KR200313260Y1 - A Multi Sharing Plate Of Refrigeration Reservoir Tank - Google Patents

Abstract

The present invention relates to a multi-stage distribution plate of a cooling reservoir that is easily removable, and prevents mixing of water due to continuous outflow and inflow of the distribution plate inserted into the cooling reservoir of the cold / hot water machine and maximizes the flow length of the water. By being able to be installed in such a way, it is possible to structurally increase the low water volume and the cold water outflow amount, which are the main functions of the cooling reservoir, to significantly improve the cooling performance. To this end, the fixing plate 33 and the circular plate 31 are coupled to the upper and lower portions of the hollow bar 32 so that the circular plate 31 is formed in the cooling reservoir container. The water inlet grooves 34, which are side holes, are formed in a zigzag shape, respectively, and are formed in a circular plate 31 in multiple stages so as to be easily attached and detached, and the circular plate 31 on the hollow bar 32 is fixed. (51) and the valve cap 52 is characterized by being coupled by a separate fixed valve (50).

Description

A multi-sharing plate of refrigeration reservoir easy to attach {A Multi Sharing Plate Of Refrigeration Reservoir Tank}

The present invention relates to a multi-stage distribution plate of a cooling reservoir that is easily removable, and prevents mixing of water due to continuous outflow and inflow of the distribution plate inserted into the cooling reservoir of the cold / hot water machine and maximizes the flow length of the water. The present invention relates to a multi-stage distribution plate of an easy-removable refrigerated water reservoir, which can structurally increase the low water quantity and the cold water discharge amount, which are the main functions of the cold water reservoir, by being able to be installed and applied.

The cold water unit, which constitutes a cold and hot water purifier and a cold and hot water purifier, serves to cool water stored in a predetermined amount by entering the cooling reservoir, wherein the water stored in the cooling reservoir is cooled according to a conventional refrigeration cycle principle. And it is cooled to a certain temperature by evaporation of the refrigerant pipe wound to a certain length on the outer wall of the cooling reservoir while passing through the condenser and the expansion valve.

As shown in FIG. 1, the cooling water reservoir forms a coolant tube 20 on its outer wall and cools the water inside by using an evaporation action of the coolant flowing continuously to the coolant tube 20. The outlet 11 of the water (cold water) is formed in the distribution plate 30 is inserted in the center.

In particular, the distribution plate 30 is formed of a circular plate 31 having a diameter substantially the same as that of the reservoir (not shown), and the central portion of the distribution plate 30 is supported by the circular plate 31 and introduced into the hot water reservoir (not shown). The guide tube of water is formed of a hollow hollow rod 32 having a circular hollow shape formed at the center thereof, and a lower portion thereof is configured to be connected and fixed to the hot water inlet pipe 40.

That is, when a certain amount of water is in the cooling reservoir 10, hot water is collected at the top, and cold water is collected at the bottom, and the distribution plate 30 starts from the idea that it can increase the effect by installing a diaphragm in the middle of the water. If possible to prevent the mixing of the water flowing into the cooling reservoir 10 with the existing cold water is prevented, and also mixed with the water in the form of hot steam coming back from the hot water reservoir in reverse Its main function is to prevent it.

However, currently used distribution plate 30 is formed of one upper circular plate 31, when the water flows into the cooling reservoir 10, the cooling reservoir 10 through the side hole of the circular plate 31 The water of the cooling reservoir 10 is rapidly mixed with the lower side of the water is rapidly increased in temperature.

Therefore, when the preservation without the outflow of water in the cooling reservoir (10) is relatively effective, but when the water flows in accordance with the outflow of water, the water temperature rises rapidly, the cooling effect is not large, which results in the amount of cooling reservoir In addition, the cold water extraction performance of the effluent is reduced.

The temperature of each part of the water in the interior of the cooling reservoir 10 is usually large in the upper and lower, but usually has a deviation of 10 ° or more, causing a decrease in the overall cooling performance, such a distribution plate 30 In a large capacity system to be applied as well as in a system in which the distribution plate 30 is not applied, the cooling performance of the water inside the cooling reservoir 10 decreases due to a larger water temperature deviation and a sudden mixing with the effluent.

In particular, the distribution plate 30 mounted inside the cooling reservoir 10 has a circular plate 31 having an upper portion substantially the same as the diameter of the cooling reservoir 10, and a hollow rod that is a hollow column flowing into the hot water reservoir. 32) and a fixture 33 is fixed to the hot water inlet pipe 40 to the hot water reservoir in the lower portion.

When the distribution plate 30 uses cold water without using hot water, when water from the cooling reservoir 10 is introduced, the water moves to the water inlet 34, which is a sidewall hole of the upper circular plate 31, and then the circular plate. When the hot water is used, water is moved to the hot water inlet pipe 40 through the water inlet groove 34, which is a hollow hole, when the hot water is used.

In addition, the distribution plate 30 is to mix the water in the form of steam flowing back from the hot water reservoir only in the upper portion of the circular plate 31, when the water in the cooling reservoir 10 is stored at a certain level on the distribution plate 30 It is induced to prevent mixing with the cooled water in the lower portion of the circular plate (31).

However, if the cold water of the cooling reservoir 10 is preserved without flowing out, there is some mixing prevention effect, but when water flows into the cooling reservoir 10 in accordance with the outflow of cold water of the distribution plate 30 Water flows into the water inlet 34, which is an outer hole of the circular plate 31 at a time, and the hot water introduced into the water and the water stored in the lower portion of the cooling reservoir 10 are rapidly mixed with each other. The water of 10) has an overall increase in the water temperature, and thus causes a decrease in the amount of cold water stored as well as the outflow of cold water.

In the case of the existing cold and hot water machine, if a certain time passes after the initial cooling, ice is inevitably started from the inside of the attachment portion of the refrigerant pipe 20 at the lower side of the cooling reservoir 10, and ice is formed. Although it is effective to prevent a decrease in the temperature of the water stored in the reservoir 10, a temperature decrease due to the dilution of the mixture according to the inflow, and an increase in the amount of cooling water flowing out, various outlets due to freezing inside the cooling reservoir 10 are provided. In view of prevention of blockage, the ice formation process up to the cold water outlet 11 according to the low capacity of the cooling reservoir 10 is confirmed in advance, and then the proper water temperature and the operating time and performance of the refrigerator are set accordingly. .

To date, in the case of cold or hot water machine, the cold water outlet 11 is installed as close to the hollow rod 32 of the distribution plate 30 as possible under the cooling reservoir, but there is a limit to improving the freezing performance in order to lower the cold water temperature. There was a limit to set the internal water temperature of the cooling reservoir 10 to about 4 degrees through a temperature sensor (not shown) attached to the lower portion of the outer wall of the cooling reservoir 10.

Therefore, the present invention was devised to improve the problems as described above. The distribution plate inserted into the cooling reservoir of the cold and hot water heater prevents the mixing of water due to the continuous outflow and inflow, and maximizes the flow length of the water while being easily applied. In order to be installed, the purpose of the present invention is to provide a multi-stage distribution plate of an easy-removable cooling reservoir that can structurally increase the low water quantity and the cold water outflow amount, which are the main functions of the cooling reservoir, to dramatically improve the cooling performance.

1 is a cross-sectional view of a conventional distribution plate installed in the cooling reservoir.

Figure 2 is a cross-sectional view of a multi-stage distribution plate installed in the cooling reservoir according to the present invention.

3 is a perspective view of a multi-stage distribution plate of the present invention.

Figure 4 is a cross-sectional view of the fixed valve applied to the multi-stage distribution plate of the present invention.

Explanation of symbols on the main parts of the drawings

10: cooling reservoir 11: cold water outlet

20: coolant pipe 30: distribution plate

31: round plate 32: hollow bar

33: fixture 34: water inlet

40: hot water inlet pipe 50: fixed valve

51: stopper 52: valve stopper

53: valve hole

In the detachable multi-stage distribution plate of the easy-to-removable cooling reservoir of the present invention for achieving the above object, in the distribution plate of the cooling reservoir is configured in the cooling reservoir is coupled to the fixture and the circular plate on the upper and lower parts of the hollow rod, The circular plate is formed of a circular plate in multiple stages so as to be easily attached to and detached from the hollow bar, and the water inlet grooves, which are side holes, are each formed in a zigzag, and the circular plate on the upper part of the hollow bar is formed by a separate fixing valve composed of a fixing plug and a valve plug It is characterized by a combination.

In addition, the circular plate is formed by connecting water inflow grooves into the inside or outside of the circular plate in one side circular or ellipse and quadrangular shape, and arranged opposite to each other in a zigzag form. The shape of the distribution plate is determined, characterized in that configured in multiple stages to be in close contact with the cooling reservoir.

In addition, the fixed valve has a thin thickness between the central circular portion and the fixed square portion of the valve stopper to facilitate mutual movement up and down, while the valve stopper portion of the upper portion of the valve hole formed through the center of the stopper stops the valve stopper. It is smaller than the diameter of, and from below the portion where the valve cap is mounted, characterized in that formed slightly larger than the diameter of the valve cap.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a multi-stage distribution plate of the cold storage container easy to attach and detach the present invention will be described in detail.

2 is an assembly structure showing the distribution plate 30 installed in the cooling reservoir 10 according to the present invention, and the circular plate 31 and the hollow bar 32 are separately configured to be easily detachable from the circular plate. The 31 is configured to be stacked in multiple stages, and the number of circular plates 31 can be increased as needed, and of course, the circular plate 31 can be used in multiple stages.

In the stacking of the circular plate 31, the water inlets 34, which are the outer holes through which water flows in and out, are alternately stacked, that is, stacked in a 180 ° direction so that the flow path of the flowing water is maximized when water flows in from the top. In addition, it is formed to be the same as the inner diameter of the cooling reservoir 10 so that water does not flow out of the circular plate 31 to pass through the water inlet groove 34 tunnel between these circular plates 31.

In particular, the water inlet groove 34, which is a movement path of the inflow water formed in the circular plate 31, is formed on the circular plate 31 directly near the outer surface in a circular or elliptical or rectangular shape so as to increase the flow length of water, The cooling reservoir 10 and the water inlet groove 34 may be formed in an open type on the outside of the circular plate 30.

In addition, even when the cooling reservoir 10 has a circular, elliptical, or quadrangular shape, the shape of the plate of the distribution plate 30 may be manufactured and used in the same manner as the cross-sectional shape of the cooling reservoir 10. The upper coupling of the circular plate 31 and the hollow bar 32, which is an inflow hole, is easily detachable using a fixed valve 50 configured separately.

In particular, the fixed valve 50 is composed of two parts, as shown in Figures 3 and 4, one is a fixed stopper 51 and one is a valve stopper 52, in the case of the valve stopper 51 Round, side is a square type structure is coupled to the side of the stopper 51, the lower portion is formed in a wide area to prevent it from being separated during operation after assembly.

In addition, the valve stopper 52 has a thin thickness between the circular part and the fixed square part to facilitate movement between the upper and lower sides. In the case of the valve hole 53 formed through the center of the fixing stopper 51, The portion where the valve stopper 52 hangs is smaller than the diameter of the valve stopper 52, and is formed slightly larger than the diameter of the valve stopper 52 from below the portion where the valve stopper 52 is mounted.

And the mounting of the fixed valve 50 first inserts the hollow bar 32 of the distribution plate 30 into the connection hole of the hot water inlet pipe 40 of the lower portion of the cooling reservoir 10, and then as much as the required amount according to the storage amount Lay out alternately, insert, and finally secure the valve to the upper hole of the hollow rod.

In addition, when the hot water does not flow out of the hot water reservoir, there is no flow of water to the hollow bar 32 of the distribution plate 30, so that the valve cap 52 of the fixed valve 50 is closed, and hot water flows out of the hot water reservoir. When the water in the hollow rod 32 of the distribution plate 30 is moved to the lower side the fixed valve 50 is opened to the water of the cooling reservoir 10 to the hollow rod 32 Will flow.

On the other hand, in the case of the cold and hot water purifier does not apply to the distribution plate 30, there is no fixed valve 50 and the hollow rod 32 is formed in a solid type simply fixed at the bottom, according to the above-described 180 degree arrangement of the multi-stage Of course, it is applicable to various cooling reservoir 10 with the same effect as in the embodiment.

In addition, in the present invention, an air inlet (not shown in the drawing) is formed separately from the cold water outlet 11 at the lower portion of the cooling reservoir 10 together with a distribution plate 30 that is easily detachable in multiple stages of the cooling reservoir 10. You can also improve performance.

And even when the size of the cooling reservoir 10 is small, the water temperature of the water inside the cooling reservoir 10, in particular, the upper and lower portions of the cooling reservoir 10 is largely different. The difference in water temperature is generated, which is a sudden rise in water temperature when it is mixed with the incoming water according to the cold water outflow.

Therefore, if the water in the cooling reservoir 10 is possible to reduce the temperature rise of the cooling reservoir due to the inflow of the water if the overall uniformity and low water temperature as possible, in the present invention crosses the multi-stage separator 30 Due to the long flow length by the intermixing with the water flowing from the top and stagnant or outflowing water in the lower portion can be prevented in advance, it is possible to increase the amount of cold water even in the continuous outflow of cold water.

That is, in the present invention, the water inside the cooling reservoir 10 is mixed with each other from the flow of water, but the cold cold water is not distributed into the hot water reservoir by the fixed valve 50 installed at the upper portion of the distribution plate 30. Only the backflow, which is one of the functions of the plate 30, is allowed to have the original function.

In addition, the cooling reservoir 10 of the system that was not previously applied to the distribution plate 30 is manufactured in the same structure to prevent the mixing of the cooling reservoir 10 water, laminar flow outflow function as well as to increase the cooling effect.

As described above, the multi-stage distribution plate of the easy-removable cooling reservoir according to the present invention is easily manufactured by applying a multi-stage reservoir distribution plate to the cold reservoir of the hot and cold water purifier and the cold / hot water purifier to apply the water to the inside of the cooling reservoir. The effect of obtaining a large amount of cold water from preventing mutual mixing, inducing water inflow into the bedflow, inducing cold water outflow, and the like can be provided.

Claims (3)

In the distribution plate of the cooling reservoir formed in the cooling reservoir 10 is coupled to the fixture 33 and the circular plate 31 on the upper and lower portion of the hollow bar 32, the circular plate 31 is hollow rod 32 The water inlet grooves 34, which are side holes, are each formed in a zigzag shape, and the circular plate 31 on the hollow bar 32 is fixed by a stopper 51. ) And a multi-stage distribution plate of an easy-removable cooling reservoir characterized in that it is coupled by a separate fixed valve 50 consisting of a valve stopper (52). According to claim 1, wherein the circular plate 31 is formed in the water inlet groove 34 is connected to the inside or the outside of the circular plate in the shape of a circular or ellipse and quadrilateral one side is arranged in a zigzag form opposite to each other, circular type In addition, the shape of the distribution plate 30 is determined in the elliptical and quadrangular type cooling reservoir 10, and the detachable refrigeration reservoir is characterized in that it is composed of a plurality of stages to be in close contact with the cooling reservoir (10). Multistage distribution plate. According to claim 1, wherein the fixed valve 50 is formed in a thin thickness between the circular circular portion and the fixed square portion of the valve stopper 52 to facilitate the mutual movement up and down, the middle of the fixed stopper 51 The portion of the valve plug 52 which is formed through the upper part of the valve hole 53 is smaller than the diameter of the valve cap 52, and the portion of the valve cap 52 to which the valve cap 52 is mounted is smaller than the diameter of the valve cap 52. Easily detachable multi-stage distribution plate of the cooling reservoir, characterized in that formed slightly larger.