KR200432212Y1 - Air exhausting apparatus of tube for heat exchanger - Google Patents

Abstract

The present invention is installed in the inner wall of the tube of the heat exchanger is introduced into the inlet of the tube to increase the residence time of the fluid discharged to the outlet to increase the heat efficiency of the air exchanger tube of the heat exchanger tube comprising a plurality of diaphragm In more detail, it is installed to be distributed to the inside of the tube at a predetermined position on the upper end of the outer diameter surface of the tube so as to discharge the bubbles or air generated in the inside of the tube, and the body formed with the opening and closing hole of the upper and lower beams in the lower portion and ; A floating part of the upper and lower light openings having a relatively smaller outer diameter than the opening and closing hole is inserted at the lower end of the opening and closing hole at the lower end thereof, protruding as an opening and closing hole at the upper end thereof, and a screw part formed on the outer diameter surface thereof; An opening and closing plate inserted into a screw part protruding into the opening and closing hole to be in close contact with an upper end of the opening and closing hole; It includes a fixing portion fastened to the screw portion.

Therefore, if a certain amount of air layer is formed without a separate post process for removing air bubbles or air layer that degrades the heat exchanger and damages the tube, bubbles or air are automatically removed to improve the performance of the heat exchanger. It provides an air removing device for a heat exchanger tube to prevent damage and to reduce maintenance and repair costs and maintenance time.

Description

Air exhausting apparatus of tube for heat exchanger

1 is a view showing a state in which bubbles occur in the tube of the conventional heat exchanger.

Figure 2 is a view showing a state equipped with an air removal apparatus in the heat exchanger according to the present invention.

Figure 3a is a view showing a state before the structure and action of the air removing device according to the present invention.

Figure 3b is a view showing the structure and operating state of the air removing apparatus according to the present invention.

4 is a view showing another embodiment of an air removing device according to the present invention.

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

101: heat exchanger 102: inlet

103: outlet 104: diaphragm

105: bubble and air layer 106: opening and closing hole

107: body 108: floating part

109: screw portion 110: opening and closing plate

111: extension 112: guide ball

113: guide rod 114: fixed part

115: weight

The present invention is installed in the inner wall of the tube of the heat exchanger is introduced into the inlet of the tube to increase the residence time of the fluid discharged to the outlet to increase the heat efficiency of the air exchanger tube of the heat exchanger tube comprising a plurality of diaphragm In particular, the body is installed to be distributed to the inside of the tube at a predetermined position at the upper end of the outer diameter surface of the tube so as to discharge the bubbles or air generated in the inside of the tube, the lower opening and closing light-shaped opening and the body is formed; A floating part of the upper and lower light openings having a relatively smaller outer diameter than the opening and closing hole is inserted at the lower end of the opening and closing hole at the lower end thereof, protruding as an opening and closing hole at the upper end thereof, and a screw part formed on the outer diameter surface thereof; An opening and closing plate inserted into a screw part protruding into the opening and closing hole to be in close contact with an upper end of the opening and closing hole; By including a fastening portion fastened to the screw portion, to reduce the performance of the heat exchanger, and to remove the bubble or air automatically when a certain amount of air layer is formed without a separate post-process for removing bubbles or air layer damaging the tube to The present invention relates to an apparatus for removing air from a tube for a heat exchanger that can improve heat exchanger performance, prevent tube damage, and reduce maintenance and repair costs and maintenance time.

In general, a heat exchanger is a comprehensive range of a condenser and an evaporator in a refrigeration cycle device consisting of a compressor, a condenser, an expansion device, and an evaporator. It converts into heat and uses the heat of absorption or heat generated in this process for cooling, heating, cooling or warming.

On the other hand, the heat exchanger may be formed in a simple cylindrical shape as shown in Figure 1, by installing a horizontal diaphragm to increase the time the fluid stays in the tube, to increase the heat exchange efficiency.

However, as shown in FIG. 1, the flow of fluid becomes unstable by the diaphragm 4 installed in a zigzag form in the process of inflow of the fluid into the inlet 2 and discharged to the outlet 3, and thus, each diaphragm. Vortex occurs at the point passing through (4).

As described above, the vortex phenomenon caused by the diaphragm 4 causes bubbles 5 to be generated in the fluid, and these bubbles 5 float to the top of the tube 1a as shown in FIG. 5) and the air layer are no longer moved by the diaphragm 4, thereby remaining in the tube 1a.

Therefore, if the bubble 5 and the air layer remain inside the heat exchanger 1, the heat exchange capacity may be lowered and the tube 1a may be damaged. Therefore, if the heat exchanger 1 is used for a long time, Inconvenience to wash the inside of the tube (1a) or to remove the remaining bubbles (5) and the air layer, and, furthermore, such a post-treatment operation has a problem that leads to an increase in waste of manpower and maintenance costs.

The present invention is devised to solve the above problems, to prevent the bubbles and air layer generated in the tube of the heat exchanger to be removed from time to time to prevent heat loss and damage of the heat exchanger by the bubble and air layer in advance. It is an object of the present invention to provide an air removal device for tubes for heat exchangers.

The above object is installed in the inner wall of the tube of the heat exchanger, the air removing device of the tube for heat exchanger including a plurality of diaphragm to increase the residence time of the fluid flowing into the inlet of the tube and discharged to the outlet to increase the thermal efficiency In the body, so as to discharge the bubbles or air generated in the inside of the tube is installed to be distributed to the inside of the tube at a predetermined position on the upper end of the outer diameter surface of the tube, the lower side of the body formed with opening and closing hole of the upper and lower light; A floating part of the upper and lower light openings having a relatively smaller outer diameter than the opening and closing hole is inserted at the lower end of the opening and closing hole at the lower end thereof, protruding as an opening and closing hole at the upper end thereof, and a screw part formed on the outer diameter surface thereof; An opening and closing plate inserted into a screw part protruding into the opening and closing hole to be in close contact with an upper end of the opening and closing hole; It is achieved by an air removing device of the tube for heat exchanger, characterized in that it comprises a fixing portion fastened to the screw portion.

Here, the body is coupled to the upper end of the diaphragm formed in the diaphragm so that bubbles or air generated in both spaces of the tube partitioned by the diaphragm, the extension portion extending to a predetermined height from the upper portion of the body; A receiving space having a predetermined size formed inside the extension; A guide hole formed to penetrate into the accommodation space at an upper end of the extension portion so as to be disposed on a vertical line with the opening and closing hole; Preferably, the guide hole further includes a guide rod formed between the upper portion of the floating portion and the threaded portion so that the threaded portion of the floating portion penetrates and protrudes.

In addition, it is preferable to further include a weight of a predetermined weight is inserted into the upper portion of the opening and closing plate inserted into the screw portion to increase the weight of the floating portion.

Hereinafter, the configuration and operation of the present invention will be described with reference to FIGS. 2 to 4.

First, a plurality of diaphragms 104 are formed in the inner wall of the tube 101a of the heat exchanger 101 to increase the residence time of the fluid flowing into the inlet 102 and discharged to the outlet 103. , In FIG. 2, since a separate heat exchange means for heat exchange through the heat exchanger 101 is not shown, this heat exchange means should be viewed as a normal heat exchange means, and the present invention is not limited thereto.

The air removing device of the tube for heat exchanger according to the present invention is to remove the bubbles 105 and the air layer generated in the fluid flow by the diaphragm 104 and thus the fluid, reverse funnel of the upper and lower light The body 107 having the opening and closing hole 106 formed in the lower portion is installed at a predetermined position at the upper end of the outer diameter surface of the tube 101 a, and the opening and closing hole 106 communicates with the inside of the tube 101 a.

In addition, a floating portion 108 having a shape corresponding to the shape of the opening and closing hole 106 is inserted into the opening and closing hole 106 of the body 107, and the threaded portion 109 protrudes from the opening and closing hole 106. To be.

Here, the floating part 108 is preferably made of a material that can be floated by the buoyancy of the fluid, the material may be a synthetic resin, but even if the metal can be elevated by the buoyancy of the fluid is not limited thereto. Do not.

Accordingly, the opening and closing plate 110 is inserted into the screw part 109 by fastening the opening and closing plate 110 to block the opening and closing hole 106, and simultaneously fastening the fixing part 114 to the screw part 109. To block the opening and closing hole 106.

On the other hand, the opening and closing hole 106 as described above may be directly blocked by the opening and closing plate 110, in another embodiment, in configuring the body 107 as shown in Figures 3a and 3b, An extension part 111 is formed to form a receiving space 111a at an upper portion of the opening and closing hole 106, and a guide hole is disposed at one wire in a vertical line with the opening and closing hole 106 at an upper end of the extension part 111. And form 112.

The guide rod 113 is extended between the upper portion of the floating portion 108 and the threaded portion 109 so that the threaded portion 109 formed on the floating portion 108 extends upward. After inserting into the guide hole 112, the threaded portion 109 protrudes to the top of the guide hole 112, and the opening and closing plate 110 to the threaded portion 109 and the guide rod 113 protruding to the top of the guide hole 112. It is preferable that the opening and closing plate 110 is in close contact with the guide hole 112 by fastening the fixing part 114 to the threaded portion 109 after insertion.

More preferably, after the weight 115 of a predetermined weight is inserted into the upper portion of the opening and closing plate 110 inserted into the screw portion 109, the floating portion 108 is fastened by fastening the fixing portion 114 to the screw portion 109. ) Can be added or subtracted.

Referring to Figure 3a, 3b the action of the air removing device of the tube 101a for the heat exchanger 101 according to the present invention made of the above configuration as follows.

As shown in FIG. 2, when the bubble 105 and the air layer are formed inside the tube 101a, the bubble 105 and the air layer rise to the top of the tube 101a, and most of the bubbles are along the flow direction of the fluid. 105 and the air layer are gathered at the corner where the diaphragm 104 and the tube 101a are combined.

In this case, as shown in FIG. 3A, the bubble 105 and the air layer exit upward along the gap between the opening and closing hole 106 and the floating portion 108 of the body 107. Air exiting to) is accommodated in the extension 111 of the body 107.

That is, in the state in which the floating portion 108 pressurizes the fluid with the buoyancy, the bubble 105 and the air weight of the floating portion 108 against the air layer, the air rises through the opening and closing hole 106, but the buoyancy and the bubble ( 105 and the air layer tries to lift the floating portion 108, the floating portion 108 to block the opening and closing hole 106, while lifting the floating portion 108.

At this time, the opening and closing plate 110 blocking the guide hole 112 opens and lowers the guide hole 112 while moving up and down with the guide rod 113, whereby the air remaining in the accommodation space 111a It is discharged to the outside through the guide hole (112).

As described above, a series of operations in which the equilibrium state of the floating portion 108 and the buoyancy force of the fluid, the bubble 105, and the force to rise of the air layer are unbalanced is repeated, and the bubble 105 and the air layer inside the tub are moved outward. It is released or blocked.

As described above, the present invention allows the bubble and air layer inside the tube to deteriorate the performance of the heat exchanger to be removed simultaneously with the generation of bubbles and air layer even if not removed by the operator, thereby reducing the performance of the heat exchanger and the equipment by the bubble and air layer. To prevent damage in advance, it does not have to be accompanied by post-work by the worker can prevent the waste of manpower, and also has the effect of reducing the maintenance cost.

Claims (4)

In the air removing device of the tube for heat exchanger including a plurality of diaphragm which is installed on the inner wall of the heat exchanger tube to increase the residence time of the fluid flowing into the inlet of the tube and discharged to the outlet to increase the thermal efficiency, A body installed to be distributed to the inside of the tube at a predetermined position at an upper end of the outer diameter surface of the tube so as to discharge bubbles or air generated in the inside of the tube, and having a top and bottom light opening and closing hole formed therein; A floating part of the upper and lower light openings having a relatively smaller outer diameter than the opening and closing hole is inserted at the lower end of the opening and closing hole at the lower end thereof, protruding as an opening and closing hole at the upper end thereof, and a screw part formed on the outer diameter surface thereof; An opening and closing plate inserted into a screw part protruding into the opening and closing hole to be in close contact with an upper end of the opening and closing hole; Air removing device of the tube for heat exchanger, characterized in that it comprises a fixing portion fastened to the screw portion. The method of claim 1, The body is the air removing device of the tube for heat exchanger, characterized in that coupled to the top of the outer diameter surface formed with a diaphragm so that bubbles or air generated in both spaces of the tube partitioned by the diaphragm. The method of claim 1, An extension part extending from the upper portion of the body to a predetermined height; A receiving space having a predetermined size formed inside the extension; A guide hole formed to penetrate into the accommodation space at an upper end of the extension portion so as to be disposed on a vertical line with the opening and closing hole; And a guide rod formed between the upper portion of the floating portion and the threaded portion so that the threaded portion of the floating portion penetrates through the guide hole. The method according to any one of claims 1 to 3, And a weight of a predetermined weight inserted into an upper portion of the opening and closing plate inserted into the screw portion to increase the weight of the floating portion.

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