KR19990064676A - Water supply device to increase dissolved oxygen - Google Patents

Abstract

The present invention relates to a water supply device capable of increasing the amount of dissolved oxygen.

The conventional faucet was nothing more than a tap for passing water through.

In addition, by forming a micro network at the tip of the faucet, the dissolved water molecules passed through the disintegration of some oxygen, but there was a problem that does not increase the amount of dissolved oxygen even more.

The structure of the present invention is a structure that constitutes a multi-stage impact device as shown in Figure 1 at the end of the faucet.

As the molecules of water passing through the multi-stage shock device are completely destroyed, the amount of dissolved oxygen is increased.

Water passing through the faucet of such a structure contains a large amount of dissolved oxygen can have a variety of effects.

Description

Water supply device to increase dissolved oxygen

It is an invention for increasing the amount of dissolved oxygen contained in the water passed through the faucet roll.

The present invention belongs to the technical field of a faucet as a dissolved oxygen increasing device configured at the end of a faucet or a so-called Kobura faucet.

Conventional technology is to construct various types of protrusions at the end of the faucet to increase the amount of dissolved oxygen when the tap water passes, and to form a fine wire mesh at the end of the faucet to increase the dissolved oxygen amount as the water molecules are split As far as possible is the prior art.

In order to complete the faucet of the present invention, the final discharge port of the faucet should have a multi-stage structure as shown in the example of FIG. 1 but can be easily configured without technical difficulties.

Multi-stage impingement membranes should be constructed, especially in the internal collision membranes of internal structures.

1 is a reference perspective cross-sectional view showing a schematic view of the tap water in the present invention.

Figure 2 is a reference perspective view showing a plan view of the primary collision membrane in the present invention

Figure 3 is a reference perspective view showing a side view of the primary collision membrane in the present invention.

Explanation of symbols on the main parts of the drawings

1.1 Secondary collision membrane 2. Tap water inlet 3.2 Secondary outlet 4.2 Secondary collision membrane 5.3 Secondary outlet 6. Final outlet 7. Internal bump type membrane 8. Outer case 9. Side passage.

The structure of the faucet according to the present invention for achieving the above object is configured as follows.

Referring to the accompanying drawings, an embodiment of the present invention will be described.

Figure 1 shows a cross-sectional reference perspective according to the present invention.

In the final exit of the faucet, a multi-chamber structure as shown in the example of FIG. 1 is formed. When water passes through the inlet of the water, the first collision occurs at the inner collision membrane [7], and the water from the inner collision membrane [7] is 1 As it moves to the secondary collision membrane [1], it moves to the side passage [9] of the primary collision membrane [1] and passes through the secondary outlet [3]. After passing through the secondary impact film [4] and then through the side passage [9] through the tertiary outlet [5] is a structure that passes through the final outlet [6].

At this time, the impact device [1] [4] [7] and the discharge device [3] [5 □ [6] of the present invention constituted at the final part of the faucet may be assembled in multiple stages. Even if adjusted, it is natural that the present invention falls within the scope of the present invention because it does not depend on the increase of dissolved oxygen according to the number of layers of the impingement membrane.

After configuring the external device [8], insert the internal device [1] [3] [4] [5] and finally change the method of assembly since the final outlet [6] can be assembled by screwing. Even if it falls within the scope of the present invention is natural.

Effects of the present invention configured as described above are as follows.

As it passes through the collision membrane of the multi-stage structure, the amount of dissolved oxygen increases as the molecules of water are crushed.

Due to the structural characteristics of the water, wherever the natural dissolved oxygen is critical, the structure of the present invention is configured at the final exit of the faucet, and the amount of dissolved oxygen can be used.

Due to the influence of the inner impact film [7] formed in the concave-convex shape, air is introduced into the reverse through the final outlet [6], the secondary outlet [3] and the tertiary outlet [5].

Since the size of the discharged hole becomes larger than the inlet hole of the water formed inside the faucet, it is natural that air flows back through the wider area, so the amount of dissolved oxygen can be increased.

Claims (1)

Multi-stage impingement membranes [1] [7] [4] and outlets [3] [5] [6], which can be fixed or prefabricated at the final outlet, such as a general or cobra faucet, are capable of increasing dissolved oxygen. Device