KR200476431Y1 - Air supply line for air tool - Google Patents

Abstract

The present invention relates to an air supply line for an air tool which is connected to a main line buried in an underground and supplies air supplied from a main line to a plurality of air tools, A head tube having a lower end communicating with an upper end of the connecting pipe, a branch pipe having one end communicated with one side of the head pipe so as to be spaced apart from each other and the other end connected to the hose end of each air tool, And the inner diameter of the lower end of the head tube is larger than the outer diameter of the projecting portion of the coupling tube so that the inner tube and the outer tube of the coupling tube are coagulated And an air supply line for an air tool in which condensed water in the air is collected at the inner bottom of the head tube.
In the air supply line for air tools, a protruding portion is formed so as to protrude inwardly from the inner surface of the head tube at the upper end of the connection pipe connected to the head pipe and the one end of the branch pipe, The condensed water flowing down along the inner surface of the head tube can be collected at the bottom of the head tube without flowing into the branch pipe or the connection pipe.

Description

[0001] The present invention relates to an air supply line for an air tool,

The present invention relates to an air supply line for an air tool, and relates to an air supply line for supplying air to an air tool used in a ship drying operation.

Generally, in the shipbuilding industry, various types of air tools are used as tools for installing blocks or assembling materials during the drying operation.

The air tool is driven by supplying air from the outside, and an air supply line is provided so that a plurality of air tools can be connected and installed in order to increase the efficiency of the operation.

1, an air supply line for an air tool includes a main line 1 supplied with air in a state of being connected to a pump (not shown), and a plurality of And a supply line 3 formed with a plurality of connection portions 2 for connecting an air tool (not shown). At this time, the main line 1 is buried under the worker so as not to disturb the movement or the operation of the worker.

However, in the conventional air supply line for an air tool, moisture is generated by burying the main line 1 in the ground, and the generated moisture is supplied to the air tool through the main line 1, There is a problem that causes trouble. In addition, when the air supply to the air tool is interrupted, the generated moisture flows back to the main line 1 from the supply line 3, thereby causing a problem in the air supply flow.
Such a conventional air supply line for an air frame is disclosed in Korean Utility Model Application No. 2012-0002104 (March 23, 2012).

It is an object of the present invention to provide an air supply line for an air tool that prevents moisture generated when supplying air from an air tool through a main line buried underground to the air tool or back to the main line.

The present invention relates to an air supply line for an air tool which is connected to a main line embedded in an underground and supplies air supplied from the main line to a plurality of air tools and has a lower end connected to one side of the main line And a branch pipe having a connection pipe and a lower end communicating with an upper end of the connection pipe, the branch pipe having one end communicated with one side of the head pipe so as to be spaced apart from each other and the other end connected to the hose end of each air tool. Wherein the head pipe has a lower inner diameter that is larger than an outer diameter of the projecting portion of the coupling tube, And an air supply air supply line for condensing the condensed water in the air on the inner side surface and the outer side surface of the projecting portion of the connection tube, In.

In addition, a discharge hole is formed at one side of the projecting portion of the connection pipe to discharge the air into the head tube, and a cohesion induction portion of a net structure is coupled to the outer side surface of the projecting portion of the connection pipe to surround the discharge hole, The condensed water in the air exhausted through the ball may collide with the cohesion inducing portion and be agglomerated.

In addition, the connection pipe may have a closed tube structure with the lower end opened.

In addition, a discharge pipe may be connected to the lower end of the head tube so that the condensed water collected in the bottom of the head pipe may be discharged to the outside through the discharge pipe.

The drain pipe may further include an auto drain trap for automatically discharging the condensed water discharged from the head pipe to the outside.

The air supply line for an air tool according to the present invention is characterized in that a protruding portion is formed so as to protrude inwardly from the inner side surface of the head pipe at the upper end of the connecting pipe connected to the head pipe and at one end of the branch pipe, The condensed water flowing in the air flowing along the inner surface of the head tube can be collected at the bottom of the head tube without flowing into the branch pipe or the connection pipe.

1 is a structural cross-sectional view of a conventional air tool air supply line.
2 is a structural cross-sectional view of an air supply line for an air tool according to an embodiment of the present invention.

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

2 is a structural cross-sectional view of an air supply line for an air tool according to an embodiment of the present invention. Referring to FIG. 2, the air supply line 100 for an air tool according to an embodiment of the present invention includes a connection pipe 110, a head pipe 120, and a branch pipe 130, And guides the air supplied from the main line 10 to a plurality of air tools (not shown).

The connection pipe 110 is a pipe member that receives the air from the main line 10 and guides the air to be supplied to the head pipe 120 to be described later. The lower end of the connection pipe 110 is connected to one side of the main line 10 and the upper end is connected to the lower end of the head pipe 120. The lower end of the connection pipe 110 is opened to be able to receive the air in a state of being connected to one side of the main line 10. The lower end of the coupling tube 110 may be flanged to one side of the main line 10, but it is not limited thereto and a known tube structure may be connected and coupled.

The upper end of the connection pipe 110 has a closed structure and a discharge hole 112 for discharging the air supplied from the main line 10 to the inside of the head pipe 120 is formed at an upper end. At this time, the connection pipe 110 is disposed vertically to the ground so as to minimize the inflow of the condensed water generated inside the head pipe 120 into the connection pipe 110 through the discharge hole 112 So as to communicate with the main line (10).

In addition, a protrusion 111 is formed at the upper end of the coupling pipe 110 so as to protrude to the inside of the head pipe 120 to be described later. That is, the protrusion 111 of the coupling tube 110 protrudes upward from the inner bottom surface of the head tube 120 while the coupling tube 110 is connected to the head tube 120, The condensed water generated in the inside of the head pipe 120 is collected in the bottom of the head pipe 120 and is prevented from passing over the connection pipe 110.

In addition, a cohesive induction unit 113 of a network structure may be coupled to the upper end of the connection pipe 110, that is, the outer surface of the protrusion 111 of the connection pipe 100 so as to surround the discharge hole 112. When the air is discharged through the discharge hole 112 of the connection pipe 110, the condensed water in the air collides with the coagulation inducing portion 113 and then coagulates, To be collected at the bottom of the head tube 120, which will be described later, through the outer surface of the head tube 110. In addition, the cohesion inducing unit 113 also prevents the condensed water in the air flowing into the head pipe 120 from flowing into the connection pipe 110 again through the discharge hole 112 of the connection pipe 110 do.

The head pipe 120 is a pipe member for storing the air so that the air discharged through the discharge hole 112 of the connection pipe 110 is received and supplied to the branch pipe 130 to be described later. The lower end of the head pipe 120 is connected to the upper end of the connection pipe 110. The lower end of the head pipe 120 has a structure in which the upper end of the coupling pipe 110, that is, the protrusion 111 of the coupling pipe 110 is opened to be communicatively coupled in a penetrating state. The upper end of the head pipe 120 has a closed structure to store the air supplied from the connection pipe 110. A plurality of fastening holes 121 are formed in the side surface of the head tube 120 so as to be spaced apart from each other so as to connect the branches 130 to be described later.

The lower end of the head tube 120 is coupled with the upper end of the coupling tube 110 in an inserted state so that the lower end of the head tube 120 surrounds the upper end of the coupling tube 110. The inner diameter of the lower end of the head pipe 120 is larger than the outer diameter of the protrusion 111 of the connection pipe 110 and is generated inside the head pipe 120 The condensed water in the air is condensed on the inner surface of the head tube 120 and the outer surface of the coupling tube 110 and then collected on the bottom of the head tube 120.

In addition, a discharge pipe 140 may be connected to one side of the lower end of the head pipe 120. The discharge pipe 140 is a pipe member for guiding the condensed water collected at the inner bottom of the head pipe 120 to be discharged to the outside of the head pipe 120. Here, an auto drain trap 141 may be connected to one side of the discharge pipe 140. The auto drain trap 141 may automatically discharge the condensed water discharged from the head pipe 120 to the outside of the head pipe 120.

The branch pipe (130) is a pipe member in which the air supplied and stored in the head pipe (120) is distributed and supplied to a plurality of air tools. That is, one end of the branch pipe 130 is connected to the fastening hole 121 of the head pipe 120 so that the air can be supplied from the head pipe 120. The ends of the hoses (11) of the air tools are connected to the other end of the branch pipe (120).

A protrusion 131 is formed at one end of the branch pipe 130 so as to protrude to the inside of the head pipe 120. That is, the projecting portion 131 of the branch pipe 130 is connected to the discharge pipe 112 of the head pipe 120 in a state where the branch pipe 130 is communicated with the discharge hole 112 of the head pipe 120 So that the condensed water flowing through the inner surface of the head pipe 120 is prevented from flowing into the branch pipe 130.

As the air flows from the main line 10 to the connection pipe 110 when the air supply line 100 for air tool according to one embodiment of the present invention is supplied with air, The air is supplied to the head pipe 120 through the discharge hole 112 of the head pipe 120. [

The condensed water in the air coagulated in the coagulation inducing unit 113 coupled to the upper end of the coupling pipe 110 is first collected on the bottom of the head pipe 120 along the outer surface of the coupling pipe 110 do.

The condensed water in the air supplied to the head pipe 120 is condensed on the inner surface of the head pipe 120 and then collected on the bottom of the head pipe 120. At this time, a protrusion 131 is formed at one end of the branch pipe 130 communicating with the head pipe 120 so as to protrude inwardly from the inner surface of the head pipe 120, It is possible to prevent the condensed water flowing along the branch pipe 130 from flowing into the branch pipe 130.

The condensed water collected at the bottom of the head pipe 120 is formed such that the upper end of the coupling pipe 110 is disposed above the bottom of the head pipe 120 by the protrusion 111, (110).

The air supply line 100 for an air tool according to an embodiment of the present invention includes an upper end of the connection pipe 110 connected to the head pipe 120 and a lower end of the head pipe 120 The inner diameter of the lower end of the head tube 120 is larger than the outer diameter of the protrusion 111 of the coupling tube 110 in a state in which the protrusions 111 and 131 are formed so as to protrude inwardly from the inner tube, The condensed water in the air flowing along the inner surface of the head pipe 120 can be collected at the bottom of the head pipe 120 without flowing into the branch pipe 130 or the connecting pipe 110.

Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various modifications and equivalents may be made thereto by those skilled in the art. Accordingly, the true scope of technical protection of the present invention should be determined by the technical idea of the appended utility model registration claim scope.

10: main line 11: air tool hose
100: air supply line 110: connector
111, 131: protrusion 111:
113: Cohesion inducing part 120: Head tube
121: fastening hole 130: branch tube
140: discharge pipe 141: auto drain trap

Claims (5)

An air supply line for an air tool which is connected to a main line buried in a basement and supplies air supplied from the main line to a plurality of air tools,
A lower end connected to one side of the main line;
A head pipe having a lower end communicating with an upper end of the connection pipe; And
And a branch pipe having one end communicated with one side of the head pipe so as to be spaced apart from each other and the other end connected to the hose end of each air tool,
Wherein the head pipe has a bottom inner diameter that is larger than an outer diameter of the projecting portion of the coupling tube, And the condensed water in the air agglomerated on the side surface and the outer surface of the projecting portion of the connecting pipe is collected on the inner bottom surface of the head pipe. The method according to claim 1,
A discharge hole is formed at one side of the protrusion of the coupling tube to discharge the air into the head tube,
The cohesion inducing portion of the net structure is coupled to the outer surface of the projecting portion of the connection pipe so as to surround the exhaust hole,
And the condensed water in the air discharged through the discharge hole collides with the cohesion inducing portion and coheres. The method according to claim 1 or 2,
Wherein the connection pipe has a closed tube structure with the lower end thereof opened and the upper end thereof closed. The method according to claim 1,
Wherein the head pipe has a discharge pipe connected to the lower end of the head pipe, and the condensed water collected in the bottom of the head pipe is discharged to the outside through the discharge pipe. The method of claim 4,
Wherein the drain pipe is further provided with an auto drain trap for automatically discharging the condensed water discharged from the head pipe to the outside.

Images