A beidou continuous operation reference station field integrated observation room

By filling the explosion-proof door with a heat insulation layer and equipping it with electric louvers and ventilation fans, combined with temperature sensors and control devices, the problems of low protection strength and insufficient environmental regulation of the explosion-proof door are solved, thus achieving equipment safety protection and data stability.

CN224495938UActive Publication Date: 2026-07-14NAT GEOMATICS CENT OF CHINA +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NAT GEOMATICS CENT OF CHINA
Filing Date
2025-08-05
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The existing BeiDou continuous operation reference station field integrated observation room has low explosion protection strength of the explosion-proof door, poor pry resistance and impact resistance, lack of fire protection, and no environmental regulation function, which makes the equipment easy to be damaged and the data quality unstable.

Method used

The explosion-proof door is filled with a heat insulation layer, and is equipped with a door ventilation port, electric louvers and ventilation fan. Combined with temperature sensors and control devices, it can automatically adjust the temperature and air circulation, thereby enhancing protection and environmental control.

Benefits of technology

It effectively isolates the temperature rise caused by external fire sources, prevents the equipment from overheating or catching fire, and ensures equipment safety by automatically adjusting air circulation, thereby improving the equipment's protection strength and data stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of beidou continuous operation reference station field integrated observation room, including container, explosion door, temperature sensor, control device, explosion door can be set in the box inlet and outlet, and explosion door is filled with heat insulation layer, and explosion door is provided with door body air vent, and door body air vent is provided with electric shutter and ventilation fan;Temperature sensor is set in container;Control device is electrically connected electric shutter, ventilation fan and temperature sensor.The utility model's beidou continuous operation reference station field integrated observation room is additionally provided with heat insulation layer inside explosion door, can isolate the sharp rise of cabin temperature caused by external fire source, prevent the overheating or fire of equipment in container;And explosion door's door body air vent is equipped with electric shutter and ventilation fan, once temperature sensor monitors that cabin temperature is too high, control device can automatically open electric shutter and start ventilation fan, rapidly cool down, guarantee equipment safety.
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Description

Technical Field

[0001] This utility model relates to the fields of satellite navigation and positioning technology and disaster prevention and mitigation engineering equipment technology, and in particular to a Beidou continuous operation reference station field integrated observation room. Background Technology

[0002] A large number of GNSS (Global Navigation Satellite System) continuously operating reference stations have been built globally. These stations can simultaneously receive signals from satellite navigation systems such as BeiDou, GPS (Global Positioning System), GLONASS, and Galileo, providing real-time sub-meter positioning services to the public, real-time centimeter-level and post-processing millimeter-level high-precision calculations to professional users, and providing 24-hour uninterrupted data for earthquake research, geological disaster monitoring, and other purposes, for tracking crustal movement, gravity field morphology, and their changes.

[0003] The integrated field observation room is a key facility for ensuring the long-term safe operation of base station equipment, and the explosion-proof door plays the most important role in physical protection. Currently, these doors generally use a metal frame with ordinary steel plates welded together, which only meets basic protection requirements and has the following significant shortcomings:

[0004] 1. Low protection strength. Due to cost constraints, most doors are made with steel pipes as the frame and covered with 1-2mm stainless steel sheets. They have poor resistance to prying and impact and are difficult to resist violent damage.

[0005] 2. It lacks fire resistance. The interior of the door is not filled with fireproof cotton or other heat-insulating and flame-retardant materials. Heat from external fire sources can quickly enter the room, igniting equipment or cables and causing system failure.

[0006] 3. Lack of environmental regulation function: The door is a fully enclosed design with no controllable air exchange channel, which leads to large fluctuations in temperature and humidity inside the observation cabin, affecting the lifespan of the equipment and the quality of data. Utility Model Content

[0007] The purpose of this utility model is to provide a BeiDou continuously operating reference station field integrated observation room, which aims to solve the problem of many drawbacks of the explosion-proof doors of the existing BeiDou continuously operating reference station field integrated observation rooms.

[0008] To address the aforementioned technical problems, this utility model provides a BeiDou continuously operating reference station field integrated observation room, comprising:

[0009] A container, wherein an inlet and outlet are provided through the side wall of the container;

[0010] An explosion-proof door is provided at the entrance and exit of the enclosure. The explosion-proof door is filled with a heat insulation layer. A ventilation port is provided through the explosion-proof door. An electric louver and a ventilation fan are provided at the ventilation port.

[0011] A temperature sensor is installed inside the container to detect the internal temperature of the container.

[0012] A control device is installed inside the container and is electrically connected to the motorized louvers, the ventilation fan, and the temperature sensor to control the opening and closing of the motorized louvers and the ventilation fan based on the cabin temperature detected by the temperature sensor.

[0013] In some embodiments, the explosion-proof door includes a frame and door panels, the door panels being laid on the frame, the frame being constructed from square tubing, and two door panels being respectively disposed on both sides of the frame in the thickness direction of the explosion-proof door. The heat insulation layer is filled between the two door panels and the frame, wherein:

[0014] The door panel is made of steel plate; and / or,

[0015] The thickness of the door panel is not less than 3mm; and / or,

[0016] The square tube is a square steel tube; and / or,

[0017] The wall thickness of the square tube is not less than 5 mm; and / or,

[0018] The heat insulation layer is filled inside the square tube.

[0019] In some embodiments, the heat insulation layer is fireproof cotton.

[0020] In some embodiments, the explosion-proof door is equipped with a door lock.

[0021] In some embodiments, the temperature sensor is disposed on the explosion-proof door, and the temperature sensor is located near the door's ventilation port.

[0022] In some embodiments, the control device includes a control box disposed on the explosion-proof door, the control box being electrically connected to the motorized louvers, the ventilation fan, and the temperature sensor.

[0023] In some embodiments, the door ventilation port is located at the bottom of the explosion-proof door.

[0024] In some embodiments, when the cabin temperature detected by the temperature sensor is greater than a preset temperature threshold, the motorized louvers and the ventilation fan are turned on.

[0025] When the cabin temperature detected by the temperature sensor is lower than the preset temperature threshold, the motorized louvers and the ventilation fan are turned off.

[0026] In some embodiments, the container entrance / exit is located at the right end of the front side wall of the container, and a container window is provided through the left end of the front side wall of the container. The container window is provided with a sliding window that can slide left and right and a window baffle that can flip up and down, and the window baffle is located outside the sliding window.

[0027] In some embodiments, an exhaust fan is provided at the top of the right sidewall of the container, and the exhaust fan is located near the front sidewall of the container.

[0028] In some embodiments, the container is provided with a partition wall, which, together with the right side wall and the bottom wall of the container, forms a first accommodating cavity and a second accommodating cavity. The first accommodating cavity and the second accommodating cavity are arranged along the front-to-back direction and are close to the bottom of the right side wall of the container. A generator is provided in the first accommodating cavity. A first mounting port communicating with the first accommodating cavity is provided through the bottom of the right side wall of the container. A generator door that can be opened and closed is provided at the first mounting port. An air conditioner outdoor unit is provided in the second accommodating cavity. A second mounting port communicating with the second accommodating cavity is provided through the bottom of the right side wall of the container. An air conditioner outdoor unit baffle is provided at the second mounting port. An air conditioner indoor unit is provided inside the container and is located at the top of the right side wall of the container.

[0029] In some embodiments, solar panels are installed on the exterior of the container's top wall, and the solar panels are electrically connected to the control device.

[0030] In some embodiments, a lightning rod is installed on the exterior of the top wall of the container.

[0031] In some embodiments, an outward-facing electrical box is embedded in the left side wall of the container, the electrical box being electrically connected to the solar panel and the control device.

[0032] Compared with the prior art, the present invention has the following beneficial effects:

[0033] The Beidou Continuous Operation Reference Station Field Integrated Observation Chamber of this utility model has an added heat insulation layer inside the explosion-proof door, which can isolate the cabin temperature from the rapid rise caused by external fire sources and prevent the equipment inside the container from overheating or catching fire. In addition, the ventilation port of the explosion-proof door is equipped with electric louvers and ventilation fans. Once the temperature sensor detects that the cabin temperature is too high, the control device can automatically open the electric louvers and start the ventilation fan to quickly cool down and ensure the safety of the equipment. Attached Figure Description

[0034] One or more embodiments are illustrated by way of example with reference numerals in the accompanying drawings. These illustrations do not constitute a limitation on the embodiments. Elements with the same reference numerals in the drawings are denoted as similar elements. Unless otherwise stated, the figures in the drawings are not to be limited by scale.

[0035] Figure 1 This is a schematic diagram of the structure of the Beidou Continuous Operation Reference Station Field Integrated Observation Room in this embodiment of the present invention;

[0036] Figure 2 for Figure 1 A structural schematic diagram of the field integrated observation room of the BeiDou continuous operation reference station from another perspective;

[0037] Figure 3 for Figure 2 A schematic diagram of the structure of the field integrated observation room of the BeiDou continuous operation reference station after the generator door and air conditioner outdoor unit baffle have been removed;

[0038] Figure 4 for Figure 1 One of the schematic diagrams of the internal structure of the field integrated observation room of the BeiDou continuous operation reference station;

[0039] Figure 5 for Figure 4 A magnified view of a section at point A in the middle;

[0040] Figure 6 for Figure 1 The second schematic diagram of the internal structure of the field integrated observation room of the BeiDou continuous operation reference station.

[0041] Explanation of reference numerals in the accompanying drawings of this utility model:

[0042] The Beidou Continuous Operation Reference Station consists of the following components: Field Integrated Observation Room 100, Container 1, Sliding Window 11, Window Baffle 12, Exhaust Fan 13, Enclosure 14, First Reception Chamber 15, Second Reception Chamber 16, Generator Door 17, Air Conditioner Outdoor Unit Baffle 18, Explosion-proof Door 2, Door Ventilation Port 21, Electric Louver 22, Ventilation Fan 23, Door Lock 24, Temperature Sensor 3, Control Device 4, Control Box 41, Wire Box 42, Electrical Cabinet 43, Generator 5, Air Conditioner Outdoor Unit 6, Air Conditioner Indoor Unit 7, Solar Panel 8, and Lightning Rod 9.

[0043] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0044] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0045] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicators will also change accordingly.

[0046] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of indicated technical features. Therefore, features defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. If the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.

[0047] This invention provides an integrated field observation room for a BeiDou continuously operating reference station. Figures 1 to 6 This invention illustrates a preferred embodiment of the BeiDou Continuous Operation Reference Station Field Integrated Observation Room provided by this invention.

[0048] Please see Figures 1 to 6 In some embodiments, the BeiDou Continuous Operation Reference Station Field Integrated Observation Chamber 100 includes a container 1, an explosion-proof door 2, a temperature sensor 3, and a control device 4. The container 1 has a through-hole inlet / outlet on its side wall. The explosion-proof door 2 is closable at the inlet / outlet and is filled with a heat insulation layer (not shown in the figure). A ventilation port 21 is through-hole on the explosion-proof door 2, and an electric louver 22 and a ventilation fan 23 are installed at the ventilation port 21. The temperature sensor 3 is installed inside the container 1 to detect the internal temperature. The control device 4 is installed inside the container 1 and is electrically connected to the electric louver 22, the ventilation fan 23, and the temperature sensor 3 to control the opening and closing of the electric louver 22 and the ventilation fan 23 based on the internal temperature detected by the temperature sensor 3.

[0049] Specifically, container 1 houses base station equipment. Container 1 is typically a rectangular container, and its entrance / exit can be located on the front, rear, left, or right side wall of container 1. The following description uses an example where the entrance / exit is located on the front side wall of container 1. The entrance / exit extends upwards through the front side wall of container 1 and is usually rectangular. It can be located at the left, middle, or right end of the front side wall of container 1. The following description uses an example where the entrance / exit is located at the right end of the front side wall of container 1.

[0050] The explosion-proof door 2 is rotatably installed at the entrance / exit of the container 1. The explosion-proof door 2 is rotatably connected to the front side wall of the container 1 via steel hinges, allowing it to rotate relative to the container 1 along an upward axis. This enables the opening and closing of the container 1's entrance / exit. The specific dimensions of the explosion-proof door 2 can be set according to actual conditions; for example, its height can be 1800mm, width 600mm, thickness 50mm, and opening angle 180°.

[0051] The explosion-proof door 2 is internally filled with fire-resistant cotton or other heat-insulating materials to form a heat-insulating layer inside the door 2. For example, in some embodiments, the heat-insulating layer is fire-resistant cotton. The heat-insulating layer inside the explosion-proof door 2 can effectively prevent a rapid increase in the internal temperature caused by external fire sources, preventing equipment overheating or fire inside the container 1. Optionally, please refer to... Figures 1 to 6 In some embodiments, the explosion-proof door 2 is equipped with a door lock 24. The left end of the explosion-proof door 2 is equipped with an escape door lock and a self-locking device (i.e., door lock 24), which allows personnel to press and open the door lock 24 from inside the container 1, thereby preventing personnel from being trapped due to the door lock 24 automatically locking, thus improving the escape capability of the explosion-proof door 2.

[0052] The specific shape and style of the explosion-proof door 2 can be set according to the actual situation. Optionally, please refer to [link / reference needed]. Figures 1 to 6 In some embodiments, the explosion-proof door 2 includes a door frame (not shown in the figure) and door panels. The door panels are laid on the door frame, which is made of square tubes. Two door panels are respectively provided on both sides of the door frame in the thickness direction of the explosion-proof door 2, and a heat insulation layer is filled between the two door panels and the door frame.

[0053] Specifically, the material of the door panel can be set according to the actual situation. Optionally, in some embodiments, the door panel is a steel plate. The thickness of the door panel can be set according to the actual situation. Optionally, in some embodiments, the thickness of the door panel is not less than 3mm. The explosion-proof door 2 is welded with steel plates with a thickness of not less than 3mm on both the inside and outside, which can improve the explosion-proof door 2's blast resistance.

[0054] Similarly, the specific material of the square tube can be set according to actual conditions. Optionally, in some embodiments, the square tube is a square steel tube. The wall thickness of the square tube can be set according to actual conditions. Optionally, in some embodiments, the wall thickness of the square tube is not less than 5mm. The explosion-proof door 2 is internally supported by a high-strength square steel tube with a wall thickness of not less than 5mm, which also improves the explosion-proof door 2's blast resistance. Preferably, in some embodiments, a heat insulation layer is filled inside the square tube. Filling the square tube with heat insulation materials such as fireproof cotton can further improve the fire resistance of the explosion-proof door 2.

[0055] The explosion-proof door 2 is equipped with a door ventilation port 21, through which the inside and outside of the container 1 can be connected. The specific location of the door ventilation port 21 on the explosion-proof door 2 can be set according to the actual situation. For example, the door ventilation port 21 can be set at the top, middle or bottom of the explosion-proof door 2. Optionally, please refer to Figures 1 to 6 In some embodiments, the door ventilation port 21 is located at the bottom of the explosion-proof door 2.

[0056] The door ventilation opening 21 is equipped with an electric louver 22 and a ventilation fan 23. When the electric louver 22 is closed, the door ventilation opening 21 can be completely sealed by the electric louver 22. When the electric louver 22 is open, the door ventilation opening 21 can connect the inside and outside of the container 1. At this time, the ventilation fan 23 is activated, and the ventilation fan 23 can exhaust the air inside the container 1 from the door ventilation opening 21 to the outside of the container 1.

[0057] A temperature sensor 3 is installed inside container 1. This sensor can monitor the internal temperature of container 1 in real time. The specific location of the temperature sensor 3 inside container 1 can be set according to actual conditions; for example, the temperature sensor 3 can be installed on the explosion-proof door 2 or on container 1. Optionally, please refer to... Figures 1 to 6 In some embodiments, the temperature sensor 3 is disposed on the explosion-proof door 2, near the door's ventilation port 21. The temperature sensor 3 may be located on the top left or right side of the ventilation port 21.

[0058] Control device 4 is installed inside container 1. Control device 4 is electrically connected to motorized louvers 22, ventilation fan 23, and temperature sensor 3. It controls the opening and closing of motorized louvers 22 and ventilation fan 23 based on the cabin temperature detected by temperature sensor 3. If temperature sensor 3 detects that the cabin temperature is too high, control device 4 can automatically open motorized louvers 22 and start ventilation fan 23 to quickly cool the cabin and ensure equipment safety. Motorized louvers 22 can be made of steel plate with a thickness of not less than 3mm, and their opening and closing state is controlled by a motor.

[0059] Optionally, in some embodiments, when the cabin temperature detected by the temperature sensor 3 is greater than a preset temperature threshold, the motorized louvers 22 and the ventilation fan 23 are opened; when the cabin temperature detected by the temperature sensor 3 is less than the preset temperature threshold, the motorized louvers 22 and the ventilation fan 23 are closed.

[0060] Specifically, the setting method for the preset temperature threshold can be determined according to the actual situation. The following example uses a preset temperature threshold of 40℃. The motorized louvers 22 located at the bottom of the explosion-proof door 2 are controlled by the temperature sensor 3. When the internal temperature of the container 1 is ≥40℃, the temperature sensor 3 will activate the control unit (i.e., control device 4) of the motorized louvers 22, opening the louvers 22 and simultaneously starting the ventilation fan 23. Once the internal temperature of the container 1 decreases, the ventilation fan 23 and the motorized louvers 22 will be turned off.

[0061] Optionally, please refer to Figures 1 to 6 In some embodiments, the control device 4 includes a control box 41 disposed on the explosion-proof door 2. The control box 41 is electrically connected to the motorized louver 22, the ventilation fan 23, and the temperature sensor 3. The control box 41 is the control unit of the motorized louver 22. The control box 41 is located directly above the temperature sensor 3. The temperature sensor 3 and the door ventilation port 21 may be located below the door lock 24, and the control box 41 may be located above the door lock 24.

[0062] Explosion-proof door 2 is an integrated observation room explosion-proof door that integrates anti-violent dismantling, fire prevention and automatic ventilation functions.

[0063] The Beidou Continuous Operation Reference Station Field Integrated Observation Chamber 100 of this utility model has an added heat insulation layer inside the explosion-proof door 2, which can isolate the cabin temperature from the rapid rise caused by external fire sources and prevent the equipment inside the container 1 from overheating or catching fire; and the door ventilation port of the explosion-proof door 2 is equipped with electric louvers 22 and ventilation fan 23. Once the temperature sensor 3 detects that the cabin temperature is too high, the control device 4 can automatically open the electric louvers 22 and start the ventilation fan 23 to quickly cool down and ensure the safety of the equipment.

[0064] Optionally, please refer to Figures 1 to 6 In some embodiments, the container entrance and exit are located at the right end of the front side wall of the container 1, and a container window is provided through the left end of the front side wall of the container 1. The container window is provided with a sliding window 11 that can slide left and right and a window baffle 12 that can flip up and down. The window baffle 12 is located outside the sliding window 11.

[0065] Specifically, the sliding window 11 and the window baffle 12 are located on the left side of the explosion-proof door 2. Personnel inside the container 1 can open the container window by first pushing open the sliding window 11 and then pushing open the window baffle 12.

[0066] Optionally, please refer to Figures 1 to 6 In some embodiments, an exhaust fan 13 is provided on the top of the right side wall of container 1, and the exhaust fan 13 is close to the front side wall of container 1.

[0067] Specifically, an exhaust vent is provided through the upper front corner of the right side wall of container 1, and an exhaust fan 13 is provided at the exhaust vent. The exhaust fan 13 is electrically connected to the control device 4, so that the personnel inside container 1 can exhaust air from container 1 to the outside through the exhaust fan 13.

[0068] Optionally, please refer to Figures 1 to 6 In some embodiments, a partition 14 is provided inside the container 1. The partition 14, together with the right side wall and the bottom wall of the container 1, forms a first receiving cavity 15 and a second receiving cavity 16. The first receiving cavity 15 and the second receiving cavity 16 are arranged along the front-to-back direction and are close to the bottom of the right side wall of the container 1. A generator 5 is provided inside the first receiving cavity 15. A first installation port communicating with the first receiving cavity 15 is provided through the bottom of the right side wall of the container 1. A generator door 17 that can be opened and closed is provided at the first installation port. An air conditioner outdoor unit 6 is provided inside the second receiving cavity 16. A second installation port communicating with the second receiving cavity 16 is provided through the bottom of the right side wall of the container 1. An air conditioner outdoor unit baffle 18 is provided at the second installation port. An air conditioner indoor unit 7 is provided inside the container 1. The air conditioner indoor unit 7 is located at the top of the right side wall of the container 1.

[0069] Specifically, the first receiving cavity 15 and the second receiving cavity 16 are located at the bottom of the right side wall of container 1, arranged in a front-to-back configuration. A generator 5 and an air conditioner outdoor unit 6 are respectively installed in the first receiving cavity 15 and the second receiving cavity 16. The generator 5, the air conditioner outdoor unit 6, and the air conditioner indoor unit 7 are electrically connected to the control device 4. The Beidou Continuous Operation Reference Station Field Integrated Observation Room 100 can generate electricity through the generator 5. The air conditioner outdoor unit 6 and the air conditioner indoor unit 7 form an air conditioning system. The Beidou Continuous Operation Reference Station Field Integrated Observation Room 100 can regulate the temperature inside container 1 through the air conditioning system. This arrangement of the generator 5 and the air conditioning system is relatively reasonable, making the structure of the Beidou Continuous Operation Reference Station Field Integrated Observation Room 100 more compact.

[0070] Optionally, please refer to Figures 1 to 6 In some embodiments, solar panels 8 are installed on the outer side of the top wall of container 1, and the solar panels 8 are electrically connected to control device 4. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room 100 can convert solar energy into electrical energy through the solar panels 8 to power the BeiDou Continuous Operation Reference Station Field Integrated Observation Room 100.

[0071] Further, please refer to Figures 1 to 6In some embodiments, an outward-facing electrical box 42 is embedded in the left side wall of container 1, and the electrical box 42 is electrically connected to the solar panel 8 and the control device 4.

[0072] Specifically, the control device 4 includes an electrical cabinet 43, which is located inside the container 1 and close to the left side wall of the container 1. The solar panel 8 and the electrical box 42 are electrically connected to the electrical cabinet 43.

[0073] Optionally, please refer to Figures 1 to 6 In some embodiments, a lightning rod 9 is installed on the outside of the top wall of container 1.

[0074] The above are merely preferred embodiments of this utility model and do not limit the patent scope of this utility model. Any equivalent structural transformations made based on the inventive concept of this utility model and the contents of the specification and drawings of this utility model, or direct / indirect applications in other related technical fields, are included within the patent protection scope of this utility model.

Claims

1. A BeiDou continuously operating reference station field integrated observation room, characterized in that, include: A container, wherein an inlet and outlet are provided through the side wall of the container; An explosion-proof door is provided at the entrance and exit of the enclosure. The explosion-proof door is filled with a heat insulation layer. A ventilation port is provided through the explosion-proof door. An electric louver and a ventilation fan are provided at the ventilation port. A temperature sensor is installed inside the container to detect the internal temperature of the container. A control device is installed inside the container and is electrically connected to the motorized louvers, the ventilation fan, and the temperature sensor to control the opening and closing of the motorized louvers and the ventilation fan based on the cabin temperature detected by the temperature sensor.

2. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The explosion-proof door includes a frame and door panels. The door panels are laid on the frame, which is constructed from square tubing. Two door panels are respectively installed on each side of the frame in the thickness direction of the explosion-proof door. The heat insulation layer is filled between the two door panels and the frame. The door panel is made of steel plate; and / or, The thickness of the door panel is not less than 3mm; and / or, The square tube is a square steel tube; and / or, The wall thickness of the square tube is not less than 5 mm; and / or, The heat insulation layer is filled inside the square tube.

3. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The heat insulation layer is fireproof cotton; and / or, the explosion-proof door is equipped with a door lock.

4. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The temperature sensor is mounted on the explosion-proof door, and the temperature sensor is located near the door's ventilation port; and / or, The control device includes a control box mounted on the explosion-proof door, the control box being electrically connected to the motorized louvers, the ventilation fan, and the temperature sensor; and / or The ventilation port of the door is located at the bottom of the explosion-proof door.

5. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, When the cabin temperature detected by the temperature sensor is greater than a preset temperature threshold, the electric louvers and the ventilation fan are turned on. When the cabin temperature detected by the temperature sensor is lower than the preset temperature threshold, the motorized louvers and the ventilation fan are turned off.

6. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The container entrance / exit is located at the right end of the front side wall of the container. A container window is provided through the left end of the front side wall of the container. The container window is equipped with a sliding window that can slide left and right and a window baffle that can flip up and down. The window baffle is located on the outside of the sliding window.

7. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, An exhaust fan is installed at the top of the right side wall of the container, and the exhaust fan is close to the front side wall of the container.

8. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The container is equipped with a partition wall, which, together with the right side wall and the bottom wall of the container, forms a first accommodating cavity and a second accommodating cavity. The first accommodating cavity and the second accommodating cavity are arranged along the front-to-back direction and are close to the bottom of the right side wall of the container. A generator is installed in the first accommodating cavity. A first mounting port communicating with the first accommodating cavity is provided through the bottom of the right side wall of the container. A generator door that can be opened and closed is provided at the first mounting port. An air conditioner outdoor unit is installed in the second accommodating cavity. A second mounting port communicating with the second accommodating cavity is provided through the bottom of the right side wall of the container. An air conditioner outdoor unit baffle is provided at the second mounting port. An air conditioner indoor unit is installed inside the container and is located at the top of the right side wall of the container.

9. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 1, characterized in that, The container's top wall is covered with solar panels, which are electrically connected to the control device; and / or, The container is equipped with a lightning rod on the outside of its top wall.

10. The BeiDou Continuous Operation Reference Station Field Integrated Observation Room according to claim 9, characterized in that, An outward-facing electrical box is embedded in the left side wall of the container, and the electrical box is electrically connected to the solar panel and the control device.