KR100433962B1 - Operating apparatus of gas cock - Google Patents

Abstract

The present invention relates to the simplification of the mechanism and the reduction of the manufacturing cost of the operation shaft in the gas cock operating mechanism for operating the gas cock of the gas machine, comprising: a coke body having an opening and having a rotary valve body assembled therein; An operation shaft inserted into the cock body to operate the rotary valve body; Support means for supporting the operation shaft coupled to the cock body so as to enable reciprocating and rotational movement in the axial direction; Engaging means for allowing an axial reciprocating movement of the operating shaft in the extinguishing position and preventing rotation; A gas cock operating mechanism having a return spring for biasing an operating shaft, the locking means comprising: a protrusion formed integrally with the operating shaft with an operating shaft and a groove interposed therebetween; It is comprised by the locking part which conforms to the protrusion part formed in the support means.

Accordingly, an object of the present invention by the above configuration is to manufacture the operation shaft of the functional structure at low cost by casting.

Description

Operating apparatus of gas cock

The present invention relates to the simplification of the mechanism and the reduction of the manufacturing cost of the operating shaft in the gas cock operating mechanism for operating the gas cock of the gas machine.

In general, gas coke is installed in a gas stove, and a gas passage is formed therein, and a coke body in which an on-off valve and a fire control valve are assembled is provided.

The cock body is provided with a gas cock assembly in which an operating shaft fitted inwardly from the front opening is provided, and an operating mechanism comprising support means for supporting the operating shaft so as to be capable of axial reciprocating and rotational movement is fastened.

The operating shaft is manufactured by cutting, forging a metal material, or by forging and cutting together.

This operating shaft is a rotational structure in which the rotation is prevented by the locking means for preventing the rotation in the gas fire extinguishing position, and the locking means is released by the operation to push the operating shaft is common.

Conventional locking means forms a slit in the axial direction in a support hole for supporting the operation shaft formed in the support means, and combines an axial short iron portion formed on the outer circumferential surface of the operation shaft to rotate the operation shaft. It was a composition to prevent.

However, when the operation shaft is manufactured by cutting or forging, processing takes time, and when a functionally complicated structure is molded, there is a problem that the processing cost increases.

In addition, the use of a simple operating shaft increases the number of parts, increases the assembly process, and increases the assembly dimensions of each part to ensure operability. Becomes difficult.

The present invention has been made to solve the problems described above, and the cock body is assembled with a rotary valve body in the opening formed; An operation shaft inserted into the cock body at the opening to operate the rotary valve body; Support means coupled to the cock body and supporting the operation shaft so as to reciprocate and rotate in the axial direction; Engaging means for allowing a reciprocating movement of the operating shaft in the extinguishing position and preventing rotation; In the gas cock operating mechanism having a return spring for biasing the operation shaft in the fire position,

The locking means includes a protrusion integrally cast in parallel with the operation shaft with the operation shaft and the groove therebetween; It is comprised by the locking part which conforms to the protrusion part formed in the support means.

The object of the present invention by the above configuration is to manufacture the operation shaft of a functionally complex structure, which is formed by cutting or forging to increase the manufacturing cost at a low cost by casting, and can reduce the number of parts used in the operation mechanism It is to provide a control mechanism of the gas cock.

Moreover, it is providing the operation shaft which improved the safety at the time of loss.

1 and 2 are a perspective view showing the operation shaft and the operation shaft support means in the operation mechanism of the present invention gascoque,

Figure 3a and Figure 3b is a perspective view of the operating shaft in the operating mechanism of the present invention gascoque,

Figure 4 is an exploded perspective view showing a gas cock assembly in the operating mechanism of the present invention gas cock,

5 is a perspective view showing a gas cock assembly in the operating mechanism of the present invention gas cock,

Explanation of symbols on the main parts of the drawings

1: Gascock operation mechanism 15: Handle

2: cork body 20: cork body

21: front opening 3: control shaft

27: return spring 30: shaft portion

31: projection 32: shear

33: middle part 34: jaw part

35: working part 37: groove

38: notch 4: base plate

40: locking means 41: insertion hole

43: latching part (main part) 5: operation axis guide

6: rotating valve 61: diameter groove

7: rod 10: support means

The operating mechanism of the gas coke of the present invention for achieving the above object is a body of the gas cock which forms an opening, the valve body is assembled therein; An operation shaft of the gas cock for operating the valve body fitted into the body at the opening; Support means for the operation shaft attached to the body and simultaneously enabling the operation shaft to reciprocate in the axial direction or to support the rotation movement around the axis; A catching means for preventing rotational movement while allowing a reciprocating movement of the operating shaft in the extinguishing position; In the gas cock operating mechanism having a biasing means for biasing the operation axis in the fire position,

The locking means includes a protrusion integrally cast in parallel with the operation shaft with the operation shaft and the groove therebetween; It is formed in the support means, characterized in that composed of the engaging portion to be joined to the projection.

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

1 and 2 show the operating mechanism 1 of the gas scoke of the present invention.

It is assembled to the cock body 2, and comprises the gas-coupling assembly (assembly) of a gas stove as shown to FIG. 4 and FIG.

The operation mechanism 1 consists of the support means 10 of the operation shaft 3 for coupling the operation shaft 3 to the cock body 2.

The support means 10 has a base plate 4 and an operating shaft guide 5 fastened to the cock body 2 at the same time with a screw.

The coke body 2 includes a coke body 20 having a hollow main body portion having a front opening 21, and a cylindrical rotating valve body fitted into the bottom portion at the front opening 21 of the coke body 20. 6) and the rod 7 as a valve body fitted into the rotation valve body 6 and axially reciprocating.

A mold ring 22, a mold ring spacer 23, a mold ring 24, a mold ring compression washer 25, and a rod return spring 26 are inserted between the rotary valve body 6 and the rod 7. It is.

The coke body 20 is integrally formed with a gas pipe connecting portion 14 for connecting a gas outlet pipe 11 to a gas burner, a connecting pipe 12 to a pilot burner, and a manifold pipe 13 as a gas supply source. .

The rotary valve body 6 has a diameter groove 61 formed at the front end thereof, and by rotating, the opening degree of the valve is increased and adjusted to control the fire power of the gas burner.

The rod 7 is provided in the on-off valve so as to close the gas flow passage when it is located in the front and open the gas flow passage when it is located in the rear.

As shown in Figs. 3A and 3B, the operation shaft 3 is formed by casting such as zinc or aluminum die-casting, and has an axis of rotation 30 formed of a rotational center,

The projection part 31 integrally casted in parallel with the axial part 30 is provided.

The shaft portion 30 is formed of an annular front end portion 32, a central portion 33 having a larger diameter than the front end portion, a jaw portion 34, and an action portion 35 having a rectangular cross section at the rear end.

The front end portion 32 and the intermediate portion 33 are formed with a plane 36 for driving the fitting of the handle 15 and the ignition lever 85.

3A of electric parts extended to one side of the chin part 34 are provided with the projection part 31 which protrudes forward with the groove 37 interposed.

The projection part 31 has a rectangular cross section along the cylindrical surface coaxial with the center of the shaft part 30, and the front end surface is set as the plane 3B.

If the projection portion 31 parallel to the shaft portion 30 with the groove 37 therebetween is formed by cutting or forging, the machining process increases and the manufacturing cost increases.

In this invention, since the operation shaft 3 is integrally formed by casting, it can mass-produce at low cost.

Moreover, when zinc or aluminum is used as the casting material of the operating shaft 3, the material cost is low, and there is an advantage that the product is light in weight.

The acting portion 35 of the operating shaft 3 has a symmetrical cross-sectional shape in the form of axis symmetry, and a notch 38 having a high and flat notch shape is formed in the cross section.

Both side portions of the notch 38 are joined to the diameter grooves 61 of the rotation valve body 6, and the bottom surface of the notch 38 serves as abutting surface of the rod 7.

The notch 38 may be a U-shaped notch or may be a high and flat conical hole.

An acting portion 35 is fitted in the first half of the cock body 20, and a return spring 27 is provided between the jaw portion 34 of the operating shaft 3.

The intermediate portion 33 of the operating shaft 3 is supported by the support means 10, and the handle 15 is coupled to the front end 32 of the operating shaft 3.

By operating the handle 15, the operation shaft 3 operates in the front and rear and rotation directions, the rotation valve body 6 rotates, and the rod 7 reciprocates in the axial direction.

The circumference | surroundings of the front end opening 21 of the cock body 20 are 2A of fastening surfaces of the operation mechanism 1, and the spiral hole 2B is formed in the protrusion part which protruded in the rhombus shape on both left and right sides.

The base plate 4 is formed with an insertion hole 41 through which the operation shaft 3 is inserted and bolt holes 42 corresponding to the spiral holes 2B and 2B on both left and right sides thereof. have.

Under the oblique downward portion of the insertion hole 41 is a locking portion constituting the locking means 40 for preventing rotation of the projection portion 31 and the operation shaft 3, the recessed portion 43 formed a rectangular hole into which the projection portion 31 is fitted. ) Is formed.

The recessed portion 43, which is a locking portion, is formed in the insertion hole 41 by a distance equal to the width of the groove 37, and is a rectangular through hole along the circumferential direction which is the same center as the operation shaft 3, In the example of the figure, an outer edge expands and protrudes in circular arc shape, and shows a planar shape.

When the gas stove is in the extinguishing state, as shown in FIG. 1, the locking means 40 is positioned at the front end within the forward and backward operating range, and the protrusion 31 is fitted to the recess 43 to be rotated. Is prevented.

A caught portion 44 formed by a rectangular notch is formed outside the bolt hole 42.

The operation shaft guide 5 is a strip-shaped iron plate formed by pressing a predetermined shape. It forms in the shape, and consists of the support part 52 which provided the support hole 51 which supports the operation shaft 3, and the corner part 53 bent at right angles by the right and left ends of the support part 52.

A foot plate portion 54 abutting the surface of the base plate 4 bent at right angles to the outside is formed at the tip portion of the corner portion 53.

On both sides of the support hole 51 of the support portion 52, a fastening hole 55 for fastening the operation shaft guide 5 from the rear surface of the housing plate of the gas stove is formed.

A bolt hole 56 is formed in the foot plate portion 54 corresponding to the bolt hole 42, and a locking portion 57 bent at a right angle to the caught portion 44 is formed at the outer end thereof.

An upper portion of the base plate 4 is formed with a rectangular ignition device coupling hole 80 extending horizontally, and a piezoelectric element 81, a hammer 82, and a hammer spring 83 are provided. (3) is mounted.

An ignition device 8 operated by an ignition lever 85 in which the base portion is pressed against the surface of the base plate 4 by the spring 84 and compressed is engaged.

The base plate 4 and the operation shaft guide 5 form the subassembly by joining the engaging portion 57 to the caught portion 44, and then the bolt 16 is formed by the bolt hole 42 and the bolt hole ( It is fastened to the fastening surface 2A of the cock body 20 by fastening to the spiral hole 2B via 56. FIG.

When not using a gas stove, as shown in FIG. 1, the operation shaft 3 is located in front of the front-back operating range, and the projection part 31 is fitted in the recessed part 43. As shown in FIG.

When the knob 15 is pressed to ignite the gas, the operation shaft 3 is displaced to the rear end position of the front and rear operating range as shown in FIG. 2, the protrusion 31 is removed from the recess 43, and the locking means 40 is provided. ) Is released.

The rod 7 is pushed to the rear so as to be displaced to the rear of the operating shaft 3 so that the gas flow path is opened.

As a result, the operation shaft 3 becomes rotatable. When the knob 15 is rotated, the ignition device 8 operates and the rotation valve body 6 rotates to adjust the valve opening degree (gas power). do.

In this state, the front end surface of the projection part 31 abuts on the back surface of the base plate 4, and is slid.

In the operation of extinguishing the gas stove, when the handle 15 is rotated to its original position, the rod 7 returns to the front end by the action of the return spring 27 and the gas flow passage is closed.

Subsequently, the operation shaft 3 moves forward by the action of the return spring 27, and the projection 31 is fitted into the recess 43 to return to the original state shown in FIG.

The locking means 40 may form two or more protrusions 31 on the front surface of the jaw portion 34, and may constitute a plurality of recesses in the base plate 4.

The operation mechanism of the present invention described as described above is formed by cutting and forging a projection formed integrally with the operation shaft, which is formed between the operation shaft and the groove, which increases the manufacturing cost. The shaft can be manufactured at a low price.

In addition, by using this operation shaft, the operability is not deteriorated and the number of parts used for the operation mechanism can be reduced.

As a result, the assemblability of the operating mechanism of the gas scope is improved, and at the same time, it is easy to maintain the accuracy of the dimensions between the assembled parts.

The locking means by the coupling of the protrusions and the recesses formed on the base plate has an advantage that the rotation radius is largely maintained, and the shape and dimensions of the protrusions and recesses can be freely set.

The valve body comprises a rotationally operated valve body for thermal power control and a front and rear motion rod for opening and closing the gas flow path, and an action portion of the operation shaft is coupled to a diameter groove formed at an end of the rotating valve body in a rectangular cross section.

Moreover, the front-rear operation rod abuts on the end surface of the operation shaft.

As a result, a gas cock operating mechanism having excellent interlockability and durability between the valve body and the operating shaft is obtained.

The operation shaft is made of zinc die cast or aluminum die cast, and the front end portion of which the handle is engaged with the intermediate portion supported by the supporting means is formed to have a small diameter.

Because of this, even if an excessive load is added to the coke or aging over a short period of time, breakage occurs selectively at the coke joint at the tapered end.

As a result, safety is high compared with the trouble which occurred when the internal part of the gas-coke was broken.

Claims (4)

A body 20 of a gas sko, which forms an opening 21 and has a valve body assembled therein; An operating shaft (3) of the gas squeezed from the opening (21) into the body (20) to operate the valve body; A support means (10) of an operation shaft coupled to the body (20) and simultaneously supporting the operation shaft (3) axially or rotationally in an axial direction; A catching means (40) for allowing a reciprocating movement of the operating shaft (3) in the extinguishing position and preventing rotation; In the gas cock operating mechanism (1) provided with a urging means for urging the operation shaft (3) in the fire extinguishing position direction, The locking means 40 includes a projection 31 integrally cast in parallel with the operation shaft 3 and the groove 37 therebetween; Gas cock operating mechanism, characterized in that consisting of the engaging portion 43 to match the protrusion (31) provided in the support means (10). According to claim 1, wherein the operating shaft (3) is the front end portion 32, the handle 15 is coupled, the central portion 33, the jaw portion 34 and the acting portion of the rear end supported by the support means 10 A shaft portion 30 which comprises 35; The projection part 31 is formed on the front surface of the jaw portion 34 to protrude in parallel with the shaft portion 33 and the groove 37 therebetween, and the supporting means 10 is fastened to the body 20. And a base plate 4 having a insertion hole 41 through which the operation shaft 3 is inserted, wherein the locking portion 43 is a recess formed in the base plate 4. Cork operation mechanism. 3. The valve body according to claim 1 or 2, wherein the valve body comprises a rotation valve body 6 for thermal control and a front and rear operation rod 7 for opening and closing a gas flow path, and the acting portion 35 has a rectangular cross section. Engaged in the diameter groove (61) formed at the end of the rotation valve body (6), the operation mechanism of the gas stalk, characterized in that the front and rear operation rod (7) abuts on the end surface of the acting portion (35). 3. The operating shaft (3) according to claim 1 or 2, wherein the operation shaft (3) is made of zinc die cast or aluminum die cast, and the front end portion (32) is formed to have a small diameter with respect to the intermediate portion (33). Gas cock operating mechanism.