KR200356879Y1 - a device to purify water - Google Patents

Abstract

The present invention relates to a water purification device for purifying water.

In particular, the support body is coupled to both sides to be supported on the water surface, the support frame is coupled and installed while being interconnected to secure a predetermined space inward, the motor fixed to the support frame, and the drive connecting means for transmitting the power of the motor and The rotor is connected to the outer periphery of the rotor is coupled to a predetermined portion is made of a configuration comprising a plurality of rotating members extending to be immersed in the water surface.

Accordingly, the present invention provides a water purification apparatus that generates a flow of fluid having a certain directionality and generates turbulence in a stagnant reservoir or pond, thereby supplying sufficient oxygen to deep water and circulating water to improve water quality.

Description

Water purifier {a device to purify water}

The present invention relates to a water purification device, and in more detail, a support frame coupled to both sides, the support frame is supported while being interconnected to secure a predetermined space inward, a motor fixed to one side of the support frame, and The rotor receives power from the motor as a drive connecting means to the inner side of the support frame, and coupled to the outer periphery of the rotor, a plurality of radially extending from the outer periphery of the rotor to be submerged in the water surface It is composed of two rotating members to provide a smooth circulation between the surface water and the deep water by the rotation of the rotor to provide a water purification device for the oxygen supply and natural purification action to the stagnant water.

In general, stagnant water, such as reservoirs and lakes, where there is no circulation of water, causes decay by microorganisms. Surface water has a high level of plankton due to relatively high oxygen concentration due to contact with the atmosphere, but plankton is the limit of reproduction. When it reaches, it dies and is deposited on the bottom of the water. As a result, organic material decays and nutrients such as nitrogen and phosphorus decompose and decay in the deep water of 18m or less. In order to purify the water to be used as drinking water, a lot of costs are required to purify the water quality, and the water quality degradation of the drinking water and the corruption of the embroidery and lake caused a problem that greatly damage the value of environmental resources.

The conventional water purification device for preventing such decay of a reservoir or a lake is a device that prevents water decay by circulating fresh water in a lake or a reservoir, and can be used by using a compressor or wind power. have. However, in the case of using wind, the windmill rotates freely according to the wind, making it difficult to transmit power accurately to the bottom of the bottom of the water, forming the float and the cylinder integrally, and making the cylinder itself with a rigid material to float on reservoirs or other lakes. If this is used for a long time, foreign substances accumulate in the inlet cylinder and blockage occurs, and because of the poor power transmission to the impeller due to the foreign substances, it is very difficult to replace and repair itself, and it takes a lot of cost and time to maintain, repair and manufacture. There was a problem.

An object of the present invention for improving the above problems is to provide a water purification device configured to generate turbulent flow in a stagnant fluid such as a reservoir or pond to provide sufficient supply of oxygen and fluid agitation. .

1 is a perspective view showing a water purification device according to the present invention.

Figure 2 is a plan view showing a drive connecting means of the water purification device according to the present invention.

Figure 3 is a perspective view showing a rotor of the water purification device according to the present invention.

Figure 4a to 4c is a plan view showing a drive connecting means according to another embodiment of the present invention.

5a to 5c is a perspective view showing a rotating member according to another embodiment of the present invention.

Figure 6 is an installation state showing the water purification device according to another embodiment of the present invention.

Figure 7 is an installation state showing the water purification device according to another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

10 ... support frame 12 ... propeller

20 Motor 21 Motor shaft

30.Rotator 31.Rotating shaft

40 Drive connection 41 Motor sprocket

42 First connection chain 43 First sprocket

45 ... connection sprocket 46 ... second connection chain

47 ... 2nd sprocket 50 ... rotating member

60.

In order to achieve the above object, the present invention, the support frame is coupled to both sides so as to support the water surface, and is installed while being coupled to each other to secure a predetermined space inward;

A motor fixedly installed at one side of the support frame, the motor rotating shaft being extended to one side to receive power and transmitting power in a mechanical rotational movement;

Is installed in a predetermined space inside the support frame, one end is connected through a drive connecting means so that power is transmitted from the end of the motor rotating shaft, the rotary shaft is installed at both ends supported by the other end through one bearing of the support frame Rotor and,

Is coupled to the outer periphery of the rotor, consisting of a plurality of rotating members are formed extending radially from the outer periphery around the rotor so that a predetermined portion is submerged in the water surface.

The drive connecting means according to the present invention, the motor sprocket coupled to the end of the motor shaft, the first connection chain is connected to the motor sprocket is installed so that power is transmitted to the other side, and the other side of the first connection chain And a first sprocket which is connected to the first sprocket and receives the power of the motor sprocket, and a fixed bearing supporting the rotating shaft to transmit the power of the first sprocket to the rotating shaft.

In addition, the drive connecting means according to the present invention, a motor pulley coupled to the end of the motor rotation shaft, a conveyor belt is connected to one side and the motor pulley is installed to transmit power to the other side, the other side of the conveyor belt It is characterized in that it is configured to be connected to the first pulley receiving the power of the motor pulley, and the power of the first pulley as a fixed bearing for supporting the rotating shaft to be transmitted to the rotating shaft.

In addition, the drive connecting means according to the present invention, the motor sprocket coupled to the end of the motor rotating shaft, the first connecting chain which is chained to the motor sprocket and the other side of the first connecting chain to be engaged by a gear. A first sprocket to be connected, a connecting sprocket connected to the first sprocket via a fixed bearing, a second connecting chain connected to one side of the gear of the connecting sprocket, and the other side of the second connecting chain And a second sprocket for transmitting a rotational force to the rotary shaft.

In addition, the drive connecting means according to the present invention, a rotary gear having a screw thread of a predetermined interval is formed on one side of the connection sprocket receiving power from the first sprocket, is coupled to engage the rotary gear is connected to the sprocket And an idle gear having a reverse rotation direction and a third sprocket connected to mesh with the idle gear and transmitting a rotational force to the rotary shaft.

In addition, the rotor according to the present invention, the reverse direction is connected to the forward rotor which is rotated in the forward direction by the motor, and the reverse motor that is connected to one side of the forward rotor through the connecting support and rotated in the reverse direction to the other side It is configured as a rotor, the connection support is characterized in that the extension is formed in the support frame is installed so as to support the forward rotor and the reverse rotor by the bearings on both sides.

In addition, the support frame according to the present invention, the propeller and the direction keys are respectively installed to move in a predetermined direction, the support body, the opening and pump for entering and entering the water into a predetermined space formed inside the control level of the support level It is characterized in that it is installed further.

In addition, the rotating member according to the present invention, the cross-section is formed in a 'v' or 'u' shape is formed radially around the rotor, the spiral in the longitudinal direction from the outer peripheral edge of the center of the rotor A plurality is coupled to achieve a, characterized in that the helical arrangement is installed at a predetermined angle spaced relative to the center of rotation.

In addition, the rotating member according to the present invention, is deflected to one side is installed radially around the rotor, a plurality of coupled to form a spiral in the longitudinal direction from the center outer circumference of the rotor, the spiral arrangement is rotated Characterized by being installed at a predetermined angle spaced relative to the center.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the subject innovation is the support frame 10 is coupled to both sides, the support frame 10 is installed to be mutually installed so as to secure a predetermined space inward, and fixed to one side of the support frame 10 The motor 20, the rotor 30 connected as a drive connecting means 40 so that power is transmitted from the motor 20, and a rotation extending radially on the outer periphery of the rotor 30. It consists largely of the member 50.

The support frame 10 is coupled to the support body 60 which is supported at the water surface on both sides, the rotor 30 and the motor 20 to which the rotating member 50 is coupled to the inside to be operated A predetermined space is formed so that it can be.

At this time, the support body 60 is installed on both sides of the support frame so that the support frame is supported on the water surface, plastic foam or hollow plastic, such as a kind of colorless transparent synthetic resin that can be easily supported on the water surface It is made of metal or plastic material.

In another embodiment, as shown in Figure 7, the support body 60, the support frame is formed in the inner surface so that the desired water circulation is made by the rotation of the rotor connected to the support frame is locked to a certain height surface. An opening 61 and a pump 62 for entering and entering water into and out of a predetermined space are installed to adjust the level of support by adjusting the storage amount of water inside the support body 60, and the support frame is fixed. The propeller 12 is installed so as to be movable in the direction, and the direction key 13 is configured to determine the direction of the support frame which is installed and moved from the rear of the propeller so as to adjust the direction of the waveform generated by the propeller 12. good.

On the other hand, the motor 20 is fixedly installed on one side of the support frame 10, the motor rotation shaft 21 for transmitting the power supplied from one side to the mechanical rotation movement is connected, the end of the motor rotation shaft 21 There is interposed the drive connecting means 40 for connecting the motor and the rotor so that the driving power is transmitted to the rotor 30 to purify the water.

Here, the motor 20 is preferably made of a waterproof material to prevent corrosion when the motor 20 is exposed to moisture around the outside, the power supplied to the motor 20 is a 220 volt power source Connected, but when using a larger power source or a smaller power source is possible as a substitute for the motor 20, of course.

The drive connecting means 40 connected to the motor 20 is mounted inside the case having a predetermined space to prevent water from invading from the outside, the upper portion of the case is provided with a cover for opening and closing the case, It is preferable that the connection portion is waterproofed to prevent corrosion of the driving connecting means 40 due to moisture generated when the rotor 30 rotates.

As shown in FIG. 2, the drive connecting means 40 connected to the motor rotation shaft 21 includes a motor pulley 41 ′ coupled to an end of the motor rotation shaft 21 and the motor pulley 41. ') Conveyor belt 42' is installed to be connected to transmit power, the first pulley 43 'and belt connection to the conveyor belt 42' and the power of the first pulley 43 'is rotated It is configured as a fixed bearing 44 for supporting the rotary shaft 31 to be transmitted to the shaft 31.

Here, the motor pulley 41 'coupled to the end of the motor rotation shaft 21 and the first pulley 43' connected to the motor pulley 41 'by a belt have different outer diameters, but the first pulley It is preferable that the outer diameter of the 43 'is configured to be larger so that the deceleration of the constant speed according to the rotation ratio of the motor pulley 41' is achieved.

In another embodiment, as shown in Figure 4a, the drive connecting means 40, the motor sprocket 41 is coupled to the end of the motor rotation shaft 21 and the chain is connected to the motor sprocket 41 Rotation such that the power of the first sprocket 43 and the first sprocket 43 meshed with the first connection chain 42 and the first connection chain 42 and the first sprocket 43 are transmitted to the rotary shaft 31. It may be comprised by the fixed bearing 44 which supports the shaft 31. As shown in FIG.

In this case, the motor sprocket 41 and the first sprocket 43 have different teeth, but the number of teeth of the first sprocket 43 is larger than the number of teeth of the motor sprocket 41 so that the motor sprocket It is preferable that the 41 is chained by the first connection chain 42 so that the rotational speed of the first sprocket 43 is reduced during rotation, thereby reducing the rotation ratio transmitted from the motor 20 to the rotor. Do.

In addition, as shown in Figure 4b, the drive connecting means 40, the motor sprocket 41 is coupled to the end of the motor rotation shaft 21, and the first connection is chained to the motor sprocket 41 A chain 42, a first sprocket 43 meshed with the first connection chain 42, a fixed bearing 44 connected to the first sprocket 43, and the fixed bearing (1) A connection sprocket 45 connected to the second connection chain; a second connection chain 46 chained to the connection sprocket 45; and a second connection chain 46 connected to the second connection chain 46; It may be configured as a second sprocket 47 for transmitting a rotational force of the rotation shaft to the rotation shaft, wherein the motor sprocket 41 has a smaller diameter than the first sprocket 43, the connecting sprocket 45 is It has a diameter smaller than 2 sprockets 47, and the motor sprocket 41 and the first sprocket 43 are connected to the sprocket The second sprocket 47 which is configured to have a larger number of teeth than the 45 and the first sprocket 43 and is finally transmitted when driven by the rotation of the motor sprocket 41 is mutually in speed ratio. It is installed so that the rotational speed ratio is significantly reduced in accordance with the number of teeth due to the number of teeth interlocking.

In addition, as shown in Figure 4c, the drive connecting means 40, the rotary gear 45a having a thread of a predetermined interval on one side of the connecting sprocket 45, and the rotation direction of the connecting sprocket 45 An idle gear 45c meshed with a screw thread of the rotary gear 45a so as to have a rotational direction opposite to that of the rotary gear 45a, and a third sprocket 45d meshed with the idle gear 45c. By rotating the rotor 30 'having the reverse direction by the idle gear 45c when driving the 45, by rotating the rotor 30 that rotates in the forward direction rotated by the second sprocket 47, It may be configured to circulate the entire water around the rotor (30, 30 ').

Meanwhile, the rotor 30 to which the driving connecting means 40 is connected via the rotary shaft 31 has a cylindrical shape in which the rotary shaft 31 extends at both ends thereof, and has a rotary shaft at both ends thereof. 31 is extended so that one end of the support frame 10 is rotated by a bearing formed on one side of the support frame 10, and the other end thereof is connected to the driving connecting means 40 so as to receive a rotational force.

In another embodiment, as shown in FIG. 6, the rotor 30 is connected to the forward rotor 30a rotating in the forward direction by the motor 20 and the forward rotor 30a. It is configured as a reverse rotor (30b) is connected via a support (30c), the reverse rotor (30b), one side thereof is connected to the connection support 30c and the other side rotation direction of the motor 20 It is connected to the reverse motor 22 is rotated in the opposite direction to the forward rotor 30a and the reverse rotor (30a) is configured to have a different rotation direction.

At this time, the connection support 30c connected between the forward rotor 30a and the reverse rotor 30b is extended from the support frame 10 to form the forward rotor 30a and the reverse rotor ( Bearings are installed on both sides thereof so that the rotating shaft of 30b) is supported on both sides thereof.

On the other hand, the rotating member 50 is installed on the surface of the rotor 30, as shown in Figure 3, one end is formed radially around the rotor 30, the support body 60 It is formed by extending below the water level supported by, and arranged in a spiral extending in the longitudinal direction of the rotor 30 in a plurality of arrangements along the outer circumference.

That is, the rotating member 50 is rounded in a cross section of a 'v' or 'u' shape, and a plurality of the rotating members 50 are radially installed along the longitudinal direction of the rotor 30. do.

At this time, the rotation member 50, the length of the rotor 30 so that a certain waveform is formed along the outer periphery of the rotor 30, the rotation member 50 when the rotor 30 is rotated It is preferable to be arranged at intervals of a predetermined angle at the center of rotation of the rotor 30 in an helical arrangement in the direction.

In addition, as shown in Figure 5a, the rotating member 50, the cross-section is formed in a 'v' or 'u' shape is formed radially on the outer periphery of the rotor 30, The electrons 30 may be aligned to form a vertical array along the longitudinal direction at a predetermined rotation angle in the rotational axis of the electron 30.

In another embodiment, as shown in Figure 5b, the rotating member 50 is disposed radially about the rotor 30 and is installed so that its shape is deflected to one side so that the waveform of water during rotation in one direction The rotating member 50 may be arranged in a spiral shape along the longitudinal direction of the center outer circumference of the rotor 30 so as to correspond to an angle at which the rotating member 50 biased to one side is deflected.

In addition, as shown in Figure 5c, the rotating member 50 is formed to be deflected to one side, is formed radially around the rotor 30, at a predetermined rotational angle of the rotor 30 Accordingly, the longitudinal arrangement may be performed in the longitudinal direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A support body made of a material that is supported on the surface of the support frame is coupled to both sides of the support frame, and the support frame is mutually installed so as to secure a predetermined space therein. Is connected through, the outer periphery of the rotor, the rotating member is formed to protrude radially.

At this time, in the drive connecting means made of a configuration as shown in Figure 2, the motor pulley is provided at the end of the motor rotation shaft receives a rotational force from the motor provided with the motor rotation shaft is rotated, the motor pulley while the motor pulley is rotated The first pulley connected to the belt is rotated at the same time while drawing a predetermined trajectory, and is transmitted to the rotor through a rotating shaft connected to the fixed bearing according to the rotation of the first pulley.

Subsequently, the rotating member installed on the outer circumference by the rotation of the rotor transfers and stirs the water in the water out of the surface to supply oxygen, and at the same time circulates the water in the lower part of the water to the top, thereby causing a smooth water circulation in the water By increasing the amount of dissolved oxygen contained in the water, the natural purifying action by oxygen occurs actively.

In addition, in the drive connecting means having a configuration as shown in Figure 4a, the motor sprocket is installed on the end of the motor rotation shaft is rotated by receiving a rotational force from the motor provided with the motor rotation shaft, the motor sprocket rotates the motor The first sprocket chained to the sprocket drawing a predetermined trajectory is rotated at the same time, and transmits the rotational force to the rotor via a rotating shaft connected to the fixed bearing in accordance with the rotation of the first sprocket.

In addition, in the drive connecting means having a configuration as shown in Figure 4b, the motor sprocket is rotated by the motor rotating shaft, and as the motor sprocket rotates the first connecting chain is connected to the motor sprocket, and, One sprocket, the connecting sprocket is rotated, and at the same time the rotor connected via the second sprocket, the second connecting chain chained to the connecting sprocket is rotated.

At this time, the outer diameter teeth sum of the first sprocket is configured to be larger than the outer diameter teeth sum of the motor sprocket so that the rotation ratio is reduced in the process of transmitting power from the motor to the rotor, and the outer diameter teeth sum of the second sprocket is connected. The sprocket may be configured to be larger than the sum of the number of outer diameters, and the motor sprocket and the first sprocket may be configured to have a thread height smaller than that of the connecting sprocket and the second sprocket.

In addition, in the drive connecting means having a configuration as shown in Figure 4c, the idle gear value is connected to the corresponding rotation gear formed on one side of the connecting sprocket, the third sprocket having a different direction to the idle gear is connected The rotor connected to the third sprocket by one motor rotates in a direction opposite to the rotational direction of the motor, and the rotor connected to the second sprocket rotates in the same rotational direction as the motor, so that the rotor rotates about the rotor. The entire water cycle in the reservoir is achieved.

On the other hand, according to the shape and direction of the rotating member installed on the surface of the rotor can adjust the direction of the waveform of water generated on the surface of the rotor is locked.

The present invention made of the above configuration, according to the shape of the rotating member installed on the rotor to the flow of the fluid having a certain direction to occur so that the smooth circulation of the stagnant water is achieved, purifying by stirring of oxygen There is an advantage to the action to occur.

In addition, the present invention, by the two rotors that rotate in the opposite direction to the entire fluid flow between the deep water and surface water of the reservoir centered on the present invention to prevent the water corruption caused by the stagnation of the deep water There is an advantage to it.

Although the present invention has been shown and described with respect to specific embodiments, it is to be understood that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following Utility Model Registration Claims. It is to be clarified that a person of ordinary skill in the industry can understand it very easily.

As described above, according to the present invention, by artificially generating a flow of a fluid having a certain direction according to the shape of the rotating member installed in the rotating rotor by the generation of oxygen in the turbulent fluid such as reservoir or pond With sufficient supply and fluid agitation, there is an advantage to improve the water quality by natural purification by oxygen.

In addition, a propeller and a direction key are installed at one side of the support frame to facilitate movement to the center of the reservoir, convenient movement of the desired place, and reduction of the rotation ratio transmitted to the rotor when the motor rotates, and the structure is simple. It is easy to repair.

Claims (9)

Support frame 10 is coupled to both sides so as to support the water surface, the coupling frame is installed while being interconnected to secure a predetermined space inwardly; A motor 20 fixedly installed at the support frame 10 and having a motor rotating shaft 21 extending to one side to receive power and transmitting rotational force in a mechanical rotational movement; It is installed in a predetermined space inside the support frame 10, the rotary shaft 31 is extended to both ends is connected via the drive connecting means 40 to one end so that power is transmitted from the motor shaft 21. Rotor 30 is installed to the other end to support the one side of the support frame (10); Water purification, characterized in that composed of a plurality of rotating members 50 are radially extended about the rotor 30 is coupled to the outer periphery of the rotor 30 so that a predetermined portion is submerged in the water surface Device. According to claim 1, wherein the drive connecting means 40, the motor sprocket 41 is coupled to the end of the motor rotation shaft 21, the motor sprocket 41 is installed so as to transfer power to the other side chained A first sprocket 43 which is connected to the other side of the first connection chain 42 and the first connection chain 42 and receives power of the motor sprocket 41, and the first sprocket 43 Water purification device characterized in that it is configured as a fixed bearing (44) for supporting the rotary shaft (31) so that the power of the transmission to the rotary shaft (31). According to claim 1, wherein the drive connecting means 40, the motor pulley 41 'coupled to the end of the motor rotation shaft 21 and the motor pulley 41' is connected to one side and the power to the other side Conveyor belt 42 'is installed to be transmitted, and the first pulley 43' is connected to the other side of the conveyor belt 42 'and receives the power of the motor pulley 41' and the first pulley And a power bearing (43 ') as a fixed bearing (44) for supporting the rotary shaft (31) so as to be transmitted to the rotary shaft (31). The method of claim 1, wherein the drive connecting means 40, the motor sprocket 41 is coupled to the end of the motor rotation shaft 21, the first chain is connected to the motor sprocket 41 is formed a constant trajectory A first sprocket 43 and a first sprocket 43 installed at the other side of the first connection chain 42 so as to be engaged with the first connection chain 42 as a gear, and to the first sprocket 43. The connecting sprocket 45 is connected via the fixed bearing 44, the second connecting chain 46 is chained to correspond to the gear of the connecting sprocket 45, and the second connecting chain 46 is meshed with And a second sprocket (47) connected to and transmitting a rotational force of the second connection chain (46) to the rotary shaft. The rotating gear according to claim 2 or 4, wherein the driving connecting means 40 is formed on one side of the connecting sprocket 45 to receive power from the first sprocket 43, and has a thread of a predetermined interval. 45a, an idle gear 45c engaged with the rotary gear 45a to have a reverse rotational direction with the connecting sprocket 45, and a rotation shaft 31 'connected to correspond to the idle gear 45c. And a third sprocket (45d) for transmitting the rotational force to the water. The rotor 30 of claim 1, wherein the rotor 30 is formed by a forward rotor 30a rotating in the forward direction by the motor 20 and a support 30c connected to the forward rotor 30a. It is configured as a reverse rotor (30b) is connected to one side is connected to the reverse motor 22 to rotate in the opposite direction to the other side, the connecting support (30c) is formed extending in a predetermined position on the support frame 10 in the forward direction Water purification device, characterized in that the rotor 30a and the reverse rotor (30b) are connected via the bearing so as to support from both sides. According to claim 1, The support frame 10, the propeller 12 and the arrow keys 13 are respectively installed to move in a predetermined direction, the support body 60 is a constant formed so that the level of support is adjusted to the inside And an opening (61) and a pump (62) for entering and entering water into the space. According to claim 1, The rotating member 50, the cross-section is formed in a 'v' or 'u' shaped rounded radially around the rotor 30, the rotor 30 A plurality of coupled to form a spiral in the longitudinal direction from the outer peripheral edge of the center, the water purification device, characterized in that the spiral arrangement is installed at a predetermined angle spaced apart from the center of rotation of the rotor. According to claim 1, The rotating member 50, is deflected to one side is installed radially around the rotor 30, spirally in the longitudinal direction at the outer peripheral edge of the center of the rotor 30 The dog is coupled, the water purification device, characterized in that the spiral arrangement is installed at a predetermined angle spaced apart from the center of rotation of the rotor.