A portable intelligent infrared diagnostic instrument

By designing a clamp on the infrared diagnostic instrument to connect with a smartphone, a portable intelligent infrared diagnostic instrument has been developed, solving the problems of large size and heavy weight of traditional infrared diagnostic instruments, improving portability and intelligence, and reducing production costs.

CN224435583UActive Publication Date: 2026-06-30BEIJING JOIN BRIGHT DIGITAL POWER TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING JOIN BRIGHT DIGITAL POWER TECH CO LTD
Filing Date
2025-09-16
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional infrared diagnostic instruments are large and heavy, making them inconvenient to carry. Furthermore, their processor performance is limited, making it difficult to deploy complex intelligent algorithms, which affects real-time monitoring capabilities and application effectiveness.

Method used

Design a portable intelligent infrared diagnostic instrument that is clamped to a smartphone using a fixture. Utilize the smartphone's computing power to simplify the instrument's structure, achieving miniaturization and high performance. Data processing is completed on the smartphone.

Benefits of technology

This has improved the portability and intelligence of infrared diagnostic instruments, reduced production costs, and facilitated algorithm iteration and functional expansion.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of infrared detection technology, specifically to a portable intelligent infrared diagnostic instrument. It includes a housing and an infrared lens mounted on the upper part of the housing, as well as a clamp mounted on the lower part of the housing and a downward-protruding platform on the lower left or right side of the housing. The clamp includes a fixed base plate on the lower part of the housing, a rear baffle fixed to the rear end of the fixed base plate, a front baffle spaced at the front end of the fixed base plate, a mounting hole and an adjusting screw hole on the front end of the fixed base plate, a clamping spring and a guide rod in the mounting hole, an adjusting through hole on the front baffle, an adjusting screw in the adjusting through hole, and a knob on the outer end of the adjusting screw. This design achieves stable clamping of the infrared diagnostic instrument to a smartphone through the clamp, and enables data communication with the phone via a Type-C connector. It fully utilizes the powerful computing capabilities and rich interface resources of the smartphone, achieving a miniaturized, lightweight, and high-performance infrared diagnostic instrument.
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Description

Technical Field

[0001] This utility model relates to the field of infrared detection technology, specifically to a portable intelligent infrared diagnostic instrument. Background Technology

[0002] In modern industrial applications, infrared diagnostic instruments serve as crucial monitoring tools, widely used in equipment condition monitoring, thermal imaging detection, and safety protection. However, in practical applications, the use of infrared diagnostic instruments is often affected by environmental factors and operating conditions, leading to a significant reduction in their monitoring effectiveness and data accuracy. Traditional infrared diagnostic instruments are typically large, heavy, and inconvenient to carry, affecting their flexibility in field applications. Furthermore, due to the limited performance of their built-in processors, it is difficult to implement and upgrade complex intelligent algorithms. Especially in high-risk industries such as power and petrochemicals, these limiting factors severely impact the real-time monitoring capabilities and application effectiveness of infrared diagnostic instruments.

[0003] Most infrared diagnostic instruments on the market currently adopt an independent design, relying on their own limited hardware resources for data processing and display. This design approach not only results in disadvantages such as complex structure, large size, inconvenience in portability, and high production costs, but also limits the potential for intelligent development of the equipment. Utility Model Content

[0004] To address the aforementioned problems, this invention provides a portable intelligent infrared diagnostic instrument. A clamp securely holds the infrared diagnostic instrument to a smartphone, and a Type-C connector enables data communication with the phone. This fully utilizes the powerful computing capabilities and rich interface resources of the smartphone, simplifying the structural complexity of the infrared diagnostic instrument and achieving a miniaturized, lightweight, and high-performance instrument.

[0005] The technical solution adopted by this utility model is to provide a portable intelligent infrared diagnostic instrument, including a shell and an infrared lens disposed on the upper end of the shell, and also includes a clamp disposed on the lower end of the shell and a protruding platform disposed on the lower side of the left or right end of the shell and protruding downward.

[0006] The fixture includes a fixed base plate at the lower end of the housing, a rear baffle fixed to the rear end of the fixed base plate, a front baffle spaced apart at the front end of the fixed base plate, a mounting hole and an adjusting screw hole at the front end of the fixed base plate, a top spring and a guide rod in the mounting hole, an adjusting through hole on the front baffle, an adjusting screw in the adjusting through hole, and a knob at the outer end of the adjusting screw.

[0007] The adjustable pitch through hole and the adjustable pitch screw hole correspond to each other. The inner end of the adjustable pitch screw passes through the adjustable pitch through hole and is screwed into the adjustable pitch screw hole. The outer end is fixed to the knob. The mounting hole is a blind hole structure. The inner end of the guide rod is inserted into the mounting hole and is pressed against the top spring. The outer end is fixed to the front baffle. A data connection plug is provided on the side of the protrusion facing the fixture.

[0008] The mounting holes, clamping springs, and guide rods are provided in two sets.

[0009] The data connection plug is a Type-C plug.

[0010] The end face of the protrusion facing the clamp is a vertical plane.

[0011] An external fixing groove is provided on the front end of the outer shell.

[0012] A front pad and a rear pad are respectively provided on the opposite end faces of the front baffle and the rear baffle. The cross-sections of the front pad and the rear pad are both L-shaped and symmetrically arranged.

[0013] The beneficial effects of this utility model are that it provides a portable intelligent infrared diagnostic instrument. A clamping structure for quickly assembling a smartphone is added to the outer shell of the infrared diagnostic instrument. This structure mainly consists of a clamp and a raised platform, and can accommodate smartphones of various sizes. It features a simple structure, convenient operation, and stable clamping. In actual use, the infrared diagnostic instrument only needs to acquire thermal imaging data, while complex data processing and analysis are completed by the infrared intelligent temperature measurement defect detection APP on the smartphone. This not only significantly reduces the number of integrated functional hardware components and lowers production costs, but also improves the portability and intelligence level of the system, providing convenience for rapid algorithm iteration and functional expansion. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a structural schematic diagram of another aspect of the present invention;

[0016] Figure 3 This is a schematic diagram of the fixture's structure;

[0017] Figure 4 This is a cross-sectional structural diagram of the fixture.

[0018] In the attached diagram, 1 is the outer casing, 2 is the infrared lens, 3 is the raised platform, 4 is the fixed base plate, 5 is the rear baffle, 6 is the front baffle, 7 is the mounting hole, 8 is the adjusting screw hole, 9 is the clamping spring, 10 is the guide rod, 11 is the adjusting through hole, 12 is the adjusting screw, 13 is the knob, 14 is the data connection plug, 15 is the external fixing groove, 16 is the front pad, and 17 is the rear pad. Detailed Implementation

[0019] like Figure 1-4 As shown, this utility model provides a portable intelligent infrared diagnostic instrument, including a housing 1 and an infrared lens 2 disposed on the upper end of the housing 1, and also includes a clamp disposed on the lower end of the housing 1 and a protruding platform 3 disposed on the lower side of the left or right end of the housing 1 and protruding downward.

[0020] The fixture includes a fixed base plate 4 disposed at the lower end of the outer casing 1, a rear baffle 5 fixed at the rear end of the fixed base plate 4, a front baffle 6 spaced apart at the front end of the fixed base plate 4, a mounting hole 7 and an adjusting screw hole 8 disposed at the front end of the fixed base plate 4, a top spring 9 and a guide rod 10 disposed in the mounting hole 7, an adjusting through hole 11 disposed on the front baffle 6, an adjusting screw 12 disposed in the adjusting through hole 11, and a knob 13 disposed at the outer end of the adjusting screw 12.

[0021] The adjustable through hole 11 and the adjustable screw hole 8 correspond to each other. The inner end of the adjustable screw 12 passes through the adjustable through hole 11 and is screwed into the adjustable screw hole 8. The outer end is fixed to the knob 13. The mounting hole 7 is a blind hole structure. The inner end of the guide rod 10 is inserted into the mounting hole 7 and is pressed against the top spring 9. The outer end is fixed to the front baffle 6. A data connection plug 14 is provided on the side of the protrusion 3 facing the fixture.

[0022] This design incorporates a structure on the casing of an infrared diagnostic instrument that allows for the rapid assembly of a smartphone. It primarily consists of a clamp and a raised platform. The clamp comprises a fixed base plate 4, a rear baffle 5, and a front baffle 6. The smartphone is held between the rear baffle 5 and the front baffle 6, with its bottom pressed against the inner side of the raised platform 3. A data connector 14 is located on the inner side of the raised platform 3, directly connecting to the smartphone's charging port for data exchange. To accommodate smartphones of different sizes, the rear baffle 5 is fixed to the rear end of the fixed base plate 4, and the front baffle 6 is fixed to the rear end of the fixed base plate 4. For adjustable connection, the front baffle 6 is inserted into the mounting hole 7 at the front end of the fixed base plate 4 via the guide rod 10. The guide rod 10 is movable in the mounting hole 7, passes through the adjusting screw hole 8 through the adjusting through hole 11 of the front baffle 6 and is screwed into the adjusting screw hole 8. With the outward force of the tightening spring 9 in the mounting hole 7, the front baffle 6 is positioned and locked. The distance between the front baffle 6 and the rear baffle 5 can be adjusted by rotating the knob 13 to drive the adjusting screw hole 8. It can be used to clamp smartphones of various sizes. It has a simple structure, is easy to operate and has stable clamping.

[0023] like Figure 4 As shown, two sets of mounting holes 7, clamping springs 9, and guide rods 10 are provided. This can improve the connection strength and stability between the front baffle 6 and the fixed base plate 4.

[0024] like Figure 2As shown, the data connection plug 14 is a Type-C plug. The use of a Type-C plug for data connection with smartphones makes it compatible with most smartphones on the market.

[0025] like Figure 2 As shown, the end face of the protrusion 3 facing the clamp is a vertical plane. The vertical plane can better fit with the bottom end face of the phone, making the phone more stable.

[0026] like Figure 1-2 As shown, an external fixing groove 15 is provided on the front end of the outer shell 1.

[0027] The external mounting slot 15 is a dovetail groove structure, technically known as a "hot shoe". For details, please refer to the attached drawing. Since this structure is an existing structure, it will not be described in detail here. Its main function is to install external accessories, such as flashlights, locators, or microphones.

[0028] like Figure 2-4 As shown, a front pad 16 and a rear pad 17 are respectively provided on the opposite end faces of the front baffle 6 and the rear baffle 5. The cross-sections of the front pad 16 and the rear pad 17 are both L-shaped and symmetrically arranged.

[0029] The front pad 16 and the rear pad 17 are made of soft material and are designed in an L-shape. The openings of the front pad 16 and the rear pad 17 are opposite each other and the bent ends are downward, forming a symmetrical arrangement, which can improve the stability of holding the smartphone and reduce friction damage to the smartphone.

Claims

1. A portable intelligent infrared diagnostic instrument comprising a housing (1) and an infrared lens (2) arranged on the upper end of the housing (1), characterized in that: It also includes a clamp located at the lower end of the housing (1) and a protrusion (3) located on the lower side of the left or right end of the housing (1) and protruding downwards; The clamp includes a fixed base plate (4) disposed at the lower end of the outer shell (1), a rear baffle (5) fixed at the rear end of the fixed base plate (4), a front baffle (6) spaced apart at the front end of the fixed base plate (4), a mounting hole (7) and an adjusting screw hole (8) disposed at the front end of the fixed base plate (4), a top spring (9) and a guide rod (10) disposed in the mounting hole (7), an adjusting through hole (11) disposed on the front baffle (6), an adjusting screw (12) disposed in the adjusting through hole (11), and a knob (13) disposed at the outer end of the adjusting screw (12). The adjustable through hole (11) and the adjustable screw hole (8) correspond to each other. The inner end of the adjustable screw (12) passes through the adjustable through hole (11) and is screwed into the adjustable screw hole (8). The outer end is fixed to the knob (13). The mounting hole (7) is a blind hole structure. The inner end of the guide rod (10) is inserted into the mounting hole (7) and is pressed against the top spring (9). The outer end is fixed to the front baffle (6). A data connection plug (14) is provided on the side of the protrusion (3) facing the fixture.

2. The portable intelligent infrared diagnostic instrument according to claim 1, characterized in that: The mounting hole (7), the clamping spring (9), and the guide rod (10) are provided in two sets.

3. The portable intelligent infrared diagnostic instrument according to claim 1, characterized in that: The data connection plug (14) is a Type-C plug.

4. A portable intelligent infrared diagnostic instrument according to claim 1, characterized in that: The end face of the protrusion (3) facing the clamp is a vertical plane.

5. A portable intelligent infrared diagnostic instrument according to claim 1, characterized in that: An external fixing groove (15) is provided on the front end of the outer shell (1).

6. A portable intelligent infrared diagnostic instrument according to claim 1, characterized in that: The front baffle (6) and the rear baffle (5) are respectively provided with a front pad (16) and a rear pad (17) on their opposite end faces. The cross-sections of the front pad (16) and the rear pad (17) are both L-shaped and symmetrically arranged.