A remote sampler

By using telescopic rods, multi-angle steering connection components, and an adaptive clamping structure, the flexibility and stability issues of traditional sampling tools are solved, achieving accurate and stable clamping for remote sampling.

CN224382860UActive Publication Date: 2026-06-19SUZHOU ZHIYING BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU ZHIYING BIOTECHNOLOGY CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Traditional sampling tools are difficult to reach areas beyond the reach of the arm, have inflexible angle adjustment, obstructed field of vision, and poor clamping adaptability, leading to sampling failure or sample damage.

Method used

By employing telescopic rod length adjustment, multi-angle steering connection components, and an adaptive clamping structure, combined with mirror observation and threaded adjustment of clamping force, the remote sampler can achieve flexible operation and stable clamping.

Benefits of technology

It enables accurate sampling in long distances and complex environments, improves ease of operation and clamping stability, and solves the limitations of traditional sampling tools.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to remote sampler technical field discloses a kind of remote samplers, comprising: sampler main body, the side of sampler main body is arranged with telescopic rod, and telescopic adjusting knob is arranged on telescopic rod, for adjusting the length of sampler main body;Connecting assembly, including the connecting rod of fixed arrangement in telescopic rod one end, and supporting block is rotationally arranged on connecting rod, the auxiliary sampling assembly is arranged on the connecting rod;Sampling assembly, including the joint of arrangement in the connecting rod far from telescopic rod one end, and the fixed buckle two of joint end close to connecting rod is arranged, the adjusting assembly is arranged on the side of joint;Adjusting assembly is realized multi-angle steering by fixed clamping block and rotating piece, the symmetrical groove design of clamping block and moving block can be adapted to different shapes, size sampling article;Adjusting knob is driven moving block by thread, can flexibly control clamping force, ensure that article is not easy to fall off in sampling process.
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Description

Technical Field

[0001] This utility model relates to the field of remote sampler technology, specifically a remote sampler. Background Technology

[0002] In scenarios such as environmental monitoring, exploration of dangerous areas, and archaeological excavation, it is often necessary to sample targets that are far away, in confined spaces, or have potential risks (such as toxic, high temperature, or radiation). Traditional sampling tools have obvious limitations: ordinary sampling forceps have a fixed length, making it difficult to reach areas beyond the reach of the arm, and they lack flexible angle adjustment functions, making it impossible to accurately aim at the sampling target in complex terrain (such as deep pits or inside pipes); during the sampling process, the operator's field of vision is obstructed (such as the target being blocked), making it difficult to judge the relative position of the sampling component and the object, which can easily lead to sampling failure or the object falling.

[0003] Furthermore, traditional sampling tools suffer from poor adaptability in their clamping structures, often featuring fixed-size clamps that cannot stably hold items of different shapes or sizes. The clamping force is also difficult to control, resulting in either items falling off due to excessive looseness or samples being damaged due to excessive tightness. As sampling scenarios become more diverse and challenging, the requirements for samplers' "accessibility, angular flexibility, field of view assistance, and clamping adaptability" have significantly increased. There is an urgent need for a remote sampler that can be adjusted in length, rotate at multiple angles, provide field of view assistance, and offer adaptive clamping. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings of existing technologies by proposing a remote sampler.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a remote sampler, comprising: a sampler body, a telescopic rod arranged on one side of the sampler body, and a telescopic adjustment knob arranged on the telescopic rod for adjusting the length of the sampler body;

[0006] The connecting assembly includes a connecting rod fixedly arranged at one end of the telescopic rod, and a support block rotatably arranged on the connecting rod, and an auxiliary sampling assembly arranged on the connecting rod;

[0007] The sampling assembly includes a connector located at the end of the connecting rod away from the telescopic rod, and a fixing buckle is arranged at the end of the connector near the connecting rod. An adjustment assembly is arranged on one side of the connector.

[0008] As a further description of the above technical solution:

[0009] The fixing buckle 2 passes through the connecting rod and the inside of the joint to fix the position of the joint.

[0010] As a further description of the above technical solution:

[0011] The auxiliary sampling component includes:

[0012] A support rod is fixedly arranged on the support block, and a fixing buckle is arranged at the end of the support rod away from the support block;

[0013] The connector is fixed to one end of the support rod by a fastener, and a mirror is fixedly arranged on the connector for observing the sampling situation.

[0014] As a further description of the above technical solution:

[0015] The adjustment component includes:

[0016] The fixing block is positioned at the end of the connector furthest from the fixing buckle two.

[0017] The rotating component is fixedly arranged on one side of the fixed block, and the rotating component rotates inside the joint, thereby driving the fixed block to rotate.

[0018] The clamping block is rotatably arranged on the side of the fixed clamping block away from the joint, and a movable block is slidably provided on the clamping block;

[0019] An adjustment knob is located on one side of the clamping block, and the internal thread of the adjustment knob is connected to a moving block for adjusting the position of the moving block, thereby clamping and taking samples.

[0020] As a further description of the above technical solution:

[0021] The moving block and the clamping block are symmetrically provided with grooves for clamping the sampled items.

[0022] As a further description of the above technical solution:

[0023] The connecting rod is rotatably equipped with a rotating block, and the rotating block has a hole for placing a flashlight to illuminate the sampling environment.

[0024] This utility model has the following beneficial effects:

[0025] 1. The telescopic rod, with its telescopic adjustment knob, allows for free length adjustment, enabling the sampler to reach distant or hard-to-reach areas. The support block of the connecting component rotates with the connecting rod to adjust the sampling angle. The mirror of the auxiliary sampling component allows for real-time observation of the sampling position, solving the problem of blind spots during remote operation and improving sampling accuracy.

[0026] 2. The adjustment component achieves multi-angle rotation through fixed blocks and rotating parts. The symmetrical groove design of the clamping block and moving block can adapt to sampling items of different shapes and sizes. The adjustment knob drives the moving block through a thread, which can flexibly control the clamping force and ensure that the items are not easy to fall off during the sampling process, taking into account both stability and ease of operation. Attached Figure Description

[0027] Figure 1 This is an overall schematic diagram of a remote sampler proposed in this utility model;

[0028] Figure 2 This is a schematic diagram of the rotating block of a remote sampler proposed in this utility model;

[0029] Figure 3 This is a schematic diagram of the mirror surface of a remote sampler proposed in this utility model;

[0030] Figure 4 This is a schematic diagram of the connector of a remote sampler proposed in this utility model;

[0031] Figure 5 This is a schematic diagram of the clamping block of a remote sampler proposed in this utility model;

[0032] Figure 6 This is a schematic diagram of the moving block of a remote sampler proposed in this utility model.

[0033] Legend: 1. Sampler body; 11. Telescopic rod; 12. Telescopic adjustment knob; 2. Connecting assembly; 21. Connecting rod; 22. Rotating block one; 23. Support block; 24. Support rod; 25. Fixing buckle one; 26. Connector; 27. Mirror; 3. Sampling assembly; 31. Fixing buckle two; 32. Connector; 33. Fixing block; 34. Rotating component; 35. Clamping block; 36. Moving block; 37. Adjustment knob. Detailed Implementation

[0034] 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.

[0035] Example 1:

[0036] like Figures 1 to 6 As shown, this embodiment provides a remote sampler, including: a sampler body 1, a telescopic rod 11 arranged on one side of the sampler body 1, and a telescopic adjustment knob 12 arranged on the telescopic rod 11 for adjusting the length of the sampler body 1; a connecting component 2, including a connecting rod 21 fixedly arranged at one end of the telescopic rod 11, and a support block 23 rotatably arranged on the connecting rod 21, and an auxiliary sampling component arranged on the connecting rod 21; and a sampling component 3, including a connector 32 arranged at the end of the connecting rod 21 away from the telescopic rod 11, and a fixing buckle 31 arranged at the end of the connector 32 close to the connecting rod 21, and an adjustment component arranged on one side of the connector 32.

[0037] In this embodiment, the telescopic adjustment knob 12 adjusts the length of the telescopic rod 11, the connecting component 2 supports the auxiliary structure, and the sampling component 3 clamps the item to achieve remote sampling and adapt to different distance requirements.

[0038] Specifically, the fixing buckle 31 passes through the connecting rod 21 and the inside of the connector 32 to fix the position of the connector 32.

[0039] In this embodiment, the insertion of the fixing buckle 31 restricts the relative rotation of the connector 32 and the connecting rod 21, fixes the position of the connector 32, and ensures sampling stability.

[0040] Specifically, the auxiliary sampling component includes: a support rod 24, which is fixedly arranged on the support block 23, and a fixing buckle 25 is arranged at the end of the support rod 24 away from the support block 23; a connector 26, which is inserted and snapped onto one end of the support rod 24 through the fixing buckle 25, and a mirror 27 is fixedly arranged on the connector 26 for observing the sampling situation.

[0041] As a preferred implementation, the support block 23 rotates to adjust the angle of the mirror 27, allowing the sampling point to be observed through mirror reflection. Effect: Assists in observing sampling locations that are difficult to see directly.

[0042] Specifically, the adjustment assembly includes: a fixed locking block 33, arranged at the end of the connector 32 away from the fixed buckle 31; a rotating member 34, fixedly arranged on one side of the fixed locking block 33, and rotating inside the connector 32, thereby driving the fixed locking block 33 to rotate; a clamping block 35, rotatably arranged on the side of the fixed locking block 33 away from the connector 32, and a moving block 36 is slidably provided on the clamping block 35; and an adjustment knob 37, arranged on one side of the clamping block 35, with the moving block 36 internally threadedly connected to the adjustment knob 37 for adjusting the position of the moving block 36, thereby clamping and taking samples.

[0043] It should be noted that the rotating part 34 adjusts the direction of the fixed block 33, the rotating clamp 35 adjusts the angle, and the rotating adjustment knob 37 drives the moving block 36 to move, which works in conjunction with the clamp 35 to clamp the item. Multi-directional adjustment can achieve precise clamping and sampling.

[0044] Specifically, the movable block 36 and the clamping block 35 are symmetrically provided with grooves for clamping the sampled items.

[0045] As a preferred implementation method, the groove body fits into the surface of the sampled item, increasing friction, preventing the sampled item from slipping, and improving the stability of the gripping.

[0046] Specifically, a rotating block 22 is rotatably provided on the connecting rod 21, and the rotating block 22 is provided with a hole for placing a flashlight for illuminating the sampling environment.

[0047] In this embodiment, a flashlight is inserted into the hole to illuminate the sampling environment, providing lighting in areas with insufficient light, which facilitates observation and sampling.

[0048] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A remote sampler, characterized in that: include: The sampler body (1) has a telescopic rod (11) arranged on one side, and a telescopic adjustment knob (12) is arranged on the telescopic rod (11) for adjusting the length of the sampler body (1). The connecting component (2) includes a connecting rod (21) fixedly arranged at one end of the telescopic rod (11), and a support block (23) is rotatably arranged on the connecting rod (21). An auxiliary sampling component is arranged on the connecting rod (21). The sampling assembly (3) includes a connector (32) disposed at the end of the connecting rod (21) away from the telescopic rod (11), and a fixing buckle (31) is disposed at the end of the connector (32) near the connecting rod (21), and an adjustment assembly is disposed on one side of the connector (32).

2. A remote sampler according to claim 1, characterized in that: The fixing buckle 2 (31) passes through the connecting rod (21) and the inside of the joint (32) to fix the position of the joint (32).

3. A remote sampler according to claim 2, characterized in that: The auxiliary sampling component includes: A support rod (24) is fixedly arranged on the support block (23), and a fixing buckle (25) is arranged at the end of the support rod (24) away from the support block (23); The connector (26) is inserted and snapped onto one end of the support rod (24) through a fixing buckle (25), and a mirror (27) is fixedly arranged on the connector (26) for observing the sampling situation.

4. A remote sampler according to claim 3, characterized in that: The adjustment component includes: A fixing block (33) is arranged at the end of the connector (32) away from the fixing buckle (31); The rotating part (34) is fixedly arranged on one side of the fixed block (33), and the rotating part (34) rotates inside the connector (32), thereby driving the fixed block (33) to rotate; The clamping block (35) is rotatably arranged on the side of the fixed clamping block (33) away from the connector (32), and the clamping block (35) is slidably provided with a moving block (36); An adjustment knob (37) is arranged on one side of the clamping block (35), and the internal thread of the adjustment knob (37) is connected to the moving block (36) for adjusting the position of the moving block (36) and thus clamping the sample.

5. A remote sampler according to claim 4, characterized in that: The movable block (36) and the clamping block (35) are symmetrically provided with grooves for clamping the sampled items.

6. A remote sampler according to claim 5, characterized in that: The connecting rod (21) is rotatably provided with a rotating block (22), and the rotating block (22) is provided with a hole for placing a flashlight for illuminating the sampling environment.