KR102104678B1 - Boiler double pipe flue gas connector - Google Patents

Abstract

Disclosed is a double tube flue connector of a boiler. The present invention is an inner assembly part that forms an exhaust passage (a1) by connecting a boiler-side connection tube and an outlet tube of the year, and forms a separation space forming the exhaust passage away from an outer diameter of the inner assembly part to form a space for the exhaust-side casing cabinet. A connector formed of an outer assembly portion connecting the hole and the flue pipe of the year to form the air supply passage (a2); At least one rib connecting the inner and outer assembly parts across the space; And a pressure gauge installed between the spaces, and the connector may be configured by integrally comprising an exhaust flow path, an air supply flow path, and a pressure detection aperture.

Description

Boiler double pipe flue gas connector

The present invention relates to a double pipe flue connector of a boiler, which improves the assembly performance of a double pipe flue connector composed of a concentric air supply and an exhaust port.

It is recommended that the boiler design of a supply / exhaust system that safely discharges combustion gas generated during combustion and stably introduces outside air required for combustion. The installation type of the supply / exhaust system is divided into, for example, a single pipe year type in which separate air supply and exhaust ports are separately installed to form a double pipe year type in which the supply port and the exhaust port are concentric. Commonly, for supplying and exhausting, a connector is provided for connecting the casing cabinet side of the boiler to the flue. In particular, the connector dedicated to double pipe flue is large in size, making it difficult to align concentricity when installed in the cabinet of the boiler, and made of a rotating body. Due to its nature, it is difficult to find the exact location, so mis-assembly occurs frequently during assembly. Unsecured or incorrect assembly of the connector directly affects the airtightness of the flue, which may cause safety due to exhaust gas leakage and deterioration in combustibility due to poor air supply. In connection with the year connection of the boiler, Korean Registered Patent Publication No. 10-1668726, Domestic Publication Utility Model Publication No. 20-2011-0011805 and Domestic Publication Patent Publication No. 10-2008-0059968 disclose the installation of the boiler's exhaust port year It is done. Currently, the connector applied in the boiler double pipe flue connection has a high cost of production due to the complex multi-part assembly, and does not meet the safety and airtightness and easy and concise assembly workability.

Patent Literature 1. EP 2 796 786 A1 (published April 24, 2014)

Patent Document 2. KR Public Utility Model Publication 20-2011-0011805 (published on December 22, 2011)

Patent Literature 3. KR Patent Publication 10-2008-0059968 (published on July 1, 2008)

One of the technical problems to be solved in the present invention is to improve the assembly quality of the flue and the connector in a double pipe flue connector in which the air inlet and the outlet are made of one concentric.

One of the technical problems to be solved in the present invention is to improve productivity in the manufacture of a double pipe flexible connector in which the air supply port and the exhaust port are made of one concentric.

According to the present invention, according to the present invention, by connecting the boiler-side connecting pipe and the outlet pipe of the flue to form an exhaust assembly (a1), the inner assembly portion, the inner assembly portion apart from the outer diameter to form a separation space forming the exhaust flow path A connector made of an outer assembly portion that connects a hole of the casing cabinet on the boiler side with a supply pipe of a year to form an air supply passage (a2); At least one rib connecting the inner and outer assembly parts across the space; And it can be achieved from the double pipe flue connector of the boiler, including a pressure gauge installed between the space.

According to the embodiment of the present invention, the connector may be provided with an exhaust flow path, an air supply flow path, and a pressure gauge integrally.

According to an embodiment of the present invention, the rib may be formed at a position limiting the insertion position of the connector to prevent over-insertion of the connector.

According to the embodiment of the present invention, the ribs may be arranged symmetrically along the spaced space to maintain balance with respect to the circumferential surface.

According to an embodiment of the present invention, the pressure gauge may be configured to be positioned at an equivalent height based on the height of the rib.

According to an embodiment of the present invention, when assembling the connector to the casing cabinet hole between the inner and outer assembly parts, a guide protrusion for preventing rotation may be provided.

According to an embodiment of the present invention, a cutout portion into which the guide projection is inserted may be formed along the circumferential surface of the casing cabinet hole.

The present invention has an effect of improving the assembly quality of the flue and the connector in a double pipe flue connector in which the air supply and exhaust ports are made of one concentric.

The present invention has an effect of improving the productivity of a double pipe flexible connector in which the air supply and exhaust ports are made of one concentric.

1 is an example of installation of a double pipe flue connector is applied.
Figure 2 is an example showing a state in which the double pipe connector according to an embodiment of the present invention is installed in the cabinet of the boiler.
3 is a perspective view of a double pipe flexible connector according to an embodiment of the present invention.
4 is a front view of FIG. 3.
5 is a plan view of FIG. 3.
6 is a bottom view of FIG. 3.
7 is an example of a double pipe flexible connector according to an embodiment of the present invention.
8 is an exemplary view showing a main part of a double pipe flexible connector according to an embodiment of the present invention.
9 is an exemplary view showing an assembled state of a double pipe flexible connector according to an embodiment of the present invention.
10 is an example showing a state in which the airtight material is installed in the double-tube flexible connector according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 2 to 10 with reference to the drawings.

Among the terms used in the present invention, 'connector' may be used as an adapter or a socket. In addition, the 'connector' may include a connector for exclusive use of a double pipe of a type in which an air supply port and an exhaust port are integrated, and a connector for exclusive use of a single tube in a type in which a supply air port and an exhaust port are separated. Also, the 'connector' may include a connector applied to the airtightness of the condensing boiler of the double pipe supply and exhaust method. The 'confidential material' can be molded by selecting from materials having similar physical properties, including elastic rubber materials that are elastically deformable and elastic.

The structure related to the installation of the double pipe flue of the boiler will be described below with reference to FIG. 1 to describe the 'double pipe flue connector of the boiler' according to an embodiment of the present invention.

Figure 1 is an example showing the installation state of the double-tube flexible double-tube connector is applied.

As shown in FIG. 1, the double pipe flue 101 is formed of a double shaft pipe structure in which the exhaust flow path 102 and the air supply flow path 103 are made of one concentric. The double pipe flue 101 is configured to connect and assemble the outlet pipe 105 from the top of the connecting pipe 104 installed in a structure such as a boiler. And the part where the connection pipe 104 and the outlet pipe 105 are connected is to be assembled and connected through a separate connector 106, and a gas-tight material 107 is provided between the connector 104 and the outlet pipe 105. ) Is installed to maintain airtightness, and the lower pipe 108 and the upper pipe 109 are installed outside the connecting pipe 104 and the outlet pipe 105 to form an air supply passage.

Through this, the double pipe flue 101 allows the gas generated during combustion such as a boiler to be exhausted through the exhaust flow path 102 provided through the double connection structure of the connection pipe 104 and the outlet pipe 105, and is required during combustion. The external air to be provided is provided through the connection structure of the lower pipe 108 and the upper pipe 109 to supply external air through the air supply passage 103. However, the connector 106 applied to the existing double pipe flue connection requires a mold structure capable of forming an undercut to install and insert the airtight material 107 on the inside, thereby causing a problem of reduced productivity and structural fluctuation. Since it is manufactured in a size corresponding to the size, it is difficult to match the concentricity when installed in a cabinet structure such as a boiler, and it is difficult to find the exact position because it has the shape of a rotating body structurally. Problems may arise.

The present invention is proposed as a double pipe flue connector of a boiler that can improve the assembly performance of a double pipe flue connector consisting of a concentric air supply flow path and an exhaust flow path and improve airtightness and product productivity.

Figure 2 is an example showing a state in which the double pipe connector according to an embodiment of the present invention is installed in the cabinet of the boiler. 3 is a perspective view of a double pipe flexible connector according to an embodiment of the present invention. 4 is a front view of FIG. 3. 5 is a plan view of FIG. 3. 6 is a bottom view of FIG. 3. 7 is an example of a double pipe flexible connector according to an embodiment of the present invention. 8 is an exemplary view showing a main part of a double pipe flexible connector according to an embodiment of the present invention. 9 is an exemplary view showing an assembled state of a double pipe flexible connector according to an embodiment of the present invention.

The double pipe flue connector of the boiler according to the embodiment of the present invention assembles and connects the flue 200 to the boiler side between the casing cabinet 120 and the flue 200 of the boiler 100 as shown in FIGS. 2 to 9 The connector 300 may be configured.

Connector 300 according to the present invention, the inner assembly part 310 and the inner assembly part to form the exhaust passage a1 by connecting the connector 110 on the boiler 100 side and the outlet tube 210 of the flue 200 By forming a space 330 forming an exhaust flow path (a1) apart from the outer diameter of (310) to connect the hole 121 of the casing cabinet 120 on the boiler side and the supply pipe 220 of the flue 200 It may be composed of an outer assembly portion 320 forming the air supply passage (a2).

Then, at least one rib 340 connecting the inner and outer assembly parts 310 and 320 across the separation space 330 between the inner assembly part 310 and the outer assembly part 320 of the connector 300. ). And, it may be configured by installing a pressure gauge (350) between the separation space (330).

Reference numeral 370 is a connector's 'base plate', and 371 is a 'packing'.

Connector 300, as shown in Figures 3 to 8, the inner and outer assembly portion 310, 320 through the exhaust flow path (a1), the air supply flow path (a2), the pressure gauge (350) formed integrally Since it can be, it is possible to reduce the number of parts of the basic component configuration for constructing the double pipe connector to facilitate production and management.

In addition, the rib 340 is formed in a position to limit the insertion position when inserting the connector 300 along the hole 121 of the casing cabinet 120 to prevent overinsertion of the connector. The rib 340 serves to prevent over-insertion along the hole 121 of the casing cabinet 120, thereby preventing the connector from being incorrectly installed, preventing defects in the air supply and exhaust, and preventing damage to the other structure. Since the rib 340 serves as an assembly guide, assembling efficiency can be effectively improved.

Here, the ribs 340 may be configured to be symmetrically installed along the separation space 330 and arranged to maintain balance with respect to the circumferential surface. Preferably, it may be desirable to minimize the air resistance by arranging the ribs 340 connecting the inner assembly portion 310 and the outer assembly portion 320 with a minimum thickness and number of flesh. The ribs 340 may be advantageous in maintaining a balance between left and right while minimizing air resistance when formed in a symmetrical structure along the space 330 as shown in FIGS. 7 and 8.

In addition, the height of the pressure gauge 350 based on the height of the ribs 340 connecting the inner and outer assembly parts 310 and 320 may be preferably formed at equal positions. When the positions of the ribs 340 and the pressure gauge 350 are the same or equivalent, the upper surface of the pressure gauge 350 may serve to prevent over-insertion of the flue 200 and may be advantageous in preventing shaking. have.

In addition, as shown in Figures 8 and 9, between the inner and outer assembly portion 310, 320, the rib 340 in addition to the peripheral portion of the casing cabinet hole 121 in the rotation of the assembly when rotating the connector 300 It may be desirable to have a guide projection 360 that prevents.

The guide protrusion 360 is inserted into the casing cabinet hole 121 by assembling the connector 300 as shown in FIG. 9, and the guide protrusion 360 is provided on the cutout 122 formed along the circumferential surface of the cabinet hole 121. ) To be inserted to prevent assembly defects due to deviation and rotation of the assembly position of the connector 300 and to effectively improve assembly workability.

In addition, the ribs 340 and the pressure gauge 350 are molded such that the ribs 340 and the pressure gauge 350 connecting the inner assembly portion 310 and the outer assembly portion 320 lead to the joint to remove the undercut. Since it is possible to improve productivity through the application of an integral mold structure, the supply and exhaust flow paths and the pressure gauge can be configured in one piece, so there is no need to separately use the elbow with the pressure gauge, thereby reducing component manufacturing and assembly costs. have.

10 is an example showing a state in which the airtight material is installed in the double-tube flexible connector according to an embodiment of the present invention.

As illustrated in FIG. 10, an airtight material 400 is installed in the exhaust flow path a1 of the inner assembly portion 310 that connects the outlet pipe 210 of the flue 200 to form the exhaust flow path a1, thereby exhausting air It may be desirable to ensure gas tightness. In addition, on the inner diameter of the inner assembly portion 310, a plurality of support protrusions 311 are formed along the inner diameter to prevent the end portion of the hermetic material 400 from sagging, thereby supporting and supporting the lower end portion 410 of the hermetic material 400. It may be desirable to give.

The airtight material 400 is a clearance space that forms a clearance between the inner walls of the inner assembly part 310 when assembled to at least one wing blade 400b having the shrinking space 400c and the inner assembly part 310 ( 400a) can improve airtightness and durability.

For example, when the outlet pipe 210 of the flue 200 is inserted into the hermetic material 400 and assembled, the multiple wing blades 400b formed in the hermetic material 400 are contracted and deformed by the shrinking space 400c, and thus from the top. By making close contact with the outer diameter of the outlet pipe 210 of the flue 200 to be inserted, airtightness is improved in the flow of the exhaust fluid.

At the same time, as the clearance space 400a of the hermetic material contracts, the repulsive force is transferred to the inner wall surface of the adjacent inner assembly part 310, and through this, the hermetic material 400 is in high-strength close contact with the inner wall of the inner assembly part 310. Induced, the lower portion of the hermetic material 400 is supported by the support protrusion 311 to prevent sagging or departure.

As described above, the double pipe flue connector of the boiler according to the present invention has no undercut because it can be manufactured in an integral shape. In addition, the rib 340 connects the inner assembly portion and the outer assembly portion, and a pressure gauge 350 is connected to the inner assembly portion 310 to reduce exhaust pressure through the exhaust passage a1 of the inner assembly portion 310. Since it can be easily measured, it can be made of an integral connector having an exhaust passage, an air supply passage, and a pressure gauge all in one.

The rib 340 may serve as an assembly guide when assembling the hole 121 of the casing cabinet 120. The shape can preferably be minimized in thickness and number in order to minimize air supply load. In addition, it is possible to implement an integral shape of the connector to form the rib 340 by removing the undercut by placing the seams.

The connector 300 has a rotation-preventing shape made of a guide protrusion 360 and thus can be inserted and assembled along the incision 122 formed in the hole 121 of the casing cabinet 120, thereby preventing rotation and thereby preventing the rotation of the connector. Mis-assembled can be effectively prevented.

The present invention has been described with reference to one embodiment shown in the drawings, but is not limited to the embodiment and can be modified and modified within a range not departing from the gist of the present invention. Is included.

100: boiler 110: connector
120: cabinet 122: incision
200: year 210: exit pipe
220: exhaust pipe 300: connector
310: inner assembly portion 311: support projection
320: outer assembly 330: separation space
340: rib 350: checkpoint
360: guide projection 400: airtight

Claims (6)

The inside assembly part forming the exhaust passage (a1) by connecting the boiler-side connection tube and the outlet tube of the flue, and forming the separation space forming the exhaust passage away from the outer diameter of the inside assembly part to form a hole and flue in the casing cabinet on the boiler side A connector made of an outer assembly part connecting the supply pipes to form the supply air passage (a2);
At least one rib connecting the inner and outer assembly parts across the space; And a pressure gauge installed between the spaces, wherein the connector is provided with an exhaust flow path, an air supply flow path, and a pressure gauge in one piece,
The double pipe flue connector of the boiler, characterized in that the pressure gauge is configured to be positioned at an equal height based on the height of the rib. According to claim 1,
The rib is formed at a position limiting the insertion position of the connector to prevent over-insertion of the connector, the double-tube flue connector of the boiler. According to claim 1,
The ribs are symmetrically installed along the spaced space and arranged to maintain balance with respect to the circumferential surface, the double pipe flue connector of the boiler. delete The inside assembly part forming the exhaust passage (a1) by connecting the boiler-side connection tube and the outlet tube of the flue, and forming the separation space forming the exhaust passage away from the outer diameter of the inside assembly part to form a hole and flue in the casing cabinet on the boiler side A connector made of an outer assembly part connecting the supply pipes to form the supply air passage (a2);
At least one rib connecting the inner and outer assembly parts across the space; And a pressure gauge installed between the spaces, wherein the connector is provided with an exhaust flow path, an air supply flow path, and a pressure gauge in one piece,
Between the inner and outer assembly parts, a double tube flue connector of the boiler, characterized in that it has a guide protrusion for preventing rotation when assembling the connector to the casing cabinet hole. The method of claim 5,
A double pipe flue connector of the boiler, in which an incision part into which the guide projection is inserted is formed along the circumferential surface of the casing cabinet hole.

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