin tube pull support means 140;
The synthetic resin tube pull support means 140 is a mounting block 142 is formed with an out joint mounting portion 142a on which the out joint 24 is mounted, and an out joint mounted on the out joint mounting portion 142a ( A primary contact block 144 for primary pressurizing the other end of the synthetic resin tube 10 exposed to an end of the 24, an elevating block 146 for transferring the primary contact block 144 upwards, and When the synthetic resin pipe 10 is pulled upward by the elevating block 146 to the second close contact block 148 for secondary pressurizing the other end of the synthetic resin pipe 10 exposed to the end of the out joint 24. Flexible water jet assembly device for a sink receiving, characterized in that configured.
The method of claim 1,
The first and second bushing pressure blocks (120, 130) is the number of sinks, characterized in that the first and second pressing protrusions (121, 131) is formed of the first and second cylinders (123, 133) provided on the lower end of the rod (122,132) Dedicated flexible water discharge pipe assembly device.
The method of claim 1,
The primary contact block 144 is a mounting hole (144b) fixed to the front of the elevating plate (144a), and moves forward and backward in the direction of the mounting hole (144b) of the synthetic resin tube 10 of the mounting hole (144b) Sink receiving flexible flexible water pipe assembly apparatus characterized in that the first pressure port (144c) for pressing to the front surface is composed of a third cylinder (144e) provided at the end of the rod (144d).
The method of claim 1,
The lifting block 146 is fixed to the base panel 100 is composed of a fourth cylinder 146c fixed to the end of the rod 146b lifting plate 144a integrally,
The base panel 100 has a guide block 145 is provided with a guide block 145 is formed with a guide portion 145a for guiding both sides of the elevating plate (144a) in the vertical direction.
The method of claim 1,
The second close contact block 148 is fixed to the base panel 100 and the second pressure port 148d for pressing the synthetic resin pipe 10 to one side of the mounting block 142 at the end of the rod 148c is Sink receiving flexible flexible water pipe assembly, characterized in that consisting of a fifth cylinder (148b) provided.
The method of claim 1,
The base panel 100 is a sink assembly flexible water discharge pipe assembly device, characterized in that rotatably installed on the upper portion of the support plate 200 by a hinge (201).
The method of claim 6,
The rear side of the base panel 100 is integrally provided with a bracket 210 which is formed with a support hole 212 to which the first support bolt 202 is fastened, and formed in both directions on the upper rear side of the support plate 200. And a fixing member 220 having a plurality of adjustment holes 222 to which the second support bolt 204 is selectively fastened side by side in front and rear is integrally provided, and the support bracket 230 is provided on the first support bolt 202. One end of the hinge hinge coupling and the other end of the support 230 is hinged flexible water discharge pipe assembly apparatus, characterized in that the hinge coupling to the second support bolt (204).
delete

Images