KR100416219B1 - recycled device of desiccant - Google Patents

Abstract

The present invention relates to a regenerating apparatus of a desiccant such as silica gel, and a feature of the present invention is to regenerate a desiccant such as silica gel used to prevent moisture such as moisture (hereinafter referred to collectively as a desiccant). Therefore, it is to prevent environmental pollution by recycling the raw materials that are disposed of entirely in the past and to supply them at low cost.

According to the present invention, a vibrator 12, several inclined supports 13, and a support plate 14 are installed on the frame 11 so as to be vibrated, and a desiccant having a hopper 21 on the support plate 14. A storage bin 15 is installed, and a vibration supply hole 16 is formed at a lower side of the storage container 15, and a vortex-shaped diaphragm 17 starts from the vibration supply hole 16 at the lower side of the storage container 15. ) Is configured to be heated by the heater 20 and connected to the upper discharge passage 22, and the outer cylinder 18 of the reservoir 15 and the diaphragm 17 has a drying chamber 19 provided with a drying chamber 19. The desiccant moved to the upper side of the diaphragm 17 by installing a separate vibrator 23 on the upper portion of the controller 25 installed in the lower portion of the discharge passage 22 and connecting to the lower end of the discharge passage 22. To guide the discharge passage 22 side is configured to automatically fall to the collection box (24).

Description

Recycled device of desiccant

The present invention relates to a regenerating apparatus of a desiccant such as silica gel, and a feature of the present invention is to regenerate a desiccant such as silica gel used to prevent moisture such as moisture (hereinafter referred to collectively as a desiccant). Therefore, it is to prevent environmental pollution by recycling the raw materials that are disposed of entirely in the past and to supply them at low cost.

In general, various industrial sites, foods, etc., a desiccant made of silica gel or the like is used as a means for preventing corrosion due to moisture or moisture during transportation or storage.

Such a desiccant serves to prevent and protect the corrosion caused by moisture or moisture generated in the packaged article (for example, industrial equipment, food, equipment, etc.) inside the packaged article.

The various items to be packaged as mentioned above may be foods that are weak to moisture. In some cases, industrial equipment or equipment may be used. Such foods or equipment may be embedded with a desiccant made of silica gel. Corrosion and moisture impregnation are prevented.

The desiccant used for this purpose is mostly moved to a packaged state, and when the package is unpacked, the entire amount is discarded.

When the desiccant is disposed of, it pollutes the atmosphere or the environment by chemical reactions, and when incinerated, a large amount of smoke is generated along with the generation of odors. Given the current situation, it is a huge waste of foreign currency.

In other words, the desiccant such as silica gel, which has been used so far, is purchased at a high price and ends up being a lifetime after being used for one time. In addition to the expense of disposing of all the wastes, it also acted as a factor to waste huge foreign currency.

In particular, the soot or odor generated during the disposal as described above causes an environmental pollution, a fatal adverse effect in the process of decomposition by chemical reactions.

Therefore, the present invention has been made to solve the conventional problems as described above, the feature of the present invention is to prevent the corrosion caused by moisture in the packaging of various industrial equipment and foods, such as silica gel embedded to protect the contents By collecting all of the desiccant and drying it artificially, it is possible to reuse it at a low price, and also to prevent environmental pollution due to incineration or disposal. In particular, the present invention mostly relies on imports. It is possible to reduce enormous foreign currency by recycling, and on the other hand, it is possible to recycle the whole amount through the separate drying process of the desiccant that is used once and disposed of in the whole quantity, thereby reducing the cost of packing various items to a minimum. The above object of the present invention is described below. The structural features to achieve will be described in detail with the accompanying drawings.

1 is a perspective view showing a preferred embodiment of the present invention

Figure 2 is a front view of the operating state showing a part of the internal structure of the present invention

3 is a side view of the present invention

4 is a partial perspective view showing the internal configuration of the present invention

Explanation of symbols used in the main part of the drawing

10: playback device 11: frame

12: vibrator 13: support

14: support plate 15: reservoir

16: vibration supply hole 17: diaphragm

18: Menton 19: drying chamber

20: heater 21: hopper

22: discharge passage 23: vibrator

24: collection box 25: controller

1 is a perspective view showing a preferred embodiment of the present invention the present invention collects the desiccant collected by configuring the regeneration apparatus 10 to be able to reuse the entire collection of desiccant, such as silica gel when packaging the article When the hopper 21 is introduced, the external vortex diaphragm 17 vibrates by vibrating the operation of the vibrator 12 so that the unit particles can be automatically moved, but the unit particles of the desiccant are the regeneration device. It is characterized in that the drying can be completed by the heater 20 applied to the diaphragm 17 by allowing time to stay for a suitable time in the interior of the (10).

The present invention, as shown in Figure 1 is installed on the upper part of the frame 11, the vibrator 12 which can generate vibration vibration by the electromagnet, the edge portion of the several support 13 is formed to be inclined to promote vibration It is possible to, and the support plate 14 is installed on the upper portion connected to the support (13).

The storage plate 15 for storing the desiccant is installed on the upper portion of the support plate 14 so that the vibration operation can easily occur, the hopper 21 for supplying the desiccant is installed on the upper portion of the reservoir 15, The lower one side edge of the reservoir 15 forms a vibration supply hole 16 to move the desiccant inside the reservoir 15 to the outside.

The diaphragm 17 made of a spiral winding is formed on the outside of the edge so as to move the desiccant from the lower side vibration supply hole 16 of the reservoir 15 so as to be heated by the heater 20. 22).

At the outer circumference of the reservoir 15 and the diaphragm 17 to recirculate the net tube 18 to prevent the phenomenon that the internal desiccant is scattered when moving upward along the diaphragm 17 by the operation of the vibrator 12, the The interior of the net tube 18 makes it possible to use the drying chamber 19.

The controller 25 is installed at the lower portion of the discharge passage 22 so as to be controlled automatically by installing the controller 25 capable of operating the regeneration device 10, and at the rear side, a separate vibrator 23 is separately installed to discharge the passage ( 22, the vibrator 23 induces vibration by changing the polarity of the electromagnet instantaneously and guides the desiccant moved to the upper side of the diaphragm 17 to the discharge passage 22 to collect 24. Configured to fall automatically.

In the present invention, each vibrator 12, 23 may use a vibration type that generates vibration in accordance with the change in polarity of the electromagnet, but may use various types of vibrators 12, 23 capable of generating different types of vibrations. Of course, the controller 25 may also be configured to operate only when the supply of the desiccant is automatically provided by mounting a sensing means such as a sensor that can also detect and stop when the supply is cut off, the heater 20 ) May be provided with its own heating means to heat the diaphragm 17 and the reservoir 15 and the drying chamber 19 at the same time, it may be supplied so that the whole can be heated at the same time by hot air.

The present invention can be configured as described above is artificially collected by collecting all the desiccant, such as silica gel to prevent the corrosion caused by moisture or moisture during the packaging of various industrial equipment, equipment or food, and to protect the contents It can be reusable and can be supplied at a low price as well as drying, thereby contributing to the prevention of environmental pollution due to incineration or disposal. In particular, the present invention recycles enormous foreign currency by recycling raw materials, which are mostly dependent on imports. On the one hand, it is possible to recycle the whole amount by using a separate drying process for the desiccant that is used once and disposed of in a total amount, so that the cost of packaging various items can be reduced to a minimum. The use of the reproducing apparatus 10 for achieving the above object of the present invention The method and the reproduction process will be described in detail with the accompanying drawings.

In the case of collecting and regenerating the entire desiccant desiccant using the present invention, when the controller 25 is operated, the regeneration device 10 is operated, and in such a state, the regenerating desiccant is first opened and introduced through the hopper 21. When the desiccant is introduced into the reservoir 15 through the hopper 21.

The desiccant injected into the reservoir 15 is primarily dried by the heat of the heater 20 applied to the reservoir 15, the drying chamber 19, and the diaphragm 17.

As described above, in the process of slowly drying the desiccant, the vibrator 12 installed on the frame 11 is vibrated while the polarity is momentarily changed to shake the entire regeneration apparatus 10 with fine vibration.

In other words, such vibration operation causes a momentary minute vibration in the vibrator 12 to cause the vibration to vibrate the support plate 14 installed on the support 13, and this support 13 facilitates the transmission of vibration. It will play a role.

When the vibration vibration by the vibrator 12 is transmitted to the support plate 14, the storage cylinder 15, the vibration plate 17, and the mesh tube 18 on the support plate 14 are vibrated in a fine and continuous manner.

The vibration shakes the desiccant inside the reservoir 15, and the desiccant located at the lower side of the vibration supply hole 16 of the reservoir 15 among the desiccants exits the vibration supply hole 16 to form a vortex winding. Is moved onto (17).

At this time, since the mesh tube 18 is rotated outside the edge side of the spiral winding diaphragm 17, the desiccant is moved in an orderly manner.

The principle of the diaphragm 17 is a vibration-type moving means for moving the various types of articles of the same order in the order is already known, this principle is not intended to be protected in the present invention for the specific ascending process The description is omitted.

The particulate desiccant moved to the upper portion stays in the diaphragm 17 and the drying chamber 19 inside the mesh tube 18 for an appropriate time, so that the heat generated by the heater 20 and the friction during vibration of the diaphragm 17 are heated. As a result of heat, moisture, moisture, and the like contained in itself are dried.

When the moisture or moisture contained in the desiccant is removed during the drying process, the desiccant may be changed to the original color and may serve as a normal desiccant intended for the original purpose when the moisture or moisture contained therein is removed.

The present invention is dried in the same process as described above is moved to the upper through the diaphragm 17, the drying is mostly completed by the operation of the reservoir 15 and the diaphragm 17 installed in the drying chamber 19 and the mesh tube 18. It is moved to the discharge passage 22 side of the upper side.

As mentioned above, as the means for accurately transmitting the vibration vibration of the vibrator 12, the support plate 14 on the upper part of the frame 11 is installed by several inclined supports 13, which greatly increases the efficiency of vibration transmission. Since the reservoir 15, the diaphragm 17, and the entire net tube 18 on the support plate 14 are easily operated even by minute vibrations, the desiccant sufficiently moves through the diaphragm 17 even when a small sized vibrator 12 is used. Can be.

Once the desiccant, which is mostly dried, is moved upward and moved to the discharge passage 22 side, a separate vibrator 23 is provided at the lower side of the discharge passage 22 so that the desiccant is integrally installed with the discharge passage 22. Completed desiccant desiccant passing through the discharge passage 22 is moved to the outside as the lower vibrator 23 operates to be collected in a separate collection box 24.

In this way, the desiccant that has been dried is repackaged by an appropriate amount while passing through a measuring means such as a scale, thereby enabling distribution.

As described above, once the desiccant has been used, the desiccant contains an appropriate amount of moisture and moisture, and thus the color is not clear. Thus, the desiccant maintains a turbid color. After completion, the drying is completed while retaining the original vivid color, and it can be recycled for reuse. In particular, it is possible to recycle the desiccant that relies on imports. The problem of polluting the environmental pollution by disposing the desiccant can be solved.

As described above, the present invention recovers the present invention by collecting all the desiccants such as silica gel to prevent corrosion due to moisture or moisture and to protect the contents when packaging various items such as various industrial equipment, equipment or food. By artificially drying by the device 10, it can be reused and can be supplied at a low price as well as contributing to the prevention of environmental pollution due to incineration or disposal, and in particular, the present invention is mostly dependent on imports. By reusing raw materials, huge foreign currency can be saved, and on the other hand, the total amount can be recycled through a separate drying process using a desiccant that is used once and disposed of in a total amount. Is it expected to be the regeneration device of various desiccants by adding effects such as Chi is an excellent invention.

Claims (1)

The vibrator 12, the several inclined support 13 and the support plate 14 is installed on the upper portion of the frame 11 so as to vibrate, and the desiccant reservoir 15 is installed on the upper portion of the support plate 14, A hopper 21 is installed on an upper portion of the reservoir 15, and a vibration supply hole 16 through which a desiccant inside the reservoir 15 moves to the outside is formed at a lower side of the reservoir 15. The spirally wound diaphragm 17, which starts from the lower side vibration supply hole 16 of 15, is configured to be heated by the heater 20, connected to the upper discharge passage 22, and the reservoir 15 The outer periphery of the diaphragm 17 and the revolving barrel (18) so that the drying chamber 19 is provided therein, the controller 25 for operating the regeneration device 10 in the lower portion of the discharge passage (22) ) And a separate vibrator 23 is installed at the rear side to be connected to the lower end of the discharge passage 22 to vibrate. The moisture repellent regenerator moved to the upper side of the plate (17) is directed to the discharge passage 22 side, characterized in that it is configured to automatically fall to the collection box (24).