KR102066955B1 - Cooling struction cooling apparatus for injecting oxygen - Google Patents

Abstract

The present invention relates to a cooling structure of a cold air device for discharging oxygen in which a cold air generating unit having a vaporizer-type cold air generating unit is discharged to discharge cold air by improving the structure of the cold air generating unit, thereby greatly improving cooling efficiency. A main body 10 for discharging the cooled oxygen gas and an oxygen charger 20 for supplying the cooled oxygen gas to the main body 10, wherein the main body 10 is formed at an upper end thereof. The oxygen gas provided through the transfer pipe 30 from the oxygen charger 20 through the cold air vent 11 is discharged together with the blowing of the blower fan 13, but the inside of the blower 11 It is formed in a rectangular spiral structure and the cover tube 41 is coupled to have a predetermined space (S) on the outer circumferential surface of the transfer tube 30, the space portion between the transfer tube 30 and the cover tube 41 (S) to maintain the temperature of cold air The coolant 42 is filled, and a sealing stopper 43 is attached to both ends of the transfer pipe 30 and the cover tube 41 to prevent the coolant 42 from leaking out. It is characterized in that the cold air generating portion 40 is configured to face the tuyere (11).

Description

Cooling structure of cold air device that discharges oxygen {COOLING STRUCTION COOLING APPARATUS FOR INJECTING OXYGEN}

The present invention relates to a cooling structure of a cold air device for discharging oxygen, and more particularly, to form a cold air generating portion in the form of a vaporizer in the cooling oxygen tuyeres of the main body to discharge cold air, improving the structure of the cold air generating portion to improve cooling efficiency. It relates to a cooling structure of a cold air device for discharging oxygen to be greatly improved.

As is well known, the cold air device is discharged to the outside of the liquefied oxygen (LOX) filled in the oxygen charger, as disclosed in the applicant's Patent Publication Nos. 10-1614099, 10-1666183, and 10-1643396. At the same time, by discharging the cooled oxygen gas to perform a strong cold wind function and at the same time to increase the air purification and metabolism of the human body by supplying high purity oxygen.

In addition, the cold air device includes a main body portion for discharging the cooled oxygen, and an oxygen charger for supplying the cooled oxygen gas to the main body portion, the main body portion from the oxygen charger through a cold air vent formed on the top Discharge cold oxygen gas provided.

In addition, the oxygen charger is a container for providing the cooling oxygen gas to the main body through a transfer pipe, it is installed inside the main body or independently installed outside.

In addition, such an oxygen charging device 100 is, for example, as shown in Figs. 1 and 2, the first container 110 is filled with liquefied oxygen (LOX) and the pipe that goes to the outer peripheral surface of the first container (110) Formed to wrap in a spiral shape and to wrap the vaporizer portion 120 and the first vessel 110 and the vaporizer portion 120 to discharge the liquefied oxygen filled in the first vessel 110 through the pipe. It is configured to include a second container (130) for forming and vacuuming the inside, and at least one third container (140) formed to surround and wrap the second container (130) at a constant interval.

Here, the vaporizer portion 120 is a place where the liquefied oxygen filled in the first container 110 is vaporized while passing, is formed of a pipe surrounding the outer circumferential surface of the first container 110 in a spiral shape, the lower end is one end 121 is welded to the lower side hole 112 of the first container 110, the other end discharge pipe 122 is configured to be perpendicular to the side parallel to the filling tube 115 of the first container (110). do.

Thus, the conventional oxygen charger 100 is composed of a multi-stage cylinder, the vaporizer portion 120 is configured together with the problem that not only the manufacturing cost increases but also the weight of the product in a complicated configuration has been derived.

Patent Registration No. 10-1614099, Patent Registration No. 10-1666183, Patent Registration No. 10-1643396

The present invention has been made to solve the above problems, an object of the present invention is to form a cold air generating portion of the vaporizer in the cooling oxygen vents of the main body to discharge the cold air, the cooling efficiency is greatly improved by improving the structure of the cold air generating portion It is to provide a cooling structure of a cold air device that discharges oxygen to be improved.

Another object of the present invention is to remove the carburetor formed in the oxygen charger for supplying the cooling oxygen, forming a new type of cold air generator to replace the cold air to discharge the oxygen to reduce the cost by simplifying the structure of the oxygen charger It is to provide a cooling structure of the device.

The present invention for achieving the above object includes a body portion for discharging the cooled oxygen gas, and an oxygen charger for supplying the cooled oxygen gas to the body portion; The main body unit discharges the oxygen gas provided through the transfer pipe from the oxygen charger through the cold air blower formed on the top with the blowing of the blowing fan,

The tuyere is formed in a spiral structure having a circular or rectangular shape and the cover tube is coupled to have a predetermined space portion on the outer circumferential surface of the transfer tube, and a coolant for maintaining a temperature of cold air is provided in the space portion between the transfer tube and the cover tube. It is characterized in that the end portion of the transfer pipe and the cladding tube is attached to a sealing stopper to prevent the leakage of the coolant, and configured to constitute a cold air generating unit so that the end of the transfer pipe toward the blower.

In addition, according to the present invention, the cold air generating unit is characterized in that it is further provided with a plurality of gap maintaining members to maintain a constant gap in the space between the cladding pipe.

In addition, according to the present invention, the gap maintaining member is characterized in that the main body to which the feed tube is inserted and fixed, and a plurality of support pieces radially formed from the main body to support the feed tube and the cover portion are formed at regular intervals. .

As described above, the present invention provides a cold air generating unit having a vaporizer-type cold air generating unit at the cooling oxygen tuyeres to discharge cold air, and improves the structure of the cold air generating unit to provide a significant improvement in cooling efficiency.

In addition, the present invention eliminates the vaporizer formed in the oxygen charger for supplying the cooling oxygen, and provides a merit to reduce the cost by simplifying the structure of the oxygen charger by forming a new type of cold air generator instead.

1 is a cross-sectional view of the oxygen charging device of the conventional cold air device,
Figure 2 is an exploded perspective view of the oxygen charging device of the conventional cold air device,
3 is a configuration diagram of a cold air device according to the present invention;
Figure 4 is a side cross-sectional view of the cold air device according to the present invention,
5 is an enlarged configuration of a main part of a cooling structure of a cold air device according to the present invention;
6 is a configuration diagram of a cold air generating unit according to an embodiment of the present invention, (a) is a perspective view, (b) is a cross-sectional view AA of (a), (c) is an exploded perspective view,
7 is a configuration diagram of a cold air generating unit according to another embodiment of the present invention, (a) is a perspective view, (b) is a cross-sectional view AA of (a), (c) is an exploded perspective view.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a configuration diagram of a cold air device for discharging cooling oxygen according to the present invention, Figure 4 is a side cross-sectional view of a cold air device for discharging cooling oxygen according to the present invention, Figure 5 is a discharge of cooling oxygen according to the present invention It is an enlarged block diagram of the main part of the cold air device.

As shown, the cold air device for discharging the cooling oxygen according to the present invention,

It includes a main body 10 for discharging the cooled oxygen gas, and an oxygen charger 20 for supplying the cooled oxygen gas to the main body 10.

The main body 10 discharges the oxygen gas provided from the oxygen charger 20 through the cold air vent 11 formed at the upper end.

In addition, the inside of the main body 10 is connected to one end of the opening and closing control device 14 for adjusting the output amount of oxygen gas is connected to the transfer pipe 30 and the oxygen charger 20 as shown in FIG. The other end of the device 14 is configured to again form the cold air generating portion 40 in the tuyeres 11 through the transfer pipe 30.

The cold air generating portion 40 is formed in a spiral structure of a circular or rectangular shape and is configured such that the end of the transfer pipe 30 is directed to the outside through the tuyeres (11).

In addition, the cold air generating portion 40 is fixed and installed through the binding member 51 to the fixing portion 50 of the mesh form to take a spiral structure.

In addition, a support frame 15 having an opening 16 formed in the blower 11 is formed, and the fixing part 50 provided with the cold air generating unit 40 is fixed to the support frame 15.

6 is a configuration diagram of a cold air generating unit 40 according to an embodiment of the present invention, (a) is a perspective view, (b) is a cross-sectional view A-A of (a), (c) is an exploded perspective view.

The cold air generating unit 40, as shown in Figure 6, the coupling pipe 41 is coupled to have a predetermined space portion (S) on the outer peripheral surface of the transfer pipe 30, the transfer pipe 30 and the coating pipe 41 The space S between) is filled with a coolant 42 that maintains the temperature of the cold air.

In addition, a sealing stopper 43 is inserted and attached to both ends of the transfer pipe 30 forming the cold air generating part 40 and the cover pipe 41 overlappingly installed.

Therefore, looking at the manufacturing method thereof, after inserting one sealing plug 43 into the transfer pipe 30, and then inserting the cut coating pipe 41, the sealing plug 43 at one end of the coating pipe 41 Adhesive fixing.

Then, the coolant 42 is filled in the space S between the transfer pipe 30 and the cover pipe 41, and then the other sealing stopper 43 is adhesively fixed to the other end of the cover pipe 41. do.

When the assembling of the cold air generating unit 40 in the straight form is completed as described above, the cold air generating unit 40 is formed in a circular spiral shape as shown in FIG. 5 and connected to the fixing unit 50 through the binding member 51. Fix it.

The cold air generating unit 40 configured as described above is formed to form a spiral structure and heat exchange with the air is generated around the coating tube 41 by the cooling oxygen flowing through the transfer pipe 30 to generate a cold air generating unit ( The ambient temperature of 40 is kept very cool.

In addition, the blowing fan 13 is positioned at the rear surface of the cold air generating unit 40, and the end of the cold air and the conveying pipe 30 emanated by the cold air generating unit 40 by the blowing of the blowing fan 13. The cooling oxygen discharged from is to be released through the tuyeres (11).

In addition, the temperature around the cold air generating unit 40 is drastically increased by heat exchange with the air by the driving of the blower fan 13. In fact, the cooling flows through the transfer pipe 30 by the coolant 41. The oxygen is maintained at a constant temperature, the temperature of the cooling oxygen discharged to the tuyeres 11 through the end of the transfer pipe 30, as well as the temperature of the cold air generating unit 40 does not easily rise, so the cooling efficiency is increased. Will be.

On the other hand, the oxygen charger 20 is a container for providing the cooling oxygen gas to the main body portion 10 through the transfer pipe 30, is installed inside the main body portion 10 or is independently installed to the outside. .

In addition, the oxygen charger 20 has an outlet inlet tube 22 formed at the upper end of the liquefied oxygen cylinder 21 filled with liquefied oxygen (LOX), and the discharge tube 24 branched to one side of the outlet inlet tube 22. It is connected to the transfer pipe 30 and configured to provide oxygen gas.

The liquefied oxygen refers to light blue oxygen obtained by compressing oxygen to a temperature of minus 183 ° C. or less.

In addition, the transfer tube 30 of the oxygen charger 20 is further installed to prevent the anti-frost tube 60 is installed to cover the transfer tube (30).

The anti-frosting tube 60 includes a heat generating function, thereby preventing the phenomenon of frost on the surface of the transfer tube 30 by the cooling oxygen flowing through the transfer tube 30.

7 is a configuration diagram of a cold air generating unit according to another embodiment of the present invention, (a) is a perspective view, (b) is an A-A cross-sectional view of (a), (c) is an exploded perspective view.

The cold air generating unit 40 according to another embodiment is a plurality of interval maintaining member 44 so that a constant interval is maintained in the space (S) between the transfer pipe 30 and the cover tube 41, as shown in FIG. It was by installing more.

The space maintaining member 44 has a plurality of main bodies 44a to which the transfer tube 30 is fitted and fixed, and are radially formed from the main body 44a to support the transfer tube 30 and the covering tube 41. Support pieces 44b are formed at regular intervals.

In the cold air generating unit 40 according to another embodiment of the present invention, the coolant 42 is uniformly positioned in the space S by the gap maintaining member 44, and thus the cooling efficiency is increased.

Therefore, looking at the manufacturing method thereof, after inserting one sealing stopper 43 into the transfer pipe 30, the fixed number of the interval holding member 44 is inserted and fixed at regular intervals, and then cut the coated tube 41 Insertion and fixing the sealing stopper 43 to one end of the covering tube 41.

Then, the coolant 42 is filled in the space S between the transfer pipe 30 and the cover pipe 41, and then the other sealing stopper 43 is adhesively fixed to the other end of the cover pipe 41. do.

When the assembling of the cold air generating unit 40 in the straight form is completed as described above, the cold air generating unit 40 is formed in a circular spiral shape as shown in FIG. 5 and connected to the fixing unit 50 through the binding member 51. Fix it.

It looks at the overall operation of the cold air device for discharging the cooling oxygen of the present invention configured as described above.

First, the liquefied oxygen filled in the liquefied oxygen cylinder 21 by opening the opening valve 23 of the oxygen charger 20 passes through the inlet and outlet pipe 22 and the discharge tube 24, and the main body 10 through the transfer pipe 30. Maintain the standby state supplied to the opening and closing control device (14) of.

At this time, the cold liquefied oxygen is transferred through the transfer pipe 30, the frost is caught on the surface of the transfer pipe 30 by the atmospheric temperature difference.

However, the surface temperature of the transfer pipe 30 is increased by the anti-defrost tube 60 on the outside of the transfer pipe 30, so that it is in a state of being free from frost.

When the operation switch is pressed in such a state, the open / close control device 14 is opened and the cooled liquid oxygen is discharged through the transfer pipe 30 again, and at the same time, the blower fan 13 is rotated to blow air to the air outlet 11. Will be done.

At this time, the liquefied oxygen transferred through the transfer pipe 30 is evaporated by the rapid heat exchange through the cold air generating unit 40, and finally converted into a cooling oxygen gas to be discharged through the discharge unit 32.

Therefore, the cold air according to the heat exchanger formed around the cold air generating unit 40 and the cold cooling oxygen gas discharged through the end of the transfer pipe 30 of the cold air generating unit 40 are combined and the It is to blow the very strong cold air through the air outlet 11 by the blowing air.

At this time, the cold air generating unit 40 is able to maintain a small change in the temperature by the coolant 42 between the transfer pipe 30 and the cover pipe 41 to increase the temperature efficiency, that is, the cooling efficiency.

Therefore, unlike the air conditioner that uses the freon gas as a refrigerant, the cooling device not only provides a new type of cold air device such as supplying environmentally friendly oxygen and reduces the volume by eliminating the vaporizer formed in the oxygen charger 20. In addition to miniaturization, the cooling efficiency is even higher.

In another aspect, the present invention is to provide a cold air generating unit in the cooling oxygen tuyere of the main body portion to discharge the cold air, improve the structure of the cold air generating portion to provide an advantage to greatly improve the cooling efficiency.

10: main body 11: blower
12: suction unit 13: blowing fan
14: flow control device 15: support frame
16: open hole 20: oxygen charger
30: transfer pipe 40: cold air generating unit
41: cladding pipe 42: coolant
43: sealing stopper 44: gap holding member
44a: main body 44b: support piece
50: fixed part 60: anti-frosting tube

Claims (3)

A main body 10 for discharging the cooled oxygen gas and an oxygen charger 20 for supplying the cooled oxygen gas to the main body 10,
The main body 10 is to discharge the oxygen gas provided through the transfer pipe 30 from the oxygen charger 20 through the cold air blower 11 formed on the top with the blowing of the blower fan 13. Composed,
The inside of the body portion 10 is connected to one end of the opening and closing control device 14 for adjusting the output amount of oxygen gas is connected to the transfer pipe 30 and the oxygen charger 20 and the opening and closing control device 14 The other end is configured to form a cold air generating unit 40 in the tuyere 11 part again through the transfer pipe 30,
The cold air generating unit 40 is formed so that the transfer pipe 30 is formed in a spiral structure of a circular or square shape from the outside to the inside and the end of the transfer pipe 30 toward the blower 11 in the center,
The cold air generating portion 40 is fixed and installed through the binding member 51 to the fixed portion 50 of the mesh form to take the spiral structure,
The blower fan 13 is positioned at the rear of the cold air generating unit 40 so that the cold air generated at the cold air generating unit 40 and the cold air discharged at the end of the transfer pipe 30 are simultaneously discharged to the outside. and,
The cold air generating unit 40 is coupled to the cover tube 41 to have a predetermined space (S) on the outer peripheral surface of the transfer pipe 30, the space between the transfer pipe 30 and the cover tube 41 (S) is filled with a coolant (42) for maintaining the temperature of the cold air, a sealing stopper (43) for preventing the leakage of the coolant (42) is attached to both ends of the transfer pipe (30) and the cover pipe (41),
In the space (S) between the cladding pipe 41 is further provided with a plurality of gap maintaining members 44 to maintain a constant gap,
The space maintaining member 44 has a plurality of main bodies 44a to which the transfer tube 30 is fitted and fixed, and are radially formed from the main body 44a to support the transfer tube 30 and the cover tube 41. Cooling structure for a cold air device for discharging oxygen, characterized in that the two support pieces (44b) are formed at regular intervals.
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