KR20150015805A - Distributer assembly for piping - Google Patents

Abstract

The present invention relates to a distributor assembly for piping installed in the middle of a pipe formed for a liquid to flow such as cool water, hot water, etc; and used to connect pipes constituting piping. According to the present invention, the distributor assembly for piping comprises: a hull; a header fixed body; a supply header; a collection header; and a leakage sensor. The hull includes: a receiving chamber, a connecting hole of the supply header, a connecting hole of the collection header, and a through hole. The header fixed body is placed in the receiving chamber, and has an engaged surface of the supply header and an engaged surface of the collection header. The supply header is placed in the receiving chamber as being fixated on the header fixed body, connected to a supply pipe through the connecting hole of the supply header, and coupled to an inlet of piping pipes through the through hole. The collection header is placed in the receiving chamber by being fixated on the header fixed body, connected to a collection pipe through the connecting hole of the collection header, and coupled to an outlet of the piping pipes through the through hole. The leakage sensor is installed in a lower part of the receiving chamber to detect fluid leakage into the receiving chamber.

Description

Distributer assembly for piping [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a piping distributor assembly, and more particularly, to a piping distributor assembly used for connecting and branching piping in a piping network for flowing a fluid such as cold water or hot water in a radiating cooling and heating system or the like.

In recent years, a radiation cooling and heating system which gives a temperature change by the principle of non-convection radiation has been attracting attention, and the market share of the radiation cooling and heating system among all the heating and cooling systems is steadily increasing.

Convection type air-conditioning system such as air conditioner or hot air fan uses the principle of controlling indoor temperature by convective phenomenon after cooling or heating indoor air. In contrast, radiating air-conditioning system circulates cold water or hot water indirectly to cool indoor air Or heating.

The convective cooling and heating system has a problem that ducts for air circulation must be provided for cooling and heating, the amount of outdoor air introduced due to ventilation application is increased, the energy cost is increased, and the temperature distribution is uneven. In addition, the user's discomfort due to excessive air flow is generated, and the living environment of the room such as scattering of dust is deteriorated.

On the other hand, the radiating cooling and heating system is advantageous in terms of maintenance cost since water having a larger heat capacity than air is used as a heating medium. In other words, it is known that heat transfer energy is less than conventional air conditioner or hot air fan, and room temperature can be kept relatively low or high in order to maintain the same comfort level, thereby saving energy. In addition, it has the advantage of being able to improve the quality of indoor air because there is little noise and few particles of airborne fine dust or germs, which can provide a pleasant indoor environment for living from child to adult and senior citizen. In addition, the radiating air-conditioning system is advantageous not only in houses but also in public buildings such as hospitals, libraries, laboratories, museums, cultural arts facilities, restaurants and the like, since there is no noise and air current feeling problems of existing air conditioners.

The radiating and heating system includes a radiating panel installed in a wall or a ceiling, a boiler for supplying hot water, a refrigerator for supplying cold water, and a heating and cooling controller. The radiating panel is installed in a wall or a ceiling to form a continuous matrix, and a pipe for the flow of the heating medium is provided therein. The boiler supplies hot water to the radiating panel through the supply pipe. The chiller supplies cold water to the radiating panel through the supply pipe. The cooling and heating controller controls the boiler and the freezer to selectively supply cold or hot water to the radiating panel through the supply pipe. Control operation.

In order for such a radiating and cooling system to be successful in the market, it is necessary to improve the construction and maintenance performance of the system components such as the radiating panel. In the radiating and heating system, the pipes constituting the piping are long and occupy a large area. Therefore, it is advantageous for the construction and maintenance to align the pipes evenly. The use of a distributor assembly capable of distributing the fluid to a plurality of pipes in constructing the pipe by connecting the plurality of pipes is advantageous for uniformly arranging the plurality of pipes.

Various kinds of piping distributor assemblies have been developed and used. For example, Korean Patent Registration No. 0742352 (registered on July 07, 2007), Korean Registered Patent Publication No. 0751728 (registered on Aug. 17, 2007), Korea Registered Utility Model No. 0405423 ), Korean Utility Model Publication No. 0430683 (Registered on Nov. 02, 2006), and the like.

As described above, various kinds of distributor assemblies are currently being developed and used, but various attempts have been made to develop distributor assemblies that are easy to use and easy to install.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a piping distributor assembly of a new structure which is easy to assemble and install and has improved usability.

Another object of the present invention is to provide a piping distributor assembly having a novel structure that can efficiently manage the connection and branch points of piping to solve a leakage problem that may occur during operation of the system.

According to an aspect of the present invention, there is provided a piping distributor assembly including a housing, a header fixture, a supply header, a recovery header, and a leakage sensor. Wherein the housing includes a housing chamber, a supply header connection hole connected to the housing chamber, a recovery header connection hole spaced apart from the supply header connection hole and connected to the housing chamber, And a through hole disposed apart from the header connection hole. The header fixing body is coupled to the housing and disposed in the receiving chamber, and has a feed header coupling surface and a recovery header coupling surface. Wherein the supply header is fixed to the header fixing body and disposed in the containing chamber so that an outer surface of the supply header contacts the supply header fitting surface to distribute the fluid supplied through the supply pipe for supplying the fluid to the plurality of piping pipes, And is connected to the supply pipe through the supply header connection hole and to the inlet of the plurality of pipe pipes through the through hole. The recovery header is fixed to the header fixing body so that the outer surface contacts the recovery header coupling surface to collect the fluid discharged from the plurality of piping pipes and collect it in the recovery pipe for fluid recovery, Connected to the recovery pipe through the recovery header connection hole, and connected to the discharge portion of the plurality of pipe pipes through the through hole. The water leakage sensor is installed below the storage chamber to detect a fluid leaking into the storage chamber.

The housing includes a housing having both open ends, a first cover coupled to one end of the housing to cover an open one side of the housing, and a second cover coupled to the other end of the housing to cover the other open side of the housing And a second cover, wherein the supply header connection hole, the recovery header connection hole, and the plurality of through holes are provided in the housing.

The first cover includes a first shielding member protruding toward the supply header connection hole so as to partially shield the supply header connection hole, and the second cover may partially shield the recovery header connection hole And a second shielding member protruding toward the collection header connection hole.

Wherein the first shielding member has a first pressing surface contacting the outer surface of the supply header to press the supply header toward the supply header engaging surface and the second shielding member contacts the outer surface of the return header, And a second pressing surface for pressing toward the collection header coupling surface.

The first cover and the second cover may have the same structure.

At least one of the first cover and the second cover may be provided with a coupling hole into which a coupling member for coupling with an external structure is inserted.

The piping distributor assembly according to an aspect of the present invention may further include a cap fitted to the connection hole to block the connection hole.

The piping distributor assembly according to an aspect of the present invention may further include a cap fitted to the through hole to block the through hole.

The housing further includes a bottom surface disposed at the lowermost portion of the storage chamber and a guide sloped surface inclined downward toward the bottom surface to guide the fluid falling from the connection portion of the supply header or the connection portion of the collection header to the bottom surface can do.

Wherein the header fixture includes a first stopper abutting the outer surface of the supply header to prevent the supply header from escaping from the supply header engaging surface, and a second stopper abutting the outer surface of the recovery header to prevent the recovery header from deviating from the recovery header coupling surface And may further include a second stopper.

According to another aspect of the present invention, there is provided a piping distributor assembly including a housing, a header fixture, a supply header, a recovery header, and a leakage sensor. Wherein the housing comprises a housing chamber, a first supply header connection hole and a second supply header connection hole arranged to face each other with the housing chamber interposed therebetween, and a second supply header connection hole facing the first supply header connection A first recovery header connection hole and a second recovery header connection hole spaced apart from the second supply header connection hole and spaced apart from the pair of supply header connection holes and the pair of recovery header connection holes, And a through hole arranged to be connected to the accommodating chamber. The header fixing body is coupled to the housing and disposed in the receiving chamber, and has a supply header coupling surface and a recovery header coupling surface. Wherein the supply header is fixed to the header fixing body so as to contact the supply header coupling surface in order to distribute the fluid supplied through the supply piping to a plurality of piping pipes, And is connected to one end of the supply pipe through the first supply header connection hole and to the other end of the supply pipe through the second supply header connection hole, And is connected to an inlet portion of a plurality of pipe pipes. Wherein the recovery header is disposed in the middle of a recovery pipe for recovering fluid and collects the fluid discharged from the plurality of pipes for recovery to the recovery pipe, And is connected to one end of the recovery pipe through the first recovery header connection hole and to the other end of the recovery pipe through the second recovery header connection hole, And is connected to a discharge portion of the plurality of piping pipes. The water leakage sensor is installed below the storage chamber to detect a fluid leaking into the storage chamber.

The distributor assembly according to the present invention can easily connect the supply piping and the piping pipe for supplying the fluid and the recovery piping and the piping pipe for recovering the fluid easily, It will help. It also simplifies the piping installation structure of various fluid systems such as the connection structure between piping pipes and supply piping and the connection structure between piping pipes and supply piping.

In addition, the distributor assembly according to the present invention is characterized in that a connecting chamber of the supply header and the supply pipe, a connection portion of the supply header and the pipe for piping, a connection portion of the recovery header and the recovery pipe, And a leak sensor is installed in the lower portion of the storage chamber, so that it is easy to detect leakage occurring in a plurality of connection portions. That is, when leakage occurs in any one of the connecting portions of the supply header and the supply pipe, the connecting portion of the supply header and the pipe, the connecting portion of the return header and the return pipe, and the connecting portion of the return header and the pipe, Since all the leaking fluid collects toward the leak sensor at the bottom of the receiving chamber, it is possible to detect the leakage occurring at a plurality of connections with a single leak sensor.

Further, the distributor assembly according to the present invention is easy to assemble and disassemble, easy to install, and easy to maintain.

1 is an exploded perspective view of a piping distributor assembly according to an embodiment of the present invention.
2 is a front view illustrating a piping distributor assembly according to an embodiment of the present invention.
3 is a front sectional view showing a piping distributor assembly according to an embodiment of the present invention.
4 is a view illustrating a state in which a piping distributor assembly according to an embodiment of the present invention is applied to a radiating cooling and heating system.
5 is a front sectional view showing a piping distributor assembly according to another embodiment of the present invention.
FIG. 6 illustrates a piping distributor assembly according to another embodiment of the present invention applied to a cooling / heating system.

Hereinafter, a piping distributor assembly according to the present invention will be described in detail with reference to the accompanying drawings.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, the terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. These terms are to be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the contents throughout the present specification.

FIG. 1 is an exploded perspective view showing a piping distributor assembly according to an embodiment of the present invention, FIG. 2 is a front view showing a piping distributor assembly according to an embodiment of the present invention, FIG. 3 is a cross- Sectional view of the distributor assembly for piping according to the present invention.

1 to 3, a piping distributor assembly 10 according to an embodiment of the present invention includes a housing 11 having a housing chamber 12, a housing 11 coupled to the housing 11, The header fixing body 35 disposed in the header fixing body 12 and the supply piping 70 for supplying the fluid are fixed to the header fixing body 35 in order to distribute the fluid to the plurality of piping pipes 75 A recovery header 55 fixed to the header fixing body 35 for collecting the fluid discharged from the plurality of piping pipes 75 and recovering the collected fluid to the recovery piping 80; And a water leakage sensor 65 installed at the lower portion of the storage chamber 12 for detecting leakage. The distributor assembly 10 according to the present invention is applied to a piping system in which various fluids flow, facilitating the connection of the pipes constituting the piping, and arranging the plurality of pipes evenly.

The housing 11 includes a housing 13 having open ends at both ends thereof, a first cover 14 for covering an opened one side of the housing 13, a second cover 14 for covering the other open side of the housing 13, (15). The housing chamber 12 is provided inside the housing 13, the first cover 14 and the second cover 15.

The housing 13 is formed in the form of a rectangular box having open upper and lower ends. A first supply header connection hole 16a and a first collection header connection hole 17a are provided on one side of the housing 13 and a first supply header connection hole 16a and a first collection header connection hole 17a The second supply header connection hole 16b and the second recovery header connection hole 17b are provided on the other side facing the one side provided with the second supply header connection hole 16b and the second recovery header connection hole 17b. The supply header connecting holes 16a and 16b are for connecting the supply header 45 inside the housing 13 and the supply pipe 70 outside the housing 13 and the return header connecting holes 17a and 17b Is for connection of the recovery header 55 inside the housing 13 and the recovery pipe 80 outside the housing 13. [

The first supply header connection hole 16a and the first recovery header connection hole 17a are spaced apart from each other. The first supply header connection hole 16a extends from the middle of one side of the housing 13 to the upper end And the first collection header connection hole 17a is extended to open from the middle of one side of the housing 13 toward the lower end. Likewise, the second supply header connection hole 16b and the second recovery header connection hole 17b are spaced apart from each other, and the second supply header connection hole 16b is disposed in the middle of the other side of the housing 13, And the first collection header connection hole 17a is extended to open from the middle of the other side of the housing 13 toward the lower end.

A supply header coupling surface 18 is provided around the lower portion of each of the pair of supply header connection holes 16a and 16b. The supply header engaging surface 18 is a portion where the outer surface of the supply header 45 disposed in the accommodating chamber 12 abuts. And a return header engaging surface 19 is provided on the upper periphery of each of the pair of recovered header connection holes 17a and 17b. The recovery header coupling surface 19 is a portion where the outer surface of the recovery header 55 disposed in the storage chamber 12 contacts. The supply header coupling surface 18 is formed of a curved surface corresponding to the outer shape of the supply header 45 so that the supply header 45 can be maintained in a stable fixed state and the return header 55 can be maintained in a stable fixed state The recovery header coupling surface 19 may be formed of a curved surface corresponding to the outer shape of the recovery header 55.

A plurality of through holes 20 are formed in two other side surfaces of the housing 13 in which the supply header connection holes 16a and 16b and the recovery header connection holes 17a and 17b are not formed. The plurality of through holes 20 are formed by connecting the supply header 45 inside the housing 13 and the piping pipe 75 outside the housing 13 and the connection between the return header 55 inside the housing 13 and the housing 13 For connection of an external piping pipe (75).

In addition, a plurality of coupling grooves 21 are provided at the upper end edge and the lower end edge of the housing 13. The engaging groove 21 provided at the upper end edge of the housing 13 is for engaging the engaging projection 22 provided on the first cover 14 and the engaging groove 21 provided on the lower edge of the housing 13 21 are for fitting the engaging projections 26 provided on the second cover 15.

The first cover 14 is coupled to the upper end of the housing 13 to cover the open upper surface of the housing 13. A plurality of engaging projections 22 are provided at the lower end edge of the first cover 14. [ These engaging projections 22 are arranged to correspond to the plurality of engaging grooves 21 provided at the upper end edge of the housing 13 and are fitted into each of the engaging grooves 21. The first cover 14 can be firmly coupled to the housing 13 by fitting a plurality of engaging projections 22 into the plurality of engaging grooves 21. [

A pair of first shielding members (23) are arranged to face each other on a pair of opposite side surfaces of the first cover (14). The first shielding member 23 is provided to protrude toward the supply header connection holes 16a and 16b and when the first cover 14 is coupled to the housing 13, The first supply header connecting hole 16a is partially shielded and the other first shielding member 23 partially shields the second supply header connecting hole 16b. At the ends of each of the pair of first shielding members 23, a first pressing surface 24 contacting the outer surface of the supply header 45 is provided.

2 and 3, when the first cover 14 is coupled to the housing 13, the first pressing surface 24 of each of the pair of first shielding members 23 is connected to the supply header 45 to press the supply header 45 toward the header fixing body 35. [ The pair of first shielding members 23 press the supply header 45 toward the header fixing body 35 so that the supply header 45 can be stably fixed in the housing 11. [ At the same time, the supply header connection holes 16a and 16b are partially shielded to prevent foreign matter from flowing into the housing 11 through the supply header connection holes 16a and 16b.

The second cover 15 is coupled to the lower end of the housing 13 to cover the open lower surface of the housing 13. A plurality of engaging projections 26 are provided on the upper edge of the second cover 15. These engaging projections 26 are disposed so as to correspond to the plurality of engaging grooves 21 provided at the lower end edge of the housing 13 and are fitted into each of the engaging grooves 21. The second cover 15 can be firmly coupled to the housing 13 by fitting a plurality of engaging projections 26 into the plurality of engaging grooves 21. [

A pair of second shielding members 27 are disposed on the pair of opposite side surfaces of the second cover 15 so as to face each other. The second shielding member 27 is provided to protrude toward the recovery header connection holes 17a and 17b and when the second cover 15 is coupled to the housing 13, The first collection header connection hole 17a is partially shielded, and the other second shield member 27 partially shields the second collection header connection hole 17b. At the ends of each of the pair of second shielding members 27, a second pressing surface 28 contacting the outer surface of the recovery header 55 is provided. 2 and 3, when the second cover 15 is coupled to the housing 13, the second pressure applying surface 28 of each of the pair of second shielding members 27 is connected to the recovery header 55 and presses the recovery header 55 toward the header fixing body 35. As shown in FIG. The pair of second shielding members 27 press the recovery header 55 toward the header fixing body 35 so that the recovery header 55 can be stably fixed in the housing 11 At the same time, the return header connecting holes 17a and 17b are partially shielded to prevent foreign matter from flowing into the housing 11 through the return header connecting holes 17a and 17b.

The second cover 15 is provided with a bottom surface 29 disposed at the bottom of the inner bottom and a plurality of guide slopes 30 arranged downwardly toward the bottom surface 29. The plurality of guide inclined surfaces 30 are connected to a connection portion of the supply header 45 such as a connection portion between the supply header 45 and the supply pipe 70 or a connection portion between the supply header 45 and the pipe 75, 55 and the recovery pipe 80 and the connection between the recovery header 55 and the piping pipe 75 such as the connection of the recovery header 55 to the bottom surface 29. [ Therefore, when the fluid leaks from the connection portion of the supply header 45 or the connection portion of the recovery header 55, the leaking fluid is collected on the bottom surface 29 of the second cover 15. [

A leak sensor 65 is provided on the bottom surface 29. The leak sensor 65 detects the fluid leaked from the connection portion of the supply header 45 or the connection portion of the recovery header 55 and the fluid on the bottom surface 29 is detected and transmits the detection signal to the outside. The cable 66 connected to the water leakage sensor 65 for supplying power to the water leakage sensor 65 or for transmitting the detection signal of the water leakage sensor 65 to the outside is provided with a through hole And may extend outside the enclosure 11 through the hole 31. As the water leakage sensor 65, various types capable of sensing various fluids can be used.

In the present invention, the specific structure of the housing 13 constituting the housing 11, the first cover 14 and the second cover 15 is not limited to that shown and can be variously changed. The coupling structure of the housing 13 and the first cover 14 and the coupling structure of the housing 13 and the second cover 15 may be variously changed. For example, a plurality of coupling protrusions may protrude from the upper end and the lower end of the housing 13, and the first cover 14 and the second cover 15 may be provided with coupling grooves corresponding to the coupling protrusions of the housing 13 have. The first cover 14 and the second cover 15 may not be detachably coupled to the housing 13 but may be integrally formed with the housing 13. The guide sloping surface 30 provided on the second cover 15 is not a flat shape as shown in the drawings but may be a curved surface shape and may be provided in various numbers other than four.

1 and 3, the header fixing body 35 is disposed in the center of the inside of the housing 13, and fixes the supply header 45 and the recovery header 55 at predetermined positions in the housing chamber 12 do. The header fixing body 35 is fixed to the accommodating chamber 12 by being coupled to a pair of side surfaces in which the supply header connecting holes 16a and 16b and the return header connecting holes 17a and 17b of the housing 13 are formed And a plurality of header supporting members 37 arranged so as to be spaced apart from each other between the pair of fixing legs 36 and the pair of fixing legs 36. [ At both ends of the header support member 37, a supply header coupling surface 38 and a recovery header coupling surface 39 are provided, respectively. When the supply header 45 and the recovery header 55 are respectively fixed to the header fixing body 35, the outer surface of the supply header 45 contacts the supply header engagement surface 38, and the outer surface of the recovery header 55 is recovered And is in contact with the header coupling surface 39. The feed header coupling surface 38 is formed of a curved surface corresponding to the outer shape of the feed header 45 so that the feed headers 45 can be maintained in a stable fixed state, The recovery header coupling surface 39 may be a curved surface corresponding to the outer shape of the recovery header 55.

A first stopper 40 is provided at the upper end of each of the pair of the fixed rods 36 and a second stopper 41 is provided at the lower end of each of the pair of the fixed rods 36. The first stopper 40 contacts the outer surface of the supply header 45 when the supply header 45 is placed on the supply header engagement surface 38 of the header support member 37, (38). The second stopper 41 contacts the outer surface of the recovery header 55 when the recovery header 55 is placed on the recovery header coupling surface 39 of the header support member 37, Thereby preventing the surface 39 from escaping.

The specific structure of the header fixing body 35 is not limited to the illustrated one and may be fixed to the housing 11 such that the supply header 45 and the recovery header 55 can be combined, It can be changed into various other structures that can fix the recovery header 55 at a predetermined position in the accommodation chamber 12. [ In the figure, the header fixing body 35 has a structure capable of fixing both the supply header 45 and the recovery header 55. However, the header fixing body 35 has a structure in which the supply header 45 is fixed And may be arranged in the storage chamber 12 so as to be separated from the storage headers 55 and fixed thereto. The structure of the first stopper 40 and the second stopper 41 is not limited to that shown in the drawings and may be a feed header 45 or a return header 55). ≪ / RTI >

1 to 3, the supply header 45 is installed in the middle of the supply pipe 70 for supplying fluid, and supplies the fluid supplied through the supply pipe 70 to the plurality of pipe pipes 75, And has a hollow tube shape in which a supply flow path 46 is provided. The supply header 45 is provided with a first supply pipe connection hole 47a through which one end of the supply pipe 70 is connected and the other end of the supply pipe 70 is connected to the other end of the supply header 45 2 supply pipe connection hole 47b is provided. The supplied fluid flows into the supply flow path 46 through the first supply pipe connection hole 47a from the supply pipe 70 and the fluid that has passed through the supply flow path 46 flows into the second supply pipe connection hole 47b And flows along the supply pipe 70 connected thereto. The other end of the supply header 45 in which the first supply pipe connection hole 47a is formed and the one end of the supply header 45 in which the second supply pipe connection hole 47b is formed is provided with a connector 48 .

The fluid that has flowed into the supply flow path 46 is distributed to the plurality of pipe pipes 75 through the plurality of pipe connection holes 49 provided on the side of the supply header 45 so as to be connected to the supply flow path 46. The inlet 75a of the pipe 75 is connected to the plurality of pipes 75 and the fluid of the supply passage 46 flows into the pipe 75 through the pipe connecting hole 49 . The connector 50 for coupling the pipe 75 is provided at a portion where the plurality of pipe connection holes 49 on the side of the supply header 45 are formed to correspond to the plurality of pipe connection holes 49 one to one.

On the side surface of the supply header 45, a pair of locking projections 51 protrude outward. A pair of first stoppers 40 provided on the header fixing body 35 when the supply header 45 is placed on the supply header engaging surface 38 of the header fixing body 35 And presses the supply header 45 toward the supply header engagement surface 38 in contact with the pair of engagement protrusions 51 of the supply header 45, respectively. Thus, the supply header 45 can be brought into close contact with the supply header engaging surface 38 of the header fixture 35 to maintain a stable stationary state.

1 to 3, when the supply header 45 is fixed to the header fixing body 35 and disposed in the housing chamber 12, a first supply pipe connection hole (not shown) provided at one end of the supply header 45, The second supply pipe connection hole 47b provided at the other end of the supply header 45 is exposed to the outside of the housing 11 through the first supply header connection hole 16a of the housing 11, The second supply header connecting hole 16b of the second supply header connecting hole 16b. The supply pipe 70 disposed outside the housing 11 is connected to the first supply pipe connection hole 47a of the supply header 45 via the first supply header connection hole 16a and the second supply header connection hole 16b And the second supply pipe connection hole 47b, respectively. After the supply header 45 is disposed in the storage chamber 12, one end of the pipe 75 on the side of the inlet portion 75a is connected to the storage chamber 12 through the through hole 20 of the housing 11 And can be connected to the pipe connecting hole 49 of the supply header 45. [

1 to 3, the recovery header 55 is installed in the middle of the recovery pipe 80 for recovering the fluid, collects the fluid discharged from the plurality of pipe pipes 75, And has a hollow tube shape in which a recovery flow path 56 is provided. The one end of the recovery header 55 is provided with a first recovery pipe connection hole 57a to which one end of the recovery pipe 80 is connected and the other end of the recovery pipe 80 is connected to the other end of the recovery header 55 A second water pipe connection hole 57b is provided. A connector 58 for coupling the return pipe 80 is provided at the other end of the return header 55 having the first return pipe connection hole 57a formed therein and the second return pipe connection hole 57b formed therein. .

A plurality of pipe connection holes 59 connected to the recovery flow path 56 are provided on the side of the recovery header 55. The discharge port 75b of the pipe 75 is connected to the pipe connection hole 59 of the recovery header 55. The fluid discharged from the piping pipe 75 flows into the recovery flow path 56 through the pipe connection hole 59 of the recovery header 55 and then moves along the recovery flow path 56, (57a) or the second recovered pipe connection hole (57b) into the recovery pipe (80). It is preferable that the fluid flows in one direction in the recovery flow path 56. The fluid that flows into the recovery flow path 56 through the plurality of pipe connection holes 59 flows from the second recovery pipe connection hole 57b toward the first recovery pipe connection hole 57a and flows into the first recovery pipe connection hole 57a, To the return pipe 80 connected to the outlet pipe 57a. In this case, the fluid recovered in the other pipe 75 through the second recovery pipe connection hole 57b can be introduced into the recovery flow path 56 through the recovery pipe 80.

The connector 60 for coupling the piping pipe 75 is provided in the portion where the plurality of pipe connection holes 59 on the side of the recovery header 55 are formed so as to correspond to the plurality of pipe connection holes 59 one to one, On the side surface of the recovery header 55, a pair of locking projections 61 protrude outward. A pair of second stoppers 41 provided on the header fixing body 35 when the recovery header 55 is placed on the recovery header coupling surface 39 of the header fixing body 35 The recovery headers 55 contact the pair of locking protrusions 61 of the recovery header 55 and press the recovery header 55 toward the recovery header coupling surface 39. Therefore, the recovery header 55 is brought into close contact with the recovery header coupling surface 39 of the header fixing body 35, and can be kept in a stable fixed state.

1 to 3, when the recovery header 55 is fixed to the header fixing body 35 and disposed in the storage chamber 12, the first recovery pipe connection hole (not shown) provided at one end of the recovery header 55, The second recovery pipe connection hole 57b provided at the other end of the recovery header 55 is exposed to the outside of the housing 11 through the first recovery header connection hole 17a of the housing 11, And is exposed to the outside of the housing 11 through the second recovery header connection hole 17b of the second recovery header connection hole 17b. The recovery pipe 80 disposed outside the housing 11 is connected to the first recovery pipe connection hole 57a of the recovery header 55 through the first recovery header connection hole 17a and the second recovery header connection hole 17b And the second return pipe connection hole 57b, respectively. One end of the pipe 75 on the side of the discharge portion 75b of the pipe 75 is connected to the receiving chamber 12 through the through hole 20 of the housing 11 after the return header 55 is disposed in the housing chamber 12 And can be connected to the pipe connection hole 59 of the recovery header 55. [

FIG. 4 shows a piping distributor assembly 10 according to an embodiment of the present invention applied to an air-conditioning system.

As is well known, the radiating cooling and heating system includes a plurality of radiation panels 90, a boiler for supplying hot water, a refrigerator for supplying cold water, and a cooling and heating controller. As shown, the radiating panel 90 is fixedly mounted to the ceiling frame 95 to form a continuous matrix. The radiating panel 90 includes a pipe 75 in which a flow path through which the heating medium flows, a finishing panel 91 in which the pipe 75 is accommodated, And a heat insulating material 92 covering the heat sink 75.

The piping distributor assembly 10 according to the present invention is fixed to one side of the frame 95 so as to be connected to a supply pipe 70 for supplying a heating medium and a recovery pipe 80 for recovering a heating medium. The supply header 45 disposed inside the housing 11 is connected to the supply pipe 70 and the recovery header 55 is connected to the recovery pipe 80. An inlet portion 75a of a pipe 75 provided in the radiating panel 90 is connected to the supply header 45 through a through hole 20 of the housing 11, The discharge portion 75b of the piping pipe 75 provided in the casing 90 is connected through the through hole 20 of the casing 11. [ Each copy panel 90 is directly connected to the supply header 45 and the return header 55 or a plurality of copy panels 90 are interconnected and only one of the copy panels 90 is connected to the supply header 45 Can be directly connected to the recovery header 55.

As described above, the distributor assembly 10 according to the present invention includes a plurality of radiation panels 90 fixedly installed on the frame 95 so as to form a continuous matrix, and the plurality of radiation panels 90 are supplied through the supply pipe 70 The heating medium is distributed to the plurality of radiation panels 90 and the heating medium having passed through the plurality of radiation panels 90 can be collected and recovered through the recovery pipe 80. [ Therefore, the connection structure between the piping pipe 75 and the supply piping 70 and the connection structure between the piping pipe 75 and the return piping 80 can be simplified.

As described above, the distributor assembly 10 according to the present invention includes the recovery pipe 80 and the pipe 75 for connection and fluid recovery of the supply pipe 70 and the pipe 75 for supplying fluid, So that the piping pipe 75 constituting the piping can be evenly aligned. The connection structure of the piping pipe 75 and the supply piping 70 and the connection structure of the piping pipe 75 and the return piping 80 can be simplified.

The distributor assembly 10 according to the present invention includes a connection header 45 and a connection portion of the supply pipe 70, a supply header 45 and a pipe 75 The connecting portion of the return header 55 and the return pipe 80 and the connecting portion of the return header 55 and the pipe 75 are all accommodated in the receiving chamber 12 and the water leak sensor 65 is installed in the lower portion of the receiving chamber 12 , It is easy to detect leakage occurring in a plurality of connection portions. That is, the connection between the supply header 45 and the supply pipe 70, the connection between the supply header 45 and the pipe 75, the connection between the recovery header 55 and the recovery pipe 80, The leaked fluid collects toward the water leakage sensor 65 in the lower portion of the storage chamber 12, so that a leak sensor (not shown) 65 can detect a leakage occurring in a plurality of connection portions.

Further, the distributor assembly 10 according to the present invention is easy to assemble and disassemble, easy to install, and easy to maintain.

In the present invention, the number of the supply header 45 and the recovery header 55 accommodated in one housing 11 can be variously changed. The number of piping pipes 75 that can be connected to one supply header 45 and the number of piping pipes 75 that can be connected to one recovery header 55 are not limited to the illustrated ones, can be changed. Only one through hole 20 may be provided in the housing 11 to allow a plurality of pipe pipes 75 located outside the housing 11 to enter the housing 11. [ In addition, in the case of the supply header 45, only one supply pipe connection hole may be provided, and only one end of the supply pipe 70 may be connected to the supply header 45. In the case of the recovery header 55, only one recovery pipe connection hole may be provided, and only one end of the recovery pipe 80 may be connected to the recovery header 55.

And the supply header 45 and the supply pipe 70 may have a connection structure other than the connection structure by the connector 48 as shown and the supply header 45 and the pipe 75 are also shown A connection structure other than the connection structure by the connector 50 as shown in Fig. The recovery header 55 and the recovery pipe 80 may have a connection structure other than the connection structure by the connector 58 as shown and the recovery header 55 and the piping pipe 75 are also shown A connection structure other than the connection structure by the connector 60 as shown in Fig. The positions of the supply header 45 and the recovery header 55 in the storage chamber 12 may be changed. That is, the recovery header 55 may be disposed above the supply header 45. [

Although the drawings show that both ends of the supply header 45 extend over the first supply header connection hole 16a and the second supply header connection hole 16b of the housing 11, 1 supply header connection hole 16a or the second supply header connection hole 16b. In this case, the supply pipe 70 enters the accommodating chamber 12 through the supply header connecting holes 16a and 16b and is connected to the supply header 45. [ The recovery header 55 is completely housed in the housing 11 so as not to be exposed to the first recovery header connection hole 17a or the second recovery header connection hole 17b and the recovery pipe 80 is connected to the recovery header connection hole 17a and 17b to the receiving chamber 12 and connected to the collecting header 55. [

5 is a front sectional view showing a piping distributor assembly according to another embodiment of the present invention.

The piping distributor assembly 100 according to another embodiment of the present invention is substantially the same as the distributor assembly 10 according to the above-described embodiment of the present invention. For the same configuration as described above, And a detailed description thereof will be omitted.

The piping distributor assembly 100 according to the present embodiment includes a housing 110 having a housing chamber 12, a header fixing body 35 coupled to the housing 110 and disposed in the housing chamber 12, A supply header 45 fixed to the header fixing body 35 for distributing the fluid supplied through the supply piping 70 (see FIG. 1) for supplying the fluid to the plurality of piping pipes 75, A recovery header 55 fixed to the header fixing body 35 for collecting the fluid discharged from the piping pipe 75 and recovering the collected fluid to the recovery pipe 80 (see FIG. 1) And a water leakage sensor 65 installed at a lower portion of the chamber 12. Here, the concrete structure and action of the header fixing body 35, the supply header 45, the recovery header 55 and the leak sensor 65 are as described above.

The housing 110 has a housing 13 with both open ends, a first cover 112 for covering an opened one side of the housing 13, a second cover for covering the other open side of the housing 13, (114). The first cover 112 and the second cover 114 have the same structure. The cover 112 and the cover 114 have a structure substantially identical to that of the piping distributor assembly 10 according to the above- Like the second cover 114 of FIG.

That is, the first cover 112 and the second cover 114 include a plurality of coupling projections 26 corresponding to the plurality of coupling grooves 21 provided in the housing 13, a pair of shielding members 27, A bottom surface 29, and a plurality of guide slopes 30. A through hole 31 is formed in one side surface of the cover 112 and a connecting hole 116 is formed in the bottom surface 29 through the bottom surface 29. The connection hole 116 is for coupling a connection member for connection to an external structure such as a wire or the like. When the connection member is connected to the housing 110 through the connection hole 116, the housing 110 is hung Can be installed. When the connecting member is not connected to the connecting hole 116, the connecting hole 116 may be blocked by the stopper 117 to prevent foreign matter from entering the inside of the enclosure 110 through the connecting hole 116.

Since the housing 13 has a symmetrical structure and the first cover 112 and the second cover 114 have the same structure, the piping distributor assembly 100 according to another embodiment of the present invention has a structure in which the upper, It can be easily installed without distinguishing.

In addition, the through hole 20 in which the pipe 75 for the pipe is not inserted in the through hole 20 provided in the housing 13 can be sealed by the stopper 118.

FIG. 6 shows a piping distributor assembly 110 according to another embodiment of the present invention applied to an air-conditioning system.

The piping distributor assembly 100 according to the present invention is fixed to one side of the frame 95 so as to be connected to a supply pipe 70 for supplying a heating medium and a recovery pipe 80 (see FIG. 4) do. The supply header 45 (see FIG. 5) disposed inside the housing 110 is connected to the supply pipe 70 and the recovery header 55 (see FIG. 5) is connected to the recovery pipe 80. An inlet portion 75a of a pipe 75 provided in the radiating panel 90 is connected to the supply header 45 through a through hole 20 (see FIG. 5) of the housing 110 and a return header 55 The discharge portion 75b of the piping pipe 75 provided in the radiation panel 90 is connected through the through hole 20 of the housing 11.

The plurality of radiation panels 90 provided in the frame 95 are grouped so that four pipes share one pipe 75. The pipe 75 of one radiation panel group is connected to the inlet And the discharge port 75b at the other end is connected to the recovery header 55 inside the enclosure 110. [ The piping pipe 75 of the other one of the radiation panel groups has an inlet 75a at one end thereof connected to the supply header 45 inside the housing 110 and an outlet 75b at the other end thereof connected to the inlet And is connected to the recovery header 55 inside the housing 110. A stopper 118 (see FIG. 5) is fitted into the through hole 20 of the housing 110 where the inlet 75a and the outlet 75b of the pipe 75 are not inserted, Inflow can be prevented.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

10, 100: distributor assembly 11, 110: housing
12: accommodating chamber 13: housing
14, 112: first cover 15, 114: second cover
16a and 16b: first and second supply header connecting holes
17a, 17b: first and second number of header connecting holes
18, 38: supply header coupling surface 19, 39: recovery header coupling surface
21: engaging groove 22, 26: engaging projection
23, 27: first and second shielding members 24, 28: first and second pressing surfaces
29: bottom surface 30: guide inclined surface
35: Header fixture 36: Fixture
37: Header supporting member 40, 41: First and second stoppers
45: feed header 46: feed channel
47a, 47b: first and second supply pipe connection holes
48, 50, 58, 60: connector 49, 59: pipe connecting hole
51, 61: stopper 55: recovered header
56:
57a, 57b: first and second water pipe connection holes
65: Leak sensor 66: Cable
70: Supply piping 75: Piping pipe
80: recovery pipe 90: radiation panel
95: frame

Claims (11)

A supply header connecting hole communicated with the receiving chamber, a return header connecting hole spaced apart from the supply header connecting hole and connected to the receiving chamber, and a return header connecting hole communicating with the receiving chamber connecting hole and the collecting header connecting hole, An enclosure having through holes arranged to be spaced apart from each other;
A header fixture coupled to the enclosure and disposed in the receiving chamber, the header fixture having a feed header coupling surface and a recovery header coupling surface;
Wherein the supply header connecting hole is fixed to the header fixing body and is disposed in the receiving chamber so that an outer surface contacts the feed header coupling surface to distribute the fluid supplied through the supply piping for supplying the fluid to the plurality of piping pipes, A supply header connected to the supply pipe through the through hole and connected to the inlet of the plurality of pipe pipes;
Wherein the plurality of piping pipes are disposed in the receiving chamber so as to be fixed to the header fixing body such that an outer surface of the plurality of piping pipes abuts against the recovery header coupling surface for collecting the fluid discharged from the plurality of piping pipes and collecting the collected fluid into a recovery pipe for recovering fluid, A recovery header connected to the recovery pipe through a hole and connected to a discharge portion of the plurality of piping pipes through the through hole; And
And a water leakage sensor installed at a lower portion of the accommodating chamber to detect a fluid leaking into the accommodating chamber.
The method according to claim 1,
The housing includes a housing having both open ends, a first cover coupled to one end of the housing to cover an open one side of the housing, and a second cover coupled to the other end of the housing to cover the other open side of the housing And a second cover,
Wherein the supply header connection hole, the recovery header connection hole, and the plurality of through holes are provided in the housing.
3. The method of claim 2,
Wherein the first cover includes a first shielding member protruding toward the supply header connection hole so as to partially shield the supply header connection hole,
And the second cover includes a second shielding member protruding toward the collection header connection hole so as to partially shield the collection header connection hole.
The method of claim 3,
The first shielding member has a first pressing surface contacting the outer surface of the supply header to press the supply header toward the supply header coupling surface,
And the second shielding member has a second pressing surface contacting the outer surface of the collection header to press the collection header toward the collection header coupling surface.
3. The method of claim 2,
Wherein the first cover and the second cover have the same structure.
3. The method of claim 2,
Wherein at least one of the first cover and the second cover is provided with a connection hole through which a connection member for coupling with an external structure is inserted.
The method according to claim 6,
Further comprising a cap fitted to the connection hole to close the connection hole.
The method according to claim 1,
Further comprising a cap fitted to the through hole to close the through hole.
The method according to claim 1,
The housing further includes a bottom surface disposed at the lowermost portion of the storage chamber and a guide sloped surface inclined downward toward the bottom surface to guide the fluid falling from the connection portion of the supply header or the connection portion of the collection header to the bottom surface Wherein the distributor assembly comprises:
The method according to claim 1,
Wherein the header fixture includes a first stopper abutting the outer surface of the supply header to prevent the supply header from escaping from the supply header engaging surface, and a second stopper abutting the outer surface of the recovery header to prevent the recovery header from deviating from the recovery header coupling surface Further comprising a second stopper. ≪ Desc / Clms Page number 20 >
A first supply header connection hole and a second supply header connection hole which are arranged so as to face each other with the receiving chamber therebetween and a second supply header connection hole which faces each other with the receiving chamber interposed therebetween, A first return header connecting hole and a second return header connecting hole spaced apart from the second feed header connecting hole and spaced apart from the pair of feed header connecting holes and the pair of return header connecting holes, An enclosure having a through hole arranged to be disposed;
A header fixture coupled to the enclosure and disposed in the receiving chamber, the header fixture having a feed header coupling surface and a recovery header coupling surface;
A plurality of piping pipes provided in the middle of a supply pipe for supplying a fluid and fixed to the header fixing body such that an outer surface thereof contacts the supply header coupling surface to distribute the fluid supplied through the supply piping to a plurality of piping pipes, And is connected to one end of the supply pipe through the first supply header connection hole and is connected to the other end of the supply pipe through the second supply header connection hole, A feed header connected to the inlet of the feeder;
A plurality of piping pipes for collecting the fluids discharged from the plurality of piping pipes, the plurality of piping pipes being disposed in the middle of the recovery pipe for recovering fluid, and being fixed to the header fixing body so that an outer surface thereof contacts the recovery header coupling surface, Is connected to one end of the recovery pipe through the first recovery header connection hole and is connected to the other end of the recovery pipe through the second recovery header connection hole, A recovery header connected to a discharge portion of the pipe; And
And a water leakage sensor installed at a lower portion of the accommodating chamber to detect a fluid leaking into the accommodating chamber.

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