KR200404680Y1 - installation structure for air-water separating guide at the hydro block of boiler - Google Patents

Abstract

The present invention relates to a guide installation structure for separating water from the boiler hydroblock.

The present invention is installed in a boiler hydroblock for separation of brackish water and the vertical receiving pipe connected to the open expansion tank and the water discharge pipe connected to the pump and the inlet pipe for supplying water to the receiving pipe is formed integrally separated In the tube,

Two vertical locking protrusions 24 are formed on the inner circumferential surface of the receiving pipe 21 of the radiator pipe 20 in the direction of 90 °, respectively, and are formed in the center with the same diameter as the inner circumference of the receiving pipe 21 from the top. A flange 31 having an air discharge hole 31 ′, and integrally formed below the flange 31 and having side walls 35 extending rearward on both sides in the form of a smaller diameter than the flange 31. The inlet which is formed integrally with the discharge air space portion 33 and the discharge air space portion 33 is formed in an open state, and the side and the bottom are opened at the same time for the inflow of water In order to guide centrifugal force for separation of water introduced from the space 34 and the bottom inflow space 34, the guide passage 32 connects with the discharge air space 33 on the upper side wall 35. While having a guide (30) provided in the form, while preventing the rotation of the guide (30) In order to vertically sandwich one side of the guide 30 between the engaging projections 24 formed on the inner side of the receiving tube 21 is a structure.

The present invention is a rotary guide type to quickly drain the air contained in the water together with the supply of water to the water separation pipe of the hydroblock installed inside the case of the boiler for heating and circulation of the boiler water By installing the guide structure there is an advantage that can prevent the instantaneous overheating or error phenomenon of the heat exchanger according to the trial run of the boiler.

Description

Installation structure for air-water separating guide at the hydro block of boiler}

The present invention relates to a guide installation structure for separating water from the boiler hydroblock.

The present invention is a rotary guide type to quickly drain the air contained in the water together with the supply of water to the water separation pipe of the hydroblock installed inside the case of the boiler for heating and circulation of the boiler water By installing the guide structure, the instantaneous overheating or error phenomenon of the heat exchanger caused by the trial run of the boiler is prevented from occurring.

In general, the hydroblock separation pipe installed inside the case of the boiler to circulate water has a separation structure for the purpose of separating the air contained in the water that interrupts normal operation or errors during boiler commissioning. It is implicit.

The conventional water separation structure is installed in the form of a diaphragm having a diaphragm or mesh structure inside the water separation tube so that the diaphragm rises or descends from the inside with the supply of water to separate air from the water through the diaphragm Since it is sent to an open expansion tank (not shown) coupled to the upper part of the pipe, the conventional lifting type separation separation structure as described above, in order to separate the air of the water supplied at a relatively high flow rate, the separation of the nose is also smoothly It has been pointed out that the problem is that it is sent to the heat exchanger via a pump without being separated correctly, and it causes momentary overheating, errors, and other normal operations during boiler commissioning, and excessive separation time is required.

The present invention is a rotary guide type to quickly drain the air contained in the water together with the supply of water to the water separation pipe of the hydroblock installed inside the case of the boiler for heating and circulation of the boiler water The purpose of the guide structure is to prevent the instantaneous overheating or error phenomenon of the heat exchanger according to the test operation of the boiler.

To this end, the present invention is installed in a boiler hydroblock for separation of brackish water and the vertical receiving pipe connected to the open expansion tank and the water discharge pipe connected to the pump and the inlet pipe for water supply are integrally formed. In the separator,

Two vertical locking projections are formed on the inner circumferential surface of the receiving pipe of the radiator pipe in a 90 ° direction, each having a flange having the same diameter as the inner circumference of the receiving pipe from the top and having an air discharge hole in the center thereof, It is formed integrally with the discharge air space portion formed in the form of a smaller diameter than the flange and the side wall is extended rearward on both sides and the side is opened, and integrally formed below the discharge air space portion, The guide passage is connected to the discharge air space portion on the upper side of one side wall for inducing centrifugal force for separating water from the inflow space portion and the bottom inflow space portion which are formed with the side and the bottom portion open at the same time for inflow. While provided with a guide, the hook formed on the inside of the receiving tube to one side of the guide to prevent rotation of the guide It is intended to achieve the above object by providing a guide installation structure for separating the water of the boiler hydroblock characterized in that the vertical coupling between the projections.

The present invention is installed in a boiler hydroblock for separation of brackish water and the vertical receiving pipe connected to the open expansion tank and the water discharge pipe connected to the pump and the inlet pipe for supplying water to the receiving pipe is formed integrally separated In the tube,

Two vertical locking protrusions 24 are formed on the inner circumferential surface of the receiving pipe 21 of the radiator pipe 20 in the direction of 90 °, respectively, and are formed in the center with the same diameter as the inner circumference of the receiving pipe 21 from the top. A flange 31 having an air discharge hole 31 ′, and integrally formed below the flange 31 and having side walls 35 extending rearward on both sides in the form of a smaller diameter than the flange 31. The inlet which is formed integrally with the discharge air space portion 33 and the discharge air space portion 33 is formed in an open state, and the side and the bottom are opened at the same time for the inflow of water In order to guide centrifugal force for separation of water introduced from the space 34 and the bottom inflow space 34, the guide passage 32 connects with the discharge air space 33 on the upper side wall 35. While having a guide (30) provided in the form, while preventing the rotation of the guide (30) In order to vertically sandwich one side of the guide 30 between the engaging projections 24 formed on the inner side of the receiving tube 21 is a structure.

In the figure, reference numeral 40 denotes a pump.

1 is a perspective view of a boiler hydroblock to which the present invention is applied, and FIG. 2 is an exploded perspective view for illustrating an installation state of the present invention, and FIG. 3 is a plan view of the water separator tube of the present invention, and FIG. Fig. 5 is a perspective view showing the state in which the nose is separated by the above figure, and Fig. 5 shows a rear perspective view of Fig.

The present invention is installed in the boiler hydroblock 10 for separation of the brack and vertical receiving pipe 21 is connected to the open expansion tank and the water discharge pipe 22 is connected to the pump 40 to the receiving pipe 21 And the basic structure of the water separation pipe 20 in which the inlet pipe 23 for supplying water is integrally formed is maintained.

However, the present invention is formed in the same diameter as the inner circumference of the accommodating pipe 21 from the top, and has a flange 31 having an air discharge hole 31 'in the center, and integrally formed below the flange 31 The side wall 35 is formed to extend rearward on both sides in the form of a smaller diameter than the flange 31 and the discharge air space portion 33 is formed in the open side, and the discharge air space portion 33 below The guide passage for inducing centrifugal force for separating the water flowed from the inflow space 34 and the bottom inflow space 34 formed at the same time and formed in a state in which the side and the bottom are open at the same time for the inflow of water. One side of the guide 30 to prevent the rotation of the guide 30, the guide 30 is provided in the form that the 32 is connected to the discharge atmosphere space 33 in the upper side of the side wall (35) ( 21, vertically between the engaging projections 24 formed in the 90 ° direction on the inner side To be bonded into.

Hereinafter, the operation of the present invention will be described.

The present invention provides the water to the water separation pipe 20 of the hydroblock 10 installed inside the case of the boiler for heating and circulating the boiler, and quickly exhausts the air contained in the water and discharges it easily. By installing the guide structure to guide the rotation so that the instantaneous overheating or error of the heat exchanger according to the trial run of the boiler is prevented.

This invention guide 30 is inserted vertically between the two vertical locking projections 24 protruding in the 90 ° direction to the inside of the separation pipe 20 in the drawing and then installed in the hydroblock 10 to separate the water separation pipe ( When the boiler is operated in a state in which the open type expansion tank and the normal pump 40 are respectively coupled to the accommodation pipe 21 and the water discharge pipe 22 of 20), as shown in FIGS. 4 and 5, Water is supplied to the inlet pipe 23.

The water supplied as described above is supplied toward the inflow space 34 provided at the bottom of the guide 30 and at the same time, the water inside the rear side of both side walls 35 formed behind the discharge air space, that is, the discharge air space. (33) Ascends along the outer circumferential surface and at this time, the side wall 35 flows toward the discharge air space 33 along the guide passage 32 provided in an open state and is fed to the pump 40. The water inflow structure as described above is discharged through the guide passage 32 provided to guide the centrifugal force for separating the water and at the same time the water flows into the bottom inlet space 34 of the guide 30 discharge air space for discharge ( In the process of flowing into the rotation 33 to the water discharge pipe 22 side of the separation pipe 20 to quickly collect the air collected in the center through the air separation hole through the air discharge hole (31 ') of the flange 31 (20) open type coupled to the top It is supplied only pure water that does not include air into the pump group 40 and its associated heat exchanger according to Sikkim changpaeng croissant quickly discharged it is possible to prevent such overheating naejineun moment error contents of groups in accordance with the start-up of a boiler heat exchanger.

The present invention has been shown and described with respect to preferred embodiments of the present invention, but the present invention is not limited to the above-described embodiment without having to deviate from the gist of the present invention claimed in the claims to have a general knowledge in the field Anyone can make various modifications as well as such changes are within the scope of the appended claims.

The present invention is a rotary guide type to quickly drain the air contained in the water together with the supply of water to the water separation pipe of the hydroblock installed inside the case of the boiler for heating and circulation of the boiler water By installing the guide structure there is an advantage that can prevent the instantaneous overheating or error phenomenon of the heat exchanger according to the trial run of the boiler.

1 is a perspective view of a boiler hydroblock to which the present invention is applied

2 is an exploded perspective view of the present invention

3 is a plan view of the separator separation tube applied to the present invention

4 is a perspective view showing a state in which the nose is separated by the present invention

5 is a rear perspective view of FIG.

<Description of the symbols for the main parts of the drawings>

10: hydroblock 20: water separation pipe

21: accommodation pipe 22: water discharge pipe

23: inlet tube 24: locking projection

30: guide 31: flange

31 ': Air discharge hole 32: Guide passage

33: discharge air space portion 34: inlet space portion

35: sidewall

Claims (1)

In the water separation pipe which is installed in the boiler hydroblock for separation of the water and the vertical receiving pipe connected to the open expansion tank and the water discharge pipe connected to the pump and the inlet pipe for supplying water to the receiving pipe integrally formed , Two vertical locking protrusions 24 are formed on the inner circumferential surface of the receiving pipe 21 of the radiator pipe 20 in the direction of 90 °, respectively, and are formed in the center with the same diameter as the inner circumference of the receiving pipe 21 from the top. A flange 31 having an air discharge hole 31 ′, and integrally formed below the flange 31 and having side walls 35 extending rearward on both sides in the form of a smaller diameter than the flange 31. The inlet which is formed integrally with the discharge air space portion 33 and the discharge air space portion 33 is formed in an open state, and the side and the bottom are opened at the same time for the inflow of water In order to guide centrifugal force for separation of water introduced from the space 34 and the bottom inflow space 34, the guide passage 32 connects with the discharge air space 33 on the upper side wall 35. While having a guide (30) provided in the form, while preventing the rotation of the guide (30) Guide structure for separating the water separation of the boiler hydroblock, characterized in that the one side of the guide 30 is vertically sandwiched between the engaging projections 24 formed on the inner side of the receiving pipe (21).