CN115201424A - Portable carbon emission reduction detection device - Google Patents

Abstract

The invention relates to the technical field of carbon dioxide detection equipment, in particular to a portable carbon emission reduction detection device, which comprises a rack, wherein a carbon detection assembly and a mounting seat are fixedly arranged on the rack; the device also comprises a gas collecting device and a connecting device; the gas collecting device comprises a storage tank, a threaded pipe and a valve body assembly, wherein the storage tank is detachably mounted on the mounting seat, the threaded pipe is fixedly mounted at the bottom of the storage tank, and the valve body assembly is fixedly mounted on the threaded pipe; the connecting device comprises a connecting seat, a gasket and a rotary driving assembly, the connecting seat is slidably mounted on the mounting seat and is in threaded connection with the threaded pipe, the gasket is fixedly mounted on the connecting seat, the rotary driving assembly is fixedly mounted on the mounting seat, and the driving end of the rotary driving assembly is in transmission connection with the connecting seat. The gas collecting device is quickly disassembled and assembled, and the effects that after the gas collecting device is disassembled, gas is collected through the gas collecting device and is installed on the rack for detection after the gas is collected are achieved.

Description

Portable carbon emission reduction detection device

Technical Field

The invention relates to the technical field of carbon dioxide detection equipment, in particular to a portable carbon emission reduction detection device.

Background

Carbon emissions refer to the average greenhouse gas emissions generated during the production, transportation, use and recovery of the product. The dynamic carbon emission amount refers to the amount of greenhouse gas cumulatively emitted by each unit of goods, different dynamic carbon emission amounts exist among different batches of the same product, and in order to make a corresponding carbon dioxide emission reduction scheme according to the actual conditions of different enterprises, the waste gas of a factory needs to be actually detected firstly to determine the carbon emission amount of the enterprise, and then the carbon emission reduction scheme of the enterprise is further determined. In the prior art, a specific method for detecting carbon emission is generally a method for transporting gas to a laboratory, but the method needs to consume a large amount of time and material resources for transporting gas, and has low detection efficiency.

Therefore, chinese patent CN200910137693.8 discloses a carbon dioxide emission reduction testing device and method, which integrally adopts a vehicle-mounted mode, has flexible mobility, can conveniently move a testing platform to a factory needing to reduce emission of waste gas, realizes testing on a site where the waste gas is generated (such as a factory generating the waste gas), and can also be used as a common carbon dioxide emission reduction testing laboratory.

However, the device still needs to be moved to a designated detection place, and in some places with poor terrain, the device is affected by the terrain and is inconvenient to move, and even when some complex terrains are encountered, the device cannot be moved to the designated place for detection, and the device is inconvenient to use.

Disclosure of Invention

To the problem, provide a portable carbon emission reduction detection device, solved traditional detection device through frame, gas collection device and connecting device and influenced by the topography, it is comparatively inconvenient to remove, even when meetting some complicated topography, can't remove to the appointed place and carry out the problem that detects.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a portable carbon emission reduction detection device comprises a rack, wherein a carbon detection assembly and a mounting seat are fixedly mounted on the rack; the device also comprises a gas collecting device and a connecting device; the gas collecting device comprises a storage tank, a handle, a threaded pipe and a valve body assembly, wherein the storage tank is detachably arranged on the mounting seat, the handle is fixedly arranged on the storage tank, the threaded pipe is fixedly arranged at the bottom of the storage tank, and the valve body assembly is fixedly arranged on the threaded pipe; connecting device includes connecting seat, packing ring and rotation driving subassembly, and connecting seat slidable mounting is on the mount pad, and connecting seat and carbon detection subassembly intercommunication, connecting seat and screwed pipe threaded connection, packing ring fixed mounting are on the connecting seat, and the packing ring is located between connecting seat and the screwed pipe, and rotation driving subassembly fixed mounting is on the mount pad, and rotation driving subassembly's drive end and connecting seat transmission are connected.

Preferably, the device further comprises an auxiliary collecting device, wherein the auxiliary collecting device comprises a first mounting frame, a first rotary driver, a second mounting frame, a first rotary shaft and fan blades; the first mounting frame is fixedly connected with the storage tank, and an air inlet pipe is fixedly arranged on the first mounting frame; the first rotary driver is fixedly arranged on the first mounting frame; the second mounting frame is arranged in the first mounting frame and is positioned at the air inlet pipe; the first rotating shaft is rotatably arranged on the second mounting frame and is in transmission connection with the driving end of the first rotary driver; the fan blades are fixedly sleeved on the first rotating shaft.

Preferably, the auxiliary collecting device further comprises a pressurizing assembly, wherein the pressurizing assembly comprises a rotating disc, a second rotating shaft, a compression cylinder, a piston, a push rod and a one-way valve; the rotating disc is fixedly sleeved on the first rotating shaft; the second rotating shaft is rotatably arranged on the rotating disk, and the axis of the second rotating shaft is not collinear with the axis of the rotating disk; the compression cylinder is fixedly arranged on the first mounting frame; the piston is slidably mounted in the compression cylinder; two ends of the push rod are respectively connected with the second rotating shaft and the piston in a rotating manner; the one-way valve is equipped with two, and two check valves are installed respectively on compression cylinder and piston.

Preferably, the valve body assembly comprises a third mounting frame, a valve plate and a first elastic piece; the third mounting frame is fixedly arranged at the top end of the threaded pipe; the valve plate is slidably mounted on the third mounting frame; the first elastic piece is equipped with a plurality ofly, and a plurality of first elastic pieces set up along the axis central symmetry of third mounting bracket, the both ends of first elastic piece respectively with third mounting bracket and valve block fixed connection.

Preferably, the rotary driving assembly comprises a toothed ring, a third rotating shaft, a rotating gear, a fourth rotating shaft, a sleeve, a synchronous belt and a rotating handle; the gear ring is fixedly sleeved on the connecting seat; the third rotating shaft is rotatably arranged on the mounting seat; the rotating gear is fixedly sleeved on the third rotating shaft and is in transmission connection with the gear ring; the fourth rotating shaft is rotatably arranged on the mounting seat; the two sleeves are fixedly sleeved on the third rotating shaft and the fourth rotating shaft respectively; two ends of the synchronous belt are respectively sleeved on the two sleeves; the rotary handle is fixedly sleeved on the fourth rotating shaft.

Preferably, the rack further comprises a control assembly, and the control assembly comprises a top column, a limiting seat, a second elastic piece and an electromagnetic element; the top column is slidably arranged in the connecting seat; the limiting seat is fixedly arranged at the bottom of the top column and has magnetism; two ends of the second elastic piece are respectively fixedly connected with the limiting seat and the connecting seat; the electromagnetic element is fixedly arranged on the mounting seat.

Preferably, the auxiliary collecting device further comprises a second transmission assembly, and the second transmission assembly comprises a worm, a fifth rotating shaft and a worm wheel; the worm is rotatably arranged on the first mounting frame, and two ends of the worm are respectively fixedly connected with the first rotating shaft and the driving end of the first rotating driver; the fifth rotating shaft is rotatably arranged on the first mounting frame, and the rotating disc is fixedly sleeved on the fifth rotating shaft; the worm wheel is fixedly sleeved on the fifth rotating shaft and is in transmission connection with the worm.

Preferably, the device further comprises a filtering device, wherein the filtering device comprises a flared pipe, a protective cover and a filter screen; the flared tube is fixedly arranged on the first mounting frame and is fixedly connected with the air inlet tube; the protective cover is detachably arranged on the flared tube and is positioned at one end far away from the air inlet tube; the filter screen is fixedly installed on the flaring pipe and is located at one end close to the air inlet pipe.

Preferably, the gas collecting device further comprises a projection; the plurality of lugs are fixedly arranged at the bottom of the storage tank and are uniformly distributed relative to the axis of the storage tank; the mounting seat is fixedly provided with a plurality of positioning holes matched with the lugs, and the positioning holes are in one-to-one correspondence with the lugs.

Preferably, the frame still includes the universal wheel, and the universal wheel is equipped with three at least, and universal wheel fixed mounting is in the bottom of frame.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention realizes the function of quickly disassembling and assembling the gas collecting device through the frame, the gas collecting device and the connecting device, achieves the effect of collecting gas through the gas collecting device after the gas collecting device is disassembled and installing the gas on the frame for detection after the gas is collected, and overcomes the defects that the traditional detection device is influenced by terrain, is inconvenient to move and cannot be moved to an appointed place for detection even when some complex terrains are encountered; through rotation driving assembly drive connecting seat rotation, because screwed pipe and connecting seat threaded connection, can make self lapse among the connecting seat rotation process until it separates with the screwed pipe, operating personnel alright in order to take off the holding vessel from the mount pad after that, then remove the holding vessel to detecting the place, carry out waste gas and collect, collect the completion back, install the holding vessel on the mount pad again.

2. The exhaust gas collection device achieves the function of actively sucking exhaust gas through the first mounting frame, the first rotary driver, the second mounting frame, the first rotary shaft and the fan blades, and achieves the purpose of improving the exhaust gas collection efficiency; the storage tank is moved to a detection place firstly, then a signal is sent to the first rotary driver through the controller, the first rotary driver drives the first rotary shaft connected with the first rotary driver in a transmission mode to rotate after receiving the signal, the first rotary shaft drives the fan blades to rotate, negative pressure is generated at the air inlet pipe, waste gas is sucked actively, and therefore waste gas collection efficiency is improved.

3. The rotary disc, the second rotating shaft, the compression cylinder, the piston, the push rod and the one-way valve are used for compressing gas into the storage tank, so that the effect of collecting more gas at one time is achieved; remove the holding vessel to the detection place earlier, then send the signal for first rotary actuator through the controller, first rotary actuator receives the signal after the drive is connected rather than the transmission first rotation axis rotatory, first rotation axis drives flabellum and rotating disc is rotatory, thereby it produces the negative pressure to locate at the intake pipe, waste gas is absorb in the initiative, and simultaneously, rotating disc drives the rotation of second rotation axis, second rotation axis drive piston is along reciprocating sliding in the compression cylinder, through the cooperation of two check valves, the piston reciprocating sliding in-process, constantly impress the waste gas of absorption in the holding vessel.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a front view of the present application;

FIG. 3 is a schematic perspective view of a gas collection device of the present application in cooperation with a mounting base;

FIG. 4 is an exploded perspective view of the mount of the present application;

FIG. 5 is a schematic perspective exploded view of the auxiliary collection device of the present application;

FIG. 6 is a perspective view of a plenum assembly of the present application;

FIG. 7 is an exploded perspective view of the valve body assembly of the present application;

FIG. 8 is a perspective view of the rotary drive assembly of the present application;

FIG. 9 is an exploded isometric view of the control assembly of the present application;

FIG. 10 is a schematic perspective exploded view of the filtration device of the present application;

FIG. 11 is a schematic perspective view of a gas collection apparatus of the present application;

the reference numbers in the figures are: 1-a frame;

1 a-a carbon detection assembly; 1 b-a mounting seat; 1 c-a universal wheel;

2-a gas collection device; 2 a-a storage tank; 2 b-a grip; 2 c-a threaded pipe; 2 d-valve body assembly; 2d 1-a third mount; 2d 2-valve plate; 2d 3-a first elastic member; 2 e-a bump; 2 f-positioning holes;

3-a connecting means; 3 a-a connecting seat; 3 b-a gasket; 3 c-a rotary drive assembly; 3c 1-toothed ring; 3c 2-third axis of rotation; 3c 3-rotating gear; 3c 4-fourth rotation axis; 3c 5-sleeve; 3c 6-synchronous belt; 3c 7-rotating handle; 3 d-a control component; 3d 1-top post; 3d 2-a limiting seat; 3d 3-a second elastic member; 3d 4-electromagnetic element;

4-an auxiliary collection device; 4 a-a first mounting frame; 4a 1-inlet pipe; 4 b-a first rotary drive; 4 c-a second mounting frame; 4 d-first rotation axis; 4 e-fan blades; 4 f-a boost assembly; 4f 1-rotating disk; 4f 2-second axis of rotation; 4f 3-compression cylinder; 4f 4-piston; 4f 5-push rod; 4f 6-one-way valve; 4 g-a second transmission assembly; 4g of 1-worm; 4g 2-fifth axis of rotation; 4g 3-worm gear;

5-a filtration device; 5 a-flared tube; 5 b-a protective cover; 5 c-a filter screen.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1-11: a portable carbon emission reduction detection device comprises a rack 1, wherein a carbon detection assembly 1a and a mounting seat 1b are fixedly mounted on the rack 1; also comprises a gas collecting device 2 and a connecting device 3; the gas collecting device 2 comprises a storage tank 2a, a handle 2b, a threaded pipe 2c and a valve body assembly 2d, wherein the storage tank 2a is detachably mounted on a mounting seat 1b, the handle 2b is fixedly mounted on the storage tank 2a, the threaded pipe 2c is fixedly mounted at the bottom of the storage tank 2a, and the valve body assembly 2d is fixedly mounted on the threaded pipe 2 c; connecting device 3 includes connecting seat 3a, packing ring 3b and rotation driving subassembly 3c, connecting seat 3a slidable mounting is on mount pad 1b, connecting seat 3a and carbon detection subassembly 1a intercommunication, connecting seat 3a and screwed pipe 2c threaded connection, packing ring 3b fixed mounting is on connecting seat 3a, packing ring 3b is located between connecting seat 3a and the screwed pipe 2c, rotation driving subassembly 3c fixed mounting is on mount pad 1b, rotation driving subassembly 3 c's drive end and connecting seat 3a transmission are connected.

According to the invention, the function of quickly disassembling and assembling the gas collecting device 2 is realized through the frame 1, the gas collecting device 2 and the connecting device 3, the effects that after the gas collecting device 2 is disassembled, gas is collected through the gas collecting device 2 and is installed on the frame 1 for detection after the gas is collected are achieved, and the defects that the traditional detection device is influenced by terrains, is inconvenient to move, and even cannot be moved to an appointed place for detection when some complex terrains are encountered are overcome; the carbon detection assembly 1a is electrically connected with the controller; when the waste gas in the designated place is detected, some complex terrains may be encountered, and the detection device cannot be rapidly moved to the detection place, at this time, an operator drives the connecting seat 3a to rotate through the rotation driving component 3c, because the threaded pipe 2c is in threaded connection with the connecting seat 3a, the connecting seat 3a can slide downwards in the rotating process until the connecting seat is separated from the threaded pipe 2c, then the operator can take the storage tank 2a off the mounting seat 1b, then move the storage tank 2a to the detection place, collect the waste gas, after the collection is completed, install the storage tank 2a on the mounting seat 1b, then drive the connecting seat 3a to rotate through the rotation driving component 3c, so that the connecting seat 3a and the threaded pipe 2c are fastened in a threaded manner, at this time, the connecting seat 3a abuts against the valve body component 2d through the connecting seat 3a, so that the storage tank 2a is communicated with the carbon detection component 1a, the sealing performance of the connection between the threaded pipe 2c and the carbon detection component 1a is enhanced through the gasket 3b, the leakage is prevented, then the controller sends a signal to the carbon detection component 1a, the carbon detection component detects the waste gas, and records data of the connecting seat.

Referring to fig. 1-5: the device further comprises an auxiliary collecting device 4, wherein the auxiliary collecting device 4 comprises a first mounting frame 4a, a first rotary driver 4b, a second mounting frame 4c, a first rotating shaft 4d and fan blades 4e; the first mounting frame 4a is fixedly connected with the storage tank 2a, and an air inlet pipe 4a1 is fixedly arranged on the first mounting frame 4 a; the first rotary driver 4b is fixedly mounted on the first mounting frame 4 a; the second mount 4c is mounted in the first mount 4a at the air inlet duct 4a1; the first rotating shaft 4d is rotatably arranged on the second mounting frame 4c, and the first rotating shaft 4d is in transmission connection with the driving end of the first rotating driver 4 b; the fan blades 4e are fixedly sleeved on the first rotating shaft 4 d.

The exhaust gas collection device realizes the function of actively absorbing exhaust gas through the first mounting frame 4a, the first rotary driver 4b, the second mounting frame 4c, the first rotary shaft 4d and the fan blades 4e, and achieves the purpose of improving the exhaust gas collection efficiency; the first rotary driver 4b is preferably a servo motor, and the servo motor is electrically connected with the controller; when operating personnel carried out waste gas collection through gas collection device 2, earlier remove holding vessel 2a to the detection place, then send the signal for first rotary actuator 4b through the controller, first rotary actuator 4b receives the signal after the drive rather than the transmission first rotation axis 4d of being connected rotatory, first rotation axis 4d drives flabellum 4e rotatory, thereby produce the negative pressure in intake pipe 4a1 department, the waste gas is initiatively absorb, and then improve the efficiency that waste gas was collected, detect it through carbon detection component 1a after the collection was accomplished.

Referring to fig. 5 and 6: the auxiliary collecting device 4 further comprises a pressurizing assembly 4f, wherein the pressurizing assembly 4f comprises a rotating disc 4f1, a second rotating shaft 4f2, a compression cylinder 4f3, a piston 4f4, a push rod 4f5 and a one-way valve 4f6; the rotating disk 4f1 is fixedly sleeved on the first rotating shaft 4 d; the second rotating shaft 4f2 is rotatably arranged on the rotating disk 4f1, and the axis of the second rotating shaft 4f2 is not collinear with the axis of the rotating disk 4f 1; the compression cylinder 4f3 is fixedly arranged on the first mounting frame 4 a; a piston 4f4 is slidably mounted within the compression cylinder 4f 3; two ends of the push rod 4f5 are respectively connected with the second rotating shaft 4f2 and the piston 4f4 in a rotating manner; two check valves 4f6 are provided, and the two check valves 4f6 are respectively mounted on the compression cylinder 4f3 and the piston 4f 4.

According to the invention, the function of compressing gas into the storage tank 2a is realized through the rotary disc 4f1, the second rotating shaft 4f2, the compression cylinder 4f3, the piston 4f4, the push rod 4f5 and the one-way valve 4f6, so that the effect of collecting more gas at one time is achieved; when an operator collects waste gas through the gas collecting device 2, the storage tank 2a is moved to a detection place, then a signal is sent to the first rotary driver 4b through the controller, the first rotary driver 4b receives the signal and drives the first rotary shaft 4d in transmission connection with the first rotary driver to rotate, the first rotary shaft 4d drives the fan blades 4e and the rotary disc 4f1 to rotate, so that negative pressure is generated at the air inlet pipe 4a1, waste gas is actively absorbed, meanwhile, the rotary disc 4f1 drives the second rotary shaft 4f2 to rotate, the second rotary shaft 4f2 drives the piston 4f4 to slide in a reciprocating manner along the compression cylinder 4f3, and through the matching of the two one-way valves 4f6, the piston 4f4 is continuously pressed into the storage tank 2a in the reciprocating sliding process, so that the amount of the waste gas stored in the storage tank 2a is increased, and the subsequent detection of the waste gas is facilitated.

Referring to fig. 7: the valve body assembly 2d comprises a third mounting frame 2d1, a valve plate 2d2 and a first elastic piece 2d3; the third mounting bracket 2d1 is fixedly mounted at the top end of the threaded pipe 2 c; the valve plate 2d2 is slidably mounted on the third mounting frame 2d 1; first elastic component 2d3 is equipped with a plurality ofly, and a plurality of first elastic component 2d3 set up along third mounting bracket 2d 1's axis central symmetry, first elastic component 2d 3's both ends respectively with third mounting bracket 2d1 and valve block 2d2 fixed connection.

According to the invention, the function of controlling the opening and closing of the threaded pipe 2c is realized through the third mounting frame 2d1, the valve plate 2d2 and the first elastic piece 2d3, so that the effect of quickly communicating the carbon detection assembly 1a with the storage tank 2a is achieved; an operator collects waste gas through the gas collecting device 2, the storage tank 2a is moved to a detection place, then a signal is sent to the first rotary driver 4b through the controller, the first rotary driver 4b receives the signal and drives the first rotary shaft 4d in transmission connection with the first rotary driver to rotate, the first rotary shaft 4d drives the fan blades 4e and the rotary disc 4f1 to rotate, negative pressure is generated at the position of the gas inlet pipe 4a1, waste gas is sucked actively, meanwhile, the rotary disc 4f1 drives the second rotary shaft 4f2 to rotate, the second rotary shaft 4f2 drives the piston 4f4 to slide in the compression cylinder 4f3 in a reciprocating mode, through the matching of the two one-way valves 4f6, in the reciprocating sliding process of the piston 4f4, the sucked waste gas is pressed into the storage tank 2a continuously, after collection is completed, the operator installs the storage tank 2a on the installation seat 1b, then drives the connecting seat 3a to rotate through the rotary driving component 3c, along with the rotation of the connecting seat 3a, the connecting seat 3a continuously moves upwards along with the elastic force of the elastic component, and then the elastic detection carbon valve plate enters the carbon valve plate 2a through the elastic piece 2d and the carbon pipe 2d2, and the carbon detection component, and the carbon valve plate 2a detection device.

Referring to fig. 8: the rotary drive assembly 3c includes a ring gear 3c1, a third rotation shaft 3c2, a rotation gear 3c3, a fourth rotation shaft 3c4, a sleeve 3c5, a timing belt 3c6, and a rotation knob 3c7; the gear ring 3c1 is fixedly sleeved on the connecting seat 3 a; the third rotating shaft 3c2 is rotatably mounted on the mounting base 1b; the rotating gear 3c3 is fixedly sleeved on the third rotating shaft 3c2, and the rotating gear 3c3 is in transmission connection with the gear ring 3c 1; a fourth rotating shaft 3c4 is rotatably mounted on the mounting base 1b; two sleeves 3c5 are provided, and the two sleeves 3c5 are fixedly sleeved on the third rotating shaft 3c2 and the fourth rotating shaft 3c4 respectively; two ends of the synchronous belt 3c6 are respectively sleeved on the two sleeves 3c 5; the rotating handle 3c7 is fixedly fitted to the fourth rotating shaft 3c 4.

According to the invention, the function of driving the connecting seat 3a to rotate is realized through the toothed ring 3c1, the third rotating shaft 3c2, the rotating gear 3c3, the fourth rotating shaft 3c4, the sleeve 3c5, the synchronous belt 3c6 and the rotating handle 3c7, and the rotating handle 3c7 is prevented from influencing the installation of the storage tank 2a through the transmission of the synchronous belt 3c 6; the operating personnel collects the waste gas that waits to detect through gas collecting device 2 earlier, collect and accomplish the back, operating personnel installs holding vessel 2a on mount pad 1b, rotatory handle 3c7 is followed, rotatory handle 3c7 drives fourth rotation axis 3c4 and sleeve 3c5 is rotatory, sleeve 3c5 is rotatory through hold-in range 3c 6's transmission drive third rotation axis 3c2, third rotation axis 3c2 drives rotatory gear 3c3 and rotates, rotatory gear 3c3 drives the ring gear 3c1 rotation rather than the transmission is connected, ring gear 3c1 drives connecting seat 3a rotation, thereby make connecting seat 3a and screwed pipe 2c screw fastening, and through connecting seat 3a with valve block 2d2 jack-up, make the waste gas in the holding vessel 2a get into carbon detection subassembly 1a and detect.

Referring to fig. 8 and 9: the rack 1 further comprises a control component 3d, and the control component 3d comprises a top column 3d1, a limiting seat 3d2, a second elastic part 3d3 and an electromagnetic element 3d4; the top column 3d1 is slidably arranged in the connecting seat 3 a; the limiting seat 3d2 is fixedly arranged at the bottom of the top column 3d1, and the limiting seat 3d2 has magnetism; two ends of the second elastic piece 3d3 are respectively fixedly connected with the limiting seat 3d2 and the connecting seat 3 a; the electromagnetic element 3d4 is fixedly mounted on the mount 1 b. According to the invention, the function of flexibly controlling the opening and closing of the valve plate 2d2 is realized through the top column 3d1, the limiting seat 3d2, the second elastic part 3d3 and the electromagnetic element 3d4, the aim of separately controlling the installation of the storage tank 2a and the opening and closing of the valve plate 2d2 is achieved, and the condition that the valve plate 2d2 is opened when the carbon detection assembly 1a is not prepared is avoided; the electromagnetic element 3d4 is electrically connected with the controller; an operator firstly collects waste gas to be detected through the gas collecting device 2, after collection is completed, the operator installs the storage tank 2a on the installation seat 1b, then rotates the rotating handle 3c7, the rotating handle 3c7 drives the fourth rotating shaft 3c4 and the sleeve 3c5 to rotate, the sleeve 3c5 drives the third rotating shaft 3c2 to rotate through transmission of the synchronous belt 3c6, the third rotating shaft 3c2 drives the rotating gear 3c3 to rotate, the rotating gear 3c3 drives the toothed ring 3c1 in transmission connection with the rotating gear to rotate, the toothed ring 3c1 drives the connecting seat 3a to rotate, so that the connecting seat 3a and the threaded pipe 2c are fastened in a threaded manner, the storage tank 2a is stably connected with the installation seat 1b, then the operator starts the carbon detection component 1a firstly, after the environment required for detection is prepared, a signal is sent to the electromagnetic component 3d4 through the controller, the electromagnetic component 3d4 generates magnetism after being electrified, repulsion force is generated on the limiting seat 3d2, the elastic force of the second elastic component 3d3 is overcome, the limitation seat 3d2 is driven to move upwards, and the carbon detection component 1a is communicated with the storage tank 2 a; in the detection process, when the supply of the exhaust gas needs to be stopped, an operator stops energizing the electromagnetic element 3d4 through the controller, the top column 3d1 stops supporting the valve plate 2d2, and the valve plate 2d2 blocks the threaded pipe 2c under the action of the elastic force and the air pressure of the first elastic element 2d3 to stop the supply of the exhaust gas.

Referring to fig. 5 and 6: the auxiliary collecting device 4 further comprises a second transmission assembly 4g, and the second transmission assembly 4g comprises a worm 4g1, a fifth rotating shaft 4g2 and a worm wheel 4g3; the worm 4g1 is rotatably mounted on the first mounting frame 4a, and two ends of the worm 4g1 are fixedly connected with the first rotating shaft 4d and the driving end of the first rotating driver 4b respectively; a fifth rotating shaft 4g2 is rotatably mounted on the first mounting bracket 4a, and a rotating disk 4f1 is fixedly sleeved on the fifth rotating shaft 4g 2; the worm wheel 4g3 is fixedly sleeved on the fifth rotating shaft 4g2, and the worm wheel 4g3 is in transmission connection with the worm 4g 1.

The invention realizes the function of speed reduction transmission through the worm 4g1, the fifth rotating shaft 4g2 and the worm wheel 4g3, and achieves the effects of reducing the rotating speed of the rotating disc 4f1 and improving the torque of the worm 4g 1; when an operator collects waste gas through the gas collecting device 2, the storage tank 2a is moved to a detection place, then a signal is sent to the first rotary driver 4b through the controller, the first rotary driver 4b receives the signal and then drives the first rotary shaft 4d and the worm 4g1 to rotate, the first rotary shaft 4d drives the fan blades 4e and the rotary disc 4f1 to rotate, so that negative pressure is generated at the air inlet pipe 4a1, waste gas is actively absorbed, meanwhile, the worm 4g1 drives the worm wheel 4g3 in transmission connection with the worm to rotate, the worm wheel 4g3 drives the fifth rotary shaft 4g2 and the worm 4g1 to rotate, the rotary disc 4f1 drives the second rotary shaft 4f2 to rotate, the second rotary shaft 4f2 drives the piston 4f4 to slide in a reciprocating mode along the compression cylinder 4f3, the piston 4f4 slides in a reciprocating mode through the matching of the two one-way valves 4f6, the absorbed waste gas is continuously pressed into the storage tank 2a, and after the collection is completed, the waste gas is detected through the carbon detection assembly 1 a.

Referring to fig. 10: the device also comprises a filtering device 5, wherein the filtering device 5 comprises a flared pipe 5a, a protective cover 5b and a filter screen 5c; the flared tube 5a is fixedly arranged on the first mounting frame 4a, and the flared tube 5a is fixedly connected with the air inlet tube 4a1; the protective cover 5b is detachably arranged on the flared tube 5a, and the protective cover 5b is positioned at one end far away from the air inlet tube 4a1; the strainer 5c is fixedly mounted on the flared tube 5a, and the strainer 5c is located at one end close to the inlet tube 4a 1.

According to the invention, the function of filtering impurities in waste gas is realized through the flared pipe 5a, the protective cover 5b and the filter screen 5c, so that the fan blades 4e are protected, and the impurities are prevented from entering the storage tank 2 a; when an operator collects required waste gas through the gas collecting device 2, once impurities enter the compression cylinder 4f3, the one-way valve 4f6 with a small pore diameter is probably blocked, so that the normal use of the gas collecting device 2 is influenced, and the filtering device 5 is arranged; waste gas gets into from flaring pipe 5a, filter screen 5c can be stopped up to the great object of volume through the filtration of safety cover 5b, then waste gas gets into flaring pipe 5a through safety cover 5b in, when filter screen 5c, filter through the less impurity of volume in filter screen 5c with waste gas, prevent that it from getting into compression cylinder 4f3, after long-time the use, operating personnel can pull down safety cover 5b, accumulational impurity clears up in flaring pipe 5a, keep filter equipment 5's filter effect.

Referring to fig. 4 and 11: the gas collecting device 2 further comprises a projection 2e; the plurality of lugs 2e are arranged, the lugs 2e are fixedly arranged at the bottom of the storage tank 2a, and the lugs 2e are uniformly distributed about the axis of the storage tank 2 a; the mounting base 1b is fixedly provided with a plurality of positioning holes 2f matched with the bumps 2e, and the plurality of positioning holes 2f correspond to the bumps 2e one by one.

According to the invention, the functions of accurately installing the storage tank 2a and preliminarily fixing the storage tank 2a are realized through the convex block 2e and the positioning hole 2f, and the effect of preventing the threaded pipe 2c and the connecting seat 3a from being smoothly fastened due to the rotation of the storage tank 2a in the rotation process of the connecting seat 3a is achieved; the operating personnel installs holding vessel 2a on mount pad 1b to the rotatory holding vessel 2a of small amplitude, during lug 2e when holding vessel 2a bottom slided into locating hole 2f smoothly, just can't rotate holding vessel 2a, when rethread rotary drive subassembly 3c drive connecting seat 3a was rotatory this moment, holding vessel 2a can not be rotatory thereupon, and then can make screwed pipe 2c and connecting seat 3a stably fasten.

Referring to fig. 2: the rack 1 further comprises at least three universal wheels 1c, and the universal wheels 1c are fixedly mounted at the bottom of the rack 1.

The invention realizes the function of rapidly moving the frame 1 through the universal wheel 1 c; when the detection device is moved by an operator, the universal wheel 1c rolls only by pushing the rack 1, so that the detection device is convenient to move by the operator.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A portable carbon emission reduction detection device comprises a rack (1), wherein a carbon detection assembly (1 a) and a mounting seat (1 b) are fixedly mounted on the rack (1);

the device is characterized by also comprising a gas collecting device (2) and a connecting device (3);

the gas collecting device (2) comprises a storage tank (2 a), a handle (2 b), a threaded pipe (2 c) and a valve body assembly (2 d), the storage tank (2 a) is detachably mounted on a mounting base (1 b), the handle (2 b) is fixedly mounted on the storage tank (2 a), the threaded pipe (2 c) is fixedly mounted at the bottom of the storage tank (2 a), and the valve body assembly (2 d) is fixedly mounted on the threaded pipe (2 c);

connecting device (3) are including connecting seat (3 a), packing ring (3 b) and rotation driving subassembly (3 c), connecting seat (3 a) slidable mounting is on mount pad (1 b), connecting seat (3 a) and carbon detection subassembly (1 a) intercommunication, connecting seat (3 a) and screwed pipe (2 c) threaded connection, packing ring (3 b) fixed mounting is on connecting seat (3 a), packing ring (3 b) are located between connecting seat (3 a) and screwed pipe (2 c), rotation driving subassembly (3 c) fixed mounting is on mount pad (1 b), the drive end and connecting seat (3 a) transmission of rotation driving subassembly (3 c) are connected.

2. A portable carbon emission reduction detection apparatus according to claim 1, further comprising an auxiliary collection device (4), wherein the auxiliary collection device (4) comprises a first mounting frame (4 a), a first rotary driver (4 b), a second mounting frame (4 c), a first rotary shaft (4 d) and fan blades (4 e);

the first mounting frame (4 a) is fixedly connected with the storage tank (2 a), and an air inlet pipe (4 a 1) is fixedly arranged on the first mounting frame (4 a);

the first rotary driver (4 b) is fixedly arranged on the first mounting frame (4 a);

the second mounting bracket (4 c) is arranged in the first mounting bracket (4 a) and is positioned at the air inlet pipe (4 a 1);

the first rotating shaft (4 d) is rotatably arranged on the second mounting frame (4 c), and the first rotating shaft (4 d) is in transmission connection with the driving end of the first rotary driver (4 b);

the fan blade (4 e) is fixedly sleeved on the first rotating shaft (4 d).

3. The portable carbon emission reduction detection device according to claim 2, wherein the auxiliary collection device (4) further comprises a pressurizing assembly (4 f), and the pressurizing assembly (4 f) comprises a rotating disc (4 f 1), a second rotating shaft (4 f 2), a compression cylinder (4 f 3), a piston (4 f 4), a push rod (4 f 5) and a one-way valve (4 f 6);

the rotating disc (4 f 1) is fixedly sleeved on the first rotating shaft (4 d);

the second rotating shaft (4 f 2) is rotatably arranged on the rotating disc (4 f 1), and the axis of the second rotating shaft (4 f 2) is not collinear with the axis of the rotating disc (4 f 1);

the compression cylinder (4 f 3) is fixedly arranged on the first mounting frame (4 a);

the piston (4 f 4) is arranged in the compression cylinder (4 f 3) in a sliding way;

two ends of the push rod (4 f 5) are respectively connected with the second rotating shaft (4 f 2) and the piston (4 f 4) in a rotating way;

two check valves (4 f 6) are arranged, and the two check valves (4 f 6) are respectively arranged on the compression cylinder (4 f 3) and the piston (4 f 4).

4. The portable carbon emission reduction detection device according to claim 1, wherein the valve body assembly (2 d) comprises a third mounting frame (2 d 1), a valve plate (2 d 2) and a first elastic member (2 d 3);

the third mounting rack (2 d 1) is fixedly arranged at the top end of the threaded pipe (2 c);

the valve plate (2 d 2) is slidably mounted on the third mounting frame (2 d 1);

first elastic component (2 d 3) are equipped with a plurality ofly, and a plurality of first elastic component (2 d 3) set up along the axis central symmetry of third mounting bracket (2 d 1), the both ends of first elastic component (2 d 3) respectively with third mounting bracket (2 d 1) and valve block (2 d 2) fixed connection.

5. The portable carbon emission reduction detection device according to claim 1, wherein the rotary driving assembly (3 c) comprises a toothed ring (3 c 1), a third rotary shaft (3 c 2), a rotary gear (3 c 3), a fourth rotary shaft (3 c 4), a sleeve (3 c 5), a synchronous belt (3 c 6) and a rotary handle (3 c 7);

the gear ring (3 c 1) is fixedly sleeved on the connecting seat (3 a);

the third rotating shaft (3 c 2) is rotatably arranged on the mounting seat (1 b);

the rotating gear (3 c 3) is fixedly sleeved on the third rotating shaft (3 c 2), and the rotating gear (3 c 3) is in transmission connection with the gear ring (3 c 1);

the fourth rotating shaft (3 c 4) is rotatably arranged on the mounting seat (1 b);

two sleeves (3 c 5) are arranged, and the two sleeves (3 c 5) are fixedly sleeved on the third rotating shaft (3 c 2) and the fourth rotating shaft (3 c 4) respectively;

two ends of the synchronous belt (3 c 6) are respectively sleeved on the two sleeves (3 c 5);

the rotating handle (3 c 7) is fixedly sleeved on the fourth rotating shaft (3 c 4).

6. The portable carbon emission reduction detection device according to claim 1, wherein the rack (1) further comprises a control assembly (3 d), and the control assembly (3 d) comprises a top column (3 d 1), a limiting seat (3 d 2), a second elastic member (3 d 3) and an electromagnetic element (3 d 4);

the top column (3 d 1) is slidably arranged in the connecting seat (3 a);

the limiting seat (3 d 2) is fixedly arranged at the bottom of the top column (3 d 1), and the limiting seat (3 d 2) is magnetic;

two ends of the second elastic piece (3 d 3) are respectively fixedly connected with the limiting seat (3 d 2) and the connecting seat (3 a);

the electromagnetic element (3 d 4) is fixedly arranged on the mounting seat (1 b).

7. A portable carbon emission reduction detection apparatus according to claim 3, wherein the auxiliary collection device (4) further comprises a second transmission assembly (4 g), the second transmission assembly (4 g) comprises a worm (4 g 1), a fifth rotation shaft (4 g 2) and a worm wheel (4 g 3);

the worm (4 g 1) is rotatably arranged on the first mounting frame (4 a), and two ends of the worm (4 g 1) are fixedly connected with the first rotating shaft (4 d) and the driving end of the first rotating driver (4 b) respectively;

a fifth rotating shaft (4 g 2) is rotatably arranged on the first mounting frame (4 a), and a rotating disc (4 f 1) is fixedly sleeved on the fifth rotating shaft (4 g 2);

the worm wheel (4 g 3) is fixedly sleeved on the fifth rotating shaft (4 g 2), and the worm wheel (4 g 3) is in transmission connection with the worm (4 g 1).

8. A portable carbon emission reduction detection device according to claim 2, further comprising a filtering device (5), wherein the filtering device (5) comprises a flared tube (5 a), a protective cover (5 b) and a filter screen (5 c);

the flared pipe (5 a) is fixedly arranged on the first mounting frame (4 a), and the flared pipe (5 a) is fixedly connected with the air inlet pipe (4 a 1);

the protective cover (5 b) is detachably arranged on the flared tube (5 a), and the protective cover (5 b) is positioned at one end far away from the air inlet tube (4 a 1);

the filter screen (5 c) is fixedly arranged on the flared tube (5 a), and the filter screen (5 c) is positioned at one end close to the air inlet tube (4 a 1).

9. The portable carbon emission reduction detection device according to claim 1, wherein the gas collection device (2) further comprises a projection (2 e);

the plurality of lugs (2 e) are arranged, the lugs (2 e) are fixedly arranged at the bottom of the storage tank (2 a), and the lugs (2 e) are uniformly distributed about the axis of the storage tank (2 a);

the mounting seat (1 b) is fixedly provided with a plurality of positioning holes (2 f) matched with the bumps (2 e), and the plurality of positioning holes (2 f) correspond to the bumps (2 e) one by one.

10. The portable carbon emission reduction detection device according to claim 1, wherein the rack (1) further comprises at least three universal wheels (1 c), and the universal wheels (1 c) are fixedly installed at the bottom of the rack (1).

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