KR200396242Y1 - Additive suppling apparatus - Google Patents

Abstract

The present invention relates to an additive supply device, the present invention, the storage tank 100 is stored the additive; A transfer pipe 200 provided inside the storage tank 100 to transfer a fluid flowing from an existing pipe P; A storage tank (100) provided at one side of the transfer pipe (200) to store additives supplied into the transfer pipe (200); A supply pipe 400 formed to communicate the storage tank 100 with the transfer pipe 200 to guide the additive into the transfer pipe 200; A filter assembly 300 formed to communicate with the transfer pipe 200 and filtering impurities in the transfer pipe 200; The connection pipe 120 is in communication with the transfer pipe 200 and the filter assembly 300, and is formed to be quickly connected to the existing pipe (P) so that the existing pipe (P) and the transfer pipe 200 can communicate with each other. The inner diameter of the transfer pipe is formed to be smaller than the inner diameter of the filter assembly is formed so that the venturi effect can be generated during the movement of the fluid. According to the present invention having such a configuration, there is an advantage that the performance is improved and the ease of use is increased.

Description

Additive suppling apparatus}

The present invention relates to an additive supply device, and more specifically, the filter assembly and a storage tank and a supply pipe for supplying an additive are integrally formed, and the additive supply device configured to communicate an existing pipe and a transfer pipe by a connection pipe. It is about.

In general, the additive supply device is to supply a certain amount of additives to the oil pipe through which the fluid is delivered to improve the properties of the fluid or to play a role that is appropriate for the purpose. It is widely used in various fields such as adding a cleaning solution in a bidet, or adding a medicine for treatment in a dental medical device.

The additive supply device has a structure in which a predetermined amount of additives are continuously supplied to the inside of the oil pipe at regular intervals in a storage tank in which the additives are stored.

However, in the structure in which the additives are supplied at regular intervals, regardless of the amount of the original fluid to which the additives are added, a certain amount is continuously supplied, making it difficult to control the total amount of the additives. There is a problem that cannot be adjusted.

In addition, in order to automatically supply the additives at regular intervals, there are problems in cost, such as a large number of configurations and equipment investment, such as a supply valve for supplying the additive and a power source for driving the supply valve. There is this.

In order to solve the above problems, Korean Patent Laid-Open Publication No. 10-2004-0027528 discloses a proportional chemical input device in which an additive is supplied by a pressure generated in a venturi tube without using power.

The disclosed patent is supplied to the drug by the pressure of the fluid passing through the venturi tube without a separate power, wherein the drug is introduced at a constant rate in accordance with the flow rate of the fluid passing through the venturi tube. And artificial dose adjustment of the chemical is possible through the operation of the dose control valve.

However, the prior art as described above has the following problems.

In this conventional technology, since the additive supply device is designed and manufactured together when constructing the pipe, it is difficult to impose a function of supplying a separate chemical or additive in the already configured piping system, which makes it difficult to apply to various products. There is this.

In addition, in a piping system that requires the supply of additives, the storage tank, the filter, and the supply pipe are formed in separate configurations, so that the space occupied by them becomes wider, which makes it difficult to miniaturize and simplify the product.

An object of the present invention is to solve the problems of the prior art as described above, the storage tank and the supply pipe for supplying the filter assembly and additives are integrally formed, the existing pipe and the transfer pipe is configured to communicate with the connection pipe It is to provide an additive feeder.

In a preferred embodiment of the additive supply apparatus according to the present invention for achieving the above object, a storage tank for storing the additive; A transfer tube provided inside the storage tank and transferring fluid flowing from an existing pipe; A storage tank provided at one side of the transfer pipe to store additives supplied into the transfer pipe; A supply pipe configured to communicate the storage tank with the transport pipe, and to guide an additive into the transport pipe; A filter assembly formed to communicate with the transfer pipe and filtering impurities in the transfer pipe; The transfer pipe and the filter assembly are in communication with each other, and are formed to enable quick connection with the existing pipe, and include an existing pipe and the transfer pipe so as to communicate with each other, the inner diameter of the transfer pipe is the inner diameter of the filter assembly It is formed smaller than it is formed so that the Venturi effect can occur during the movement of the fluid.

The connector consists of a one-touch fitting that mates with an end of an existing pipe for connection.

The connector consists of a coupler that mates with an end of an existing pipe for connection.

The connecting pipe is further formed with a fixing projection to be inserted into the fixed inside of the existing pipe for connection.

One side of the supply pipe is further provided with a backflow prevention device for preventing the back flow of the fluid inside the transfer pipe.

The filter assembly is provided inside the storage tank.

The filter assembly is mounted to communicate with both ends of the transfer pipe.

The filter assembly is formed such that the life of the filter provided inside is the same as the exhaustion time of the additives stored in the storage tank.

The filter assembly is provided outside the storage tank.

The filter assembly is mounted to communicate with both ends of the transfer pipe at both sides of the storage tank.

The filter assembly is mounted to be selectively detachable from the storage tank.

According to the present invention having such a configuration, there is an effect that the performance is improved and the ease of use is increased.

Hereinafter, the additive supply apparatus according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view schematically showing the configuration of a preferred embodiment of the additive supply device according to the present invention, Figure 2 is a cross-sectional view schematically showing the configuration of another embodiment of the additive supply device according to the present invention, The additive supply device according to the present invention includes a storage tank 100, a transfer pipe 200, a connection pipe 120, a filter assembly 300, and a supply pipe 400.

The storage tank 100 forms an external shape of the additive supply device, and a space for providing the transfer pipe 200, the supply pipe 400, and the filter assembly 300 including additives is formed therein.

The transfer pipe 200 is a pipe through which the fluid of the existing piping system flows and is provided inside the storage tank 100, and communicates with the supply pipe 400 to be described below to supply additives.

The filter assembly 300 filters impurities contained in the fluid flowing along the transfer pipe 200, and filters the filter 320 for filtering and the filter case 340 for protecting the filter 320. It consists of a combination of

The filter assembly 300 is provided inside the storage tank 100, one end of the filter assembly 300 is in contact with one end of the transfer pipe 200, the other side of the filter assembly 300. An end is in contact with the storage tank 100.

The filter assembly 300 may be provided on both sides of the inner side of the storage tank 100, and only one of the filter assemblies 300 may be provided on one side of the inner side of the storage tank 100 as necessary.

The life of the filter 320 in the filter assembly 300 is proportional to the capacity of the storage tank 100, that is, the capacity of the additives stored in the storage tank 100, so that the interior of the storage tank 100 is maintained. When all of the additives are exhausted, the filter 320 is formed to reach the end of its life.

In addition, if necessary, the capacity of the storage tank 100 may be set according to the life of the filter 320.

On the other hand, the inner diameter of the filter assembly 300 in contact with the transfer pipe 200 is formed larger than the inner diameter of the transfer pipe 200. Therefore, a flow path having a larger inner diameter is formed at the left and right sides of the transfer pipe 200, and thus, the venturi effect may naturally occur in the inside of the transfer pipe 200.

In addition, the filter assembly 300 is mounted to communicate with each other on both sides of the transfer pipe 200, it is in contact with the inner both sides of the storage tank (100). At this time, both sides of the storage tank 100 in contact with the filter assembly 300 is formed so that the connection pipe 120 is in communication with the filter assembly 300.

Therefore, the connecting pipe 120, the filter assembly 300 and the transfer pipe 200 are all in communication with each other to form a passage through which the fluid can flow.

The connection pipe 120 is a tube protruding outward from both sides of the storage tank 100, is formed to be selectively connected to the existing piping (P) system. That is, a plurality of fixing protrusions 122 are formed along the outer circumference of the connection pipe 120 so as not to be easily removed by being inserted into the existing pipe P formed of a flexible material.

The fixing protrusion 122 may be formed in a wedge shape inclined in the insertion direction of the connection pipe 120 to facilitate insertion of the connection pipe 120 and to prevent detachment.

In addition, although not shown, the connection pipe 120 may be equipped with a one-touch fitting, which is generally used for connecting a hose, and is quickly connected / disconnected to an existing pipe P of a rigid material such as metal or plastic. A coupler may be mounted so that it can be.

That is, the one-touch fitting or coupler having a shape that matches each other is configured in the existing pipe P corresponding to the connection pipe 120 and the connection pipe 120 to selectively select the existing pipe P and the connection pipe 120. Will be able to connect.

Therefore, both ends of the existing pipe (P) and the connection pipe 120 on both sides of the storage tank 100, and the filter assembly 300 and the transfer pipe 200 inside the storage tank 100 are all in communication. Is formed to be so that the fluid of the existing pipe (P) is formed to flow along the existing pipe (P) again through the filter assembly 300 and the transfer pipe (200).

The structure of the one-touch fitting and the coupler is general, and a detailed description thereof will be omitted.

On the other hand, the supply pipe 400 is mounted on the inner lower portion of the storage tank 100. The supply pipe 400 is for supplying additives to the fluid flowing through the transfer pipe 200, and both ends thereof open to form an outlet 420 and an inlet 440.

The outlet 420 is an open upper end of the supply pipe 400, and the upper end of the supply pipe 400 allows the supply of additives into the supply pipe 400 through the outlet 420. The outlet 420 is positioned inside the venturi part 260.

The inlet 440 is formed to be opened at the lower end or one side of the supply pipe 400 so that the additive in the storage tank 100 can be introduced, the inlet 440 is the bottom surface of the storage tank 100 It is formed to be adjacent to.

Accordingly, the inner side of the storage tank 100 and the inner side of the transfer tube 200 are communicated by the supply pipe 400 inserted into the transfer tube 200, and the transfer tube 200 and the storage are connected. The additive in the storage tank 100 is introduced into the transfer pipe 200 by the pressure difference in the tank 100.

And, one side of the supply pipe 400 is provided with a backflow prevention device 460. The backflow prevention device 460 is for preventing the fluid flowing in the transfer pipe 200 from flowing back into the supply pipe 400, and is provided on the supply pipe 400.

The backflow prevention device 460 is formed to communicate with the supply pipe 400, the additive of the supply pipe 400 is formed to flow into the transfer pipe 200 via the backflow prevention device 460, the transfer When the fluid inside the pipe 200 flows back into the supply pipe 400, the fluid is formed to shield the supply pipe 400.

Such a backflow prevention device 460 is a general description of the detailed structure will be omitted.

On the other hand, the upper portion of the storage tank 100 is formed with an air inlet 140 is opened so that the inside of the storage tank 100 to maintain the atmospheric pressure, it is also possible to add additives through the air inlet 140 have.

The air inlet 140 may be manufactured in a cap type as necessary, and in this case, the air inlet 140 may be selectively shielded to make the interior of the storage tank 100 a closed space.

Although not shown, the storage tank 100 may be formed in a sealed flexible bag shape. At this time, the additive that requires a closed space such as gas is stored.

Hereinafter, the operation of the preferred embodiment of the additive supply device according to the present invention having the configuration as described above with reference to the drawings.

Figure 3 is a state diagram showing the additive supply state of a preferred embodiment of the additive supply device according to the present invention, as shown in the figure, the cut portion of the existing pipe (P) or the water purifier, bidet, or dental medical equipment, etc. When the connection pipe 120 is inserted into the end for connection or connected to form, the additive supply device is mounted to the existing pipe (P).

The fluid flowing through the existing pipe P is introduced into the filter assembly 300 via the connection pipe 120. Impurities are filtered by the filter 320 inside the filter assembly 300 in the fluid introduced into the filter assembly 300.

The fluid filtered through the filter assembly 300 is introduced into the transfer pipe. At this time, the fluid passing through the filter assembly 300 having a wide inner diameter of the flow path reaches the transfer pipe 200 in which the flow path is narrowed. Will be faster.

As the flow rate increases inside the transfer pipe 200, the pressure inside the transfer pipe 200 is lower than the pressure of the storage tank 100, whereby additives stored in the storage tank 100 are stored. It is introduced into the transfer pipe 200.

That is, while atmospheric pressure acts on the supply pipe 400 in communication with the storage tank 100, the pressure inside the transfer pipe 200 becomes relatively low due to an increase in the flow rate, and thus, the inside of the storage tank 100. An additive of the can be introduced into the transfer pipe 200 through the supply pipe 400.

Therefore, the faster the flow rate inside the transfer pipe 200, the greater the pressure difference between the storage tank 100 and the transfer pipe 200, and thus the additives supplied into the transfer pipe 200. The amount of is increased so that the supply amount of the additive is actively controlled as the flow rate increases.

The fluid mixed with the additive inside the transfer pipe 200 is filtered once again while passing through the filter assembly 300 in communication with the other side (right side) of the transfer pipe 200, and the connection pipe 120 After passing through the existing pipe (P) again.

Meanwhile, as shown in FIG. 2, when only one filter assembly 300 is provided at one side (left side) of the storage tank 100, a fluid in which additives are mixed inside the transfer pipe 200 is stored in the storage tank. Through the connection pipe 120 formed on the side (right) of the 100 is introduced into the existing pipe (P).

On the other hand, the life of the filter 320 and the exhaustion time of the additive is formed to be the same as the end of the life of the filter 320 and at the same time the additive is exhausted in the storage tank 100 to replace and replace the filter 320 Must be supplemented together.

To this end, by separating the connection pipe 120 of the additive supply device from the existing pipe (P) by connecting the connection pipe 120 and the existing pipe (P) of the new additive supply device made a new filter and additives at the same time You lose.

On the other hand, Figure 4 is a cross-sectional view showing the configuration of another embodiment of the additive supply apparatus according to the present invention, looks in detail as shown in the drawings below.

The configuration of another embodiment of the additive supply device is formed similarly to the overall configuration of the preferred embodiment and other embodiments, and the detailed description thereof will be omitted.

As shown in the drawing, a transfer pipe 200 is provided inside the storage tank 100, and a supply pipe 400 is provided at one side of the transfer pipe 200. The inner side of the storage tank 100 and the inner side of the transfer tube communicate with each other by the supply pipe 400.

In addition, a filter assembly 300 is provided on an outer surface of the storage tank 100, and the filter assembly communicates with one end (left side in FIG. 4) of the transfer pipe 200 inside the storage tank 100. .

At this time, the filter assembly is configured to be coupled by one-touch fittings, couplers and screw coupling, etc. to be selectively separated from the storage tank (100).

The connection pipe 120 is formed at one side of the filter assembly 300, and the connection pipe 120 is formed to be quickly connected to the existing pipe P, and thus the existing pipe P and the filter assembly. 300 and the transfer pipe 200 are all communicated to form a continuous flow path.

In addition, a connection pipe 120 is formed on a side surface (right side in FIG. 4) of the storage tank 100 corresponding to the surface on which the filter assembly 300 is mounted.

Hereinafter, the operation of another embodiment of the additive supply apparatus according to the present invention having the configuration as described above will be described with reference to the drawings.

5 is a state diagram showing an additive supply state of another embodiment of the additive supply device according to the present invention, the existing pipe (P) and the connecting pipe 120 of the additive supply device is connected to the additive supply device is an existing pipe ( P) is mounted on the system.

In addition, the fluid inside the existing pipe P is introduced into the filter assembly 300 through the connection pipe 120, and impurities are filtered by the filter 320 provided inside the filter assembly 300.

Fluid flowing along the inside of the filter assembly 300 is introduced into the inside of the transfer pipe 200. At this time, the inner diameter of the transfer pipe 200 is formed to be smaller than the inner diameter of the filter assembly 300 so that the flow rate in the interior of the transfer pipe 200 is faster.

As the flow rate increases in the transfer pipe 200, a pressure difference occurs between the storage tank 100 and the transfer pipe 200, and maintains atmospheric pressure inside the transfer pipe 200 having a relatively low pressure. Additives inside the storage tank 100 at high pressure are introduced through the supply pipe 400.

The fluid mixed with the additive inside the transfer pipe 200 flows back into the existing pipe P through the connection pipe 120 formed on one side (right side in FIG. 5) of the storage tank 100.

The scope of the present invention is not limited to the above embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

For example, in the embodiment of the present invention, the fluid of the existing pipe (P) is sequentially passed through the connecting pipe 120, the filter assembly 300 and the transfer pipe 200, etc. from the left side of the existing pipe (P) Although configured to flow to the right side of the pipe (P), if necessary, it may be configured to flow to the left side of the existing pipe (P) from the right side of the existing pipe (P) on the contrary, in this case, mounting the filter assembly 300 It will be appreciated that the location may change.

In the additive supply apparatus according to the present invention as described above, the feed pipe and supply pipe for supplying the additive is provided inside the storage tank, and the filter assembly for removing impurities mixed in the fluid inside or outside the storage tank. It is mounted integrally.

In addition, a connection pipe selectively connectable to an existing pipe is formed in the storage tank or the filter assembly, wherein the connection pipe is formed to communicate with the transfer pipe and the filter assembly to supply an additive to the fluid flowing from the existing pipe. This becomes possible.

Therefore, it is possible to easily connect an additive supply device that can improve the function of expensive dental equipment, water purifier, bidet, etc., thereby reducing the installation cost and adding the function of additive supply without replacing the entire system. You can expect the performance improvement effect.

Then, the life of the filter that is a consumable part to match the capacity of the additives stored in the storage tank so that the end of the life of the filter and the point of exhaustion of the additive, the replacement of the filter by replacing the additive supply itself And the supply of additives can be performed at the same time to improve the ease of use.

In addition, since the additives of the storage tank are constantly supplied by the venturi effect of the transfer pipe, it is possible to supply the additives without having a separate component such as a separate valve or float, thereby reducing the manufacturing cost of the product. It works.

In addition, the flow rate of the additives can be supplied in a concise configuration without using a separate control device, thereby minimizing malfunctions and failures.

1 is a cross-sectional view schematically showing the configuration of a preferred embodiment of the additive supply apparatus according to the present invention.

Figure 2 is a schematic cross-sectional view showing the configuration of another embodiment of the additive supply apparatus according to the present invention.

Figure 3 is a state diagram showing the additive supply state of the preferred embodiment of the additive supply apparatus according to the present invention.

Figure 4 is a cross-sectional view showing the configuration of another embodiment of the additive supply apparatus according to the present invention.

Figure 5 is a state showing the additive supply state of another embodiment of the additive supply apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Storage tank 120. Connector

122. Fixing protrusion 140. Air inlet

200. Transfer pipe 300. Filter assembly

320. Filter 340. Filter case

400. Supply line 420. Outlet

440. Inlet 460. Backflow prevention device

P. Existing Piping

Claims (11)

A storage tank in which additives are stored; A transfer tube provided inside the storage tank and transferring fluid flowing from an existing pipe; A storage tank provided at one side of the transfer pipe to store additives supplied into the transfer pipe; A supply pipe configured to communicate the storage tank with the transport pipe, and to guide an additive into the transport pipe; A filter assembly formed to communicate with the transfer pipe and filtering impurities in the transfer pipe; In communication with the transfer pipe and the filter assembly, and formed to enable a quick connection with the existing pipe is configured to include a connection pipe so that the existing pipe and the transfer pipe can communicate with each other, The inner diameter of the transfer pipe is formed to be smaller than the inner diameter of the filter assembly is formed so that the venturi effect can be generated when the fluid moves. The additive supply device according to claim 1, wherein the connection pipe is composed of a one-touch fitting that mates with an end of an existing pipe for connection. The additive supply device according to claim 1, wherein the connector comprises a coupler that mates with an end of an existing pipe for connection. The additive supply device according to claim 1, wherein the connection pipe is further formed with a fixing protrusion which is inserted into and fixed to an existing pipe for connection. According to any one of claims 2 to 4, One side of the supply pipe, The additive supply device further comprises a backflow preventing device for preventing the back flow of the fluid inside the transfer pipe. The additive supply apparatus according to any one of claims 1 to 4, wherein the filter assembly is provided inside the storage tank. The additive supply apparatus according to claim 5, wherein the filter assembly is mounted to communicate with both ends of the transfer pipe. The method of claim 7, wherein the filter assembly, The additive supply device, characterized in that the life of the filter provided on the inside is formed to be the same as the exhaustion time of the additive stored in the storage tank. The additive supply apparatus according to any one of claims 1 to 4, wherein the filter assembly is provided outside the storage tank. 10. The additive supplying apparatus of claim 9, wherein the filter assembly is mounted to communicate with both ends of the transfer pipe at both sides of the storage tank. The additive supply apparatus of claim 10, wherein the filter assembly is mounted to be selectively detachable from the storage tank.