KR20220153865A - Center-Aligned Fluid Filtration Device - Google Patents

Abstract

The present invention relates to a central align type fluid filtering device which comprises: a case constituting an outer body and having an inlet pipe through which a fluid to be filtered flows in and an outflow pipe through which the filtered fluid flows out; a filtering means accommodated in an inner space of the case and filtering the fluid to be filtered, which has flowed into the case, so as to flow the same out to the outside of the case; a partition wall means interposed between an inner circumferential surface of the case and the filtering means to prevent the fluid to be filtered flowing into the inlet pipe from flowing out to the outside of the case through the outlet pipe before the fluid to be filtered flowing into the inlet pipe passes through the filtering means and becomes the filtered fluid, and preventing the filtered fluid that has passed through the filtering means from flowing out of the case through the inlet pipe. According to the present invention, the inlet pipe and the outlet pipe are formed to be aligned in a row, so there is no need to rotate the central alignment type fluid filtering device to adjust the connection position of a part connected in sequence such that it is possible to prevent the coupling between the inlet pipe or the outlet pipe from being released due to the rotation of the central alignment-type fluid filtering device, thereby preventing the fluid from leaking.

Description

Center-Aligned Fluid Filtration Device}

The present invention relates to a centrally aligned fluid filtering device, which is formed in a structure in which an inlet pipe and an outlet pipe of a fluid can be aligned in a line, so that the inlet pipe and the outlet pipe are straight to eliminate inconvenience during use and at the same time to improve the appearance. It relates to a centrally aligned fluid filtering device that makes it beautiful and prevents unfiltered fluid from leaking into an outlet pipe.

In general, a fluid filtering device is a device that filters the fluid flowing into the inside and flows out as a filtered fluid to filter out components harmful to the human body contained in the fluid. It is used in various fields, such as being used to filter impurities introduced into living water.

Since such a fluid filtering device cannot permanently use a filter for filtration therein, it needs to be replaced, and a structure of the fluid filtering device is required to facilitate replacement. As an example to solve this problem, in FIG. As shown by reference numeral 100, a fluid filtering device having a cylindrical structure has been proposed.

As shown in FIG. 1, the structure forms a case 110 in a horizontally extending cylindrical shape, forming a space 110a therein so that a hollow cylindrical filter 120 can be inserted, and at one end in the extending direction. An opening 110c is formed, an inlet pipe 111 is provided at the top and an outlet pipe 112 is provided at the other end of the opening 110c, so that the fluid flowing through the inlet pipe 111 flows into the space 110a. After being filtered while passing through the cylindrical filter 120, it was allowed to flow out through the outflow pipe 112.

In addition, since fluid should not leak through the opening 110c, the cap 113 sealing the opening 110c can be coupled to a portion of the case 110 where the opening 110c is located.

However, the fluid filtering device 100 is positioned such that the direction in which fluid flows from the inlet pipe 111 to the outlet pipe 112 is perpendicular to the flow direction. If you want to install it in an intermediate pipe in a general sink or shower, or in an outlet pipe, a washbasin. Since the direction of the outlet pipe 112 of the fluid filter device 100 is perpendicular when the outlet pipe or pipe such as a shower and the inlet pipe 111 of the fluid filter device 100 are coupled, the direction of the outlet pipe 112 Since the fluid filtering device 100 may have to be rotated in a state in which the inlet pipe 111 is coupled to match the inlet pipe 111, there is a problem in that the coupling of the inlet pipe 111 may not be made firmly.

In addition, when a gripping type outlet pipe such as a shower head or a hose is coupled to the outflow pipe 112, the outflow pipe 112 moves along with the gripping type outlet pipe when moving in a gripped state, so that the inlet pipe 111 In the coupled state, since the entire fluid filtering device 100 can be rotated by a force that rotates in the direction in which the inlet pipe 111 is engaged or released from the side of the outflow pipe 112, the coupling of the inlet pipe 111 There was a problem that could not be maintained firmly.

In addition, when looking at its appearance, since the direction of inflow and outflow of fluid is not parallel and has an outflow pipe 112 and an inflow pipe 111 in a vertical form, the water supply pipe is not aligned in a straight line. There was also a problem with the perceived aesthetics.

The present invention has been proposed to solve the above problems of the conventional fluid filtering device, and its purpose is to form an inlet pipe and an outlet pipe to be aligned in a row so that the coupling between the fluid filtering device and the pipe is released. It is to provide a centrally aligned fluid filtering device capable of solving the problem.

In addition, it is to provide a central alignment-type fluid filtering device that can improve the aesthetics felt by forming the inlet pipe and the outlet pipe to be aligned in a line.

To achieve this object, the central alignment type fluid filtering device according to the present invention comprises a case comprising an outer body and having an inlet pipe through which the fluid to be filtered flows and an outflow pipe through which the filtered fluid flows out; a filtering means accommodated in the inner space of the case and filtering the fluid to be filtered flowing into the case so that it flows out of the case; and is interposed between the inner circumferential surface of the case and the filtering means to prevent the fluid to be filtered flowing into the inlet pipe from flowing out of the case through the outlet pipe before becoming filtered fluid through the filtering means, and the filtering means and a barrier rib means for preventing the filtered fluid that has passed through the inlet pipe from leaking out of the case.

In addition, the partition wall unit may include a side wall formed with a through hole to communicate with the inner cavity of the filter unit having a hollow cylindrical shape; and a circumferential wall connected to the side wall to form a discharge passage between the through hole and the outlet pipe and the inner circumferential surface of the case.

In addition, the partition wall means isolates the inlet of the inlet pipe from the outlet passage and the outlet of the outlet of the outlet pipe from the inner space, so that the edge of the open end of the circumferential wall facing the side wall is isolated from the isolator. It is formed to be inclined with respect to a surface perpendicular to the means, and the edge of the open end is preferably in close contact with the inner circumferential surface.

In addition, the partition wall means isolates the inlet of the inlet pipe from the outlet passage and the outlet of the outlet of the outlet pipe from the inner space, so that the edge of the open end of the circumferential wall facing the side wall is isolated from the isolator. It is formed on a surface perpendicular to the means, and the open edge is preferably in close contact with the inner circumferential surface.

Preferably, the inlet is formed at a portion of the inner cross-section of the inlet pipe that does not overlap with the partition wall means, and the outlet is formed at a portion of the inner diameter cross-section of the outlet pipe that overlaps the partition wall means.

According to the centrally aligned fluid filtering device of the present invention, the inlet pipe and the outflow pipe are aligned in a line, so that when the inlet pipe and the outlet pipe are coupled to the pipe, even when the centrally aligned fluid filtering device is rotated, the axis of the inlet pipe and the outlet pipe Since the position on the ship is fixed, it can be combined at a fixed position when either the inlet pipe or the outlet pipe is connected later when combining the centrally aligned fluid filtering device, Since there is no need to rotate the alignment-type fluid filtering device, there is an advantage in preventing leakage of fluid due to disengagement of the inlet pipe or the outlet pipe due to rotation of the center-aligned fluid filtering device.

In addition, when a gripped outflow pipe such as a shower or hose is coupled to the outflow pipe of a centrally aligned fluid filtering device, the inlet pipe and the outlet pipe are aligned in a row even if the gripped outlet pipe is gripped and moved. Since rotational force is not applied to the outflow pipe, there is no risk of the central alignment type fluid filter being rotated around the inlet pipe, so that the rotation of the center alignment type fluid filter device can prevent the inlet pipe from being unscrewed and leaking fluid. There are advantages that can be

In addition, by installing a partition wall means inside so that only the filtered fluid can flow out only through the outflow pipe, it is possible to prevent the fluid flowing into the inlet pipe from flowing out into the outflow pipe without being filtered without passing through the filtering means. It has the advantage of preventing the risk of leaking and being used without being filtered.

In addition, since the inlet pipe and the outlet pipe are formed to be aligned in a row, and the water supply pipe is aligned in a straight line, the aesthetics felt in the external appearance are improved by the aesthetics obtained in the shape that is straight and straight compared to when the water supply pipe is perpendicular. there is

1 is a cross-sectional view of a conventional fluid filtering device.
2 is a cross-sectional view of a centrally aligned fluid filtering device according to an embodiment of the present invention.
3 is a cross-sectional view of a centrally aligned fluid filtering device according to another embodiment of the present invention.

Hereinafter, an embodiment of a centrally aligned fluid filtering device according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a centrally aligned fluid filtering device formed so that an inlet pipe and an outlet pipe are aligned in a line to filter out impurities in the fluid to filter out components harmful to the human body contained in the fluid, as shown in FIGS. 2 and 3 As described above, the central alignment type fluid filtering device 1 for achieving the present invention includes a case 10, a filtering means 20, and a partition wall means 30.

The case 10 constitutes the outer body of the centrally aligned fluid filtering device 1, and is formed in a cylindrical shape elongated in the longitudinal direction on the transverse axis, as shown in FIGS. 2 and 3, inside An inlet pipe 11 into which the fluid to be filtered before filtering is introduced into an inner space 10a in which the fluid moves and the filtering means 20 and the partition wall means 30 are accommodated, and arranged in a row on the longitudinal axis. ) and an outflow pipe 12 through which the filtered fluid is discharged after being filtered at the bottom.

Therefore, the inlet pipe 11 and the outlet pipe 12 are formed to be aligned in a line, so that when the inlet pipe 11 and the outlet pipe 12 are combined with the pipe, even if the center alignment type fluid filter device ( ) is rotated, the inlet pipe 11 and the outlet pipe 12 Since the axial position of the pipe 11 and the outlet pipe 12 is fixed, it is fixed when connecting either the inlet pipe 11 or the outlet pipe 12 in turn when combining the centrally aligned fluid filtering device ( ). Since it is not necessary to rotate the centrally aligned fluid filtering device ( ) to match the connection position of the next connected part, the rotation of the centrally aligned fluid filtering device ( ) causes the inlet pipe ( 11) or the outflow pipe 12 is uncoupled to prevent fluid from leaking.

In addition, when a gripping type outlet pipe such as a shower or a hose is coupled to the outlet pipe 12 of the centrally aligned fluid filtering device, even if the gripped outlet pipe is gripped and moved, the inlet pipe 11 and the outlet pipe 12 ) are aligned in a row, so that the gripped outflow pipe does not act on the rotational force on the outflow pipe 12, and there is no risk of the center-aligned fluid filtering device ( ) rotating around the inlet pipe 11, so that the center-aligned fluid Due to the rotation of the filtering device, the screw of the inlet pipe is loosened to prevent fluid from leaking.

In addition, since the inlet pipe 11 and the outlet pipe 12 are formed so that they are aligned in a row, and the water supply pipe is aligned in a straight line, the appearance is improved by the beauty that is felt in the shape of the straight line than when the water supply pipe is perpendicular. The sense of beauty is improved.

On the other hand, as shown in FIGS. 2 and 3, the case 10 has an inner space at one end on the horizontal axis so that the filtering means 20 and the partition wall means 30 accommodated in the inner space 10a can be replaced. By forming the opening 10c of (10a) and providing an end of the case 10 toward the opening 10c and a detachable cap 13 so that the opening 10c can be opened and closed, the case ( By opening and closing the opening 10c of 10), the filtering means 20 and the bulkhead means 30 can be easily replaced.

Here, non-explained numeral 14 is an O-ring, which is interposed between the case 10 and the cap 13 to prevent fluid from leaking.

The filtering means 20 is a member that filters the fluid to be filtered flowing into the inlet pipe 11 of the case 10 so that it flows out of the case 10, and various types of filters such as a sediment filter or an adsorption filter depending on the purpose. Can be applied, and as shown in FIGS. 2 and 3, it is formed in a hollow cylindrical shape so that the cavity 20a in which the filtered fluid moves along the transverse axis is formed, and is detachable through the opening 10c The case 10 is accommodated and mounted in the inner space 10a. As shown in FIGS. 2 and 3, the fixing member 21 is inserted into the cavity 20a at the end in the direction of receiving the inner space 10a. When stored, the fixing member 21 is easily accommodated in the inner space 10a because the end of the filtering means 20 is guided to the partition wall means 30.

In addition, when the cap 13 of the case 10 is formed with a protrusion 13a that can be fitted into the cavity 20a of the filtering means 20, the fixing member 21 and the protrusion 13a form the filtering means 20. ) It can be fitted into the cavity 20a at both ends so that the filtering means 20 can be fixed without being separated by water pressure.

Therefore, the fluid to be filtered introduced from the inlet pipe 11 by the filtering means 20 coupled as above is filtered while passing through a portion of the circumference of the filtering means 20, and the filtered fluid passes through the cavity 20a. By moving, as shown in FIGS. 2 and 3, it does not move in the direction of the cap 13 whose end is blocked, but moves toward the partition wall means 30 in the opposite direction.

Here, non-explained numeral 22 is an O-ring, which is interposed between the fixing member 21 and the partition wall means 30, and prevents the fluid to be filtered or the filtering oil from moving between the fixing member 21 and the partition wall means 30. .

The barrier rib means 30 is a means for distinguishing between the space in which the fluid to be filtered and the fluid to be filtered are moved, and the inlet pipe 11 and the outlet pipe 12 are aligned in a row so that the filtering means 20 It is used to distinguish a path in which the fluid moves so that the filtered fluid is moved in a direction perpendicular to the inlet pipe 11 and then guided toward the outlet pipe 12, and as shown in FIGS. 2 and 3, the case 10 Side walls 31 and circumferential walls 32 so that one end of the horizontal axis of the case 10 can be spaced apart from the inner circumferential surface 10b while forming a discharge passage P between the inner circumferential surface 10b of the ). It is done by

As shown in FIGS. 2 and 3, the side wall 31 is spaced apart from the inner surface on the transverse axis of the case 10 to form a discharge passage P, and as shown in FIGS. 2 and 3, A through hole 31a communicating with the internal cavity 20a of the filtering means 20 is formed in the center so that the filtered fluid can move to the discharge passage P through the cavity 20a, and the fixing member 21 It is inserted into the through hole (31a) so that the filtering means (20) can be fixed.

As shown in FIGS. 2 and 3 , the circumferential wall 32 is spaced apart from the inner circumferential surface 10b of the circumference of the case 10 to form a discharge passage P, and is connected to the side wall 31 to form the case 10 ) It is formed in a cylindrical shape spaced apart from the inner circumferential surface 10b of the circumference and is interposed between the case 10 inner circumferential surface 10b and the filtering means 20, as shown in FIGS. 2 and 3, and the fluid to be filtered is It may be formed in various shapes in order to prevent it from flowing into the discharge passage (P) and to allow the filtered fluid to flow out only through the outflow pipe 12 after flowing into the discharge passage (P). As an example, As shown in FIG. 2, the inlet 11a of the inlet pipe 11 is isolated from the discharge passage P, and the outlet 12a of the outlet pipe 12 is isolated from the inner space 10a. , The open end edge 32a of the circumferential wall 32 facing the side wall 31 is formed inclined with respect to a plane perpendicular to the transverse axis of the partition wall means 30, and the open end edge 32a is the inner circumferential surface 10b can be made to adhere to.

When the open end edge 32a is formed in this structure, as shown in FIG. 2, the open end edge 32a adjacent to the inlet 11a of the inlet pipe 11 is positioned short so as not to cover the inlet 11a, and the inner surface (10b), and the open end edge 32a adjacent to the outlet 12a of the outlet pipe 12 is located long enough to cover all the outlets and adheres to the inner circumferential surface 10b, as shown in FIG. 2, The edge 32a of the open end of the cylindrical circumferential wall 32 forms the slope 32b, and the fluid to be filtered flowing into the inlet pipe 11 is filtered until it passes through the filtering means 20 and becomes the filtered fluid. Since the outside of the means 20 is blocked by the edge 32a of the open end, it does not flow into the discharge passage P, so that it does not flow out of the case 10, and the filtered fluid passing through the filtering means 20 passes through the through hole ( 31a) is introduced into the discharge passage (P), but even if it moves toward the inlet pipe (11), it cannot escape through the edge (32a) of the open end of the inlet (11a) side. It flows out and does not flow back, and when the filtered fluid reaches the outlet 12a, it cannot move further from the open end edge 32a on the outlet 12a side, so that it can be discharged only through the outlet 12a of the outlet pipe 12. do.

On the other hand, as another example of the circumferential wall 32, as shown in FIG. 3, to isolate the inlet 11a of the inlet pipe 11 from the discharge passage P, and the outlet of the outlet pipe 12 ( To isolate 12a) from the inner space 10a, the open end edge 32a of the circumferential wall 32 facing the side wall 31 is formed on a surface perpendicular to the transverse axis of the partition wall means 30, The open end edge 32a may be in close contact with the inner circumferential surface 10b.

When the open end edge 32a is formed in this structure, as shown in FIG. As only a part of the inner cross-section is formed, it adheres to the inner circumferential surface 10b so as not to overlap, and the open end edge 32a adjacent to the outlet 12a of the outlet pipe 12 has the outlet 12a of the inner diameter cross-section of the outlet pipe 12. Since only a part is formed, it adheres to the inner circumferential surface 10b so as not to overlap, so as shown in FIG. 3, the open edge 32a of the cylindrical circumferential wall 32 forms a vertical surface 32c with respect to the horizontal axis, Until the fluid to be filtered flowing into the inlet pipe 11 passes through the filtering means 20 and becomes a filtered fluid, it is blocked by the open end corner 32a from the outside of the filtering means 20 so that it does not flow into the discharge passage P Therefore, it does not flow out to the outside of the case 10, and the filtered fluid that has passed through the filtering means 20 flows into the discharge passage P through the through hole 31a, but moves toward the inlet pipe 11 even if it moves toward the inlet 11a. ) cannot escape through the edge 32a of the open end, so it leaks out to the outside of the case 10 through the outlet pipe 12 and does not flow backward, and when the filtered fluid reaches the outlet 12a, the outlet 12a opens. However, it is not possible to move further from the edge 32a, so that it can be discharged only through the outlet 12a of the outflow pipe 12.

An unexplained numeral 91 shown in FIGS. 2 and 3 is an O-ring, and the edge of the open end 32a is in close contact with the inner circumferential surface 10b to prevent the filtering fluid from flowing out from the discharge passage P, and the fluid to be filtered is passed through the discharge passage. It is sealed to prevent inflow into (P).

Therefore, in the centrally aligned fluid filtering device 1 configured as described above, the partition wall means 30 is installed inside so that only the filtered fluid can flow out only through the outlet pipe 12, so that only the filtered fluid flows through the inlet pipe 11. Since the filtered fluid does not pass through the filtering means and can be blocked from flowing out to the outflow pipe 12 without being filtered, the existing orthogonal inlet pipe 11 and the outflow pipe 12 are structured to align in a line. Even if you change it, you can prevent the risk that contaminated fluid can leak out and be used without being filtered.

In addition, since the inlet pipe 11 and the outlet pipe 12 are formed to be aligned in a line, it is possible to improve the aesthetics felt from the outside.

In the above, specific implementations of the present invention have been described as examples, but these are for illustrative purposes only and are not intended to limit the scope of protection of the present invention. It will be apparent to those skilled in the art that various substitutions, modifications and changes are possible within the scope of the technical spirit of the present invention.

1: centrally aligned fluid filtering device 10: case
11: inlet pipe 12: outlet pipe
20: filtering means 30: bulkhead means

Claims (5)

a case 10 constituting an external body and having an inlet pipe 11 through which the fluid to be filtered flows in and an outflow pipe 12 through which the filtered fluid flows out;
a filtering means (20) accommodated in the inner space (10a) of the case (10) and filtering the fluid to be filtered flowing into the case (10) so that it flows out of the case (10); and
Interposed between the inner circumferential surface 10b of the case 10 and the filtering means 20, before the fluid to be filtered flowing into the inlet pipe 11 passes through the filtering means 20 and becomes the filtered fluid, the outflow pipe Partition means for preventing leakage to the outside of the case 10 through (12) and preventing the filtered fluid that has passed through the filtering means 20 from flowing out of the case 10 through the inlet pipe 11 ( 30); A central alignment type fluid filtering device comprising a. The method of claim 1,
The bulkhead means 30,
a side wall 31 formed with a through hole 31a communicating with the inner cavity 20a of the filtering means 20 having a hollow cylindrical shape; and
a circumferential wall 32 connected to the side wall 31 to form a discharge passage P between the through hole 31a and the outlet pipe 12 and the inner circumferential surface 10b of the case 10; A central alignment-type fluid filtering device comprising a. The method of claim 2,
The barrier rib means 30 separates the inlet 11a of the inlet pipe 11 from the outlet passage P, and separates the outlet 12a of the outlet pipe 12 from the inner space 10a. In order to isolate it, the open end edge 32a of the circumferential wall 32 facing the side wall 31 is formed inclined with respect to a plane perpendicular to the transverse axis of the partition wall means 30, and the open end edge ( 32a) is a central alignment type fluid filtering device, characterized in that in close contact with the inner peripheral surface (10b). The method of claim 2,
The barrier rib means 30 separates the inlet 11a of the inlet pipe 11 from the outlet passage P, and separates the outlet 12a of the outlet pipe 12 from the inner space 10a. To isolate, the open end edge 32a of the circumferential wall 32 facing the side wall 31 is formed on a surface perpendicular to the transverse axis of the partition wall means 30, and the open end edge 32a ) Is a central alignment type fluid filtering device, characterized in that in close contact with the inner peripheral surface (10b). The method of claim 4,
The inlet 11a is formed in a portion that does not overlap with the partition wall means 30 of the inner diameter cross section of the inlet pipe 11,
The outlet (12a) is a central alignment type fluid filtering device, characterized in that formed in a portion overlapping with the partition wall means (30) of the inner diameter cross section of the outlet pipe (12).

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