CN116422069A - Gas treatment equipment and detection system for biochemical industry - Google Patents

Abstract

The invention relates to the technical field of gas treatment, and discloses gas treatment equipment and a detection system in biochemical industry, which are characterized by comprising a filter main body and an exhaust gas guiding device, and the technical scheme is that: the device also comprises at least one filtering part, a driving part, a camera and a plurality of area dividing parts; the region dividing part is connected with each other and is arranged on the filtering part and used for dividing the filtering part into a plurality of regions, the driving part is arranged on the filtering part and used for driving the regions to carry out position dispatching movement so as to enable the regions with large pollution degree to be converted into the regions with small pollution degree, the filtering part is arranged in the filter main body and used for filtering waste gas, the camera is arranged in the filter main body and used for shooting images of the region dividing part, and then the region dividing part is used for carrying out region division on the filtering part by taking photos of different positions of the whole filtering part by utilizing the camera.

Description

Gas treatment equipment and detection system for biochemical industry

Technical Field

The invention relates to the technical field of gas treatment, in particular to gas treatment equipment and a detection system in the biochemical industry.

Background

The waste gas treatment is a process for treating waste gas and finally reaching the standard and then discharging the waste gas, wherein the treatment methods are various, but firstly, the waste gas is subjected to primary filtration, namely a waste gas filtration device is used, the waste gas is firstly guided into a common equipment process flow, and then the waste gas is guided to the position of a filter screen, wherein the guiding initiative exists in the process, namely a key guiding area exists when the waste gas is guided to the position of the filter screen, so that different areas exist on the filter screen, namely the pollution degree is different, and the pollution areas exist on the filter screen, but the wind guiding is continuous, the filtering degree is reduced, and other positions where wedding exist can reach the filtration standard, but one area is saturated, and the filter screen is replaced at the moment, thereby the efficiency is lost, and the service life is inconvenient to prolong;

and in the prior art, a detection system is inconvenient to set up, and a system for scheduling the polluted areas with different degrees is inconvenient to carry out.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide gas treatment equipment for biochemical industry, which is characterized in that a camera is utilized to shoot different positions of the whole filtering part, then a region dividing part is utilized to divide regions of the filtering part, nine regions are divided in total in the scheme, so that the camera shoots nine pictures, then the pollution degree is judged, and a driving part is matched to convert the regions with large pollution degree into the regions with small pollution degree, so that the dispatching is completed, the service life is prolonged, the efficiency is increased, and the replacement period is prolonged;

the second object of the present invention is to provide a detection system for a gas treatment device in biochemical industry, wherein a pollution level detection module is used to make a data assembly, the data assembly is transmitted to a data analysis module, and compared with historical data, the pollution level of the area is analyzed and judged, then a rating and serial number are generated for a plurality of images and data, and a marking signal is sent out, so that the area with the largest pollution level and the area with the smallest pollution level are subjected to position scheduling, the filtration saturation value of each area division part is preset, and after the analysis of the data analysis module, the filtration saturation value is reached to the obtained value of the pollution level, a reminder is sent out, and the whole filter part is replaced by a worker.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a gas treatment equipment and detecting system of biochemical industry, includes filter main part and exhaust gas guiding device, its characterized in that: the device also comprises at least one filtering part, a driving part, a camera and a plurality of area dividing parts; the device comprises a filter body, a plurality of region dividing parts, a driving part, a plurality of camera, a plurality of region dividing parts and a plurality of region dividing parts, wherein the region dividing parts are connected with each other and are arranged on the filter body and are used for dividing the filter body into a plurality of regions, the driving part is arranged on the filter body and is used for driving the regions to carry out position dispatching movement so as to enable the regions with large pollution degree to be converted into the regions with small pollution degree, the filter body is internally provided with the filter body and is used for filtering waste gas, the camera is arranged in the filter body and is used for carrying out image shooting on the region dividing parts, the camera is used for shooting different positions of the whole filter body, then the region dividing parts are used for carrying out region division on the filter body, nine regions are divided in the scheme, the camera shoots nine photos, then the pollution degree is judged, and the driving part is matched with the regions with large pollution degree are converted into the regions with small pollution degree, so that dispatching is completed, the service life is prolonged, the efficiency is prolonged, and the replacement period is prolonged.

As a further improvement of the invention, the filtering part comprises a front plate, a back plate, at least one bracket, a moving interval and a plurality of moving cylinders; the front plate is connected with the back plate, a moving space is arranged between the front plate and the back plate, the support is arranged along the gravity direction of the back plate, the distance between the back plate and the support is a moving interval, and a plurality of moving cylinders are arranged on the support.

As a further improvement of the invention, the driving part comprises a driving wheel, three driving wheels, a driving belt, a clamping group and a motor; the driving wheel is rotatably arranged between the front plate and the back plate, the motor is connected with the driving wheel and is arranged on the front plate, the three driving wheels are respectively rotatably arranged between the front plate and the back plate, the driving wheel and the three driving wheels are mutually connected by the driving belt, and the clamping group is arranged on the driving belt; the shape and the structure of the driving wheel are the same as those of the three driving wheels.

As a further improvement of the present invention, the area dividing section includes a filter layer, a moving frame, and a gripping groove; the movable frame is arranged on the movable interval, the clamping groove is formed in one surface of the movable frame, and the filter layer is arranged in the middle of the movable frame.

As a further improvement of the invention, the driving wheel comprises a driving main wheel, an auxiliary wheel, a guiding rod, an auxiliary belt and four limiting pieces; the driving main wheel is rotatably arranged on the front plate, the auxiliary wheel is rotatably arranged on the back plate, the four limiting parts are arranged on the front plate and are positioned on one side of the driving main wheel, which is close to the moving frame, the auxiliary belt is positioned between the limiting parts and the driving main wheel, and the clamping group is arranged on the auxiliary belt.

As a further development of the invention, the clamping group comprises a plurality of clamping devices, and one area dividing part is at least matched with one clamping device.

As a further improvement of the invention, the clamping device comprises a clamping jaw, a driving cylinder, a frame body and a hinged rod group; the driving cylinder is fixedly arranged on the auxiliary belt, the frame body is fixedly connected to the driving cylinder, the clamping jaw is connected with the hinging rod group, and the hinging rod group is connected with the driving cylinder on the frame body.

As a further improvement of the present invention, there is also provided an irradiation device provided in the filter body for providing the camera with irradiation light intensity and irradiating the area to be scheduled with irradiation marks

As a further improvement of the invention, the invention also comprises a pollution degree detection module, a data analysis module, a marking module, an execution module and a reminding module; the pollution degree detection module controls the camera to shoot images of the region dividing parts to generate a plurality of images and data, the images and the data are made into a data assembly, the data assembly is transmitted to the data analysis module, the data analysis module sends out a retrieval request to the historical data, the data analysis module compares the shot photos with the historical data, analyzes and judges the pollution degree of the region, then generates a rating and a serial number according to the images and the data, sends out a marking signal, so that the region with the largest pollution degree and the region with the smallest pollution degree are subjected to position dispatching, the marking module marks the region to be dispatched, and sends out a dispatching signal, the execution module is started, the driving part is controlled to move the region dividing parts, so that the region dispatching is finished, the filtration saturation value of each region dividing part is preset, after the analysis module analyzes the historical data, a reminding signal is sent out, the staff is reminded to send out a replacement signal, and the staff is reminded to replace the whole filtration part.

The invention has the beneficial effects that:

(1) According to the invention, the camera is used for photographing different positions of the whole filtering part, then the region dividing part is used for dividing the region of the filtering part, nine regions are divided in total in the scheme, so that the camera photographs nine pictures, then the pollution degree is judged, and the driving part is matched for converting the region with large pollution degree into the region with small pollution degree, so that the dispatching is completed, the service life is prolonged, the efficiency is increased, and the replacement period is prolonged.

(2) The invention makes a data assembly by utilizing the pollution degree detection module, the data assembly is transmitted to the data analysis module and is compared with the historical data, the pollution degree of the area is analyzed and judged, then a rating and a serial number are generated for a plurality of images and data, and a marking signal is sent out, so that the area with the largest pollution degree and the area with the smallest pollution degree are subjected to position scheduling, the filtering saturation value of each area dividing part is preset, after the analysis module analyzes that the pollution degree values reach the filtering saturation value, a prompt is sent out, and the whole filtering part is replaced by a worker.

Drawings

FIG. 1 is a schematic diagram of the front view of the present invention;

FIG. 2 is an enlarged schematic view of the filter portion of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the internal structure of FIG. 2 according to the present invention;

FIG. 4 is a schematic rear view of the structure of FIG. 2 of the present invention;

FIG. 5 is an enlarged schematic view of the gripping assembly of FIG. 3 according to the present invention;

FIG. 6 is an enlarged schematic view of the area dividing portion in FIG. 2 according to the present invention;

FIG. 7 is an enlarged schematic view of the drive wheel of FIG. 3 in accordance with the present invention;

fig. 8 is a schematic diagram of a system module of the present invention.

Reference numerals: 1. a filter body; 2. an exhaust gas guiding device; 3. a filtering part; 31. a front plate; 32. back plate, 33, support; 331. a movement interval; 332. a moving cylinder; 4. a driving section; 41. a driving wheel; 411. an auxiliary wheel; 412. a guide rod; 413. a limiting piece; 42. a transmission belt; 43. an auxiliary belt; 44. clamping the group; 441. a clamping jaw; 442. a drive cylinder; 443. a frame body; 444. a hinge rod group; 45. a motor; 5. a camera; 6. a region dividing section; 61. a filter layer; 62. a moving frame; 63. a clamping groove; 101. a pollution degree detection module; 102. a data analysis module; 103. a marking module; 104. an execution module; 105. and a reminding module.

Detailed Description

The invention will now be described in further detail with reference to the drawings and examples. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "bottom" and "top", "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 8, a gas treatment apparatus and a detection system for biochemical industry according to the present embodiment includes a filter main body 1 and an exhaust gas guiding device 2, and is characterized in that: also comprises at least one filtering part 3, a driving part 4, a camera 5 and a plurality of area dividing parts 6; the area dividing sections 6 are connected with each other and are arranged on the filtering section 3 and used for dividing the filtering section 3 into a plurality of areas, the driving section 4 is arranged on the filtering section 3 and used for driving the areas to carry out position dispatching movement so as to enable the areas with large pollution degree to be converted into the areas with small pollution degree, the filtering section 3 is arranged in the filter main body 1 and used for filtering waste gas, the camera 5 is arranged in the filter main body 1 and used for shooting the area dividing sections 6, the camera 5 is used for shooting different positions of the whole filtering section 3, then the area dividing sections 6 are used for carrying out area division on the filtering section 3, nine areas are divided in total in the scheme, nine photos are shot by the camera 5, then the pollution degree is judged, and the areas with large pollution degree are converted into the areas with small pollution degree by the driving section 4, so that dispatching is completed, the service life is prolonged, the efficiency is increased, and the replacement period is prolonged.

As shown in fig. 1 to 8, the filtering part 3 includes a front plate 31, a back plate 32, at least one bracket 33, a moving space 331, and a plurality of moving cylinders 332; the front plate 31 and the back plate 32 are connected with each other, a moving space is arranged between the front plate 31 and the back plate 32, the support 33 is arranged along the gravity direction of the back plate 32, the distance between the back plate 32 and the support 33 is a moving space 331, and a plurality of moving cylinders 332 are arranged on the support 33.

As shown in fig. 1 to 8, the driving part 4 includes a driving wheel 41, three driving wheels, a driving belt 42, a gripping group 44 and a motor 45; the driving wheel 41 is rotatably arranged between the front plate 31 and the back plate 32, the motor 45 is connected with the driving wheel 41 and is arranged on the front plate 31, the three driving wheels are respectively rotatably arranged between the front plate 31 and the back plate 32, the driving wheel 41 and the three driving wheels are mutually connected by the driving belt 42, and the clamping group 44 is arranged on the driving belt 42; the driving wheel 41 and the three driving wheels have the same shape and structure.

As shown in fig. 1 to 8, the area dividing section 6 includes a filter layer 61, a moving frame 62, and a gripping groove 63; the moving frame 62 is disposed on the moving space 331, the clamping groove 63 is disposed on one surface of the moving frame 62, and the filter layer 61 is disposed in the middle of the moving frame 62.

As shown in fig. 1 to 8, the driving wheel 41 includes a driving main wheel, an auxiliary wheel 411, a guide bar 412, an auxiliary belt 43, and four stoppers 413; the driving main wheel is rotatably mounted on the front plate 31, the auxiliary wheel 411 is rotatably mounted on the back plate 32, four limiting members 413 are arranged on the front plate 31 and positioned on one side of the driving main wheel close to the moving frame 62, the auxiliary belt 43 is positioned between the limiting members 413 and the driving main wheel, and the clamping group 44 is arranged on the auxiliary belt 43 and matched with the clamping groove (63).

As shown in fig. 1-8, the gripping group 44 includes a plurality of gripping devices, and a section of the area dividing section 6 is adapted to at least one gripping device.

As shown in fig. 1 to 8, the gripping device includes a gripping jaw 441, a driving cylinder 442, a frame 443, and a hinge rod group 444; the driving cylinder 442 is fixedly installed on the auxiliary belt 43, the frame 443 is fixedly connected to the driving cylinder 442, the clamping jaw 441 is connected to the hinge rod group 444, and the hinge rod group 444 is connected to the driving cylinder 442 on the frame 443.

As shown in fig. 1-8, further comprises illumination means provided within the filter body 1 for providing illumination intensity to the camera 5 and for illuminating the area to be scheduled.

As shown in fig. 1-8, the device further comprises a pollution level detection module 101, a data analysis module 102, a marking module 103, an execution module 104 and a reminding module 105; the pollution level detection module 101 controls the camera 5 to shoot images of the area dividing sections 6 to generate a plurality of images and data, the images and the data are made into a data assembly, the data assembly is transmitted to the data analysis module 102, the data analysis module 102 sends out a request for taking the historical data, the data analysis module 102 compares the historical data with the shot photo, analyzes and judges the pollution level of the area, then generates a grade and a serial number for the images and the data, sends out a marking signal, so that the area with the largest pollution level and the area with the smallest pollution level are subjected to position scheduling, the marking module 103 marks the area to be scheduled, and sends out a scheduling signal, the execution module 104 starts, the driving part 4 is controlled to move the area dividing sections 6, the area scheduling is completed, the filtering saturation value of each area dividing section 6 is preset, after the analysis module 102 obtains the pollution level value, a reminding signal is sent out, the reminding module 105 sends out a replacing signal to the staff to replace the whole filtering part 3.

Working principle: as shown in fig. 1-8, when in use, the pollution level detection module 101 controls the camera 5 to take images of the plurality of region dividing sections 6, generate a plurality of images and data, and make a data assembly, the data assembly is transmitted to the data analysis module 102, the data analysis module 102 sends a request for retrieving historical data, the data analysis module 102 compares the taken images with the historical data, analyzes and judges the pollution level of the region, then generates a rating and a serial number for the plurality of images and the data, sends out a marking signal, so that the region with the largest pollution level and the region with the smallest pollution level are subjected to position scheduling, the marking module 103 marks the region to be scheduled, sends out a scheduling signal, the execution module 104 starts, controls the driving part 4 to move the region dividing sections 6, thereby completing region scheduling, presets the filtering saturation value of each region dividing section 6, sends out a reminding signal after the analysis of the data analysis module 102 obtains the pollution level value which reaches the filtering saturation value, and the reminding module 105 sends out a replacement signal to the staff to replace the whole filtering part 3.

When the dispatching is needed, before the motor 45 is started, the moving cylinder 332 is started to pull one of the filter layers 61, then after a position is emptied, the clamping jaw 411 is rotated to drive the auxiliary belt 43 to drive the clamping group 44 to move, so that other filter layers 61 are driven, when the filter layer 61 to be dispatched moves to the empty position, the matched clamping jaw 441 is loosened, then falls down due to gravity, then becomes a vacant position above the dispatching, and continues to rotate, and the vacant position can accommodate other filter layers 61 to be dispatched or the filter layer 61 initially pulled away by the moving cylinder 332, so that the regional dispatching is completed.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (9)

1. A gas treatment device for the biochemical industry comprising a filter body (1) and an exhaust gas guiding means (2), characterized in that: the device also comprises at least one filtering part (3), a driving part (4), a camera (5) and a plurality of area dividing parts (6);

the device comprises a plurality of region dividing parts (6) which are connected with each other and are arranged on a filtering part (3) and used for dividing the filtering part (3) into a plurality of regions, a driving part (4) which is arranged on the filtering part (3) and used for driving the regions to carry out position scheduling movement so as to enable the regions with large pollution degree to be converted into the regions with small pollution degree, the filtering part (3) is arranged in a filter main body (1) and used for filtering waste gas, and a camera (5) is arranged in the filter main body (1) and used for carrying out image shooting on the region dividing parts (6).

2. A gas treatment plant for the biochemical industry according to claim 1, characterized in that: the filtering part (3) comprises a front plate (31), a back plate (32), at least one bracket (33), a moving interval (331) and a plurality of moving cylinders (332);

the front plate (31) and the back plate (32) are connected with each other, a moving space is formed between the front plate and the back plate, the support (33) is arranged along the gravity direction of the back plate (32), the distance between the back plate (32) and the support (33) is a moving interval (331), and a plurality of moving cylinders (332) are arranged on the support (33).

3. The gas treatment apparatus and detection system for biochemical industry according to claim 2, wherein: the driving part (4) comprises a driving wheel (41), three driving wheels, a driving belt (42), a clamping group (44) and a motor (45);

the driving wheel (41) is rotatably arranged between the front plate (31) and the back plate (32), the motor (45) is connected with the driving wheel (41) and is arranged on the front plate (31), the three driving wheels are rotatably arranged between the front plate (31) and the back plate (32) respectively, the driving wheel (41) and the three driving wheels are connected with each other by the driving belt (42), and the clamping group (44) is arranged on the driving belt (42);

the driving wheel (41) and the three driving wheels have the same shape and structure.

4. A gas treatment plant for the biochemical industry according to claim 1, characterized in that: the region dividing section (6) comprises a filter layer (61), a moving frame (62) and a clamping groove (63);

the movable frame (62) is arranged on the movable interval (331), the clamping groove (63) is formed in one surface of the movable frame (62), and the filter layer (61) is arranged in the middle of the movable frame (62).

5. The biochemical industry gas treatment apparatus according to claim 4, wherein: the driving wheel (41) comprises a driving main wheel, an auxiliary wheel (411), a guide rod (412), an auxiliary belt (43) and four limiting pieces (413);

the driving main wheel is rotatably mounted on the front plate (31), the auxiliary wheel (411) is rotatably mounted on the back plate (32), four limiting pieces (413) are arranged on the front plate (31) and located on one side, close to the moving frame (62), of the driving main wheel, the auxiliary belt (43) is located between the limiting pieces (413) and the driving main wheel, and the clamping group (44) is arranged on the auxiliary belt (43) and matched with the clamping groove (63).

6. The biochemical industry gas treatment apparatus according to claim 4, wherein: the clamping group (44) comprises a plurality of clamping devices, and one area dividing part (6) is at least matched with one clamping device.

7. A gas treatment plant for the biochemical industry according to claim 5, characterized in that: the clamping device comprises a clamping jaw (441), a driving cylinder (442), a frame body (443) and a hinged rod group (444);

the driving cylinder (442) is fixedly arranged on the auxiliary belt (43), the frame body (443) is fixedly connected to the driving cylinder (442), the clamping jaw (441) is connected with the hinging rod group (444), and the hinging rod group (444) is connected with the driving cylinder (442) on the frame body (443).

8. A gas treatment plant for the biochemical industry according to claim 1, characterized in that: also included is an illumination device disposed within the filter body (1) for providing illumination intensity to the camera (5) and for illuminating the area to be scheduled.

9. A detection system for a gas treatment plant of the biochemical industry, characterized in that: a gas treatment plant comprising a biochemical industry according to any one of claims 1-8, further comprising a pollution level detection module (101), a data analysis module (102), a marking module (103), an execution module (104) and a reminder module (105);

the pollution degree detection module (101) controls the camera (5) to shoot images of the region dividing parts (6) to generate a plurality of images and data, the images and the data are made into a data assembly, the data assembly is transmitted to the data analysis module (102), the data analysis module (102) sends a request for taking historical data, the data analysis module (102) compares the shot images with the historical data, analyzes and judges the pollution degree of the region, then generates a rating and a serial number for the images and the data, sends out a marking signal, so that the region with the largest pollution degree and the region with the smallest pollution degree are subjected to position scheduling, the marking module (103) marks the region to be scheduled, and sends out a scheduling signal, the execution module (104) is started, the driving part (4) is controlled to move the region dividing parts (6), so that the region scheduling is finished, the filtering saturation value of each region dividing part (6) is preset, after the analysis module (102) obtains the pollution degree value, a reminding signal is sent out, the reminding module (105) sends out a replacement signal to a worker, and the whole filter part (3) is subjected to replacement.

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