KR101972317B1 - The flux control valve - Google Patents

Abstract

The present invention relates to a flux control valve, which comprises: a valve body; an opening and closing unit; a support ring; a housing; a gauge; a stopper; a dial; and a control means. Therefore, a fluid path opening and closing amount of a valve sheet can be controlled through direct operation of the opening and closing unit by using an actuator or indirect operation of the opening and closing unit by using the gauge, and an adjustable lifting height of the gauge is limited to prevent the gauge from being detached.

Description

The flux control valve

The present invention relates to a flow rate control valve, which facilitates adjustment of an opening / closing operation of an opening / closing operation part by using an adjustment handle protruding from an upper portion of a housing of a gauge so that the flow rate can be finely adjusted In addition, by restricting the height of the gauge, it is possible to prevent detachment of the gauge due to the mistake of the user, thereby preventing breakage of the gauge. The stable and robust fastening operation of the opening and closing operation part improves the durability and reduces noise. And it is also possible to prevent a change in the predetermined flow rate adjustment amount by maintaining the elastic support of the gauge even in the lowering operation of the opening / closing operation portion.

Generally, in order to heat a house or an apartment, hot water heated and supplied from a hot water boiler is circulated through the piping line to heat the space. On the hot water distributor, the amount of hot water supplied to each divided room or a specific area is controlled It is well known that a flow control valve is installed so that it is possible.

In addition, it is necessary to provide a temperature control valve for interrupting the supply of the hot water or controlling the supply of the hot water according to the set temperature in the room. Conventionally, it is necessary to separately provide the flow control structure and the temperature control structure on the hot water distributor, Economical efficiency.

In addition, the flow rate control valve should be provided with an opening regulation structure so as to control the flow rate of the hot water supply. The spiral portion formed on the outer circumferential surface of the opening degree regulating rotation body is a general simple screw thread, When the worker adjusts the workpiece by vertically lifting and lowering the workpiece, the workpiece must be rotated several times by rotating the workpiece of the workpiece adjusting mechanism several times, And the range of opening due to the rotation of the rotating body can not be reliably grasped. As a result, conventionally, the number of the control range indicated on the upper surface of the rotating body can not exhibit its own function There was a drawback.

Therefore, it is impossible to control the flow rate of the hot water supply to the area of the space required for heating, and even if the flow rate control structure is formed, there is a problem that the control range is limited from the outside

On the other hand, in order to solve such a problem, a "heating valve having a flow rate and temperature control structure" such as the Korean Utility Model Registration No. 20-0417346 has been devised.

KR 20-0417346 (2006. 05. 19.) Y1 "Heating Valve with Flow and Temperature Control Structure" - Kim, Jae-Sun

However, since the heating valve having the conventional flow rate and temperature control structure described above does not have a configuration for restricting the lifting and lowering of the rotation adjusting body, it is not possible to restrict excessive control due to unintended user mistakes, Problems have often arisen that the support is desorbed and a failure occurs.

In addition, when the shaft is lowered by using a driving machine, a problem arises in that the rotation adjusting body is shaken and the flow adjusting amount is changed by the vibration. That is, when the shaft is lowered through the operation of the driving unit in the state where the screw connection between the support and the rotation regulating member is loose, the rotation regulating member is shaken to cause a change in the predetermined fine flow control.

The object of the present invention is to provide a flow control device capable of smoothly controlling the opening and closing of the opening and closing operation part by using the adjusting knob protruding from the upper part of the housing, Valve.

The present invention also provides a flow control valve capable of preventing detachment of the gauge due to the user's mistake by limiting the height of the gauge through the protrusion formed on the gauge and the stopper coupled to the body of the housing, The purpose of this is to provide.

In addition, since the packing cap, the packing, and the gate are sequentially inserted into the coupling end of the center pin and then the coupling bolt is engaged, the opening and closing operation part can be easily assembled, So that it is possible to smoothly flow the fluid through the flow path formed in the gate, thereby reducing the noise caused by the flow rate control.

In addition, according to the present invention, since the spring force of the gauge can be maintained even when the opening and closing operation portion of the actuator is lowered through the spring provided between the housing and the gauge, the gauge is not shaken even when an external impact occurs, The flow rate control valve being capable of preventing the flow rate of the refrigerant gas from being increased.

According to an aspect of the present invention, there is provided a valve seat including an inlet and an outlet formed on both sides of the valve seat, and a fluid passage connecting the inlet and the outlet is formed in the middle of the valve seat. A valve body constituting an installation port formed to communicate with the fluid passage; A center pin disposed to be able to move up and down in the center of the mounting hole; and an opening / closing part coupled to a lower portion of the center pin to open / close the fluid passage; A support ring which is seated on the bottom of the installation port and separates the installation port and the fluid pathway; A body formed by forming a male screw on an outer circumferential surface and screwed to an inner circumferential surface of an installation hole and having a plurality of fastening grooves formed at equal intervals in an upper portion thereof and a moving space formed on the upper side with an end formed on an inner circumferential surface of the body, A housing having a female screw formed thereon and an O-ring coupling formed at a lower portion of the female screw to receive an O-ring; A control knob integrally formed on an upper portion of the coupling portion so as to protrude upward from the housing to adjust a screw connection of the coupling portion and having a indicator on the upper surface thereof; A gauge constituting a ring-shaped projection protruding outwardly; A limiting ring formed on an upper surface of the body by forming a coupling hole corresponding to the coupling groove formed in the housing and a fixing bolt fastened to the coupling groove through the coupling hole to fix the limiting ring to the upper surface of the body, A stopper for restricting a lifting height of the gauge due to screw connection between the housing and the fastening portion; A dial attached to the restriction ring configured on the stopper; And a control unit coupled to the center pin of the opening and closing operation unit and positioned inside the gauge and an elastic body disposed between the housing and the snap ring while being fitted to the outer diameter of the center pin to closely contact the snap ring with the gauge The amount of opening and closing of the fluid passage of the valve seat can be adjusted through direct operation of the opening / closing operation portion using the actuator or indirect operation of the opening / closing operation portion using the gauge, and the height of the gauge to be adjusted can be limited, The flow rate control valve being characterized in that the flow rate control valve can be prevented.

Since the flow rate control valve of the present invention is configured in a gauge and the adjustment handle projected to the upper portion of the housing can be used to easily adjust the lifting and lowering of the opening and closing operation portion, fine adjustment of the flow rate can be smoothly performed by easily controlling the opening and closing amount of the fluid passage There are advantages to be able to.

In addition, since the height of the gauge can be restricted through the protruding jaw formed on the gauge and the stopper coupled to the body of the housing, detachment of the gauge due to the mistake of the user can be prevented, There are advantages.

In addition, since the packing cap, the packing, and the gate are sequentially inserted into the coupling end of the center pin and then the coupling bolt is engaged, the opening and closing operation part can be easily assembled, So that the durability is improved, and the flow of the fluid can be smooth through the flow path formed in the gate, so that the noise due to the flow control can be reduced.

In addition, since the elastic pressing of the gauge can be maintained even when the opening / closing operation portion of the actuator is lowered through the spring provided between the housing and the gauge, the gauge is not shaken even when an external impact occurs, There is an advantage that it can be prevented.

1 is a perspective view showing a flow control valve of the present invention.
2 is a sectional view showing a flow control valve of the present invention.
3 is an enlarged view of a portion A in Fig.
4 is a sectional view of the state in which the opening / closing operation portion is lowered in the state of FIG. 3 and the gauge is elastically supported by a spring.
5 is a cross-sectional view of a housing, a gauge, and a stopper and a dial of the present invention.
Fig. 6 is a cross-sectional view illustrating the open / close operation unit of the present invention.

The present invention relates to a flow control valve 100 for controlling the supply of hot water for heating as shown in FIGS. 1 and 2, and comprises an inlet 11 and an outlet 12 on both sides, And the fluid passage 14 communicating with the fluid passage 14 is formed in the upper portion of the valve seat 15 through the communication hole 17. The fluid passage 14 communicates with the fluid passage 14 through the communication hole 17, A valve body (10) constituting an installation hole (19) formed so as to be able to be formed; A center pin 24 that is vertically movable in the center of the mounting hole 19 and an opening and closing part 29 that is coupled to a lower portion of the center pin 24 to open and close the fluid passage 14 20); A support ring 30 seated on the bottom of the mounting hole 19 and partitioning the mounting hole 19 and the fluid passage 14; A body 43 formed by forming a male screw 41 on the outer circumferential surface and screwed to the inner circumferential surface of the mounting hole 19 and having a plurality of coupling grooves 42 formed at equal intervals in an upper portion thereof, A moving space 45 formed at the upper side with the end 44 as a boundary and a female screw 46 formed at the lower side and an O-ring coupling member 45 formed at the lower portion of the female screw 46, (40) formed with a recess (48); A fastening part 51 screwed to the female screw 46 of the housing 40 and a fastening part 51 formed integrally on the fastening part 51 so as to project upward from the housing 40, And a gauge (50) constituting a ring-shaped protruding protrusion (55) protruding outward and located between the coupling part (51) and the adjustment knob (53) ); A limiting ring 63 formed on an upper surface of the body 43 by forming a coupling hole 62 corresponding to the coupling groove 42 of the body 43 formed in the housing 40, And a fixing bolt 65 which is fastened to the fastening groove 42 through the fastening portion 51 and fastening the limiting ring 63 to the upper surface of the body 43. The fastening portion 51 is provided with a gauge A stopper 60 for restricting the height of the lifter 50; A dial 70 attached to the restriction ring 63 formed on the stopper 60; A snap ring 81 which is coupled to the center pin 24 of the opening and closing operation part 20 and is positioned inside the gauge 50 and a snap ring 81 which is inserted into the outer diameter of the center pin 24, And a controller 80 that is disposed between the retainer 81 and the elastic member 83 to closely contact the snap ring 81 with the gauge 50. The controller 80 controls the operation of the opening / The amount of opening and closing of the fluid passage 14 of the valve seat 15 can be adjusted by indirect operation of the opening and closing operation portion 20 using the valve 50. The height of the gauge 50, (50) can be prevented from being detached.

Hereinafter, the valve body 10, the opening and closing operation portion 20, the support ring 30, the housing 40 and the gauge 50, the stopper 60, the dial 70, 80 of the present invention will be described in more detail.

1 to 3, the valve body 10 has a known structure in which an inlet 11 and an outlet 12 are formed on both sides as shown in FIGS. 1 to 3. The valve body 10 has an intermediate portion between the inlet 11 and the outlet 12 , And a valve seat (15) having a fluid passage (14) connecting the inlet (11) and the outlet (12) is formed therebetween.

An upper portion of the valve seat 15 is formed with an installation hole 19 communicating with the fluid passage 14 through a communication hole 17.

The mounting hole 19 is provided for adjusting the flow rate. The inner circumferential surface of the mounting hole 19 is formed with a female screw for screwing the housing 40 to which the gauge 50 is coupled, and a generally known driver (Not shown).

Secondly, as shown in FIG. 2 or 6, the opening / closing operation portion 20 is disposed so as to be vertically movable in the center of the mounting hole 19 to open / close the fluid passage 14 formed in the valve seat 15 A center pin 24 disposed vertically so as to be vertically movable in the center of the mounting hole 19 and an opening and closing part 29 ).

The center pin 24 of the opening and closing operation part 20 is connected to the valve body 10 through the mounting hole 19 of the valve body 10 and the support ring 30 and the shaft 40 installed through the housing 40 and the gauge 50, An engagement groove 22 for engaging the snap ring 81 is formed on the outer surface of the shaft 21 and an opening / closing portion 29 is formed at a lower portion of the shaft 21. [ Closing end portion 23 forming a thread groove 23a for engagement of the engaging portion 23a.

The opening and closing part 29 is configured to be engaged with the opening and closing end 23 of the center pin 24 and is connected to the opening and closing end 23 of the center pin 24 through a fastening bolt 28 engaged with the screw groove 23a. The gate 27 is formed on the outer surface of the gate 27 with a flow path 27a for smoothly guiding the flow of the fluid.

In addition, the gate 27 is further provided with a packing 26 for relieving the pressure received by the gate 27 when the fluid flows, so that the gate 27 can be firmly fastened, It is preferable to reduce the noise caused by the pressure generated during the flow.

The packing 26 further includes a packing cap 25 formed on the lower side of the upper portion of the packing 26 to receive the packing 26 and fitted to the coupling end 23 of the center pin 24 It is more preferable that the packing 26 is stably protected. Accordingly, the durability of the opening and closing part 29 is improved, and the maintenance is facilitated.

2 to 4, the support ring 30 is seated on the bottom of the mounting hole 19 to partition the mounting hole 19 and the fluid passage 14. For this purpose, A tapered portion for supporting the support ring 30 is formed on the bottom of the hole 19 of the communication hole 17. A portion of the support ring 30 which is the center of the support ring 30 is provided with an opening / A through hole is formed for the lifting operation of the formed center pin 24.

Fourthly, the housing 40 is screwed to the inner circumferential surface of the mounting hole 19 for installing the gauge 50 as shown in FIGS. 1 to 5, and has a male screw 41 formed on the outer circumferential surface thereof And a plurality of coupling grooves 42 for installing the stopper 60 are formed on the upper portion of the body 43 at equal intervals. do.

A moving space 45 for upward and downward movement of the gauge 50 is formed on the upper side of the housing 40. The moving space 45 includes an end 44 And a female screw 46 for screwing the gauge is formed on the lower inner peripheral surface with the step 44 as a boundary.

The center pin 24 formed on the opening and closing part 20 can be lifted and lowered on the inner peripheral surface of the body 43 positioned at the lower part of the female screw 46, An O-ring engagement hole 48 is formed in which a conventional O-ring 47 is inserted to prevent the fluid from leaking.

Fifth, the gauge 50 is configured to be screwed to the female screw 46 of the housing 40 so as to manually adjust the height of the opening / closing operation portion 20, 46) of the fastening portion (51).

The adjustment handle 53 is integrally formed on the upper portion of the fastening portion 51 so as to protrude upward from the housing 40. The adjustment handle 53 is formed integrally with the fastening portion 51, (51), and a normal indicator is formed on the upper surface.

The gauge 50 further includes an outer circumferential surface to prevent the gauge 50 from being detached from the housing by excessive adjustment of the gauge 50, Shaped projecting step 55 which is located between the adjustment knob 53 and the adjustment knob 53 and protrudes outwardly.

In addition, the lower portion of the gauge 50 is formed hollow so that the control means 80 is fitted. This prevents the gauge 50 from being shaken even when an external impact occurs, .

In the meantime, it is preferable that the present invention further include a structure that can maintain elastic pressing of the gauge 50 even when the opening and closing operation portion 20 is operated by the driver.

The gauge 50 includes a mounting groove 57 formed at a lower portion of the gauge 50 and a spring 90 disposed at one end between the housing 40 and the gauge 50, The gauge 50 can be elastically pressed by the spring 90 even during operation of the opening and closing operation portion 20 using the actuator, It is possible to prevent the gauge 50 from being shaken and the predetermined flow rate adjustment amount to be changed.

Sixth, the stopper 60 prevents the gauges 50 from being detached from the housing 40 by restricting the height of the gauges 50 moving upward, as shown in FIGS. 2 to 5 A limiting ring 63 formed on an upper surface of the body 43 by forming a coupling hole 62 corresponding to the coupling groove 42 of the body 43 formed in the housing 40, And a fixing bolt 65 fastened to the fastening groove 42 through the fastening hole 62 to fix the fastening ring 63 to the upper surface of the body 43. In this case, The inner circumferential surface of the limiting ring 63 should protrude to the moving space 45 of the housing 40 so that the projecting step 55 formed on the outer circumferential surface of the gauge 50 can be caught.

Therefore, even if the user erroneously operates the gauge 50 by mistake, the projecting step 55 formed on the gauge 50 is caught by the stopper 60, so that the height of the gauge 50 can be limited Therefore, it is possible to prevent detachment of the gauge 50 and prevent breakage of the present invention.

In addition, according to the present invention, it is possible to produce a beautiful appearance through preventing the structure for preventing detachment of the gauge 50 from being exposed from the outside as described above, and at the same time, the stopper 60 can be easily seated and fastened This configuration can be easily achieved by further including a seating groove 43a in which the restriction ring 63 of the stopper 60 is inserted and seated on the upper surface of the housing 40. [

Seventh, as shown in FIGS. 1 to 5, the dial 70 is configured to visually check and adjust the lift height adjustment by confirming the position of the number through a indicator provided on the gauge 50, It is attached to the restriction ring 63 formed on the stopper 60 and can be firmly installed through a normal double-faced tape or an adhesive.

Eighth, the control means 80 is configured such that the opening / closing operation portion 20 can be interlocked when the height of the gauge 50 is adjusted as shown in FIGS. 2 to 3, A snap ring 81 that is coupled to the center pin 24 and is located inside the gauge 50, that is, in the hollow, and is disposed between the housing 40 and the snap ring 81 while being fitted to the outer diameter of the center pin 24. [ And an elastic body 83 which closely contacts the inner surface of the gage 50 with the snap ring 81.

Therefore, the present invention can reduce the amount of opening and closing of the fluid passage 14 of the valve seat 15 through the direct operation of the opening / closing operation portion 20 using the actuator or the indirect operation of the opening / closing operation portion 20 using the gauge 50 .

The operation of the present invention according to the preferred configuration of the present invention will be described as follows.

First, when the center pin 24 of the opening / closing operation portion 20 is lowered through the driving of the driver, the opening / closing portion 29 coupled to the center pin 24 is interlocked with the fluid passage Closing operation portion 20 is moved upward by the elastic force of the control means 80 including the snap ring 81 and the elastic body 83 when the drive of the driver is released.

Accordingly, the opening / closing operation portion 20 is returned to the initial state through the operation in which the snap ring 81 that is moved upward is brought into close contact with the inner bottom surface of the gauge 50, thereby automatically changing to the predetermined flow rate adjustment.

When the lowering operation of the center pin 24 is performed through the driving of the driving unit as described above, the force of the elastic body 83 elastically supporting the gauge 50 disappears and the gauge 50 may be shaken have.

That is, when external force is applied in a state where the housing 40 and the gauge 50 are loosely screwed, the gauge 50 may be shaken. In the present invention, The gauge 50 can be elastically supported through the structure of the supporting spring 90 so that the gauge 50 can be prevented from being vibrated even if an external shock occurs, Is prevented from being arbitrarily changed.

In the above state, the user directly rotates the adjusting knob 53 of the gauge 50 protruding upward from the housing 40 while checking the dial 70, so that the gauge 50 So that the height of the opening and closing operation unit 20 can be interlocked with the height of the opening and closing operation unit 20.

Therefore, the user can smoothly perform the fine adjustment of the predetermined flow rate through the easy adjustment of the gauge 50 as described above. Even if the gauge 50 is excessively raised in the upward direction due to a mistake by the user's mistake, It is possible to prevent the detachment of the gauge 50 due to the structure in which the projecting step 55 formed on the gauge 50 abuts against the restriction ring 63 of the stopper 60, It also has the advantage of being.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. And various modifications may be made without departing from the technical scope of the present invention.

10: valve body 11: inlet 12: outlet 14: fluid passage 15: valve seat 17: communication hole 19:
The present invention relates to an opening / closing operation unit, and more particularly, to an opening / closing operation unit, which is provided with an opening / closing operation unit, a shaft, an engaging groove,
30: Support ring
The present invention relates to an O-ring, and more particularly, to an O-ring,
50: gauge 51: fastening portion 53: adjusting knob 55: projecting jaw 57:
60: stopper 62: engaging hole 63: limiting ring 65: fixing bolt
70: Dial
80: control means 81: snap ring 83: elastic body 85: seat ring
90: spring
100: Flow control valve

Claims (5)

And a fluid passage 14 connecting the inlet port 11 and the outlet port 12 is formed in the middle of the inlet port 11 and the outlet port 12 on both sides of the valve seat 15, (10) constituting an installation hole (19) communicating with the fluid passage (14) through a communication hole (17) at an upper portion of the valve body (15);
A center pin 24 that is vertically movable in the center of the mounting hole 19 and an opening and closing part 29 that is coupled to a lower portion of the center pin 24 to open and close the fluid passage 14 20);
A support ring 30 seated on the bottom of the mounting hole 19 and partitioning the mounting hole 19 and the fluid passage 14;
A body 43 formed by forming a male screw 41 on the outer circumferential surface and screwed to the inner circumferential surface of the mounting hole 19 and having a plurality of coupling grooves 42 formed at equal intervals in an upper portion thereof, A moving space 45 formed at the upper side with the end 44 as a boundary and a female screw 46 formed at the lower side and an O-ring coupling member 45 formed at the lower portion of the female screw 46, (40) formed with a recess (48);
A fastening part 51 screwed to the female screw 46 of the housing 40 and a fastening part 51 formed integrally on the fastening part 51 so as to project upward from the housing 40, And a gauge (50) constituting a ring-shaped protruding protrusion (55) protruding outward and located between the coupling part (51) and the adjustment knob (53) );
A limiting ring 63 formed on an upper surface of the body 43 by forming a coupling hole 62 corresponding to the coupling groove 42 of the body 43 formed in the housing 40, And a fixing bolt 65 which is fastened to the fastening groove 42 through the fastening portion 51 and fastening the limiting ring 63 to the upper surface of the body 43. The fastening portion 51 is provided with a gauge A stopper 60 for restricting the height of the lifter 50;
A dial 70 attached to the restriction ring 63 formed on the stopper 60;
A snap ring 81 which is coupled to the center pin 24 of the opening and closing operation part 20 and is positioned inside the gauge 50 and a snap ring 81 which is inserted into the outer diameter of the center pin 24, And a control means (80) disposed between the retaining ring (81) and the retaining ring (81) and constituting an elastic body (83) for bringing the retaining ring (81) into close contact with the gauge (50)
The amount of opening and closing of the fluid passage 14 of the valve seat 15 can be adjusted through direct operation of the opening and closing operation portion 20 using the actuator or indirect operation of the opening and closing operation portion 20 using the gauge 50, Wherein the gauge (50) is prevented from being detached by restricting the height of the gauge (50) to be adjusted.
2. The valve apparatus according to claim 1, wherein the center pin of the opening / closing operation unit passes through the mounting hole of the valve body, the support ring, the housing and the gauge, A coupling groove 22 formed on the outer surface of the shaft 21 for engagement of the snap ring 81 and a screw groove 21 formed on the lower portion of the shaft 21 for coupling the opening / (23) for forming an opening (23a)
The opening and closing part 29 is formed in the lower side of the accommodating space 25a and is inserted into the coupling end 23 of the center pin 24 to form a packing cap 25 and the coupling end 23 and the packing cap 25, A gate 27 which is in close contact with a lower portion of the packing 26 in a state of being fitted to the coupling end 23 and forms a flow path 27a; And a tightening bolt (28) which is coupled to the thread groove (23a) and fastens the packing cap (25), the packing (26), and the gate (27) tightly to each other.
2. The apparatus according to claim 1, wherein a ring-shaped mounting groove (57) is further provided at a lower portion of the gauge (50)
Between the housing 40 and the gauges 50, a spring 90, one end of which is inserted into the mounting groove 57,
And the elasticity pressing of the gauge (50) can be achieved even in the operation of the opening / closing operation part (20) using the actuator.
The flow control valve according to claim 1, further comprising a seating groove (43a) on which a limiting ring (63) is seated for easy fastening of the stopper (60) on the upper surface of the housing (40).
The seat according to claim 1, wherein a seating ring (85) is further provided between the O-ring coupling hole (48) and the elastic body (83) of the housing (40) and between the snap ring (81) Features a flow control valve.

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