KR102262473B1 - Container for carrying artificial satellite - Google Patents

Abstract

The present invention relates to a container for transporting an artificial satellite, in which a base is engaged with a cover to form a space storing the artificial satellite inside. The part, where the base is engaged with the cover, is formed in a staircase shape, and an insulation space is formed between the base and the cover in a widthwise direction. On both sides of the insulation space, sealing members are placed to seal the insulation space. On a border unit, where components of the container are engaged with each other, the structural strength of the container structure can be kept and the heat transfer between the outside and the inside of the container can be definitely blocked. Accordingly, the internal temperature of the container can be kept uniform, and the artificial satellite stored in the container can be transported to a launch site in a safe status.

Description

Container for carrying artificial satellite}

The present invention relates to a container for transporting satellites, and more particularly, to a container for transporting satellites capable of maintaining a constant temperature inside the container in which the satellites are accommodated while transporting the satellites to a launch site.

In order to safely transport the satellite to the launch site, the satellite transport container must protect the satellite from changes in the external environment (temperature, humidity, pressure, shock). should be

Such a satellite transport container should have a structure in which the upper lid can be separated from the base or the side part can be opened for mounting and detachment of the satellite, and an observation window (see-through window) or an emergency container for observing whether there is a problem with the satellite during transport It must have a door structure that allows access to the inside.

For example, the satellite transport container is mainly made of a high-strength metal structure such as stainless steel or aluminum in order to maintain the shape without deformation of the upper lid, lower base, observation window, and the frame and boundary of the door. However, in this case, since a material having a high thermal conductivity is used at the boundary, it is technically difficult to maintain the temperature inside the container at a constant temperature for a long time because heat shielding is not performed well.

In addition, the satellite transport container is equipped with an air conditioning (HVAC - Heating, ventilation and Air Conditioning) system on one side to keep the internal temperature of the container constant against changes in the external environment.

However, although the temperature of the overall air inside the container can be controlled to some extent by using the air conditioning system in such a satellite transport container, the container is generally formed in a rectangular parallelepiped shape, and the air conditioning system is installed on the upper side of the lid, and the lower base Since it is mainly made of metal to support the satellite and the entire load of the container, there is a technical limitation in that the temperature difference between the upper and lower space inside the container is relatively significant. In addition, since the air conditioning system is located on only one side wall of the container, a relatively large temperature difference with the other side without the air conditioning system occurs, making it difficult to keep the internal temperature of the container uniform. In addition, since there is an artificial satellite inside the container and the space between the satellite and the container is narrow, the satellite acts as a resistance element that inhibits the air flow, causing a problem that a part of the air does not flow inside the container and is stagnant around the satellite. also do

In order to technically solve this problem, conventionally, the cooling output (capacity) and heating output (capacity) of the air conditioning system in the container for transporting satellites are increased, or the fan capacity of the air conditioning system is increased or the fan rotation speed is increased. As the airflow and airflow increase, cold air or warmth directly touches the satellite, which adversely affects the satellite, and although the overall temperature inside the container is maintained, the flow is still stopped or there is a technical limit to reducing the temperature difference between the top and bottom.

KR 10-2016-0050670 A (2016.05.11)

The present invention has been devised to solve the problems described above, and an object of the present invention is to improve heat transfer between the outside and the inside of the container while maintaining the structural strength of the container structure at the boundary where the components constituting the container are coupled to each other. It is to provide a container for transporting satellites that can be reliably blocked.

In addition, by reducing the temperature difference between the front and rear sides of the container, and between the upper and lower sides of the container, and keeping the temperature inside the container constant, the air around the satellite in the container can flow smoothly without being stagnant. It is to provide a container for transporting satellites that can be transported by maintaining them in a safe state to the launch site.

The container for transporting satellites of the present invention for achieving the above object includes: a base formed along the periphery of the upper end of the sidewall with a first step having a stepped cross-section in the thickness direction of the sidewall; a cover having a second stepped portion formed on a sidewall corresponding to the first stepped portion of the base and engaged with the first stepped portion of the base; and a sealing member interposed between the base and the cover to be in close contact. and a thickness direction side surface of the first step portion of the base and a thickness direction side surface of the second step portion of the cover are disposed to be spaced apart from each other, thereby forming an insulating space between the first step portion and the second step portion and the sealing member includes a first sealing member and a second sealing member, and a first sealing member is disposed on one side of the heat insulating space in a thickness direction and a second sealing member is disposed on the other side of the insulating space, and the first sealing member And both sides of the insulating space in the thickness direction by the second sealing member may be sealed.

In addition, it further comprises a stopper interposed between the upper surface of the base facing the lower surface of the second step portion of the cover, the upper surface of the first step portion of the base and the lower surface of the cover are spaced apart from each other by the stopper, the The upper surface of the base and the lower surface of the second step portion of the cover may be disposed to be spaced apart from each other by the stopper.

In addition, the base has a seating groove concave from the upper surface to the lower side, the first sealing member is placed in the seating groove, the lower side is fixed, and the upper side is in contact with the lower surface of the second step part of the cover to be in close contact.

In addition, one side of the second sealing member is fixed to the inside of the side wall of the cover, and the other side of the second sealing member may be in close contact with the upper surface of the first step portion of the base.

In addition, the side wall of the base includes a first outer wall and a first inner wall spaced apart from each other in a thickness direction, a first blocking plate coupled to upper ends of the first outer wall and the first inner wall, and the first outer wall and the first inner wall and a first insulating material filled in the inner space surrounded by the first diaphragm, wherein the first outer wall has a horizontal portion extending from the upper end of the vertical portion formed along the height direction toward the first inner wall, and the horizontal portion is the first 1 is formed to be spaced apart from the inner wall and the end of the horizontal part is disposed adjacent to the insulating space, the first blocking plate has one end coupled to the first inner wall and the other end is disposed adjacent to the insulating space, the first blocking plate The other end and the horizontal portion of the first outer wall may be coupled to each other with the first insulating pad interposed therebetween, so that the other end of the first blocking plate and the horizontal portion of the first outer wall may be spaced apart from each other.

In addition, the sidewall of the cover includes a second outer wall and a second inner wall spaced apart from each other in a thickness direction, a second blocking plate coupled to lower ends of the second outer wall and the second inner wall, and the second outer wall and the second inner wall and a second insulating material filled in the inner space surrounded by the second diaphragm, wherein the second diaphragm has one end coupled to the second outer wall and the other end disposed adjacent to the insulating space. a baffle plate and a second baffle plate having one end coupled to the second inner wall and the other end disposed adjacent to the insulating space, the other end of the 2-1 baffle plate and the other end of the second baffle plate The ends may be coupled with the second insulating pad interposed therebetween, so that the other end of the 2-1 diaphragm and the other end of the 2-2 diaphragm may be spaced apart from each other.

In addition, the cover or the base further comprises an air conditioning system to control the temperature of the internal air, and an inlet through which the cold air and the warm air generated by the air conditioning system are introduced into the upper side of the side wall of the cover is formed. and an outlet through which internal air is discharged to the outside is formed above the inlet, and the air conditioning system includes: an air conditioner installed at the inlet of the cover and capable of generating cold and hot air to blow inside; and an auxiliary fan installed on the base and circulating air therein by blowing air toward the side wall facing the side wall where the inlet is formed. may be included.

In addition, the air conditioning system further includes an upper and lower grill installed at the inlet of the cover, wherein the upper and lower grills are formed such that a plurality of wings spaced apart in a height direction are inclined downward in an air flow direction with respect to a horizontal direction, The angle of the wing may be formed to be larger as it goes.

In addition, the air conditioning system may further include left and right grills installed at the inlet of the cover, and the left and right grills have a plurality of horizontally spaced wings with some wings inclined to one side based on a direction perpendicular to the left and right grills. and the remaining wings are formed to be inclined to the other side, and the angle of the wings may be formed to be larger toward the outside in the horizontal direction.

In addition, the air conditioning system may further include a preliminary air conditioner capable of generating the cold air and the warm air and blowing air therein.

In addition, the auxiliary fans may be configured as a pair and disposed to be spaced apart from each other in the horizontal direction.

The container for transporting satellites of the present invention can reliably block heat transfer between the outside and the inside of the container, and has the advantage of transporting the satellites while maintaining them in a safe state.

In addition, as the temperature difference for each location of the container inner space is reduced and the air flows smoothly, the air temperature inside the container can be kept constant, so there is an advantage in that the satellite can be transported by maintaining it in a safe state.

1 and 2 are an exploded perspective view and an assembled perspective view showing a container for transporting a satellite according to an embodiment of the present invention.
3 is a cross-sectional view of a portion in which the base and the cover of the container for transporting satellites are coupled according to an embodiment of the present invention.
4 and 5 are perspective views illustrating an air conditioning system of a container for transporting satellites according to an embodiment of the present invention.
6 and 7 are a top plan view and a front view showing an air conditioning system of a container for transporting a satellite according to an embodiment of the present invention.
8 and 9 are a front cross-sectional view showing the upper and lower grills in the air conditioning system of the container for transporting satellites according to an embodiment of the present invention, and a plan cross-sectional view showing the left and right grills.

Hereinafter, the satellite transport container of the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

1 and 2 are an exploded perspective view and an assembling perspective view showing a container for transporting a satellite according to an embodiment of the present invention, and FIG. 3 is a portion in which a base and a cover are coupled of the container for transporting a satellite according to an embodiment of the present invention. It is a cross section.

As shown, the container for transporting satellites according to an embodiment of the present invention may include a base 100, a cover 200, and a sealing member, and the sealing member is a first sealing member 410 and a second sealing member. (420).

The base 100 is a portion on which the artificial satellite is placed, and the bottom plate may be formed of a metal structure such as stainless steel or aluminum to support the load of the artificial satellite. And the base 100 may have a side wall 110 formed upward along the circumference of the bottom plate. Here, the side wall 110 may be formed in a shape in which a cross section cut in the thickness direction is formed in a step shape, and a first step portion protrudes upward from the top surface of the base. That is, the sidewall 110 of the base 100 may be formed in a step shape in which the cross-sectional shape of the upper end portion rises from the outside to the inside of the container.

The cover 200 has an accommodating space in which an artificial satellite can be accommodated therein, and the lower end is coupled to the base 100 , for example, the cover 200 has both sides in the longitudinal direction and the width direction of the satellite placed on the base 100 . It may be formed in a shape surrounding both side surfaces and the upper side in the height direction. And the cover 200 is coupled to the upper end of the side wall 110 of the base 100, the lower end of the side wall 210 forming both sides in the longitudinal direction and both sides in the width direction, the lower end of the side wall 210 of the cover 200 is It may be formed in a step shape corresponding to the step shape of the upper end of the side wall 110 of the base 100 . That is, the second step portion is formed in a protruding form from the lower surface of the cover, and the cross section may be a step shape, and the second step portion of the cover 200 is formed in an area corresponding to the upper surface of the base in the thickness direction, and the base The lower end of the cover 200 may be coupled to the upper end of the 100 . At this time, the thickness direction side surface of the first step portion and the thickness direction side surface of the second step portion are disposed to be spaced apart from each other in the thickness direction, so that an empty space between the first step portion and the second step portion, the insulating space 300 , is to be formed. can

The sealing member is interposed between the side wall 110 of the base 100 and the side wall 210 of the cover 200 to close the gap by being in close contact. And the sealing member may be composed of a first sealing member 410 and a second sealing member 420, the first sealing member 410 is disposed on one side of the insulating space 300 in the thickness direction, and the second sealing member 410 on the other side. The sealing member 420 may be disposed so that both sides of the heat insulating space 300 may be sealed in the thickness direction by the first sealing member 410 and the second sealing member 420 . In addition, the sealing member may be formed of urethane rubber or the like.

Thus, the satellite transport container of the present invention is formed in a step shape that engages the upper end of the side wall of the base and the lower end of the side wall of the cover, which is a portion to be coupled to each other, and is coupled to form an insulating space, which is an empty space, between the steps, and is formed by a sealing member. By forming a double sealed structure on both sides of the insulating space, heat transfer between the outside and the inside of the container can be reliably blocked, so that the temperature inside the container can be kept constant.

In addition, the container for transporting satellites of the present invention may further include a stopper 500 interposed between the lower surface of the second step portion of the cover 200 and the upper surface of the base facing the base ( 500 ) by the stopper ( 500 ). The upper surface of the first step portion of 100 and the lower surface of the cover may be spaced apart from each other, and the upper surface of the base and the lower surface of the second step portion of the cover 200 may be spaced apart from each other by the stopper 500 . And the stopper 500 may be formed of a heat insulating material that can block heat transfer between the base 100 and the cover 200 .

In addition, the side wall 110 of the base 100 is recessed from the upper surface of the base to the lower side of the seating groove) is formed, the first sealing member 410 is placed in the seating groove, the first sealing member (410) The upper end may be in close contact with the lower surface of the second step portion of the cover 200 . Thus, the space of the first sealing member 410 can be sufficiently secured, and accordingly, a groove is formed concavely from the outer surface of the first sealing member 410 to the inside, or an empty space is formed inside the first sealing member 410 . By forming, it is possible to further improve the sealing effect and the heat insulating effect. Then, an “L”-shaped bracket is coupled to the inner surface of the side wall 210 of the cover 200 , the upper side of the second sealing member 420 is coupled to the end of the bracket, and the lower side is the first step portion of the base 100 . It may be in close contact with the upper surface. Thus, a space in which the second sealing member 420 can be arranged can be sufficiently secured, and thus an empty space is formed inside the second sealing member 420, thereby further improving the sealing effect and the heat insulation effect. .

In addition, the side wall 110 of the base 100 is a first outer wall 111 and a first inner wall 112 spaced apart from each other in the thickness direction, the upper end of the first outer wall 111 and the first inner wall 112, A first blocking plate 113 coupled to, and a first insulating material 114 filled in the inner space surrounded by the first outer wall 111 , the first inner wall 112 and the first blocking plate 113 . can be done And the first outer wall 111 is formed to extend from the upper end of the vertical portion 111-1 formed along the height direction toward the first inner wall 112, a horizontal portion 111-2, the horizontal portion (111-2) is formed to be spaced apart from the first inner wall 112 so that the end of the horizontal portion 111 - 2 may be disposed adjacent to the heat insulating space 300 . In addition, one end of the first blocking plate 113 may be coupled to the first inner wall 112 and the other end may be disposed adjacent to the insulating space 300 . Here, the other end of the first blocking plate 113 and the horizontal portion 111-2 of the first outer wall 111 are coupled to each other with the first insulating pad 115 interposed therebetween, so that the The other end and the horizontal portion 111 - 2 of the first outer wall 111 may be spaced apart from each other. In this case, the first outer wall 111 of the sidewalls 110 of the base 100 is disposed on the outside of the container and may be formed of a metal material for structural rigidity. And the first inner wall 112 is disposed on the inside of the container, and has a structure in which a GRP (Glass-fiber Reinforced Polyester) panel and a wood panel are laminated, but the GRP panel is disposed on the outside in the thickness direction, and the wood panel is disposed on the inside in the thickness direction can be placed. In addition, the first blocking plate 113 may be formed by bending a metal material or the like.

Thus, the heat blocking effect of the sidewall 110 itself of the base 100 can be improved, and the heat of the first outer wall 111 constituting the sidewall 110 of the base 100 is conducted by conduction of the first inner wall 112 . ), it is possible to block the transmission to the side, thereby further improving the thermal blocking effect.

In addition, the side wall 210 of the cover 200 has a second outer wall 211 and a second inner wall 212 spaced apart from each other in the thickness direction, and lower ends of the second outer wall 211 and the second inner wall 212 . A second blocking plate 213 coupled to, and a second insulating material 214 filled in the inner space surrounded by the second outer wall 211 , the second inner wall 212 and the second blocking plate 213 . can be done And the second blocking plate 213, one end is coupled to the second outer wall 211, the other end is disposed adjacent to the insulating space 300, the second blocking plate 213-1, and one end of the second A 2-2 diaphragm plate 213 - 2 coupled to the inner wall 212 and having the other end disposed adjacent to the heat insulating space 300 may be included. In addition, the other end of the 2-1 diaphragm 213-1 and the other end of the 2-2 diaphragm 213-2 are coupled to each other with the second insulating pad 215 interposed therebetween, and the second insulating pad 215 is interposed therebetween. The other end of the blocking plate 213-1 and the other end of the 2-2 second blocking plate 213-2 may be spaced apart from each other. At this time, the second outer wall 211 and the second inner wall 212 of the side wall 210 of the cover 200 have a structure in which a glass-fiber reinforced polyester (GRP) panel and a wood panel are stacked, respectively, and the GRP panel is formed in the thickness direction. It can be arranged on the outside with a wood panel and arranged on the inside in the thickness direction. In addition, the second blocking plate 213 may be formed by bending a metal material or the like.

Thus, the heat shielding effect of the side wall 210 itself of the cover 200 can be improved, and the heat of the second outer wall 211 constituting the side wall 210 of the cover 200 is conducted by conduction of the second inner wall 212 . ), it is possible to block the transmission to the side, thereby further improving the thermal blocking effect.

4 and 5 are perspective views illustrating an air conditioning system for a container for transporting a satellite according to an embodiment of the present invention, and FIGS. 6 and 7 are upper views showing an air conditioning system for a container for transporting a satellite according to an embodiment of the present invention. It is a top view and a front view.

As shown, the container for transporting satellites of the present invention may further include an air conditioning system installed on the cover 200 or the base 100 to control the temperature of the internal air. In addition, an inlet 216 through which the cold and hot air generated by the air conditioning system flows into the upper side of the side wall 210 of the cover 200 is formed, and the outlet 217 through which the inside air is discharged to the outside is located in the height direction. to be formed on the upper side of the inlet 216 . Here, the air conditioning system includes: an air conditioner 600 installed at the inlet 216 of the cover 200 and capable of generating cold and hot air to blow inside; and an auxiliary fan 800 that is installed on the base 100 and blows air toward the side wall 210 facing the side wall 210 having the inlet 216 formed therein to circulate the air inside; may be included.

For example, the inlet 216 and the outlet 217 may be formed on the sidewall 210 of one side in the longitudinal direction among the sidewalls 210 of the cover 200 , and the air conditioner 600 includes the cover 200 having the inlet 216 formed therein. ) may be installed on the outside of the sidewall to communicate with the inlet 216 .

Thus, while blowing the cold or hot air generated by the air conditioner 600 of the air conditioning system into the inside of the container through the inlet 216, the auxiliary fan 800 installed in the base 100 is operated to blow air from the bottom, After the air flows upward along the opposite side wall where the inlet 216 is formed, some air may be discharged through the outlet 233 after flowing along the inner upper side of the container. Thus, as the air inside the container is circulated along the periphery of the satellite 900 accommodated in the container by the air blown from the inlet 216 and the air blown by the auxiliary fan 800, the temperature of the air inside the container as a whole can be kept uniform. In this case, a temperature sensor is installed inside the container, and the temperature of the cold or hot air generated from the air conditioner may be adjusted according to the measured temperature.

8 and 9 are a front cross-sectional view showing the upper and lower grills in the air conditioning system of the container for transporting artificial satellites according to an embodiment of the present invention and a plan cross-sectional view showing the left and right grills.

As shown, the air conditioning system may further include an upper and lower grill 710 installed in the inlet 216 of the cover 200, and the upper and lower grill 710 includes a plurality of wings spaced apart in the height direction in the horizontal direction. It may be formed to be inclined downwardly in the air flow direction. In this case, the wings of the upper and lower grills 710 may be formed to have a larger angle as they go downward. For example, some wings disposed on the upper side in the height direction may have an inclined angle of 30 degrees with respect to the horizontal direction, and the other wings disposed on the lower side may have an angle of 45 degrees. That is, since the inlet 216 is formed on the upper side of the sidewall 210 of the cover 200, the air blown by the air conditioner 600 is relatively dispersed upwards and downwards by the upper and lower grills 710 to form the inside of the container. can be introduced into

In addition, the air conditioning system may further include left and right grilles 720 installed at the inlet 216 of the cover 200, and the left and right grills 720 include a plurality of wings arranged to be horizontally spaced apart from each other. 720) with respect to the direction perpendicular to the inclination angle of the wings disposed on one side and the other side of the wings disposed on the other side may be formed to be opposite. In addition, the inclination angle of the wings disposed on the other side may be formed to be larger as the angle of inclination goes outward in the horizontal direction. For example, some wings disposed on one side in the horizontal direction may be formed to be inclined 10 degrees in a counterclockwise direction based on a direction perpendicular to the left and right grilles 720, and the wings disposed on the other side may be inclined outward in the horizontal direction. It may be formed in a shape inclined at 5 degrees, 35 degrees, or 55 degrees in a clockwise direction. That is, since the inlet 216 may be formed to be biased to one side with respect to the center in the width direction on the sidewall 210 of the cover 200 , the air blown by the air conditioner 600 is moved in the width direction by the left and right grilles 720 . It can be evenly distributed to the inside of the container.

In addition, the air conditioning system may further include a preliminary air conditioner capable of generating cold air and hot air and blowing air therein. A preliminary air conditioner 610 that can be operated as a preliminary in case of a failure of the air conditioner 600 may be installed, and an inlet and an outlet in which the preliminary air conditioner 610 is installed may be additionally formed in the cover 610 .

In addition, the auxiliary fan 800 is configured as a pair, and the pair of auxiliary fans 800 may be disposed to be spaced apart from each other in the width direction in the horizontal direction. Thus, it is possible to smoothly circulate the air flow inside the container without a stagnant portion.

The present invention is not limited to the above-described embodiments, and the scope of application is varied, and anyone with ordinary knowledge in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims It goes without saying that various modifications are possible.

100: base 110: side wall
111: first outer wall 111-1: vertical part
111-2: horizontal part
112: first inner wall 113: first blocking plate
114: first insulating material 115: first insulating pad
200: cover 210: side wall
211: second outer wall 212: second inner wall
213: second baffle plate 213-1: 2-1 baffle plate
213-2: second 2-2 diaphragm 214: second insulating material
215: second insulation pad
216: inlet 217: outlet
300: insulation space
410: first sealing member 420: second sealing member
500: stopper
600: air conditioner 610: spare air conditioner
710: top and bottom grill 720: left and right grill
800: auxiliary fan
900: satellite

Claims (11)

a base in which a first step portion having a stepped cross section in the thickness direction of the sidewall is formed along the periphery of the upper end of the sidewall; a cover having a second stepped portion formed on the sidewall corresponding to the first stepped portion of the base and engaged with the first stepped portion of the base; and a sealing member interposed between the base and the cover to be in close contact. is made, including
The thickness direction side surface of the first step portion of the base and the thickness direction side surface of the second step portion of the cover are spaced apart from each other to form an insulating space between the first step portion and the second step portion,
The sealing member includes a first sealing member and a second sealing member, and a first sealing member is disposed on one side of the heat insulating space in a thickness direction and a second sealing member is disposed on the other side of the heat insulating space, and the first sealing member and the second sealing member are disposed. Both sides of the insulating space in the thickness direction are sealed by the sealing member,
The side wall of the base,
Surrounded by a first outer wall and a first inner wall spaced apart from each other in the thickness direction, a first barrier plate coupled to upper ends of the first outer wall and the first inner wall, and the first outer wall, the first inner wall and the first barrier plate Consists of including a first insulating material filled in the inner space,
The first outer wall has a horizontal portion extending from the upper end of the vertical portion formed along the height direction toward the first inner wall, the horizontal portion is formed to be spaced apart from the first inner wall, the end of the horizontal portion is disposed adjacent to the insulating space,
The first blocking plate has one end coupled to the first inner wall and the other end disposed adjacent to the insulating space,
The other end of the first diaphragm and the horizontal portion of the first outer wall are coupled with a first insulating pad therebetween, so that the other end of the first diaphragm and the horizontal portion of the first outer wall are spaced apart from each other. container.
According to claim 1,
It further comprises a stopper interposed between the lower surface of the second step portion of the cover and the upper surface of the base facing,
A satellite transport container, characterized in that the upper surface of the first step portion of the base and the lower surface of the cover are spaced apart from each other by the stopper, and the upper surface of the base and the lower surface of the second step portion of the cover are spaced apart from each other by the stopper.
According to claim 1,
The base has a seating groove concave from the top to the bottom, and a first sealing member is placed in the seating groove, the lower side is fixed, and the upper side is in contact with the lower surface of the second step part of the cover and is in close contact. container.
According to claim 1,
The cover is fixed to one side of a second sealing member on the inner side of the side wall, and the other side of the second sealing member is in close contact with the upper surface of the first step of the base.
a base in which a first step portion having a stepped cross section in the thickness direction of the sidewall is formed along the periphery of the upper end of the sidewall; a cover having a second stepped portion formed on the sidewall corresponding to the first stepped portion of the base and engaged with the first stepped portion of the base; and a sealing member interposed between the base and the cover to be in close contact. is made, including
The thickness direction side surface of the first step portion of the base and the thickness direction side surface of the second step portion of the cover are spaced apart from each other to form an insulating space between the first step portion and the second step portion,
The sealing member includes a first sealing member and a second sealing member, and a first sealing member is disposed on one side of the heat insulating space in a thickness direction and a second sealing member is disposed on the other side of the heat insulating space, and the first sealing member and the second sealing member are disposed. Both sides of the insulating space in the thickness direction are sealed by the sealing member,
The side wall of the cover,
A second outer wall and a second inner wall spaced apart from each other in the thickness direction, a second barrier plate coupled to lower ends of the second outer wall and the second inner wall, and the second outer wall, the second inner wall, and the second barrier plate surrounded by Consists of including a second insulating material filled in the inner space,
The second diaphragm includes a 2-1 diaphragm plate having one end coupled to the second outer wall and the other end disposed adjacent to the heat-insulating space, and one end coupled to the second inner wall and the other end disposed adjacent to the heat-insulating space. Including a 2-2 baffle plate,
The other end of the 2-1 diaphragm and the other end of the 2-2 diaphragm are coupled to each other with a second insulating pad interposed therebetween, so that the other end of the 2-1 diaphragm and the 2-2 diaphragm are separated. A container for transporting satellites, characterized in that the other ends are spaced apart from each other.
According to claim 1,
The side wall of the cover,
A second outer wall and a second inner wall spaced apart from each other in the thickness direction, a second barrier plate coupled to lower ends of the second outer wall and the second inner wall, and the second outer wall, the second inner wall, and the second barrier plate surrounded by Consists of including a second insulating material filled in the inner space,
The second diaphragm includes a 2-1 diaphragm plate having one end coupled to the second outer wall and the other end disposed adjacent to the heat-insulating space, and one end coupled to the second inner wall and the other end disposed adjacent to the heat-insulating space. Including a 2-2 baffle plate,
The other end of the 2-1 diaphragm and the other end of the 2-2 diaphragm are coupled to each other with a second insulating pad interposed therebetween, so that the other end of the 2-1 diaphragm and the 2-2 diaphragm are separated. A container for transporting satellites, characterized in that the other ends are spaced apart from each other.
According to claim 1,
and an air conditioning system installed on the cover or the base to control the temperature of the internal air,
An inlet through which the cold and hot air generated by the air conditioning system flows into the upper side of the side wall of the cover is formed, and an outlet through which the inside air is discharged to the outside is formed at the upper side of the inlet,
The air conditioning system is
an air conditioner installed at the inlet of the cover and capable of generating cold and hot air to blow inside; and an auxiliary fan installed on the base and circulating air therein by blowing air toward the side wall facing the side wall where the inlet is formed. A container for transporting satellites comprising a.
8. The method of claim 7,
The air conditioning system is
Further comprising an upper and lower grill installed at the inlet of the cover,
In the upper and lower grilles, a plurality of wings spaced apart in the height direction are formed to be inclined downward in the air flow direction with respect to the horizontal direction, and the angle of the wings is formed to be larger toward the bottom.
8. The method of claim 7,
The air conditioning system is
Further comprising left and right grills installed at the inlet of the cover,
In the left and right grills, a plurality of wings spaced apart in the horizontal direction are formed to be inclined to one side with respect to a direction perpendicular to the left and right grills, and the remaining wings are formed to be inclined to the other side, and the angle of the wings becomes larger toward the outside in the horizontal direction. A container for transporting satellites, characterized in that formed.
8. The method of claim 7,
The air conditioning system is
The satellite transport container further comprising a preliminary air conditioner capable of generating the cold air and the warm air to blow inside.
8. The method of claim 7,
The auxiliary fan is configured as a pair and is spaced apart from each other in the horizontal direction.

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