A laboratory collection all-in-one machine
By designing a laboratory data acquisition all-in-one machine that integrates environmental, image, and sample data acquisition functions, the problem of scattered and complex operation of laboratory data acquisition equipment is solved, and efficient and accurate acquisition of multiple types of data is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ORIENTAL (TIANJIN) SAFETY TECHNOLOGY CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-07-10
AI Technical Summary
Existing laboratory data acquisition equipment is scattered, complex to operate, and difficult to integrate, resulting in low efficiency and operational errors.
By designing an integrated data acquisition machine, including a laboratory data acquisition device, the problems of scattered laboratory data acquisition equipment, complex operation, and difficult data integration in the prior art are solved.
It enables the integrated collection of various types of data, reduces manual operations, improves collection efficiency and data accuracy, and saves human resources.
Smart Images

Figure CN224481760U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an integrated data acquisition machine, specifically a laboratory integrated data acquisition machine, belonging to the field of laboratory data acquisition technology. Background Technology
[0002] Laboratory data acquisition refers to the process of processing collected samples in a laboratory, followed by identification, separation, and collection of sample attributes through methods such as laboratory testing, spectral analysis, and microscopic observation, in order to obtain source data that can be processed.
[0003] A novel laboratory data acquisition device is disclosed in Chinese Patent Application Publication CN216595723U. It includes an acquisition device, a support device, and a load-bearing component. The acquisition device comprises a base, a vertical plate, slide rails, sliders, a movable plate, a hydraulic cylinder, an observation mirror, and a supplementary light. The vertical plate is located on the top right side of the base, and longitudinal slide rails are arranged on both sides of the vertical plate. Sliders are mounted on each slide rail, and a movable plate connects the sliders. This technical solution avoids the need to repeatedly change samples during testing, improving data acquisition efficiency. Simultaneously, the hydraulic cylinder drives the observation mirror to rise and fall, adjusting its operating height. However, in modern laboratories, it is often necessary to acquire multiple different types of data. Laboratories often use multiple independent acquisition devices to complete different data acquisition tasks. Using a laboratory data acquisition device to acquire only one type of data not only occupies a large amount of laboratory space, but also makes the connection and coordinated operation between devices complex. When conducting multi-parameter experiments, researchers need to manually operate multiple devices, which is not only time-consuming but also prone to operational errors, leading to inaccurate or incomplete data acquisition.
[0004] Therefore, a laboratory data acquisition device is proposed here. Utility Model Content
[0005] This invention proposes a laboratory data acquisition device to solve the problems of scattered laboratory data acquisition equipment, complex operation, and difficulty in data integration in the prior art.
[0006] This utility model is achieved through the following technical solution: a laboratory data acquisition integrated machine, including a main body of the experimental machine, wherein a data acquisition mechanism is provided both inside and outside the main body of the experimental machine;
[0007] The data acquisition mechanism includes a signal conditioning device and a central data processor, both of which are located inside the main body of the experimental machine. The signal conditioning device is connected to the central data processor via wires. An environmental data acquisition device is fixedly connected to the upper surface of the main body of the experimental machine. Two lighting lamps and an image data acquisition device are respectively installed on the back of the main body of the experimental machine. Both the environmental data acquisition device and the image data acquisition device are connected to the central data processor via the signal conditioning device. A display screen is fixedly embedded on the left side of the main body of the experimental machine, and the signal conditioning device is connected to the display screen via wires.
[0008] A sample data acquisition component is provided on the back of the main body of the experimental machine, and a data transmission component is provided on the right side of the main body of the experimental machine and the right side of the sample data acquisition component.
[0009] The sample data acquisition component includes a sample acquisition box, which is located on the back of the main body of the experimental machine. The two lighting lamps on opposite sides and the right side of the image data acquisition device are fixedly connected to the inner wall of the sample acquisition box. A sliding shelf is slidably connected inside the sample acquisition box, and the bottom surface of the sliding shelf is in contact with the inner bottom wall of the sample acquisition box. The sample data acquisition device is fixedly connected to the upper surface of the sliding shelf, and the sample data acquisition device is connected to the central data processor via a signal conditioning device. A pull plate is fixedly connected to the left side of the sliding shelf, and the right side of the pull plate is in contact with the left side of the sample acquisition box. A pull handle is fixedly connected to the left side of the pull plate.
[0010] The data transmission component includes two connectors. The left side of the two connectors is fixedly connected to the right side of the sample collection box and the right side of the experimental machine body, respectively. Each connector has an installation locking block inside.
[0011] A connecting wire is fixedly connected to the right side of both mounting blocks, and a mounting limiting plate is fixedly connected to the outer surface of each mounting block. The left side of the two mounting limiting plates is in contact with the right side of the two connecting joints respectively.
[0012] Two reinforcing rings are fixedly connected to the outer surface of the connecting wire, and the left side of the two reinforcing rings is fixedly connected to the right side of the two mounting clips respectively.
[0013] The bottom surface of the main body of the experimental machine and the bottom surface of the sample collection box are both fixedly connected to two sets of support legs, and the bottom end of each set of support legs is fixedly connected to a support base plate.
[0014] This utility model provides a laboratory data acquisition device, which has the following beneficial effects:
[0015] 1. This laboratory data acquisition all-in-one machine can collect environmental data of the laboratory where it is located using the environmental data acquisition device on the main body of the machine. It can also collect images of the experimental items under the illumination of the lighting lamp using the image data acquisition device, and collect various data of the samples using the sample data acquisition device. The collected data is adjusted by the signal conditioning device and sent to the central data processor for processing. This allows for the convenient acquisition of various types of data, reducing the problem of operational errors caused by manually operating multiple machines, saving a lot of manpower, and improving the ease of use of the laboratory data acquisition all-in-one machine.
[0016] 2. This laboratory data acquisition device allows for easy manipulation by manually holding a handle and pulling a sliding plate. This facilitates the placement of the collected sample onto the sliding plate and its transport to the sample collection box, enabling the acquisition of data such as images, temperature, humidity, and spectra of the sample. This further enhances the ease of use of the laboratory data acquisition device. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the main body of the experimental machine of this utility model;
[0018] Figure 2 This is a rear-view three-dimensional structural diagram of a laboratory integrated data acquisition machine after the sample acquisition box and sliding shelf have been unfolded.
[0019] Figure 3 This is a schematic diagram of the connecting wire of this utility model;
[0020] Figure 4 This is a system module diagram of the integrated data acquisition device used in this laboratory.
[0021] Explanation of reference numerals in the attached figures
[0022] 1. Main body of the experimental machine;
[0023] 2. Data acquisition mechanism; 201. Signal conditioning device; 202. Central data processor; 203. Display screen; 204. Environmental data acquisition device; 205. Lighting lamp; 206. Image data acquisition device;
[0024] 3. Sample data acquisition components; 301. Sample acquisition box; 302. Sliding shelf; 303. Sample data acquisition device; 304. Pull plate; 305. Pull handle;
[0025] 4. Data transmission components; 401. Connecting connector; 402. Mounting clip; 403. Mounting limit plate; 404. Connecting wire; 405. Reinforcing ring;
[0026] 5. Support legs; 6. Support base plate. Detailed Implementation
[0027] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this application.
[0028] Please see Figures 1-4 This utility model provides a laboratory data acquisition integrated machine, including a main body 1, and a data acquisition mechanism 2 is provided both inside and outside the main body 1.
[0029] Please refer to this carefully. Figure 1 , Figure 2 and Figure 4 The data acquisition mechanism 2 includes a signal conditioning device 201 and a central data processor 202. The signal conditioning device 201 is an instrument that performs preprocessing on the acquired raw signal, such as amplification, filtering, and analog-to-digital conversion, to ensure that the signal meets the input requirements of the central data processor 202. The central data processor 202 is an instrument that can quickly process and analyze various types of acquired data and can intelligently control the acquisition process according to a preset program. Both the signal conditioning device 201 and the central data processor 202 are located inside the main body 1 of the experimental machine. The signal conditioning device 201 is connected to the central data processor 202 via wires. An environmental data acquisition device 204 is fixedly connected to the upper surface of the main body 1 of the experimental machine. Device 204 is a device that integrates sensors for temperature, humidity, air pressure, and air quality. Two lights 205 and an image data acquisition device 206 are respectively installed on the back of the main body 1 of the experimental machine. The image data acquisition device 206 is a high-definition camera with a resolution of not less than 1080P, which can record samples or phenomena in real time during the experiment. It also has automatic focus and image stabilization functions to ensure clear and stable images. Both the environmental data acquisition device 204 and the image data acquisition device 206 are connected to the central data processor 202 through the signal conditioning device 201. A display screen 203 is fixedly embedded on the left side of the main body 1 of the experimental machine. The signal conditioning device 201 is connected to the display screen 203 through wires.
[0030] Please refer to this carefully. Figure 1 and Figure 2The back of the main body 1 of the experimental machine is provided with a sample data acquisition component 3. The right side of the main body 1 and the right side of the sample data acquisition component 3 are jointly provided with a data transmission component 4. The sample data acquisition component 3 includes a sample acquisition box 301, which is located on the back of the main body 1 of the experimental machine. The side of the two lights 205 that are far apart from each other and the right side of the image data acquisition device 206 are fixedly connected to the inner wall of the sample acquisition box 301. The bottom surface of the main body 1 of the experimental machine and the bottom surface of the sample acquisition box 301 are both fixedly connected with two sets of support legs 5. The bottom end of each set of support legs 5 is fixedly connected with a support base plate 6. The two sets of support legs 5 and the support base plate 6 are used to form the support structure of the main body 1 of the experimental machine and the sample acquisition box 301, so that the laboratory data acquisition machine can be stably supported.
[0031] Please refer to this carefully. Figure 1 , Figure 2 and Figure 4 A sliding shelf 302 is slidably connected inside the sample collection box 301. The bottom surface of the sliding shelf 302 is in contact with the inner bottom wall of the sample collection box 301. A sample data acquisition device 303 is fixedly connected to the upper surface of the sliding shelf 302. The sample data acquisition device 303 is a device capable of collecting various data of the sample. The sample data acquisition device 303 is connected to the central data processor 202 through the signal conditioning device 201. A pull plate 304 is fixedly connected to the left side of the sliding shelf 302. The right side of the pull plate 304 is in contact with the left side of the sample collection box 301. A pull handle 305 is fixedly connected to the left side of the pull plate 304. By manually holding the pull handle 305, the sliding shelf 302 is slid inside the sample collection box 301 through the pull plate 304, thereby facilitating the collection of sample data.
[0032] Please refer to this carefully. Figure 2 and Figure 3 The data transmission component 4 includes two connecting connectors 401. The left side of the two connecting connectors 401 is fixedly connected to the right side of the sample collection box 301 and the right side of the experimental machine body 1, respectively. Each connecting connector 401 has a mounting clip 402 inside. By using the mounting clip 402 to snap into the inside of the connecting connector 401, the experimental machine body 1 can be connected to the sample collection box 301 for data transmission, thus facilitating the use of the laboratory data acquisition all-in-one machine.
[0033] Please refer to this carefully. Figure 3The right side of the two mounting blocks 402 is fixedly connected to the connecting wire 404. The outer surface of each mounting block 402 is fixedly connected to the mounting limiting plate 403. The left side of the two mounting limiting plates 403 respectively contacts the right side of the two connecting joints 401. The mounting limiting plate 403 can be used to conveniently lock the mounting block 402 into the interior of the connecting joint 401, thereby improving the connection stability of the laboratory data acquisition machine.
[0034] Please refer to this carefully. Figure 3 Two reinforcing rings 405 are fixedly connected to the outer surface of the connecting wire 404. The left side of the two reinforcing rings 405 is fixedly connected to the right side of the two mounting clips 402 respectively. The reinforcing rings 405 are fixed at the connection between the connecting wire 404 and the mounting clips 402, thereby improving the connection stability between the connecting wire 404 and the mounting clips 402.
[0035] In use, the laboratory data acquisition unit is first connected to a power source. When it is necessary to use the laboratory data acquisition unit to collect various data of the sample, it is first placed on a horizontal table by hand. The two sets of support legs 5 and the support base plate 6 fixed to the bottom of the main body 1 and the sample collection box 301 can form a stable support structure for the laboratory data acquisition unit. This stable support structure can be used to stably support the main body 1 and the sample collection box 301 in the required position, so that the laboratory data acquisition unit can be used to collect various data of the sample.
[0036] Next, by manually holding the connecting wire 404, the mounting clips 402 fixed at both ends of the connecting wire 404 can be inserted into the connecting joint 401 fixed on one side of the experimental machine body 1 and the sample collection box 301, until the mounting limiting plate 403 fixed on the outside of the mounting clip 402 contacts one side of the connecting joint 401. At this time, the mounting clip 402 can be stably inserted into the connecting joint 401, so that the experimental machine body 1 and the sample collection box 301 can be powered and data can be transmitted by using the stably connected connecting wire 404.
[0037] Then, by manually holding the pull handle 305, the sliding shelf 302 can be pulled using the pull plate 304, thereby transporting the sample on the sliding shelf 302 into the sample collection box 301. The sample data acquisition device 303 fixed on the sliding shelf 302 is used to collect the sample data on the sliding shelf 302. The two lights 205 fixed inside the sample collection box 301 can illuminate the sample on the sliding shelf 302. The image data acquisition device 206 can be used to acquire the sample image on the sliding shelf 302. The environmental data acquisition device 204 fixed on the main body of the experimental machine can be used to collect the environmental data of the laboratory where the laboratory data acquisition machine is located. At this time, the collected data can be displayed on the display screen 203. The signal conditioning device 201 performs preprocessing such as amplification, filtering, and analog-to-digital conversion on the collected raw signal to ensure the input requirements of the central data processor 202, so that the central data processor 202 can quickly process and analyze various types of collected data.
[0038] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A laboratory data acquisition unit, comprising a main body (1), characterized in that: The experimental machine body (1) is equipped with a data acquisition mechanism (2) both inside and outside the experimental machine body (1). The data acquisition mechanism (2) includes a signal conditioning device (201) and a central data processor (202). The signal conditioning device (201) and the central data processor (202) are both located inside the experimental machine body (1). The signal conditioning device (201) is connected to the central data processor (202) via wires. An environmental data acquisition device (204) is fixedly connected to the upper surface of the experimental machine body (1). Two lighting lamps (205) and an image data acquisition device (206) are respectively provided on the back of the experimental machine body (1). The environmental data acquisition device (204) and the image data acquisition device (206) are both connected to the central data processor (202) via the signal conditioning device (201). A display screen (203) is fixedly embedded on the left side of the experimental machine body (1). The signal conditioning device (201) is connected to the display screen (203) via wires. The back of the experimental machine body (1) is provided with a sample data acquisition component (3), and the right side of the experimental machine body (1) and the right side of the sample data acquisition component (3) are jointly provided with a data transmission component (4).
2. The laboratory data acquisition unit according to claim 1, characterized in that: The sample data acquisition component (3) includes a sample acquisition box (301), which is located on the back of the main body (1) of the experimental machine. The side of the two lighting lamps (205) that are far apart from each other and the right side of the image data acquisition device (206) are fixedly connected to the inner wall of the sample acquisition box (301). A sliding plate (302) is slidably connected inside the sample acquisition box (301), and the bottom surface of the sliding plate (302) is in contact with the inner bottom wall of the sample acquisition box (301). The upper surface of the sliding shelf (302) is fixedly connected to a sample data acquisition device (303), which is connected to the central data processor (202) via a signal conditioning device (201). A pull plate (304) is fixedly connected to the left side of the sliding shelf (302), and the right side of the pull plate (304) is in contact with the left side of the sample collection box (301). A pull handle (305) is fixedly connected to the left side of the pull plate (304).
3. The laboratory data acquisition unit according to claim 2, characterized in that: The data transmission component (4) includes two connectors (401). The left side of the two connectors (401) is fixedly connected to the right side of the sample collection box (301) and the right side of the experimental machine body (1), respectively. Each connector (401) has an installation clip (402) inside.
4. The laboratory data acquisition unit according to claim 3, characterized in that: The right sides of the two mounting clips (402) are fixedly connected to a connecting wire (404), and the outer surface of each mounting clip (402) is fixedly connected to a mounting limiting plate (403). The left sides of the two mounting limiting plates (403) are in contact with the right sides of the two connecting joints (401).
5. A laboratory data acquisition unit according to claim 4, characterized in that: Two reinforcing rings (405) are fixedly connected to the outer surface of the connecting wire (404), and the left side of the two reinforcing rings (405) is fixedly connected to the right side of the two mounting clips (402).
6. A laboratory data acquisition unit according to claim 2, characterized in that: The bottom surface of the main body (1) of the experimental machine and the bottom surface of the sample collection box (301) are both fixedly connected with two sets of support legs (5), and the bottom end of each set of support legs (5) is fixedly connected with a support base plate (6).