KR200475023Y1 - Fluid distributor - Google Patents

Abstract

The present invention relates to a fluid dispenser in which a dispensing guide is constructed which can further improve the dispensing efficiency of the fluid and significantly reduce noise, and which is incorporated in a fluid dispenser.
The present invention relates to a fluid dispenser comprising a plurality of guide holes (2) formed in a body (1) engaged in a body (10) of a fluid dispenser and guiding a fluid to be evenly distributed and discharging fluid to the communicating distribution holes , 2 '); A distribution hole (4, 4 ') formed integrally with and communicating with the guide hole (2, 2') and coupled to the distribution pipe (12, 12 '); (2, 2 ') formed by protruding between the neighboring guide holes (2, 2') and crossing each other at the center of the body (1) 3,3 '); And a stem (31) formed by protruding the intersection point of the branch wires (3, 3 ') defining the guide holes (2, 2') toward the inlet flow path (11); A fluid distributor is formed by connecting the body 1 of the distribution guide in a main body 10 having a draw-in passage 11 into which a fluid is drawn.

Description

FLUID DISTRIBUTOR

The present invention relates to a fluid dispenser, and more particularly, to a fluid dispenser having a distribution guide configured to further improve a dispensing efficiency of a fluid and significantly reduce noise, and to incorporate the same in a fluid dispenser.

Generally, a refrigerating structure of an air conditioner that sucks hot air and exchanges heat with low-temperature refrigerant includes a compressor that compresses refrigerant into a gas state at a high temperature and a high pressure, a condenser that condenses into a liquid state by heat radiation, And a fluid distributor for distributing the refrigerant to the evaporator through the distribution pipe.

The fluid distributor for distributing the liquid / gaseous refrigerant (hereinafter, referred to as a fluid) distributes the fluid drawn through the inlet flow path through a plurality of distribution pipes, and various developments for improving the uniform and efficient distribution performance have been made The prior art of such a fluid dispenser will be described with reference to the following references.

Reference 1 discloses a distributor having a distributing portion formed with a conical distributing projection at the center of a distributing portion for distributing the fluid from the inserting portion to uniformly distribute the fluid introduced from the inserting portion.

The fluid distributor 100 disclosed in Reference 1 divides the fluid introduced from the inlet flow path 111 evenly by the central conical distribution projection 125 of the distribution channel 121 of the head 120 as illustrated in FIG. The flow sectional area is reduced toward the distributor 123 by the gradually increasing conical distribution projection 125 to induce the fluid flowing in the mixing portion 122 to be evenly distributed in the distributor 123 .

However, the fluid distributor 100 circumferentially distributes the fluid drawn toward the distributing portion 123 disposed radially around the central distributing projection 125 to induce an even distribution, but the mixing of the fluid distributor 100 There is no means for guiding smooth fluid flow on the outer side of the portion 122 (inner surface of the main body 110), and it is difficult to expect an improved dispensing performance.

That is, the fluid distributor 100 is configured such that the even distribution of the fluid is guided centrally by the distributing projection 125 in the center of the distributing channel 121, but the fluid (fluid) (Since the flow cross-sectional area toward the distributor 123 is reduced by being concentrated in the center with the dispensing protrusions 125), there is no means for inducing an even distribution in the center It is difficult to achieve an improved dispensing efficiency since the dispersed but dispersed fluid can not guide the uniformly and stably flowing toward the respective distributing parts 123.

The fluid that has passed through the mixing passage 113 has a problem that noise is generated due to the vortex generated by colliding with the inner wall of the mixing portion 122 in the process of being distributed to the distribution portion 123 via the mixing portion 122, The mixing flow path 113 communicating the inlet flow path 111 of the main body 110 with the distribution flow path 113 is reduced in flow area compared to the inlet flow path 111 and is distributed and discharged, There is a problem of noise generation due to the increase of the flow rate of the fluid flowing inside.

In addition, it does not provide uniform distribution efficiency along the direction of the distributing portion 123 (the horizontal direction or the inclined direction toward the outside as shown in the drawing) where the stopping jaws 127 are formed.

That is, as shown in the drawing, the distributor 123 formed in an oblique direction is formed in a slope parallel to the inclined surface of the distributing projection 125, so that even distribution efficiency can be expected with a stable flow of the fluid. However, The direction of the distributor 123 can not be properly guided to the dispensing protrusions 125 and the direction of the dispenser 123 can not be properly adjusted. Therefore, there is a high possibility that the fluid will flow into the inner wall of the distributor 123, Efficiency can not be expected.

In Ref. No. 2, a plurality of branch pipes are formed in the distributor to distribute the introduced fluid to the distribution pipe through the branch pipe, thereby reducing the pressure loss and noise caused by the fluid distribution in the distributor A distributor is disclosed.

The fluid distributor of Reference 2 has a distribution pipe having a plurality of branch holes formed between the inlet portion and the distribution portion of the fluid to guide the fluid through the branch holes of the distribution pipe, The pressure loss and the noise reduction by mixing and distribution are expected. However, it is expected that noise is generated due to the resistance of the fluid that hits the distribution pipe formed with a plurality of branching holes, and the fluid having passed through the branching hole having a small flowing cross- The flow of the fluid passing through the distribution pipe becomes gentle and irregular, and an even distribution can not be expected.

In addition, Reference 3 discloses a refrigerant distributor including a discharge pipe fixing portion, a refrigerant inflow pipe, and a plurality of discharge pipes for distributing refrigerant to a hollow body portion which forms an appearance of a refrigerant distributor. Reference 4 discloses a distributor body And a plurality of distribution pipes are formed in the fluid distribution pipe so that the fluid passing through the inflow pipe is distributed in a uniform velocity distribution.

Reference 5 discloses a distributor in which a liquid phase and a gaseous refrigerant delivered from a capillary can be evenly mixed and distributed to an evaporator. Reference 6 discloses a distributor for use in a heat exchanger and the like with an outflow plate formed with a plurality of outflow holes Phase fluid (gas / liquid) dispenser that is compact and lightweight and has improved uniform distribution performance, and reference 7 discloses a multi-fluid distributor in which a perforated plate and a collecting plate are installed inside a distributor, Phase fluid (gas / liquid) can be distributed at an arbitrary ratio by stacking and arranging the two-phase fluid (gas / liquid).

(Reference 1) Korean Patent Laid-Open No. 10-2010-52346, 201.05.19. (Reference 2) Japanese Unexamined Patent Publication No. 2003-75028, Mar. 13, 2003. (Reference 3) Korean Patent Publication No. 10-2005-072250, 2005.07.11. (Reference 4) Korean Patent Publication No. 10-2000-0009340, 2000.02.15. (Reference 5) Korean Patent Publication No. 10-2009-0089068, Aug. 21, 2009. (Reference 6) JP-A-1-159043, Jun. 22, 1989. (Reference 7) Japanese Patent Application Laid-Open No. 6-229651, 1984.08.19.

The present invention proposes a dispensing guide in which a guiding hole for guiding and guiding a fluid is provided for each dispensing hole so as to distribute the fluid drawn in the inflowing channel to each dispensing hole, So that the distribution efficiency is improved and the vortex is not generated and the noise is greatly reduced.

The problem of the present invention is more specifically described as follows.

The present invention relates to a fluid distributor for distributing a fluid introduced through a draw-in flow path through at least two or more dispensing holes, wherein the fluid introduced from the center of the fluid distributor is evenly distributed in all directions, The distribution guide is distributed along the guide hole formed to be gradually smaller as the flow cross-sectional area becomes smaller toward the distribution hole, so that the distribution guide is evenly distributed to each distribution hole.

In addition, the distribution guide prevents the vortex from being generated by preventing the inflow fluid from being struck against the inner wall of the distributor as in the conventional process of distributing the introduced fluid through the distribution hole, thereby preventing the noise from being generated.

In addition, a distribution guide for improving the distribution efficiency is formed and the distribution guide is built in the fluid distributor, thereby making it easier to manufacture the fluid distributor, and to provide uniform distribution efficiency regardless of the direction of the distribution hole.

The present invention for solving the above problems is as follows. A plurality of guide holes formed in the body coupled to the body of the fluid dispenser to guide the fluid evenly and to discharge the fluid to the communicating distribution holes; A distribution hole formed integrally with and communicating with the guide hole and coupled to the distribution pipe; A distribution line protruding from the neighboring guide holes and intersecting each other at the center of the body to divide the guide holes and protrude in a mountain shape; And a stem portion formed by protruding the intersection point of the distribution lines forming the guide hole so as to protrude toward the inlet flow path to form a distribution guide and integrally coupled to the main body in which the inlet flow path for introducing the fluid is formed.

The present invention is characterized in that a distribution guide for distributing and guiding the fluid evenly to each of a plurality of distribution holes is incorporated in the fluid distributor so that the fluid guide can be more stably and uniformly guided and distributed by the distribution guide, Efficiency.

The present invention is based on the idea that the distribution guide is constructed so that the flow area of the guide hole for even distribution of the fluid is gradually reduced and built in the fluid distributor so that the efficiency of distribution of the fluid can be increased and at the same time, It does not hit the inner wall of the main body of the distributor and noise generation can be greatly reduced.

The present invention also provides a fluid dispenser having a uniform and stable dispensing efficiency regardless of the direction of the dispensing hole by providing a dispensing guide for uniform dispensing and noise reduction built into the fluid dispensing device and combining the fluid dispensing device It is possible to expect advantages such as being able to do.

1 is a sectional view showing an embodiment of the present invention
FIG. 2 is a perspective view of a distribution guide
FIG. 3 is a cross-sectional view
Figure 4 is a front view of the dispensing guide
5 is a sectional view taken along the line A-A '
Figure 6 is a cross-sectional view of a fluid distributor
7 is a schematic view of a conventional fluid distributor

The present invention also provides a dispensing guide for uniformly distributing the fluid introduced from the inlet flow path and distributing the flow of the fluid evenly through the guide hole communicating with the plurality of dispensing holes and guiding the fluid to be dispersed and guided, So that the distribution of the fluid can be uniformly guided, vortexes can be prevented from being generated, and the noise can be greatly reduced, thereby providing a fluid distributor.

The fluid dispenser includes a guide hole formed at one side of the main body to receive a fluid, a guide hole for guiding and distributing the fluid drawn in the guide path to the opposite side, and a distributing pipe for distributing the guided fluid, The formed distribution guides are combined.

The distribution guide is formed in a circular body having a size (diameter) conforming to the inner diameter of a body of a fluid distributor, which is usually formed in a circular tubular shape, for incorporation into the body of the fluid distributor, and guide holes communicating with the distribution holes are formed do.

The guide holes are formed in positions and numbers corresponding to the distribution holes on the circumference with reference to the center point of the body, and a distribution pipe for distributing and discharging the fluid is connected to each distribution hole.

The guide hole communicating with the dispensing hole is tapered so as to reduce the cross sectional area of the fluid flowing from the inlet flow path in which the fluid flows from the inlet flow path to the communicating distribution hole direction, thereby guiding and guiding the flow of the fluid stably and uniformly.

As described above, the guide hole whose flow cross-sectional area decreases toward the outlet side of the dispensing hole is formed such that a minute wire is protruded between neighboring guide holes and these minute wires are intersected with each other around the center point of the body, Construct a guide. Hereinafter, the implementation of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a sectional view showing an embodiment of the present invention, FIG. 2 is a perspective view taken from a distribution guide of the present invention, FIG. 3 is a sectional view excerpting a distribution guide from the present invention, Fig. 5 is a sectional view taken along line A-A 'of Fig. 4, and Fig. 6 is a sectional view of a fluid distributor to which a distribution guide is coupled.

The fluid dispenser has a draw-in passage 11 through which fluid is drawn into one side of the main body 10, and a distribution pipe 12 or 12 'is coupled to the opposite side of the main body 10 in order to distribute the fluid drawn in from the draw- , The configuration of such a fluid distributor, and the like are general.

The present invention is built in the main body 10 of the fluid distributor so that the fluid introduced from the inlet flow path 11 can be distributed to the distribution pipes 12 and 12 'efficiently and vortex flow occurs in the distribution process And a noise suppressing unit for suppressing the noise generated by the noise canceling unit.

The distribution guide includes a plurality of guide holes (2, 2 ') for forming the body (1) in a size (diameter, size) conforming to the inner diameter of the main body (10) of the fluid distributor and distributing and guiding the fluid evenly, (4, 4 ') communicating with the distributor pipes (2, 2') and coupled to the distribution pipes (12, 12 ').

Since the fluid distributor includes a plurality of distribution pipes 12 and 12 'on the circumference with respect to the center of the main body 10 having a circular tube shape, the distribution guide supports the main body 1 in the inner diameter of the main body 10 of the fluid distributor And the guide holes 2 and 2 'are formed on the circumference with reference to the center of the body 1. The guide holes 2 and 2' (4,4 ').

That is, the dispensing guide comprises a circular body 1 having a diameter corresponding to the inner diameter of the body 10 of the fluid dispenser, and the body 1 is provided with dispensing holes 4, 4 'to which the dispensing tubes 12, 12' The guide holes 2 and 2 'are formed in positions and numbers corresponding to the positions of the guide holes 2 and 2' so that the fluid drawn in from the inlet flow path 11 passes through the guide holes 2 and 2 ' And is distributed and discharged through the distribution pipes 12 and 12 'coupled to the distribution holes 4 and 4'.

In the case where the fluid distributor is a non-circular shape, the distribution guide of the present invention may also be configured so that the outer shape of the body (1) conforms to the shape of the fluid distributor (inner diameter) The distribution guides are incorporated into and coupled to the fluid distributor in a variety of forms compatible.

The dispensing guide is constructed such that the guide holes (2, 2 ') of the body (1) are embedded in the fluid distributor body (10) so as to face the inlet flow path (11) on one side of the fluid distributor, and the body 10 by welding or the like so as to be stably fixed.

The guide holes 2 and 2 'of the distribution guide body 1 are tapered such that the flow cross-sectional area gradually decreases from the entrance of the inlet passage 11 toward the distribution holes 4 and 4' .

The guide holes 2 and 2 'whose flow cross-sectional area decreases toward the distribution holes 4 and 4' are formed so that the fluid introduced from the inlet flow path 11 flows straightly through the distribution holes 4 and 4 ' The fluid flowing in the main body 10 can be prevented from colliding against the inner wall of the main body 10 during the dispensing process so as to reduce the noise caused by the fluid flowing in the main body 10, Since the distribution is uniformly distributed to the balls (2,2 '), the occurrence of noise can be greatly reduced.

The minute wires 3, 3 'are protruded between the guide holes 2, 2' of the body 1, and the minute wires 3, 3 'protruded between the adjacent guide holes 2, 3 ') intersect each other at the center (center point) of the body 1 so as to divide the guide holes 2, 2' and divide the guide holes 2, 2 ' , 3 ') protrude from the intersecting point (center) toward the inlet flow path 11 to form the stem 31.

The guide holes 2 and 2 'are defined between the guide holes 2 and 2' in which the flow cross-sectional area decreases from the inlet flow path 11 to the distribution holes 4 and 4 ' (Central point) at which the divided wires 3, 3 'intersect with each other is protruded with a sharp point and protrudes in a long shape, And the branch wirings 3 and 3 'forming the stem 31 are connected to the stem 31 by arcs.

The discharge holes 4 and 4 'for distributing and discharging the dispensed fluid are integrally formed in the guide holes 2 and 2' defined by the branch wirings 3 and 3 ' And the discharge holes 12 and 12 'are coupled to the discharge holes 4 and 4'.

As described above, the vertexes 31 of the branch lines 3, 3 'protruded between the neighboring guide holes 2, 2' allow the fluid to be drawn through the inlet flow path 11 to flow through the guide holes 2, ) So as to induce an even distribution to the branch lines (3, 3 ') and the guide holes (2, 2').

In addition, the protruding distribution wirings 3, 3 'reliably divide and distribute the fluid drawn from the inlet flow path 11 by the guide holes 2, 2' The fluid that is divided and dispersed by the guide holes 2, 2 'is guided stably and uniformly to the guide holes 2, 2', which communicate with the distribution holes 4, 4 ' So that the distribution of the fluid is uniform.

Further, the fluid guided and distributed to the guide holes (2, 2 ') of the distribution guide is uniformly distributed and distributed to the distribution holes (4, 4') communicated with the guide holes (2, Efficient and stable distribution is achieved.

On the other hand, in relation to the stem 31 of the branch wiring 3, 3 '; When the inlet portion 11A is formed in the inlet flow path 11 of the fluid distributor with a smaller diameter than the inlet flow path 11 so that the fluid introduced from the inlet flow path 11 passes through the inlet portion 11A, The pressure is increased and the flow velocity is increased while the fluid flowing through the small diameter introduction portion 11A passes through the small diameter introduction portion 11A and is rapidly guided toward the stem portion 31 of the branched wiring 3,3 ' The flow of the flow rate quickly and uniformly induces the distribution of the fluid in the vertexes 31 of the divided wires 3, 3 ', thereby enabling a rapid, more stable and improved distribution efficiency to be expected.

It is a matter of course that the fluid distributor incorporating the distribution guide can be realized by separately manufacturing the distribution guide and integrating it into the fluid distributor or integrally molding the fluid distributor as in the above-described example.

10: main body 11:
12,12 ': Distribution pipe
1: body 2, 2 ': guide ball
3,3 ': minute wiring 31:
4,4 ': Distribution ball

Claims (5)

A plurality of guide holes (2, 2 ') formed in the body (1) coupled to the body (10) of the fluid distributor to guide the fluid evenly and to discharge the fluid into the communicating distribution holes (4, 4'and;
A distribution hole (4, 4 ') formed integrally with and communicating with the guide hole (2, 2') and coupled to the distribution pipe (12, 12 ');
(2, 2 ') formed by protruding between the neighboring guide holes (2, 2') and crossing each other at the center of the body (1) 3,3 ');
And a stem (31) formed by protruding the intersection point of the branch wires (3, 3 ') defining the guide holes (2, 2') toward the inlet flow path (11);
Wherein a body (1) of the distribution guide is coupled to the main body (10) in which the inlet flow path (11) for introducing the fluid is formed. In the fluid distributor, a distribution guide is integrally coupled to a fluid distributor having a draw-in passage (11) through which fluid is drawn into a side of the main body (10)
The dispensing guide comprising:
A body (1) coupled within a body (10) of a fluid dispenser;
A plurality of guide holes (2, 2 ') formed in the body (1) for guiding the fluid evenly and discharging the fluid to the communicating distribution holes (4, 4');
A distribution hole (4, 4 ') formed integrally with and communicating with the guide hole (2, 2') and coupled to the distribution pipe (12, 12 ');
(2, 2 ') formed by protruding between the adjacent guide holes (2, 2') and intersecting each other at the center of the body (1) , 3 ');
And a vertex portion (31) in which the intersection of the branch lines (3, 3 ') forming the guide holes (2, 2') protrudes toward the inlet flow path (11) side. 3. The method according to claim 1 or 2,
The stem (31) comprises: The intersection point where the minute wirings 3 and 3 'intersect each other is protruded to be sharp and long toward the inlet flow path 11 and the minute wirings 3 and 3' are connected to the stem 31 by arcs And wherein the fluid dispenser is configured to dispense fluid. 3. The method according to claim 1 or 2,
The guide hole (2, 2 ') comprises: Wherein a cross-sectional area of the fluid flowing through the inflow passage (11) of the fluid distributor into which the fluid is introduced is set to be smaller toward the distribution holes (4, 4 ') through which the fluid is distributed. 3. The method according to claim 1 or 2,
(11) of the fluid distributor; Wherein an inlet portion (11A) having a diameter smaller than that of the inlet flow path (11) is formed so that the fluid flowing from the inlet flow path (11) passes through the inlet portion (11A).

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