KR20230002122U - Breakage prevention bracket for hand valve - Google Patents

Abstract

The present invention discloses a breakage prevention bracket for a hand valve that can prevent the guide pin from being damaged even if excessive force is applied when operating the hand lever, allowing the hand valve to be used for a long period of time.

Description

Breakage prevention bracket for hand valve

The present invention includes a valve housing in which an inlet in communication with an air input port and a pair of outlets in communication with an air discharge port are formed, and a flow path for air movement is formed between the inlet and the outlet, and the valve housing A valve body that is coupled to the upper surface, has a rotating shaft vertically coupled to the center, and has a long guide hole formed on one side of the upper surface, and is coupled to the upper surface of the valve body, and has a shaft hole through which the rotating shaft enters at a predetermined depth in the center of the bottom. A rotating sleeve is recessed, and a guide pin inserted into the guide long hole protrudes at a position corresponding to the guide long hole, and one end is screwed to a threaded hole formed on one side of the outer peripheral surface of the rotating sleeve, and the rotating shaft is connected to the rotating sleeve. A bracket for a handle valve including a hand lever that rotates to one side or the other to change the air flow path within the valve housing, and is installed vertically on the upper surface of the valve housing to face the valve body. A plate-shaped body arranged as; It is formed to have a predetermined length along the horizontal direction on one side of the body, and when the hand lever is inserted through the inside and moved along the horizontal direction to one side or the other, the corresponding end contacts the hand lever to prevent the movement of the hand lever. A guide hole that prevents damage to the guide pin by limiting it to change the flow path and at the same time prevents the guide pin from colliding with the end of the guide hole with more force than necessary. Damage prevention for a hand valve, characterized in that it includes a. It's about brackets.

In general, valves used in industrial fields are mainly used to control the supply of fluid.

The valve for controlling the supply of fluid controls the operation of a specific actuator depending on the supplied fluid.

Therefore, appropriate valves are provided depending on the type of actuator, and these control valves are operated automatically or manually.

Automatic hydraulic control valves usually use solenoids to automatically switch flow paths by electrical signals, and these control valves are mainly used in fields that require automatic control.

On the other hand, the field of use of the control valve for manual control is extremely limited, and it is mainly used to simply change the flow path by manual operation of the lever.

Figure 1 is a schematic illustration showing a conventional conventional control valve for manual control (hereinafter referred to as a “hand valve”).

As shown in Figure 1, a conventional hand valve is formed with an inlet through which air is input and a first outlet and a second outlet through which air is discharged, a valve housing in which a flow path for air movement is formed between the inlet and the outlet, and A valve body that is coupled to the upper surface of the valve housing and has a rotation axis that switches the flow path from one side to the other when rotating in the forward or reverse direction is coupled vertically through the center, and a guide hole is formed on the upper surface, and the upper surface of the valve body It is coupled to the center of the bottom, and an axial hole into which the upper end of the rotating shaft enters is recessed to a predetermined depth, and a guide pin inserted into the guide long hole is protruding at a position corresponding to the guide long hole, and is connected to a threaded hole on one side of the outer circumference. One end of the hand lever includes a rotating sleeve that is screwed together.

In this conventional hand valve, when the hand lever is operated, the guide pin moves along the guide hole until it comes into contact with one end or the other end of the guide hole, and the movement of the hand lever is restricted, and at the same time, the air flow path is switched.

Meanwhile, the above hand valve is used in various fields. In work sites such as welding, workers often rotate the hand lever by hitting it with a tool such as a hammer, rather than directly operating the hand lever with their hands. It's happening a lot.

However, if the worker hits the hand lever with a tool rather than directly operating it with his or her hand, the hand lever moves at a high speed and the guide pin collides with the edge of the guide hole with strong force, which gradually reduces durability, which causes the guide pin to break. The phenomenon of falling off from the rotating sleeve occurred frequently.

As mentioned above, the guide pin functions as a stopper to control the movement of the hand lever, so when the guide pin is removed, the hand lever rotates to a position beyond the guide hole, and the hand lever is adjusted to change the flow path. It is bound to be very difficult to place it.

Therefore, the damaged hand valve must be replaced with a new product, which causes the problem of extra cost and time being consumed.

Accordingly, in this field, there is a need for technology that allows hand valves to be used for a longer period of time and, in particular, to prevent guide pins from falling off, but there is still no technology that can meet these needs. .

Republic of Korea Patent Publication No. 10-1703974 (Control valve for hydraulic actuator)

This invention was developed to solve the above problems. It can prevent the guide pin from being damaged even if excessive force is applied when operating the hand lever, and this extends the life of the hand valve so that it can be used for a long time. The purpose is to provide anti-breakage brackets for hand valves.

For the above purpose, the present invention is a valve housing in which an inlet in communication with an air input port and a pair of outlets in communication with an air discharge port are formed, and a flow path for the movement of air is formed between the inlet and the outlet. and a valve body coupled to the upper surface of the valve housing, with a rotating shaft vertically coupled to the center, and with a guide elongated hole formed on one side of the upper surface, and coupled to the upper surface of the valve body, with the rotating shaft entering the center of the bottom. A rotary sleeve in which the axial hole is recessed to a predetermined depth, and a guide pin inserted into the guide long hole protrudes at a position corresponding to the guide long hole, and one end is screwed to a threaded hole formed on one side of the outer peripheral surface of the rotating sleeve. It is a bracket for a handle valve that includes a hand lever that rotates to one side or the other side based on the rotation axis to change the air flow path within the valve housing, and is installed vertically to stand on the upper surface of the valve housing. A plate-shaped body arranged to face the valve body; It is formed at a predetermined length along the horizontal direction on one side of the body, and when the hand lever is inserted through the interior and moved along the horizontal direction to one side or the other, the corresponding end contacts the hand lever to prevent the movement of the hand lever. It is characterized by including a guide hole that restricts the change of flow path and at the same time prevents damage to the guide pin by preventing the guide pin from colliding with the end of the guide hole with more force than necessary.

In addition, in the present invention, the guide hole is characterized by a buffer member along the edge to prevent noise caused by direct contact with the hand lever and wear due to scratches.

In addition, in the present invention, a fastening piece through which a bolt hole of a diameter corresponding to the bolt hole formed on the upper surface of the valve housing is formed is formed to be vertically bent from the bottom surface of the body, and is detachable through bolt fastening to the upper surface of the valve housing. It is characterized by being combined with.

The present invention as described above limits the movement of the hand lever so that it can only move inside the guide hole, so that the flow path can be switched as needed, and the guide pin crashes into the corner of the long hole with more force than necessary. By preventing this in advance, the durability of the guide pin can be secured, and the hand valve can therefore be used for a long period of time.

In particular, the present invention allows the hand lever to be accurately positioned at a position where flow path switching can be achieved even if the guide pin is removed from the rotating sleeve due to unspecified factors during the process of using the hand valve while mounted on the hand valve. Replacement costs due to damage can be reduced.

In addition, the present design is provided with a buffer member along the edge of the guide hole, which prevents noise generation by blocking direct contact with the hand lever in advance and prevents wear due to scratches due to contact.

In addition, the present invention is provided with a fastening piece having a bolt hole, making it possible to install and remove the hand valve more easily and quickly.

1A and 1B are schematic illustrations for explaining a typical conventional hand valve.
Figure 2 is a schematic illustration showing a breakage prevention bracket for a hand valve according to the present invention.
Figure 3 is a state of use of the present invention.
Figures 4a) to 4d) are schematic illustrations showing the installation process of the present invention.
Figure 5 is a schematic illustration for explaining a buffer member according to an embodiment of the present invention.

In describing the present invention, the advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed content is thorough and complete and that the spirit of the present invention can be sufficiently conveyed to those skilled in the art. In the drawings, the thicknesses of layers and regions are exaggerated for clarity.

Terms such as first and second may be used to describe various components, but the components are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be named a second component, and similarly, the second component may be named a first component without departing from the scope of the present invention.

Terms such as top, bottom, upper surface, lower surface, or top and bottom are used to distinguish the relative positions of components. For example, for convenience, when the upper part of the drawing is called upper and the lower part of the drawing is called lower, in reality, the upper part can be named lower, and the lower part can be called upper without departing from the scope of the present invention. .

The terms used in this application are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In the present invention, terms such as "include" or "have" are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present application. No.

Hereinafter, the damage prevention bracket for a hand valve according to the present invention will be described in more detail with reference to the attached drawings.

First, in the present invention, the hand valve refers to a typical valve for switching the flow path of air supplied to the air cylinder.

1A and 1B are schematic illustrations for explaining a typical conventional hand valve. The hand valve 50 includes a valve housing 10, a valve body 20, a rotating sleeve 30, and a hand lever. Includes (40).

The valve housing 10 is formed with an inlet 11 in communication with an air inlet port (not shown) and a pair of outlets 12 in communication with an air discharge port (not shown), between the inlet and the outlet. A flow path (not shown) for air movement is formed.

The valve body 20 is coupled to the upper surface of the valve housing, and a pivot axis 21 is coupled perpendicularly to the center, and a guide hole 22 is formed on one side of the upper surface. The guide elongated hole 22 may be formed in an arc shape, and a guide pin, which will be described later, is inserted into the guide elongated hole.

The rotating sleeve 30 is coupled to the upper surface of the valve body, and in the center of the bottom, an axial hole 31 into which the rotating shaft enters is recessed to a predetermined depth, and a guide pin 32 inserted into the guide long hole is a guide. It is formed protruding at a location corresponding to the long hole. In addition, a threaded hole 33 is formed on one side of the outer peripheral surface of the rotating sleeve 30. The screw hole 33 is a fastening hole for screw connection with the hand lever 40.

The rotating sleeve 30 is hinged to the rotating shaft 21 via the shaft hole 31 and rotates clockwise or counterclockwise about the rotating shaft. In addition, the guide pin 32 guides the rotation lever to rotate smoothly while moving along the guide hole when the rotation lever is rotated, and provides a stopper function to limit the movement of the rotation lever while contacting the end of the guide hole. .

The hand lever 40 is screwed to one end of the screw hole 33 of the rotary sleeve, and rotates to one side or the other about the rotation axis to change the air flow path within the valve housing.

Meanwhile, as mentioned above, in the case of a manual hand valve, if the hand lever is rotated with excessive force, the guide pin collides with the corner of the guide hole at high speed, and if this impact is repeated, the guide pin may fall off from the rotating sleeve. There is no outside.

The reason for the guide pin falling off is operating by applying excessive force to the hand lever, but structural problems in which the force applied to the hand lever is inevitably transmitted to the guide pin can also be seen as a factor in the guide pin falling off. .

Figure 2 is a schematic illustration showing a breakage prevention bracket for a hand valve according to the present invention to solve the above-mentioned problems.

As shown in Figure 2, the breakage prevention bracket 100 is provided with a plate-shaped body 110 that is disposed to face the valve body.

The body 110 is installed vertically on the upper surface of the valve housing and faces the valve body.

In addition, the lower part of the body 110 is formed with a width corresponding to the valve housing based on the center, and the upper part has a wider width than the valve housing. The reason for this is to ensure that the guide hole, which will be described later, has sufficient length so that the hand lever can move smoothly to one side or the other.

Additionally, a fastening piece 140 in which a bolt hole 141 is formed is vertically bent on the bottom surface of the body.

The fastening pieces 140 are provided in pairs and are spaced apart at a predetermined distance.

The bolt hole 141 of the fastening piece is preferably formed to have a diameter corresponding to the bolt hole 14 formed on the upper surface of the valve housing.

The body 110 is arranged vertically on the upper surface of the valve housing 10 and is fastened with a bolt B so as to penetrate the bolt hole 141 of the fastening piece and the bolt hole 14 of the valve housing. The anti-breakage bracket according to the present invention can be quickly and easily detachably installed and detached from the hand valve through the fastening piece 140.

The guide hole 120 is a long hole formed with a predetermined length along the horizontal direction on one side of the body. The guide hole 120 is preferably formed to have a corresponding length so that the point in time when the hand lever is contacted at both ends coincides with the point in time when the guide pin 32 is in contact with the end of the guide elongated hole 22.

The hand lever 40 is inserted through the guide hole 120. Since the hand lever 40 can be easily separated from the threaded hole 33 of the screwed rotary sleeve 30, the body 110 is first separated before bolting to the valve housing 10. Once the body 110 is fixed, it is inserted through the guide hole 120 and then screwed back into the screw hole 33 to secure it.

In the anti-breakage bracket according to the present invention as described above, when the hand lever 40 moves along the guide hole 120 by the user's rotation operation and comes into contact with one end or the other end of the guide hole, the guide pin 32 is connected to the corresponding guide. As it is positioned at the end of the long hole 22, the flow path is converted.

Here, in the present invention, even if excessive force is applied to the hand lever and the hand lever 40 is moved inside the guide hole 120 at high speed, buffering and deceleration occur at the point of contact with the end of the guide hole 120, and the guide It is possible to prevent the pin 32 from hitting the end of the guide hole 22 strongly. In other words, the risk of damage to the guide pin 32 can be significantly reduced.

Meanwhile, in the present invention, the material of the anti-breakage bracket can be made of various materials, and is not limited to the scope of the present invention. For example, the anti-breakage bracket may be made of metal or synthetic resin. Preferably, the anti-breakage bracket may be made of steel to have excellent strength, and the outer peripheral surface may be galvanized to prevent corrosion.

In addition, the anti-breakage bracket according to the present invention may generate noise and wear due to scratches when the hand lever directly contacts the end of the guide hole. In order to prevent this problem, a buffer member 130 that can provide a buffering effect, such as rubber or silicon, is provided along the edge of the guide hole 120, so that the hand lever 40 is positioned at the end of the guide hole 120. It can prevent noise generation or wear when in contact with.

Here, the buffer member 130 preferably has an appropriate thickness so as not to interfere with the guide pin 32 moving to the end of the guide elongated hole 22. Additionally, the buffer member 130 may be provided along the entire edge of the guide hole 120, or may be provided only at the edges of both sides that are in direct contact with the hand lever.

The present invention, made as described above, can prevent the guide pin from being damaged even if excessive force is applied when operating the hand lever, and through this, the lifespan of the hand valve is extended to enable long-term use. Those skilled in the art will be able to use the present invention. Changes, conversions, substitutions and substitutions may be made in consideration of the description of the present invention without departing from its spirit and scope, and it is not limited to the above-described embodiments.

10: valve housing
11: Inlet
12: outlet
14: Bolt ball
20: valve body
21: rotation axis
22: Guide long hole
30: Rotating sleeve
31: shaft
32: Guide pin
33: screw hole
40: hand lever
50: hand valve
100: Damage prevention bracket
110: body
120: Guide hole
130: Buffer member
140: fastening piece
141: Bolt ball

Claims (3)

A valve housing is formed with an inlet in communication with the air input port and a pair of outlets in communication with the air discharge port, and a valve housing in which a flow path for air movement is formed between the inlet and the outlet, and a top surface of the valve housing. It is coupled to the upper surface of the valve body, a valve body in which a rotating shaft is vertically coupled to the center and a long guide hole is formed on one side of the upper surface, and an axial hole into which the rotating shaft enters is formed to be recessed to a predetermined depth in the center of the bottom. , a rotating sleeve in which a guide pin fitted into the guide long hole protrudes at a position corresponding to the guide long hole, and one end is screwed to a threaded hole formed on one side of the outer peripheral surface of the rotating sleeve, and one end is screwed to the rotating axis. Or, a bracket for a handle valve including a hand lever that rotates to the other side to change the air flow path within the valve housing,
a plate-shaped body installed vertically on the upper surface of the valve housing and facing the valve body;
It is formed at a predetermined length along the horizontal direction on one side of the body, and when the hand lever is inserted through the interior and moved along the horizontal direction to one side or the other, the corresponding end contacts the hand lever to prevent the movement of the hand lever. A guide hole that restricts the flow path to be changed and prevents damage to the guide pin by preventing the guide pin from colliding with the end of the guide hole with more force than necessary;
A breakage prevention bracket for a hand valve comprising a.
The anti-breakage bracket for a hand valve according to claim 1, wherein the guide hole is provided with a buffer member along the edge to prevent noise generation and wear due to scratches due to direct contact with the hand lever.
The method of claim 1, wherein a fastening piece through which a bolt hole with a diameter corresponding to a bolt hole formed on the upper surface of the valve housing is formed is formed to be vertically bent from the bottom surface of the body, and is fastened with a bolt to the upper surface of the valve housing. An anti-breakage bracket for hand valves, characterized in that it is attached in a detachable manner.