KR101938749B1 - angle valve - Google Patents

Abstract

The present invention relates to an angle valve, wherein an internal pipe body of a synthetic resin material is formed with insert injection not to influence a human body in an external pipe body of a metal material. Therefore, heavy metal contained in conventional metal is not in contact with water for a harmful material not to be completely eluted. Moreover, below zero temperatures, the angle valve is not frozen, and the external pipe body is formed to be maximally thin compared to the internal pipe body to reduce manufacturing costs. A screw thread is removed at an internal side of the internal pipe body to maximize productivity, and further, a protruding portion and a reinforcing portion are formed in an inlet port and an outlet port of the internal pipe body to prevent a gap from being generated between the external pipe body and the internal pipe body even though the angle valve is contracted and expanded by outdoor temperature difference.

Description

Angle valve

The present invention relates to an angle valve, and more particularly, to an angle valve, in which an inner tubular body of a synthetic resin material which does not affect the human body is formed by insert injection in an outer tubular body of a metal material, And the outer tubular body is formed to be as thin as possible than the inner tubular body to reduce the manufacturing cost and to maximize the productivity by eliminating the thread inside the inner tubular body and to ensure the productivity of the inner tubular body at the inlet and outlet sides of the inner tubular body The present invention relates to an angle valve for preventing a gap from being formed between an outer tubular body and an inner tubular body even when the step is expanded and contracted by an external temperature difference.

Generally, an angle valve is a valve that converts the flow of fluid to a right angle by forming the inlet and the outlet of the fluid at right angles. It is installed in the water pipe buried in the toilet, bathroom and kitchen wall of the building. And is configured to supply tap water.

The above-mentioned angle valve is disclosed in Korean Utility Model Publication No. 20-0274156, and a water-conducting angle valve is registered.

Wherein the inlet port and the outlet port are formed at right angles in the housing, and the handle is coupled to one side of the housing to open and close the passage, the water inlet is coupled to the water inlet, The hose is fixed and connected to the water tank or the water tank of the toilet.

However, since the housing is made of a metal material, the angle valve has a high thermal conductivity, which causes a phenomenon of being frozen due to low temperature in the winter.

In addition, since the entire housing is made of a metal material, the manufacturing cost is increased and the housing itself is not economical. In addition, the housing itself contains harmful substances harmful to human bodies such as heavy metals, and the inside of the housing is corroded during long- There is a problem that they are introduced together.

Korean Registered Utility Model No. 20-0274156

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide a method of inserting an inner tube of a synthetic resin material into an outer tubular body of a metal material by inserting injection molding to secure safety from harmful substances The present invention provides an angle valve that not only can not be frozen at a subzero temperature but also improves the merchantability of the product and reduces the manufacturing cost by forming the outer tubular body as thin as possible.

It is another object of the present invention to provide an angle valve that maximizes productivity by eliminating threads inside the inner tube.

Another object of the present invention is to provide an angle valve for preventing a gap from being formed between an outer tube and an inner tube even if the outer tube and the inner tube are formed with a step and a reinforcement at the inlet and outlet sides of the inner tube .

An angle valve according to the present invention comprises: an outer tubular body of a metal material;

An inner tubular body of a synthetic resin material which is insert-injected inside the outer tubular body and in which the inlet port and the outlet port are formed to be orthogonal;

A valve body mounted on the inside of the inner tubular body and moved by the rotation of the regulating lever to move along the inner circumferential surface of the inner tubular body;

An opening / closing part elastically coupled to a front end of the valve body to open / close the inlet;

A packing mounted on an outer end of the inner and outer tubular body fitted with the valve body; And

And a cap screwed to the outer tubular body and coupled to the male screw formed on the spindle of the valve body so as to be coupled with the female screw formed on the inner side.

An angle valve according to the present invention comprises: an outer tubular body of a metal material;

An inner tubular body of a synthetic resin material which is insert-injected inside the outer tubular body and in which the inlet port and the outlet port are formed to be orthogonal;

A nut member inserted into an inner surface of the inner tubular body so as not to rotate from the inner tubular body;

A valve body having a screw thread formed on the nut member and a screw thread formed on the spindle front end, the valve body being rotated by rotation of the control lever;

An opening / closing part elastically coupled to a front end of the valve body to open / close the inlet;

A packing mounted on an outer end of the inner and outer tubular body fitted with the valve body; And

And the cap is screwed to the outer tubular body to seal the inner tubular body.

The outer tubular body is formed to be thinner than the inner tubular body. The inner tubular body has a stepped portion formed on the inlet side to prevent the gap between the outer tubular body and the inner tubular body due to shrinkage and expansion by wrapping the outer surface of the outer tubular body. Respectively.

And a reinforcing portion for reinforcing the coupling force is provided to prevent the gap between the outer tubular body and the inner tubular body due to contraction and expansion, while the outflow side of the inner tubular body is inclined outwardly toward the upper side.

The nut member has a fixing groove formed at a tip end thereof, and the fixing groove is fixed to a fixing protrusion protruding to the inside of the inner tube.

Wherein the valve body includes: a spindle having a male screw formed on an outer circumferential surface thereof;

A movement guide member formed at a distal end of the spindle and moving in close contact with an inner circumferential surface of the inner tubular body;

And an adjusting lever fixed to the rear end of the spindle.

The valve body may include: a spindle coupled to the inner tube;

A thread formed on an outer peripheral surface of a tip end of the spindle;

And an adjusting lever fixed to the rear end of the spindle.

Further, the opening / closing part may include at least one moving space formed at least one longitudinal direction of the moving guide member at the distal end of the valve body to guide the movement of the body;

A body coupled to the inside of the distal end of the movement guide member and moving in the movement space, the protrusion being formed on the outer circumference;

An opening / closing member coupled to a distal end of the body;

And a spring mounted between the spindle and the body to impart elasticity to the body.

In addition, the opening / closing part may include at least one moving space formed at least at one end of the valve body in the longitudinal direction to guide the movement of the body;

A body coupled to an inner side of a tip end of the spindle and having an engagement protrusion formed on an outer circumferential surface thereof to move within a movement space;

An opening / closing member coupled to a distal end of the body;

And a spring mounted between the spindle and the body to impart elasticity to the body.

The present invention forms an internal tubular body of synthetic resin material by insert injection into the outer tubular body of a metal material to secure safety against harmful substances which can come out from the water-consuming material, Is formed to be as thin as possible in comparison with the inner tubular body, thereby reducing manufacturing costs and securing economical efficiency.

In addition, the present invention has the advantage of maximizing productivity by eliminating threads inside the inner tubular body.

In addition, the present invention has an advantage that a step and a reinforcing portion are formed on the inlet side and the outlet side of the inner tubular body to prevent the gap between the outer tubular body and the inner tubular body from being stably used even when the inner tubular body shrinks or expands due to an external temperature difference .

1 is a side sectional view of one embodiment of the present invention;
2 is a cross-sectional view
Figure 3 is an operating state diagram of one embodiment of the present invention.
4 is a side cross-sectional view of another embodiment of the present invention
5 is a plan view of another embodiment of the present invention
Fig. 6 is an operational state diagram of another embodiment of the present invention

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a side sectional view of one embodiment of the present invention, and FIG. 2 is a horizontal sectional view of an embodiment of the present invention.

First, the outer tubular body 110 is formed of a metallic material as a tubular body that allows the fluid flow to be changed at right angles.

An inner tubular body 120 made of a synthetic resin material having a water inlet 121 and a water outlet 122 is formed inside the outer tubular body 110 by inserting injection molding. Thereby reducing costs and increasing productivity.

Also, since the inner tube 120 is made of a synthetic resin material and has low thermal conductivity, the inner tube 120 delays the freezing when the outside temperature falls below zero.

The outer tubular body 110 is formed to be thinner than the inner tubular body 120, thereby reducing manufacturing cost and increasing productivity.

A step 123 is formed on the side of the inlet 121 of the inner tube 120 so as to be stepped. The step 123 is coupled to the outer tube 110 so as to surround the outer end of the tube.

Even if shrinkage and expansion occur due to the influence of the external temperature, the step portion 123 is further tightened with the outer tubular body 110, and no gap is formed between the outer tubular body 110 and the inner tubular body 120.

The inner tube 120 is formed with a reinforcing portion 124 for reinforcing a coupling force with the outer tube 110 while the outer tube 122 is inclined outwardly toward the upper portion of the inner tube 120, Even if shrinkage and expansion occur due to the influence of the outer tube 110 and the inner tube 120, the outer tube 110 and the inner tube 120 are more tightly coupled with each other and no gap is formed between the outer tube 110 and the inner tube 120.

The valve body 140 is coupled to the inner tube 120 on the other side of the inlet 121.

A moving guide member 142 is coupled to the inner circumferential surface of the inner tubular body 120 so as to be in close contact with the moving guide member 142. At least one moving space 151 is formed in the distal end of the moving guide member 142 in the longitudinal direction.

A spindle 141 is formed in the longitudinal direction at the rear end of the movement guide member 142 and a male screw 141 'is formed on the outer circumferential surface of the spindle 141.

The operation of attaching the opening / closing part 150 for opening / closing the inlet 121 to the front end of the valve body 140 should be preceded.

When the body 152 of the opening and closing part 150 is coupled to the inside of the distal end of the moving guide member 142, the engaging protrusion 152 'formed on the outer circumferential surface of the body 152 moves to the moving space 151, So that the body 152 can move within the movement space 151 and the body 152 of the opening and closing part 150 is not separated from the valve body 140. [

A flexible opening and closing member 153 for opening and closing the inlet 121 is coupled to the front end of the body 152 and a spring 154 is mounted between the spindle 141 and the body 152, Thereby imparting elasticity.

The packing 160 is positioned at the outer end of the inner and outer tubular body 120 (110) in the direction in which the control lever 144 is engaged in a state where the spindle 141 is coupled to the inner tubular body 120 .

When the cap 170 is engaged with the spindle 141 in this state, the female screw 171 formed inside the cap 170 is fastened to the male screw 141 'formed on the spindle 141, and the cap 170 The spindle 141 is screwed to one end of the outer tubular body 110 to seal the inner tubular body 120 while pressing the packing 160. At the rear end of the spindle 141 exposed to the outside of the cap 170, The control lever 144 may be combined with the control lever 144. FIG.

3, when the adjusting lever 144 is rotated in one direction, the male screw 141 'of the spindle 141 is inserted into the female screw 141 of the cap 170, (171).

The movement guide member 142 at the distal end of the spindle 141 is guided along the inner circumferential surface of the inner tubular body 120 and the opening and closing part 150 coupled to the distal end of the movement guiding member 142 is moved along the inner circumferential surface of the inner tubular body 120 The inlet 121 is closed.

Further, another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a side sectional view of another embodiment of the present invention, and FIG. 5 is a horizontal sectional view of another embodiment of the present invention.

First, the outer tubular body 110 is formed of a metallic material as a tubular body that allows the fluid flow to be changed at right angles.

An inner tubular body 120 made of a synthetic resin material having a water inlet 121 and a water outlet 122 is formed inside the outer tubular body 110 by inserting injection molding. Thereby reducing costs and increasing productivity.

Also, since the inner tube 120 is made of a synthetic resin material and has low thermal conductivity, the inner tube 120 delays the freezing when the outside temperature falls below zero.

The outer tubular body 110 is formed to be thinner than the inner tubular body 120, thereby reducing manufacturing cost and increasing productivity.

A step 123 is formed on the side of the inlet 121 of the inner tube 120 so as to be stepped. The step 123 is coupled to the outer tube 110 so as to surround the outer end of the tube.

Even if shrinkage and expansion occur due to the influence of the external temperature, the step portion 123 is further tightened with the outer tubular body 110, and no gap is formed between the outer tubular body 110 and the inner tubular body 120.

The inner tube 120 is formed with a reinforcing portion 124 for reinforcing a coupling force with the outer tube 110 while the outer tube 122 is inclined outwardly toward the upper portion of the inner tube 120, Even if shrinkage and expansion occur due to the influence of the outer tube 110 and the inner tube 120, the outer tube 110 and the inner tube 120 are more tightly coupled with each other and no gap is formed between the outer tube 110 and the inner tube 120.

A nut member 130 having a thread 131 formed on an inner circumferential surface thereof is coupled to an inner surface of the inner tube 120.

The nut member 130 should be fixed so as not to rotate inside the inner tube 120.

The nut member 130 is not rotated while the fixing groove 132 formed at the distal end of the nut member 130 is fixed to the fixing protrusion 125 protruding from the inside of the inner tube body 120.

The valve body 140 is coupled to the nut member 130 fixed to the inner tube 120.

A thread 143 formed on the tip of the spindle 141 of the valve body 140 is engaged with the thread 131 formed on the inner circumferential surface of the nut member 130.

The operation of engaging the opening / closing part 150 for opening / closing the inlet 121 should be performed on the tip end of the valve body 140.

When the body 152 of the opening and closing part 150 is coupled to the inner side of the tip end of the spindle 141 having the thread 143, the engaging protrusion 152 'formed on the outer circumferential surface of the body 152 moves in the moving space 151, So that the body 152 can move in the movement space 151 and the body of the opening and closing part 150 is not separated from the valve body 140. [

A flexible opening and closing member 153 for opening and closing the inlet 121 is coupled to the front end of the body 152 and a spring 154 is mounted between the spindle 141 and the body 152, Thereby imparting elasticity.

As described above, in the state where the thread 143 of the valve body 140 is coupled to the nut member 130, the outer end of the inner / outer tubular body 120 (110) Place the packing (160).

The cap 170 is screwed to one end of the outer tubular body 110 so as to press the inner tubular body 120 while pressing the packing 160. [ And the adjusting lever 144 is coupled to the rear end of the spindle 141 exposed to the outside of the cap 170 using bolts.

6, when the control lever 144 is rotated in one direction, the threaded portion 143 formed on the spindle 141 is inserted into the nut member 130, And the opening and closing part 150 coupled to the valve body 140 closes the inlet 121 of the inner tube 120.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100, 100 ': Angle valve
110: outer tubular body 120: inner tubular body
121: inlet 122: outlet
123: step portion 124: reinforcing portion
125: Fixing projection 130: Nut member
131: thread 132: fixing groove
140: valve body 141: spindle
142: Movement guide member 143:
144: Control lever 150:
151: moving space 152: body
153: opening / closing member 154: spring
160: packing 170: cap
171: Female threads

Claims (10)

Outer tubular body of metal;
An inner tubular body of a synthetic resin material which is insert-injected inside the outer tubular body and in which the inlet port and the outlet port are formed to be orthogonal;
A valve body mounted on the inside of the inner tubular body and moved by the rotation of the regulating lever to move along the inner circumferential surface of the inner tubular body;
An opening / closing part elastically coupled to a front end of the valve body to open / close the inlet;
A packing mounted on an outer end of the inner and outer tubular body fitted with the valve body; And
A cap screwed to the outer tubular body and coupled to the male screw formed on the spindle of the valve body,
The opening /
A moving space formed at least in the longitudinal direction at the distal end of the moving guide member of the valve body to guide movement of the body;
A body coupled to the inside of the distal end of the movement guide member and moving in the movement space, the protrusion being formed on the outer circumference;
An opening / closing member coupled to a distal end of the body;
And a spring mounted between the spindle and the body to impart elasticity to the body.
Outer tubular body of metal;
An inner tubular body of a synthetic resin material which is insert-injected inside the outer tubular body and in which the inlet port and the outlet port are formed to be orthogonal;
A nut member inserted into an inner surface of the inner tubular body so as not to rotate from the inner tubular body;
A valve body having a screw thread formed on the nut member and a screw thread formed on the spindle front end, the valve body being rotated by rotation of the control lever;
An opening / closing part elastically coupled to a front end of the valve body to open / close the inlet;
A packing mounted on an outer end of the inner and outer tubular body fitted with the valve body; And
A cap which is screwed to the outer tubular body to seal the inner tubular body,
The opening /
A moving space formed at least one longitudinal direction on the distal end of the valve body to guide movement of the body;
A body coupled to an inner side of a tip end of the spindle and having an engagement protrusion formed on an outer circumferential surface thereof to move within a movement space;
An opening / closing member coupled to a distal end of the body;
And a spring mounted between the spindle and the body to impart elasticity to the body.
The method according to claim 1 or 2,
Wherein the outer tubular body is formed to be thinner than the inner tubular body.
The method according to claim 1 or 2,
Wherein the inner tubular body is provided with a step portion for preventing the gap between the outer tubular body and the inner tubular body due to contraction and expansion by wrapping the outer surface of the outer tubular body while the inlet side is formed to be stepped.
The method according to claim 1 or 2,
And the reinforcing portion is formed to be inclined outwardly toward the upper end of the inner tube so as to reinforce the coupling force while preventing a gap between the outer tubular body and the inner tubular body due to contraction and expansion.
The method of claim 2,
Wherein the nut member is formed with a fixing groove at a distal end thereof, and the fixing groove is fixed to a fixing protrusion protruding to the inside of the inner tube.
The valve according to claim 1,
A spindle on which an external thread is formed on an outer peripheral surface;
A movement guide member formed at a distal end of the spindle and moving in close contact with an inner circumferential surface of the inner tubular body;
And an adjusting lever fixed to the rear end of the spindle.
The valve according to claim 2,
A spindle coupled to the inner tube;
A thread formed on an outer peripheral surface of a tip end of the spindle;
And an adjusting lever fixed to the rear end of the spindle.
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