• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to an aeration pump used for sewage treatment of a septic tank, and more particularly, to an intake of external air of an electric bubble generator and a discharge structure of generated bubbles. The present invention is to configure the air discharge pipe of the diaphragm so that the path of the air discharged from the diaphragm (diaphragm) can be configured on the vertical lower line, by a vertical load without a separate fixing means using a connection pipe of a flexible material It can be fixed and coupled with the air discharge pipe of the diaphragm, and also formed by integrating the external air discharge pipe on the inner bottom of the lower case, so that the air discharged from the air discharge port of the diaphragm can flow in a vertical line on the air discharge pipe. It is configured to prevent the lowering of the air pressure discharged to the outside so that the air discharge for the smooth generation of bubbles can be made. In addition, by integrating the filter means of the air inlet and inflow air into the case, so as not to configure the filter means separately.
    公开号:KR20030066531A
    申请号:KR1020030048008
    申请日:2003-07-14
    公开日:2003-08-09
    发明作者:김용길
    申请人:김용길;
    IPC主号:
    专利说明:

    Electric bubble generator {Air pump}
    [5] The present invention relates to an aeration pump used for sewage treatment of a septic tank, and more particularly, to an intake of external air of an electric bubble generator and a discharge structure of generated bubbles.
    [6] Manure and urban sewage are increasing due to population concentration and urbanization, and water pollution such as rivers is intensifying due to this, and such treatment problems such as manure and domestic sewage have become a very important factor due to environmental problems. .
    [7] In each household or building, a septic tank was installed to settle the diluted manure discharged from the flush toilet.However, treatment with anaerobic microorganisms was unable to efficiently treat the manure, and water pollution increased due to the decrease of dissolved oxygen. Due to this, water flows into the inner surface of the water, causing green algae and red algae due to the increase of nitrogen and phosphorus, causing the death of aquatic organisms.
    [8] Therefore, in order to solve such a problem, in recent years, in the treatment of manure of a septic tank, in order to increase the oxygen dissolved amount by installing an aeration device using an air pump to increase the biodegradation of organic matter by aerobic microorganisms and the oxygen dissolution rate of water. The system is legally regulated.
    [9] The present invention is to propose an electric bubble supply device used in such a septic tank system.
    [10] 1 is a view showing an example of a conventional electric bubble supply device.
    [11] Conventional electric bubble supply device, the lower case 200, the motor assembly 100 is mounted, the upper case 300 is coupled to the lower case 200 and formed with an inlet 301 for inflow of external air on the upper surface ), A filter cover 302 having a filter means 400, such as a sponge for air introduced into the inner surface of the inlet 301, and an air intake port on one side of the motor assembly 100. The air outlet 502 is formed at the opposite side to the 501 and the air is introduced into the interior through the filter cover 302 by vibrating pumping by the action in the motor assembly 100 while being coupled to the motor assembly 100. The diaphragm (500) for inhaling and discharging the sucked air, and is connected to the air outlet 502 and the other side is connected to the air tank (800) configured on the bottom of the lower case 200 is connected to the diaphragm (500) Air discharged from the air tank (800) Inside the discharge hose 600, the air tank 800 for discharging the air delivered from the discharge hose 600 to the outside through the air discharge pipe 801, and the damper 900 for the vibration transmission of the motor assembly 100 It is configured to include.
    [12] Referring to the operation according to the structure of the conventional electric bubble supply device as follows.
    [13] The filter cover 302 for injecting outside air to the upper side is coupled, and the filter means 400 using means having a network structure is embedded in the filter cover 302 to be positioned on the air inflow path.
    [14] The motor assembly 100 is fixed on the lower case 200 through a damper 900 to reduce the generated vibration, and has a configuration in which the diaphragm 500 for intake and discharge of air is coupled to both sides thereof.
    [15] The diaphragm 500 has an air inlet 501 and an air outlet 502 horizontally formed at right and left sides, and an exhaust hose 600 is connected to the air outlet 502 to induce compressed air to the air tank 800. do.
    [16] The discharge hose 600 is made of a rubber material bent in a ' ' shape, and coupled to the air outlet 502, is separated from the air outlet 502 by the vibration pumping pressure, or discharged It has a structure that is tightened on the air discharge using a separate fixing band 700 so that the air does not leak.
    [17] The bottom of the lower case 200 constitutes an air tank 800, the air tank 800 constitutes an air outlet 801 for discharging air to the septic tank for the generation of bubbles.
    [18] In the conventional electric bubble supply device, when the motor mounted in the motor assembly 100 is operated by supplying power, the diaphragm 500 vibrates by the action of the motor.
    [19] Accordingly, the air introduced into the inside through the filter cover 302 configured in the upper case is introduced into the air inlet 501 formed as one side of the diaphragm 500, and the introduced air is compressed by vibrating pumping action, and then, one side It is delivered to the air tank 800 formed on the bottom of the lower case 200 through the discharge hose connected to the air outlet 502 formed in the air, the air collected in the air tank 800 is discharged to the outside through the air discharge pipe 801 do.
    [20] According to this conventional structure, since the discharge hose from the diaphragm is coupled to the air outlet of the diaphragm, it is necessary to fix the discharge hose to the air outlet by using a separate means such as a fixing band in consideration of the vibration pumping pressure, Unnecessary work has to be added, and there is also a risk of air leakage between the exhaust hose and the air outlet of the diaphragm.
    [21] In addition, the air tank is configured on the bottom surface of the lower case in consideration of the air pressure discharged from the diaphragm, but rather, the air pressure discharged is lowered, so that the supply of bubbles may not be smooth.
    [22] In addition, according to the conventional structure, a separate filter cover and a fastening means such as a screw for fastening the filter cover should be configured. Accordingly, even in the work process, a work process for constructing the filter unit for inflow of external air is required. .
    [23] In view of the above, the present invention configures the air discharge pipe of the diaphragm so that the path of the air discharged from the diaphragm can be configured on the vertical lower line, without a separate fixing means by using a connection pipe made of a flexible material. It is to be fixed to the air discharge pipe of the diaphragm by the vertical load.
    [24] In addition, an external air discharge pipe is formed integrally with the inner bottom surface of the lower case, and the air discharged from the air discharge port of the diaphragm can be introduced on the air discharge pipe in a vertical line to reduce the decrease in the air pressure discharged to the outside. It is to prevent the air to be made for the smooth generation of bubbles to prevent.
    [25] And the filter means of the air inlet and inflow air is integrated into the case, so that the filter means are not configured separately.
    [1] 1 is a perspective view for showing the configuration of a conventional electric bubble generator.
    [2] Figure 2 is a perspective view for showing the configuration of the electric bubble generator of the present invention.
    [3] Figure 3 is a front view for showing the configuration of the electric bubble generator of the present invention.
    [4] Figure 4 is a perspective view for showing the bottom configuration of the lower case in the present invention.
    [26] The present invention, in the electric bubble supply device for discharging air for bubble generation,
    [27] On the coupling surface of the upper case and the lower case to form an air inlet filter for filtering the inflow and inflow of external air,
    [28] The air inlet filter unit forms a joining surface with the upper case extending horizontally by a predetermined length from the joining portion with the upper case, and forms an air inlet hole so that air can be introduced to the outside on the joining surface, The cover part is formed to cover the joining surface at the position of the upper case corresponding to the joining surface of the case, and the filter is attached to the inner surface of the cover so that the filter covers the air inlet hole while the cover part covers the joining surface when joining the lower case. It is characterized by having a coupling structure covering.
    [29] And the present invention, the air outlet formed in the diaphragm is formed in a vertical line in the downward direction, the air inlet path for the air discharge pipe for discharging air to the outside can be provided vertically the air discharged from the air outlet of the diaphragm It is formed on the bottom surface of the lower case to have, the diaphragm and the air outlet is characterized in that connected on a vertical line through a connection pipe made of a material having flexibility.
    [30] And the air discharge pipe is formed integrally with the lower case but maintains the shape of the tube as it is, is formed to be pushed upward from the bottom surface of the lower case characterized in that it has a reinforcing support structure for the pumping pressure transmitted vertically.
    [31] The present invention having the above characteristics will be described with reference to the embodiments shown in FIGS. 2 to 4 as follows.
    [32] The lower case 20 in which the motor assembly 10 is mounted, the upper case 30 coupled to the lower case 20, and the motor mounted in the motor assembly 10 in a state of being coupled to the motor assembly 10. The diaphragm 40 which discharges the air which flowed in by vibration pumping by the action, the air discharge pipe 50 which discharges the air discharged from the diaphragm 40 to the outside, and the motor assembly 10 are lower case 20 It is configured to include a damper (60) for holding and holding the coupling on the), to prevent the vibration generated in the motor assembly 10 is transmitted on the lower case (20),
    [33] On the coupling portion of the upper case 30 and the lower case 20 is formed an air inlet filter portion for filtering the inflow and inflow of external air, the air inlet filter portion horizontally from the coupling portion with the upper case 30 Coupling surface 21 is formed with the upper case extending, the air inlet hole (21a) is formed so that air can be introduced to the outside on the coupling surface 21, the coupling surface 21 of the lower case 20 The cover part 31 is formed to cover the coupling surface 21 at the position of the upper case 30 corresponding to the cover case 31, and the filter 70 is attached to the inner surface of the cover part 31.
    [34] And the air discharge port 42 formed in the diaphragm 40 is configured in a vertical line in the direction of the air discharge pipe 50 of the lower case 20, the air discharge pipe 50 is the air discharge port (of the diaphragm 40 ( It is formed on the inner bottom surface of the lower case 20 so as to have an air inlet path that can be received vertically from the air discharged from 42, the diaphragm 40 and the air discharge pipe 50 is made of a flexible material connection It has a structure that is connected on the vertical line through the pipe (80).
    [35] Reference numeral 41, which is not described, is an air intake port of the diaphragm 40.
    [36] And the air discharge pipe 50 is formed integrally with the lower case 20, but maintains the tube shape as it is, is formed to be pushed upward from the bottom surface of the lower case 20 for the air pumping pressure transmitted vertically It has a reinforcing support structure.
    [37] The present invention having such a configuration is to improve the structure of reducing the production cost and workability by improving the structure of the air intake and discharged intake air, and to improve its performance in supplying air for bubble generation In this thing,
    [38] The air inlet filter unit is configured to introduce and filter external air onto a coupling portion of the upper case 30 and the lower case 20.
    [39] The air inflow filter unit forms a coupling surface 21 extending from the lower case 20 on the coupling portion with the upper case 30, and the air inlet hole 21a to allow external air to flow into the coupling surface 21. Is formed.
    [40] And when the cover part 31 is formed on the upper case 30 to a position corresponding to the coupling surface 21 to combine the upper case 30 and the lower case 20, the cover part 31 is coupled It is made of a structure that is coupled while covering the surface (21).
    [41] In this case, a filter 70 is attached to the inside of the cover part 31 so as to cover the air inlet hole 21a formed in the coupling surface 21, so that the inflowing air is filtered through the filter 70. To help.
    [42] And the air discharge port 42 of the diaphragm 40 is configured to face the air discharge pipe 50 in a vertical line toward the bottom, the air discharge pipe 50 is air in a vertical line with the air discharge port 42 of the diaphragm 40 on both sides It is configured on the inner surface of the lower case 20 so that the inflow path is formed to connect the air outlet 42 and the air discharge pipe 50 vertically through the connection pipe (80).
    [43] The connecting pipe 80 is configured by using a material having flexibility, the inner diameter of the air discharge port 42 and the inner diameter of the connection portion of the air discharge pipe 50 or the same as slightly smaller configuration, when combined in the interference fit type The pipe 80 is in close contact with the outside of the air outlet 42 and the air discharge pipe 50 to prevent the air from leaking.
    [44] In addition, the air outlet 42 into the connection pipe 80 by forming a taping surface by taping the coupling portion of the air outlet port 42 and the air outlet pipe 50 coupled to the connecting pipe 80. The coupling portion of the coupling portion and the air discharge pipe 50 to be easily coupled to induction.
    [45] That is, the coupling portion of the air discharge port 42 or the air discharge pipe (50) taping into the connection pipe 80 is fitted, and then tightened according to the shape of the outer diameter gradually widened and can be coupled into the connection pipe (80) To provide.
    [46] Therefore, no separate fixing band is required.
    [47] As such, the present invention is configured in such a way that the vertical load of the motor assembly 10 is transmitted to the connection pipe 80. The vibration generated in the motor assembly 10 is absorbed through the connection pipe 80. Has a structure.
    [48] The air discharge pipe 50 is formed on the inner bottom surface of the lower case 20, as shown in Figure 4, is formed in a shape pushed in a predetermined depth from the bottom surface of the lower case 20 from the diaphragm 40 It is configured to have a reinforcing support structure for the pumped air to be delivered in a vertical phase directly to the air discharge pipe (50).
    [49] Referring to the operation of the present invention having the characteristics of the air intake and discharge structure as follows.
    [50] When the power is supplied, the motor is operated. Accordingly, the diaphragm 40 coupled to both sides of the motor assembly 10 is vibrated by the action of the motor mounted on the motor assembly 10.
    [51] The air path is introduced into the cover part 31 of the upper case 30 through the air inlet hole 21a from the bottom of the coupling surface 21 of the lower case 20.
    [52] Air is introduced into the case through the filter 70 of the cover portion 31, is sucked into the diaphragm 40 through the air inlet 41 of the diaphragm 40, is vibrating pumped by the action of the motor It is discharged through the air outlet 42.
    [53] The air discharged in this way is directly transmitted to the air discharge pipe 50 through the connection pipe 80, it is supplied to the outside through the air discharge pipe (50).
    [54] According to the present invention as described above, since the inlet and filter means of the air is integrally configured in the case, it is possible to improve the work process and lower the cost to combine the separate filter means.
    [55] In addition, by discharging the air discharge path to the outside through the air discharge pipe directly on the vertical line, it does not need the discharge hose required for the air discharge path from the conventional horizontal to the lower portion, and thus the discharge hose The fixing band for fixing to the air outlet of the diaphragm is not necessary, as well as a smooth supply of air can be supplied.
    [56] In addition, since the vertical load is transmitted as it is to the connecting pipe for providing a path of air, there is an effect that can reduce the vibration generated in the motor assembly.
    权利要求:
    Claims (4)
    [1" claim-type="Currently amended] In the electric bubble supply device for discharging air for bubble generation,
    The air discharge port 42 formed in the diaphragm 40 is configured in a vertical line in the direction of the air discharge pipe 50 of the lower case 20, and the air discharge pipe 50 is the air discharge port 42 of the diaphragm 40. It is formed in the lower case 20 so as to have an air inlet path that can receive the air discharged from the vertical, the diaphragm 40 and the air discharge pipe 50 is made through a connecting pipe 80 made of a flexible material Electro-bubble generating device having a structure that is connected on a vertical line.
    [2" claim-type="Currently amended] The apparatus of claim 1, further comprising an air inlet filter configured to filter inflow and outflow of external air on a coupling portion of the lower case (20) and the lower case (20).
    [3" claim-type="Currently amended] According to claim 2, wherein the air inlet filter portion forms a coupling surface 21 with the upper case extending horizontally from the coupling portion with the upper case 30, the air flows in on the coupling surface 21 to the outside The cover 31 is formed to form an air inlet hole 21a to cover the coupling surface 21 at a position of the upper case 30 corresponding to the coupling surface 21 of the lower case 20. And an air bubble generating device having a structure in which a filter (70) is attached to an inner surface of the cover part (31).
    [4" claim-type="Currently amended] According to any one of claims 1 to 3, The air discharge pipe 50 is formed integrally with the lower case 20, while maintaining the shape of the tube as it is, pushed upward from the bottom of the lower case 20 Electro-bubble generating device characterized in that it has a reinforcing support structure for the air pumping pressure is formed to enter and transmitted vertically.
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    同族专利:
    公开号 | 公开日
    KR100403555B1|2003-10-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2003-07-14|Application filed by 김용길
    2003-07-14|Priority to KR10-2003-0048008A
    2003-08-09|Publication of KR20030066531A
    2003-10-30|Application granted
    2003-10-30|Publication of KR100403555B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR10-2003-0048008A|KR100403555B1|2003-07-14|2003-07-14|Air pump|
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