KR101168335B1 - A 3way-valve for possible rotation manual - Google Patents

Abstract

The present invention relates to a three-way valve capable of manual rotation.

The three-way valve of the present invention connects the crankshaft with the rotational shaft of the motor, and in addition, during operation or failure due to the power interruption, the operator manually rotates the ball-shaped valve body inserted into the lower end of the crankshaft so that the valve body It characterized in that the manual rotation means is coupled between the rotary shaft of the motor and the upper end of the crankshaft only in one direction so as to selectively open and close the respective passages of the three-way tube in a ratchet manner.

Therefore, according to the present invention, the rotary shaft and the crankshaft of the motor are connected through the pole gear and the manual rotation lever, which are the manual rotation means, and in the case of a trial run or failure due to the power interruption, the operator rotates a part of the casing to the outside of the casing. By manually rotating the lever, the ball-shaped valve body inserted into the lower end of the crankshaft rotates in the three-way tube, and selectively opens and closes each pipeline of the three-way tube, so as to check the operation state of the three-way valve and the presence of failure. There is an excellent effect such as easy to see.

3-way valve, manual rotation means, fold gear, manual rotation lever, ratchet method

Description

A three-way valve for possible rotation manual

The present invention relates to a three-way valve, and more particularly, a manual ratchet (ie, a pawl gear and a manual rotary lever) rotatably coupled to each other between a rotary shaft of a motor and an upper end of a crank shaft. By installing and configuring the rotating means, the rotary shaft and the crankshaft of the motor are connected to each other through the pole gear and the manual rotating lever. By manually rotating it, the ball-shaped valve body inserted into the lower end of the crankshaft rotates in the three-way tube, and selectively opens and closes each pipeline of the three-way tube to more easily check the operation and failure of the three-way valve. It is about a three way valve which can be rotated manually.

In general, a boiler that combines hot water supply and heating allows water to be heated to a predetermined temperature while passing through a heat exchanger to circulate a pipe by a pump, and optionally to supply or heat hot water.

The feed water heated while passing through the heat exchanger of the boiler is usually selectively supplied through hot water or heating pipes via a three-way valve.

The three-way valve 1 applied to the boiler as described above includes a motor 10 which is a driving means located in the casing 3 as shown in FIGS. 1A and 1B; An up and down eccentric crankshaft 14 disposed rotatably on a lower end of the motor 10 in a state in which the motor 10 is aligned with the rotation shaft 11 and supported by the base plate 2; It is inserted into the lower eccentric shaft 15b of the crankshaft 14 and rotates eccentrically according to the driving of the motor 10, and two outlet side pipelines of each of the pipelines 6a, 6b, 6c of the three-way tube 4 ( A valve body 16 for selectively opening and closing 6b and 6c; It is installed at the lower end of the motor 10, and each of the contact projections (13a, 13b) formed integrally on the outer periphery of the shaft connection portion 12, each 180 degrees intervals are sensed through the control of a controller (not shown) Contact sensor 7a, 7b which eccentrically rotates the valve body 16 to selectively open and close the two outlet side conduits 6b, 6c of each of the conduits 6a, 6b, 6c of the three-way pipe 4. )Wow; It is installed and fixed at the lower end of the base plate 2, and is composed of a three-way pipe body 4 having one inlet pipe 6a and two outlet pipes 6b and 6c.

Here, the crankshaft 14 has a structure in which two shafts vertically formed are eccentrically connected, of which the upper shaft 15a is located on the same line as the rotating shaft 11 of the motor 10. It is connected to the rotating shaft 11 of the motor 10 through the connecting portion 12, the valve body 16 is fitted to be connected to the lower eccentric shaft (15b).

In addition, the valve body 16 is formed as a rubber material in the form of a circular ball, and at the center thereof, an eccentric shaft insertion hole (not shown) is inserted into and fixed to the lower eccentric shaft 15b of the crankshaft 14. It is formed through.

In the case of the three-way tube 4, the lower end of the crank shaft 14b supported by the base plate 2 together with the valve body 16 inserted therein is inserted to drive the motor 10. While the upper end is opened to enable the eccentric rotation by the circular valve body flow hole 5 is formed therein, and at the same time, three pipes communicating with it, that is, one inlet pipe 6a into which heated hot water flows, and The entire shape is formed in the shape of "T", such that two outlet side pipes 6b and 6c are formed at right angles to the one inlet pipe line 6a and are supplied to hot water or heating water in a direction opposite to each other. have.

Accordingly, in the case of the three-way valve 1, the valve body 16 inserted into the crankshaft 14 lower eccentric shaft 15b eccentrically with respect to the rotation shaft 11 of the motor 10 is connected to the motor 10. The outer peripheral surface of the valve body 16 is in close contact with the valve body flow hole 5 of the three-way pipe body 4 while being eccentrically rotated according to the driving, and moves along the inner peripheral surface. According to the contact between the contact projections (13a, 13b) and the contact sensor (7a, 7b) formed at intervals of 180 degrees on the outer periphery of the shaft connecting portion 12, or the hot water side pipe to supply to the heating water or Two outlet side conduits 6b and 6c, such as a heating side conduit, are selectively opened and closed.

However, in the case of the conventional three-way valve (1) configured as described above when the trial run or breakdown due to the power cut off, the operator manually rotates the valve body 16 inserted in the lower end of the crankshaft 14 to the valve body 16 ) Consists of a manual rotating means for selectively opening and closing each of the pipelines (6a, 6b, 6c) of the three-way tube (4), that is, a pawl gear and a manual rotation lever coupled rotatably in one direction In addition, since the three-way valve (1) itself is made of a completely sealed state by the assembly of the casing (3), the base plate (2) and the three-way tube (4) as described above, There is a structural problem, such as unable to check the operation state and the presence of failure of the three-way valve (1) during the commissioning or failure according to.

In addition, in the case of the conventional three-way valve (1) is made of a structure that does not have any manual rotation means as described above, not only the commissioning of the manual state in the state that the power is cut off, but also in the event of failure should be separated and replaced for the entire equipment At the same time, there were also problems in that labor and material costs also increased significantly.

The present invention has been made in order to solve the conventional problems as described above, in order to install a manual rotation means consisting of a pole gear and a manual rotation lever coupled in a mutual ratchet manner rotatably in one direction between the rotation axis of the motor and the top of the crankshaft. Accordingly, the rotary shaft and the crankshaft of the motor are connected to each other through the pole gear and the manual rotation lever, and during the trial operation or failure due to the power interruption, the operator manually rotates the manual rotation lever in which the part protrudes out of the casing. The ball-shaped valve body inserted into the lower end of the crankshaft rotates in the three-way tube, and selectively opens and closes each conduit of the three-way tube. There is this.

In addition, in the case of the present invention, compared to the conventional three-way valve that has no structure of manual rotation and failure check, as described above, the operation state of the three-way valve according to the manual rotation of the manual rotation lever is easy to check whether there is a failure. As a result, manual commissioning in the state where the power to the conventional three-way valve is cut off is impossible, and in the event of a failure, the separation and replacement of the equipment must be performed. Another goal is to be able to prevent a significant increase.

The three-way valve capable of manual rotation of the present invention connects the rotational shaft and the crankshaft of the motor, and in addition, the operator manually rotates the ball-shaped valve body inserted into the lower end of the crankshaft during trial run or failure due to the power interruption. The valve body is characterized in that it is provided with a manual rotation means coupled in a ratchet manner mutually rotatable only in one direction between the rotary shaft of the motor and the upper end of the crankshaft so as to selectively open and close each passage of the three-way tube.

According to the present invention, while connecting the rotary shaft and the crankshaft of the motor through the pole gear and the manual rotation lever, the manual rotation lever in the state in which the operator protrudes to the outside of the casing during the trial run or failure due to the power off. By rotating it, the ball-shaped valve body inserted into the bottom of the crankshaft rotates in the three-way tube, and selectively opens and closes each conduit of the three-way tube. There is such an excellent effect.

In addition, in the state of the power supply to the conventional three-way valve with a structure of no manual rotation and confirmation of the absence of the failure of the manual operation is not possible, and in the case of failure, the separation and replacement of the equipment must be made Labor costs and material costs due to the separation and replacement of equipment can also be prevented from increasing significantly.

The three-way valve (hereinafter, referred to as a three-way valve) capable of manually rotating the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view schematically showing a three-way valve for the present invention, Figure 3 shows an exploded perspective view of the three-way valve for the present invention, Figure 4 shows a combined cross-sectional view of the three-way valve for the present invention. .

In addition, Figure 5 shows a plan view, a front view and a bottom view of the manual rotation lever of the three-way valve of the present invention.

First, before describing the three-way valve (1a) of the present invention in detail, the same reference numerals are applied to the same structure as the conventional three-way valve (1) of the components of the three-way valve (1a) for the present invention. It is revealed beforehand.

The three-way valve (1a) of the present invention, as a whole, the same structure as the conventional three-way valve (1) shown in Figs. 1A and 1B, that is, a motor 10 which is a driving means located in the casing (3); An up and down eccentric crankshaft 14 disposed rotatably on a lower end of the motor 10 in a state in which the motor 10 is aligned with the rotation shaft 11 and supported by the base plate 2; It is inserted into the lower eccentric shaft 15b of the crankshaft 14 and rotates eccentrically according to the driving of the motor 10, and two outlet side pipelines of each of the pipelines 6a, 6b, 6c of the three-way tube 4 ( A valve body 16 for selectively opening and closing 6b and 6c; It is installed at the lower end of the motor 10, and the contact protrusions (13a, 13b) integrally formed on the outer periphery of the shaft connecting portion 12, and sensed at intervals of 90 to 180 degrees, respectively, of the controller (not shown) A contact sensor for eccentrically rotating the valve body 16 through the control to selectively open and close the two outlet side conduits 6b, 6c of each of the conduits 6a, 6b, 6c of the three-way pipe 4 ( 7a, 7b); It is fixed to the bottom of the base plate 2, consisting of a three-way tube (4) having one inlet conduit (6a) and two outlet side conduits (6b, 6c), which is shown in Figures 2 to 4 As shown in the manual rotation lever 23 is installed between the rotary shaft 11 and the upper end of the crank shaft 14 of the motor 10 to protrude to the outside of the casing, when the trial run or failure due to the power off When the operator rotates the manual rotation lever 23 manually, the valve body 16 inserted into the lower eccentric shaft 15b of the crankshaft 14 is eccentrically rotated, and thus each pipe of the three-way tube 4 is rotated. The overall configuration of the three-way valve is further provided with a manual rotation means 20 for more easily confirming the operation state and failure of the three-way valve (1a), such as selectively opening and closing (6a, 6b, 6c) Is fulfilling.

Here, in the case of the motor 10, the crankshaft 14, the valve body 16, the contact sensor (7a, 7b) and the three-way tube 4, the motor 10 that is a component of the conventional three-way valve (1) ), The crankshaft 14, the valve body 16, the contact sensor (7a, 7b) and the three-way tube (4) because of the same structure and will not be repeated description thereof.

And, in the case of the manual rotation means 20 of the three-way valve (1a) of the present invention, as described above, the contact between the contact sensor (7a, 7b) and the contact projections (28a, 28b) at 90 to 180 degrees intervals The shaft connecting portion 27 is formed integrally and at the same time the rotating shaft 11 and the crank shaft of the motor 10 so that a part of the manual rotating lever 23 of the manual rotating means 20 protrudes out of the casing (3). 14) is connected to the lower end of the crankshaft (14) by manually rotating the manual rotation lever 23 in a state in which a part protrudes out of the casing (3) during the trial operation or failure due to the power off. The inserted valve body 16 is eccentrically rotated to selectively open and close each of the conduits 6a, 6b, and 6c of the three-way pipe 4, so that the operation of the three-way valve 1a can be checked more easily. As an element to be able to, the rotation shaft 1 of the motor 10 as shown in Figs. A pawl gear 21 fastened to 1); The valve body is coupled to the upper end of the crankshaft 14 in a state of being coupled with the pole gear 21 in a ratcheting manner, and the valve body is inserted into the lower end of the crankshaft 14 during trial run or failure due to the power cut off ( It consists of a manual rotation lever 23 which rotates 16) manually.

In the case of the pole gear 21 of the manual rotating means 20 according to the present invention configured as described above is coupled to the top of the manual rotating lever 23 in a ratchet manner in a state of being bound to the rotating shaft 11 of the motor 10. The rotational force of the motor 10 is transmitted to the manual rotation lever 23 side in the same direction as the motor 10 together with the crank shaft 14 and the valve body 16 which are attached to the lower end of the manual rotation lever 23. As an element for rotating, as shown in Figure 3, the overall shape is formed of a hollow cylindrical body, wherein the outer circumference of the pole gear 21, the edge portion is partially cut so that the outer circumference is elastically expanded The gear protrusion 22 of the protrusion is formed, the gear protrusion 22 is formed to protrude more than two on the outer circumferential surface of the pole gear 21, more preferably structural, such as damage to the gear protrusion 22 For safety, the number of the gear protrusions 22 It is formed as three in the state spaced apart by 120 degree angle.

In addition, the manual rotation lever 23 of the manual rotation means 20 according to the present invention is bound to the upper end of the crankshaft 14 in the state coupled to the pole gear 21 in a ratchet manner with the pole usually Rotate in the same direction with the pole gear 21 according to the rotational force of the motor 10 transmitted through the gear 21 and at the same time coupled to the lower end of the manual rotation lever 23 through the crankshaft 14 The valve body 16 also eccentrically rotates in the same direction to selectively open and close two outlet side conduits 6b and 6c of the respective conduits 6a, 6b and 6c of the three-way conduit 4, and vice versa In case of a trial run or failure according to the operator manually rotates the manual rotation lever 23 in a state in which a part protrudes out of the casing 3 in one direction from the pole gear 21 and inserts it into the bottom of the crankshaft 14 through this. Valve body 16 in the same direction as the rotational direction of the manual rotation lever 23 As the element to make it easier to check the failure state and the operation state of the three-way valve (1a), such as selectively opening and closing each of the pipelines (6a, 6b, 6c) of the three-way pipe (4) while the core rotation, Figure 5 As shown in Fig. 2, a circular lever 23a for manually exerting a rotational force by the operator and a shaft connecting part 27 for fastening to the upper end of the crankshaft 14 are integrated during commissioning or failure due to the power off. It is formed in the form of "T".

Here, the fold gear 21 is fastened to the center of the upper end of the circular lever 23a in a ratchet manner so that the manual rotation lever 23 is rotated in one direction only from the fold gear 21 and rotates in the opposite direction. The toothed ratchet gear groove 24 is formed to prevent rotation by the locking action of the fold gear 21 is formed.

In addition, upper and lower outer peripheries of the shaft connection part 27 are respectively sensed at intervals of 90 degrees to 180 degrees with the contact sensors 7a and 7b installed at the lower end of the motor 10, respectively, to each pipe of the three-way tube 4. One of the two outlet side conduits 6b, 6c from one inlet side conduit 6a, such that two outlet side conduits 6b, 6c of 6a, 6b, 6c can be selectively opened and closed. Contact protrusions 28a and 28b are integrally formed to control the controller so that the flow path can be changed into the two outlet side conduits 6b and 6c.

In addition, the upper edge and the outer periphery of the circular lever (23a) and the tool binding groove 25 for rotating the combined rotation of the tool when the manual rotation of the manual rotation lever 23, the worker so as not to slip the operator's hand The knurling portion 26 is formed for each, in this case, the tool binding groove 25 is formed in an "L" shape such that it is formed only a predetermined depth from the top without being completely penetrated to the bottom of the circular lever 23a. The knurling portion 26 is not limited to any specific shape, but it can be known in advance that it can be formed in any shape commonly used.

Hereinafter, the embodiment of the three-way valve (1a) according to the present invention will be described in detail with reference to the accompanying drawings.

6a and 6b is a state diagram showing the operation of the three-way valve according to the present invention.

First, in the three-way valve (1a) of the present invention, as an automatic operation process according to the drive of the motor 10, the motor according to the power supply in the state in which the three-way valve (1a) of the present invention is coupled as shown in FIG. When 10 is rotated in one direction, as shown in FIG. 6A, the rotational force of the motor 10 is mutually connected to the pole gear 21 through the pole gear 21 that is attached to the rotation shaft 11 of the motor 10. The manual rotation lever 23 coupled to the ratchet method is transmitted to the side, and the manual rotation lever 23 to which the rotational force of the motor 10 is transmitted through the pole gear 21 is coupled to the motor together with the pole gear 21. Rotate in the same direction as the rotational direction of (10) and at the same time, the crankshaft 14 and the valve body 16 in accordance with the rotation action of the manual rotation lever 23, that is, the lower end of the manual rotation lever 23 The crank shaft 14 and the valve body 16 is fixed to the lower eccentric shaft 15b thereof also rotates in the same direction as the rotational direction of the manual rotation lever 23, In the case of the valve body 16, the eccentric rotation by the crankshaft 14 is made, and two outlet side channels 6b, 6c of each of the pipelines 6a, 6b, 6c of the three-way tube 4 are selectively selected. The flow path is changed from one inlet pipe 6a to two outlet pipes 6b and 6c, that is, the hot water pipe 6b or the heating pipe 6c according to the purpose of hot water or heating. You lose.

Then, in the three-way valve (1a) of the present invention, as a manual operation process according to the rotation of the manual rotation means 20, this is also the power supply in the state combined with the three-way valve (1a) of the present invention as shown in FIG. The manual rotation lever 23 in a state in which a part protrudes out of the casing 3 by a worker during a trial operation or a failure according to the interruption is opposite to the rotation direction of the motor 10, that is, one direction from the pole gear 21. In the case of manual rotation, the crankshaft 14 and the valve body 16 according to the rotational action of the manual rotation lever 23 are attached to the lower end of the manual rotation lever 23 as shown in FIG. 6B. The valve body 16, which is attached to the crank shaft 14 and its lower eccentric shaft 15b, also rotates in the same direction as the rotational direction of the manual rotation lever 23, but in the case of the valve body 16, the crank shaft 14 Eccentric rotation by) is performed and two outlet side pipes of each pipe line 6a, 6b, 6c of the three-way pipe 4 By selectively opening and closing (6b, 6c), it is possible to more easily check the failure state and the operation state for the three-way valve (1a) of the present invention, thereby the overall operating process for the three-way valve (1a) of the present invention All of these ends.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

Figures 1a and 1b is a perspective view and a combined cross-sectional view schematically showing a conventional three-way valve.

Figure 2 is a perspective view schematically showing a three-way valve for the present invention.

3 is an exploded perspective view of a three-way valve according to the present invention;

4 is a cross-sectional view of the combination of the three-way valve of the present invention.

Figure 5 is a plan view, front view and bottom view of the manual rotary lever of the three-way valve of the present invention.

Figure 6a and 6b is a state diagram showing the operation of the three-way valve of the present invention.

Explanation of symbols on the main parts of the drawings

1, 1a. 3-way valve 2. Base plate

3. Casing 4. Three Way Pipe

5. Valve body flow holes 6a, 6b, 6c. Inlet and Outlet Pipeline

7a, 7b. Contact sensor 10. Motor

11.Rotating shaft 12, 27. Shaft connection

13a, 13b, 28a, 28b. Contact projection 14. Crankshaft

15b. Eccentric Shaft 16. Valve Body

20. Manual rotation means 21. Fall gear

22. Gear turning 23. Manual rotation lever

23a. Round lever 24. Ratchet gear groove

25. Tool mounting groove 26. Knurled part

Claims (6)

A motor which is a driving means located in the casing; An upper and lower eccentric crank shaft which is positioned on the same line as the rotation shaft of the motor and rotatably installed at the lower end of the motor while being supported by the base plate; A valve body inserted into a lower eccentric shaft of the crank shaft and selectively opening / closing two outlet-side pipelines of respective three-way pipelines while eccentrically rotating in accordance with a motor drive; It is installed on the lower end of the motor, and each of the contact projection formed on the outer periphery of the shaft connecting portion and the sensing protrusions at intervals of 90 degrees to 180 degrees, respectively, and eccentrically rotates the valve body through the control of the controller in each of the three-way pipe A contact sensor for selectively opening and closing the two outlet pipes; A three-way tube fixed to the bottom of the base plate and having one inlet side passage and two outlet side passages; The manual rotation lever is installed so that a part of the motor is rotated between the rotary shaft of the motor and the upper end of the crank shaft, and the operator rotates the manual rotation lever manually at the time of trial run or failure due to the power interruption and thereby the lower eccentricity of the crank shaft. Three-way valve capable of manual rotation, characterized in that the valve body inserted into the shaft consists of a manual rotation means for selectively opening and closing each duct of the three-way pipe while the eccentric rotation. According to claim 1, wherein the manual rotation means is further provided with a pole gear that is fastened to the rotating shaft of the motor, is coupled to the upper end of the crankshaft coupled to the pole gear in a mutual ratchet manner, during trial run or failure due to power off The manual three-way valve capable of manual rotation, characterized in that the operator comprises a manual rotation lever for manually rotating the valve body inserted into the lower end of the crankshaft. According to claim 2, wherein the pole gear is formed in a hollow cylindrical body of the entire shape to be bound to the rotation axis of the motor, the outer peripheral surface of the pole-shaped gear protrusion is formed in which the edge portion is partially cut so as to expand the outer peripheral surface elastically 3-way valve capable of manual rotation, characterized in that. The "T" shape of claim 2, wherein the manual rotation lever has a circular lever for manually exerting a rotational force and a shaft connection part for fastening to the upper end of the crankshaft during a trial run or failure due to power off. Three-way valve capable of manual rotation, characterized in that formed by. According to claim 4, wherein the upper end of the circular lever is connected to the pole gear in a ratchet manner, the manual rotation lever rotates in one direction only from the pole gear when the manual rotation lever rotates in the opposite direction by the engaging action of the pole gear Toothed ratchet gear groove is formed to prevent rotation, The upper and lower outer periphery of the shaft connection part is sensed at intervals of 90 degrees to 180 degrees with the contact sensor installed at the bottom of the motor to control the controller to selectively open and close the two outlet side of each of the three-way pipe. Three-way valve capable of manual rotation, characterized in that the contact projection is formed integrally to make. According to claim 4, wherein the upper edge and the outer periphery of the circular lever is formed with a tool binding groove for the operator to rotate the manual rotation of the manual rotation lever by manual rotation, and a knurling portion for preventing the operator's hand slipping 3-way valve capable of manual rotation.

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