A computer system-based integrated data acquisition device
By introducing a cooling device and a temperature detection controller into the integrated data acquisition equipment, the problem of insufficient heat dissipation capacity of the water-cooled pipes was solved, enabling automatic temperature adjustment and uniform cooling of the data acquisition unit, thus improving the practicality of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING ZHONGSHANG SHANGHE TECHNOLOGY CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-23
AI Technical Summary
Existing integrated data acquisition devices have limited water-cooling capacity, making it impossible to monitor temperature in real time, which affects the performance and lifespan of the acquisition unit.
A cooling device is adopted, including a cooler, an air outlet, a cold air duct, and an air return vent. Combined with a temperature detection controller and a motor, it realizes the temperature detection and automatic adjustment of the data acquisition unit. The cold air duct provides uniform cooling, and the motor drives the fan blades for heat dissipation.
This improves the heat dissipation of the data collector, preventing excessively high or low temperatures from affecting equipment performance and lifespan, and enhancing the equipment's practicality.
Smart Images

Figure CN224401915U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of data acquisition technology, specifically to an integrated data acquisition device based on a computer system. Background Technology
[0002] In today's era of sweeping digital transformation, the amount of data generated across various industries is exploding. Massive amounts of complex data are being generated every moment in fields such as industrial manufacturing, business operations, and scientific research. With the rapid development of computer technology, its computing power, network transmission speed, and storage capacity have all made a qualitative leap, providing a solid technical foundation for the emergence of integrated data acquisition devices.
[0003] Chinese patent CN 218550305 U discloses an integrated data acquisition device based on a computer system. The key technical features include a storage box and a data collector. The data collector is housed within the storage box, which has an open upper surface. A cover is provided at the opening to close the data collector, and a reset mechanism is provided between the cover and the inner wall of the storage box. A horizontal mounting frame is provided within the storage box, and the data collector is mounted on the mounting frame. A lifting mechanism is provided between the mounting frame and the inner wall of the storage box to raise the data collector's height. A water-cooling pipe is provided within the storage box for cooling. This invention provides a relatively sealed storage space for the data collector, thus providing effective protection against collisions with external objects that could damage its structure. It also allows for quick removal or storage of the data collector without affecting its functionality.
[0004] Traditional equipment uses water-cooling pipes and external water supply equipment to cool the data acquisition device. However, after prolonged use, the cooling capacity of the water-cooling pipes may be limited for high-power, high-heat-generating data acquisition devices. In addition, this device cannot monitor the temperature inside the storage box in real time. When the temperature is too high or too low, it cannot adjust the working status of the water-cooling pipes in time, which may affect the performance and lifespan of the data acquisition device and reduce the practicality of the equipment. Utility Model Content
[0005] This invention provides an integrated data acquisition device based on a computer system, which solves the problems mentioned in the background art.
[0006] To solve the above-mentioned technical problems, the technical solution of this utility model is as follows:
[0007] An embodiment of this utility model provides an integrated data acquisition device based on a computer system, comprising: a housing;
[0008] The sliding door is mounted on the top of the cabinet.
[0009] Wheels are fixedly installed at the bottom of the housing to move the equipment;
[0010] The motor is fixedly installed at the rear of the housing;
[0011] Backup storage, fixedly installed inside the enclosure, is used for data backup;
[0012] A clamping device is installed inside the housing, and a data collector is clamped and installed in the middle of the clamping device for data collection.
[0013] The cooling device is located inside the bottom of the enclosure;
[0014] The temperature detection controller is fixedly installed on the inner wall surface of the enclosure and is used to detect the temperature of the data acquisition unit;
[0015] The ventilation holes are located on the front surface of the enclosure, and a dust filter B is fixedly installed inside the ventilation holes.
[0016] The above technical solution allows the sliding door to be opened and closed, facilitating the installation and removal of the data collector by staff while preventing dust from entering the equipment.
[0017] Furthermore, the cooling device includes a refrigerator fixedly installed inside the bottom of the housing. The refrigerator has an air outlet and an air return outlet on one side. A cold air duct is fixedly connected to one end of the air outlet, and an air return outlet is fixedly connected to the other end of the cold air duct.
[0018] The above technical solution connects the air outlet and return air inlet to the cold air duct, allowing the cooler to cool the cold air duct through the air outlet and return air inlet, thereby cooling the data collector.
[0019] Furthermore, two dustproof nets B are symmetrically arranged above the cold air duct and below the collector.
[0020] Through the above technical solution, the dustproof net B can make the cold air duct cool the collector more evenly, avoiding excessive local temperature of the collector.
[0021] Furthermore, a fan blade is fixedly connected to the output end of the motor, and a dustproof net A is provided between the fan blade and the motor.
[0022] The above technical solution connects the motor to the fan blades, and the motor drives the fan blades to rotate, thereby dissipating heat from the data collector.
[0023] Furthermore, two connection holes are provided on the outer surface of the box, and dust cover A and dust cover B are respectively provided on the two connection holes.
[0024] The above technical solution, with dust cover A and dust cover B installed, can prevent dust from entering the equipment.
[0025] Furthermore, the clamping device includes two fixed buckles fixedly installed inside the box body. A clamping plate is symmetrically arranged on one side of the two fixed buckles. A guide rod is slidably installed at the bottom end of the clamping plate. Both ends of the guide rod are fixedly installed inside the box body. A spring is provided on one side of the clamping plate.
[0026] Through the above technical solution, the clamping plate can fix and hold the data collector under the action of the spring, avoiding the data collector from sliding and bumping, which would cause damage to the equipment.
[0027] The above-described solution of this utility model has at least the following beneficial effects:
[0028] 1. In this utility model, the cooling device is designed to work in conjunction with a motor, fan blades, temperature detection controller, cooler, air outlet, cold air duct, and return air inlet. The temperature detection controller detects changes in the temperature of the data collector and then controls the cooling device to start, dissipating heat from the data collector through the cold air duct. This prevents the cooling device from failing to adjust its working state in time when the data collector temperature is too high or too low, thus affecting the performance and lifespan of the data collector. At the same time, the motor drives the fan blades to dissipate heat from the inside of the housing, thereby improving the heat dissipation effect of the cooling device and further enhancing the practicality of the equipment.
[0029] 2. The clamping device of this utility model, through the cooperation between the fixing buckle, the clamping plate, the guide rod and the spring, allows the clamping plate to move back and forth by means of the spring, thereby realizing the fixed clamping of collectors of different sizes and shapes, so that the collectors are placed stably in the box, and further improving the practicality of the equipment. Attached Figure Description
[0030] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0031] Figure 2 This is a schematic diagram of the overall structure of this utility model;
[0032] Figure 3 This is a schematic diagram of the internal structure of this utility model;
[0033] Figure 4 This is a schematic diagram of the cooling device structure of this utility model;
[0034] Figure 5 This is a schematic diagram of the clamping device structure of this utility model;
[0035] Figure 6 This is a schematic diagram of the clamping device structure of this utility model.
[0036] Explanation of reference numerals in the attached figures:
[0037] 1. Cabinet; 2. Sliding door; 3. Dust cover A; 4. Dust cover B; 5. Wheels; 6. Motor; 7. Fan blades; 8. Dust filter A; 9. Data collector; 10. Backup storage device; 11. Clamping device; 111. Fixing buckle; 112. Clamping plate; 113. Guide rod; 114. Spring; 12. Cooling device; 121. Refrigerator; 122. Air outlet; 123. Cold air duct; 124. Return air outlet; 13. Dust filter B; 14. Temperature detection controller. Detailed Implementation
[0038] Exemplary embodiments of the present invention will now be described in more detail with reference to the accompanying drawings. While exemplary embodiments of the present invention are shown in the drawings, it should be understood that the present invention may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this invention will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
[0039] like Figures 1 to 6 As shown, an embodiment of this utility model provides an integrated data acquisition device based on a computer system, including: a housing 1; a sliding door 2 is slidably installed on the top of the housing 1, wheels 5 are fixedly installed on the bottom of the housing 1 for moving the device, a motor 6 is fixedly installed at the rear of the housing 1, a backup storage device 10 is fixedly installed inside the housing 1 for backing up data, a clamping device 11 is provided inside the housing 1, and a data acquisition device 9 is clamped and installed in the middle of the clamping device 11 for data acquisition, a cooling device 12 is provided inside the bottom of the housing 1, a temperature detection controller 14 is fixedly installed on the inner wall surface of the housing 1 for detecting the temperature of the data acquisition device, a dustproof mesh B13 is fixedly installed inside the heat dissipation holes on the front surface of the housing 1, and the sliding door 2 is connected to the housing 1 by sliding installation. Then, by pulling the sliding door 2, the sliding door 2 can be opened and closed, making it convenient for the staff to install and remove the data acquisition device 9.
[0040] like Figures 1 to 4 As shown, the cooling device 12 includes a cooler 121 fixedly installed inside the bottom of the housing 1. The cooler 121 has an air outlet 122 and an air return 124 on one side. One end of the air outlet 122 is fixedly connected to a cold air duct 123, and the other end of the cold air duct 123 is fixedly connected to the air return 124. The cold air duct 123 is connected to the air outlet 122 and the air return 124 by a fixed connection. When the cooler 121 is started, cold air is delivered to the cold air duct 123 through the air outlet 122 to cool the data acquisition equipment. At the same time, it is circulated through the air return 124, so that the cold air duct 123 continuously cools the data acquisition equipment.
[0041] like Figures 1 to 4 As shown, two dustproof nets B13 are symmetrically arranged above the cold air duct 123 and below the collector 9. The output end of the motor 6 is fixedly connected to the fan blade 7. A dustproof net A8 is set between the fan blade 7 and the motor 6. The motor 6 and the fan blade 7 are connected by a fixed connection. When the motor 6 starts, it drives the fan blade 7 to rotate, thereby cooling the collection device.
[0042] In this embodiment of the utility model (working principle), firstly, the data collector 9 is placed into the housing 1 by pulling out the sliding door 2. At the same time, the dust cover A3 is pulled up to connect the external device to the data collection interface of the data collector 9 through the dust cover A3, thereby making the inside of the device cleaner. Then, the data collector 9 collects data. At the same time, the backup storage 10 backs up the data collected by the data collector 9 to avoid data loss due to damage to the data collection device. The temperature detection controller 14 detects the temperature of the data collector 9. When the temperature of the data collector 9 is too high, the cooling device 12 and the motor 6 are activated to cool down the data collector 9. At the same time, the two dust screens B13 can cool down the data collector 9 more evenly to avoid local overheating of the data collector 9 and damage to the device. Then, the data extraction device can take out the data collected by the data collector 9 through the dust cover B4 by pulling up the dust cover B4.
[0043] like Figures 1 to 4 As shown, two connection holes are opened on the outer surface of the housing 1, and dust cover A3 and dust cover B4 are respectively provided on the two connection holes. Dust cover A3 and dust cover B4 can protect the connection port and prevent dust from entering the connection port.
[0044] like Figure 6 As shown, the clamping device 11 includes two fixed buckles 111 fixedly installed inside the housing 1. A clamping plate 112 is symmetrically arranged on one side of the two fixed buckles 111. A guide rod 113 is slidably installed at the bottom end of the clamping plate 112. The two ends of the guide rod 113 are fixedly installed inside the housing 1. A spring 114 is provided on one side of the clamping plate 112. The clamping plate 112 is connected to the guide rod 113 by a sliding connection, so that the spring 114 can push the clamping plate 112 to move and fix the collector 9.
[0045] In this embodiment of the utility model, by lifting the dust cover A3 and dust cover B4, external devices can be connected to the collector 9 through the connection port, avoiding the connection wires from being connected to the collector 9 through the inside of the housing 1, thus making the inside of the device cleaner. At the same time, the cooling device 12 is set up so that the collector 9 is attached to the fixing buckle 111 by pulling the clamping plate 112 backward. Then, under the action of the guide rod 113 and the spring 114, the clamping plate 112 moves forward to clamp the collector 9, thus making it suitable for collectors of different sizes.
[0046] The above description is the preferred embodiment of this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.
Claims
1. An integrated data acquisition device based on a computer system, characterized in that, include: Box (1); A sliding door (2) is slidably installed on the top of the housing (1); Wheels (5) are fixedly installed at the bottom of the housing (1) to drive the equipment to move; The motor (6) is fixedly installed at the rear of the housing (1); Backup storage (10) is fixedly installed inside the enclosure (1) for backing up data; A clamping device (11) is installed inside the housing (1), and a data collector (9) is clamped in the middle of the clamping device (11) for data collection. A cooling device (12) is installed inside the bottom end of the housing (1); Temperature detection controller (14) is fixedly installed on the inner wall surface of the housing (1) for detecting the temperature of the data collector; The heat dissipation holes are opened on the front surface of the box (1), and a dustproof mesh B (13) is fixedly installed inside the heat dissipation holes.
2. The integrated data acquisition device based on a computer system according to claim 1, characterized in that, The cooling device (12) includes a cooler (121) fixedly installed inside the bottom of the housing (1). The cooler (121) has an air outlet (122) and an air return outlet (124) on one side. One end of the air outlet (122) is fixedly connected to a cold air pipe (123), and the other end of the cold air pipe (123) is fixedly connected to an air return outlet (124).
3. The integrated data acquisition device based on a computer system according to claim 2, characterized in that, Two dustproof nets B (13) are symmetrically arranged above the cold air duct (123) and below the collector (9).
4. The integrated data acquisition device based on a computer system according to claim 1, characterized in that, The output end of the motor (6) is fixedly connected to a fan blade (7), and a dustproof net A (8) is provided between the fan blade (7) and the motor (6).
5. The integrated data acquisition device based on a computer system according to claim 1, characterized in that, Two connection holes are provided on the outer surface of the box (1), and dust cover A (3) and dust cover B (4) are respectively provided on the two connection holes.
6. The integrated data acquisition device based on a computer system according to claim 1, characterized in that, The clamping device (11) includes two fixed buckles (111) fixedly installed inside the housing (1). A clamping plate (112) is symmetrically arranged on one side of the two fixed buckles (111). A guide rod (113) is slidably installed at the bottom end of the clamping plate (112). Both ends of the guide rod (113) are fixedly installed inside the housing (1). A spring (114) is provided on one side of the clamping plate (112).