CN-224216377-U - Carbon footprint acquisition equipment

Abstract

The application relates to the technical field of carbon footprint engineering, in particular to carbon footprint acquisition equipment, which comprises an air inlet pipe, wherein one side of the air inlet pipe is provided with a sealing mechanism, the inside of the sealing mechanism is provided with an acquisition mechanism, and the acquisition pipe can seal the inner space of the sealing shell by arranging parts such as a sealing shell, a first replacement plug, a second replacement plug and the like through sealing connection with the first replacement plug and the second replacement plug. And then reach this device and can pass through sealing mechanism, carry out sealed transmission and isolation to the gas that gets into collection mechanism, guarantee that collection process does not receive the effect of external interference. The main acquisition assembly and the auxiliary acquisition assembly are symmetrically arranged and fixed by taking the adapter block as a center, the filter element in the acquisition tube filters dust, and the gas acquisition module is electrically connected with the data processing module in a matching relationship, so that a closed cavity formed by the movable observation window and the sealed shell can filter and temporarily store the dust of the entering gas through the acquisition tube and the filter element.

Inventors

• YANG SHUQING
• SHAN TAOTAO
• Wang Yanghongri

Assignees

• 中和碳汇科学技术研究(武汉)有限公司

Dates

Publication Date

20260508

Application Date

20250526

Claims (7)

1. 1. The carbon footprint acquisition equipment comprises an air inlet pipe (1) and is characterized in that a sealing mechanism (2) is arranged on one side of the air inlet pipe (1), and an acquisition mechanism (3) is arranged in the sealing mechanism (2); The sealing mechanism (2) comprises a sealing shell (201), a first replacement plug (203) and a second replacement plug (204), wherein the left side and the right side of the sealing shell (201) are fixedly connected with the air inlet pipe (1) through flanges, and the first replacement plug (203) and the second replacement plug (204) are respectively connected with the left side and the right side of the sealing shell (201) in a threaded mode; The collecting mechanism (3) comprises a main collecting assembly (31), a secondary collecting assembly (32) and a transfer block (306), wherein the main collecting assembly (31) and the secondary collecting assembly (32) are symmetrically arranged by taking the transfer block (306) as a center, the transfer block (306) is used for fixing the main collecting assembly (31) and the secondary collecting assembly (32), the main collecting assembly (31) and the secondary collecting assembly (32) respectively comprise a collecting tube (304) and a filter element (305), the collecting tubes (304) are movably arranged inside a sealed shell (201), the filter element (305) is arranged in the collecting tubes (304) and used for filtering dust, and the aperture of each collecting tube (304) is matched with the diameters of a first replacement plug (203) and a second replacement plug (204) so as to realize sealing connection.
2. 2. The carbon footprint collection device according to claim 1, wherein the sealing mechanism (2) further comprises a baffle plate (202), the baffle plate (202) is fixedly connected to the front end and the rear end of the sealing shell (201), and a guide groove is formed in the inner side of the baffle plate (202) and used for limiting the sliding range of the movable observation window (301).
3. 3. The carbon footprint collection device according to claim 2, wherein the main collection assembly (31) and the auxiliary collection assembly (32) further comprise a movable observation window (301), a data processing module (302) and a gas collection module (303), the movable observation window (301) is movably connected inside the sealed shell (201), the data processing module (302) is fixedly installed on one side of the movable observation window (301), the gas collection module (303) is arranged in the collection tube (304) and is electrically connected with the data processing module (302), the movable observation window (301) is formed by a high-temperature-resistant glass plate, and a sealing ring is arranged on the contact surface of the movable observation window and the sealed shell (201).
4. 4. The carbon footprint collection device according to claim 3, wherein one end of the collection tube (304) is communicated with the air inlet tube (1), an annular sealing ring is arranged at the communication position, and a closed cavity is formed between the movable observation windows (301) of the main collection assembly (31) and the auxiliary collection assembly (32) and the sealing shell (201).
5. 5. The carbon footprint collection device according to claim 3, wherein the data processing module (302) comprises a data display screen (3021), and the data display screen (3021) is embedded in an outer side surface of the movable viewing window (301).
6. 6. The carbon footprint collection device according to claim 1, wherein the outer surfaces of the first replacement plug (203) and the second replacement plug (204) are provided with anti-skid threads, and the thread depths of the anti-skid threads are matched with the wall thickness of the sealing shell (201).
7. 7. The device for collecting carbon footprint as claimed in claim 1, wherein the filter element (305) is a replaceable multi-layer composite filter screen, and comprises an active carbon layer, a HEPA filter layer and a metal screen layer, and the filter element (305) is detachably connected with the inner wall of the collecting tube (304) through a fastening structure.

Description

Carbon footprint acquisition equipment Technical Field The application relates to the technical field of carbon footprint engineering, in particular to carbon footprint acquisition equipment. Background With the continuous improvement of the global attention to climate change, carbon footprint monitoring has become a key means for evaluating carbon emission and promoting energy conservation and emission reduction. In a plurality of fields such as industrial production, energy consumption, etc., accurate collection of carbon footprint data has important significance for optimizing energy structures and making environmental protection policies. However, the existing carbon footprint acquisition equipment has a plurality of problems in practical application, namely on one hand, the sealing performance of the traditional equipment is insufficient, leakage easily occurs in the gas acquisition process, acquired data is deviated, and the accuracy of a monitoring result is affected, and on the other hand, the inside of the acquisition equipment is lack of a high-efficiency dust filtering and gas temporary storage processing structure, so that unfiltered dust-containing gas directly enters a detection module, the detection precision is reduced, the detection equipment is blocked and damaged easily, and the maintenance cost is increased. In addition, the data display and processing functions of the existing equipment are relatively lagged, and the requirements of real-time monitoring and quick analysis are difficult to meet. Through searching, china patent grant bulletin No. CN219421323U discloses carbon footprint acquisition equipment, which relates to the technical field of carbon footprint engineering, and comprises an acquisition equipment body, wherein a display screen is arranged on the front surface of the acquisition equipment body, a knob is arranged on one side of the front surface of the acquisition equipment body, an upper shell cover is arranged on the top end of the acquisition equipment body, a detection frame is arranged on the top end of the upper shell cover, a second rotating shaft is arranged on one side of the top end of the detection frame, a top cover is arranged on the top end of the second rotating shaft, a plug rod is arranged on one side of the bottom end of the top cover, a detection area cylinder is arranged on the inner side of the upper shell cover, the carbon footprint acquisition equipment rotates a first screw, at the moment, the first screw drives a supporting rod in a side plate, the supporting rod is extruded in the process of gradually descending the first screw, at the moment, and meanwhile the supporting rod drives a clamping strip to clamp a detection area cylinder, so that the detection area cylinder cannot shake after the use time is overlong. The inventor finds that the device has the following defects that the structure of the device for fixing the detection area cylinder by rotating the first screw rod to drive the supporting rod and the clamping strip can prevent shaking, but the screw rod needs to be operated during disassembly, the steps are complicated, the maintenance efficiency is affected, and the balance of quick disassembly and sealing is not realized. The replaceable structure of the filter element is not mentioned, and the maintenance convenience of the vulnerable parts is insufficient, which may cause interruption of the acquisition process or influence of data accuracy. Disclosure of utility model In order to solve the problems mentioned in the background art, the present application provides a carbon footprint collection device. The application provides carbon footprint acquisition equipment which adopts the following technical scheme that the carbon footprint acquisition equipment comprises an air inlet pipe, wherein one side of the air inlet pipe is provided with a sealing mechanism, and an acquisition mechanism is arranged in the sealing mechanism; The sealing mechanism comprises a sealing shell, a first replacement plug and a second replacement plug, wherein the left side and the right side of the sealing shell are fixedly connected with the air inlet pipe through flanges, and the first replacement plug and the second replacement plug are respectively in threaded connection with the left side and the right side of the sealing shell; Through above-mentioned scheme, flange joint ensures structural stability, and quick start and stop operation can be realized to screw-thread fit's change stopper design, and anti-skidding line surface promotes manual operation convenience simultaneously. The collecting mechanism comprises a main collecting assembly, an auxiliary collecting assembly and a switching block, wherein the main collecting assembly and the auxiliary collecting assembly are symmetrically arranged by taking the switching block as a center, the switching block is used for fixing the main collecting assembly and the auxiliary collecting assembly, the ma