Malodorous gas monitor
Technical Field
The utility model relates to a gas monitoring field, concretely relates to foul gas monitor.
Background
In recent years, with the continuous opening and perfection of economic policies of China, modern industry and transportation industry are developed vigorously, more and more industrial waste gases, automobile exhaust and harmful substances generated by combustion of various fuels are discharged into the atmosphere, and the air environment on which people live is less and less optimistic. Among them, the phenomenon of malodorous contamination is becoming more serious in our country. Because the stink is complex in composition and strong in instantaneous property, strong pungent smell can be generated when the concentration is low, equipment for reliably detecting the stink is always lacked in the existing market, and the stink cannot be effectively monitored when the special operation environment with deep well exists.
Referring to a monitoring vehicle for monitoring malodorous gases described in patent document CN201811342547.4, the above monitoring device has the following problems: 1. when the equipment is used for gas monitoring, the monitoring environment with height space fall cannot be dealt with, and the application adaptability of the monitoring environment is too low. 2. The device needs to sample regional gas of gas in the monitoring process, and the single data obtained by sampling of the device is not comprehensive enough. 3. The equipment can not stably monitor the test temperature of the environment in the monitoring process, and the problem of influencing the accuracy of the obtained test result exists.
SUMMERY OF THE UTILITY MODEL
The utility model provides a solve above-mentioned not enough, provide a foul gas monitor, this foul gas monitor's structural design is reasonable, can effectively solve monitoring environment and be in same horizontal plane and lead to the single problem of test equipment application environment, effectively solve simultaneously because of the problem of temperature influence test accuracy nature.
The above object of the present invention is achieved by the following technical solutions:
a malodorous gas monitor comprises a monitoring mechanism and an assembly shell, wherein the monitoring mechanism comprises a first monitoring component and a second monitoring component, the assembly shell comprises a sealing cover and a movable base, the sealing cover is positioned above the movable base and forms a monitoring cavity with the movable base, a guide matching seat which moves longitudinally relative to the sealing cover is arranged below the movable base, a temperature control matching part is also arranged below the guide matching seat, and one end of the temperature control matching part is connected with the second monitoring component; first monitoring subassembly is installed in the monitoring cavity, close involution is covered still to be provided with sampling port and stock layout port and respectively with first monitoring subassembly is connected, be equipped with the bearing mounting bracket of fixed mounting on the sealed inner wall that closes of closing in the monitoring cavity, still be equipped with the chest expander that is used for controlling guide cooperation seat and the motion of the portion of agreeing with of control by temperature change, the drive arrangement of control chest expander action and the controller of control drive arrangement outage power supply on the bearing mounting bracket, still be provided with monitoring regulation and control module on the second monitoring subassembly, monitoring regulation and control module with the controller is connected.
Further, in the above technical scheme, the first monitoring assembly includes a first sampling device, a vacuum pump body, an isolator and a sample gas leading-out device, the first sampling device is connected to the sampling port, the analyzer is installed on the isolator, the vacuum pump body is installed on the first sampling device, one end of the isolator with the one end of the first sampling device connected to and far away from the sampling device is connected to the sample gas leading-out device, and the sample gas leading-out device is connected to the sample discharge port.
Furthermore, in the above technical solution, the guiding matching seat is further provided with a guiding-out air pipe and a guiding-in air pipe, the isolator and the second monitoring assembly are respectively connected with the guiding-out air pipe and the guiding-in air pipe, and the guiding-out air pipe and the guiding-in air pipe are spirally arranged between the movable base and the guiding matching seat.
Furthermore, in the above technical solution, the second monitoring assembly includes a depth monitoring device, a pressure monitoring meter and a second sampling device, and the depth monitoring device and the pressure monitoring meter are installed on the second sampling device.
Further, in the above technical solution, the first sampling device and the second sampling device are provided with detachable filter layers.
Furthermore, in the above technical solution, the lower end face of the guide matching seat is provided with a concave cylindrical accommodating cavity, the temperature control matching part is movably disposed in the cylindrical accommodating cavity, one side of the temperature control matching part is further provided with a temperature controller matched with the cylindrical accommodating cavity, the temperature controller is completely disposed in the cylindrical accommodating cavity, and the horizontal dimension of the lower end face of the temperature control matching part is consistent with that of the lower end face of the guide matching seat.
Further, in the above-described technical solution, a heat insulating layer is provided on an outer wall surface of the guide fitting seat.
The beneficial effects of the utility model reside in that:
adopt split type monitoring subassembly to have the monitoring environment of vertical height difference to carry out the analysis to the adaptability of the different operation scenes of improve equipment, improve equipment is to the monitoring accuracy nature of closed environment gas state simultaneously, the second monitoring subassembly with the isolator is connected with derivation trachea and leading-in trachea respectively, and the gaseous inner loop of guide is in equipment, adopts the temperature controller to carry out temperature regulation and control to equipment, prevents that equipment from leading to the problem that monitoring accuracy nature descends because of the monitoring environment.
Drawings
In order to more clearly illustrate the embodiments of the present invention, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below.
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a partially enlarged schematic view of a in fig. 1 according to the present invention.
The names of the components corresponding to the numerical identifiers in fig. 1 to 2 are as follows:
assembling a shell-1; sealing and closing the cover-2; a load bearing mounting frame-21; a drive device-22; a controller-23; a chest expander-24; sample port-25; a drainage port-26; a movable base-3; a guide fitting seat-4; an air outlet pipe-41; leading into a trachea-42; a temperature control fitting part-5; a monitoring and regulating module-6; a first sampling device-71; -isolator-72; a sample gas leading-out device-73; a second sampling means-81; pressure monitor gauge-82.
Detailed Description
The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings, and in the description of the present invention, it should be noted that:
the term "connected" is to be understood broadly, and may be mechanical or electrical; they may be connected directly or indirectly through intervening media, or may be interconnected between two elements.
The terms "side" and "lower" are used as the basis of the orientation or positional relationship shown in the drawings, and are only for convenience of description of the present invention.
For those skilled in the art, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent, and is not within the protection scope of the present invention.
The present invention is further described with reference to the following specific examples, but it should be noted that the present invention is implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of the present invention is not limited to the following examples.
As shown in fig. 1 to 2, the best embodiment of this example is:
a malodorous gas monitor comprises a monitoring mechanism and an assembly shell 1, wherein the monitoring mechanism comprises a first monitoring component and a second monitoring component, the assembly shell 1 comprises a sealing cover 2 and a movable base 3, the sealing cover 2 is positioned above the movable base 3 and forms a monitoring cavity with the movable base, a guide matching seat 4 which moves longitudinally relative to the sealing cover 2 is arranged below the movable base 3, a temperature control matching part 5 is also arranged below the guide matching seat 4, and one end of the temperature control matching part 5 is connected with the second monitoring component; the first monitoring component is mounted within the monitoring cavity,
specifically, sealed close and still be provided with sampling port 25 and stock layout port 26 on the lid 2 and respectively with first monitoring subassembly is connected, be equipped with fixed mounting in the monitoring cavity and close the bearing mounting bracket 21 on the 22 inner walls at sealed, still be equipped with on the bearing mounting bracket 21 and be used for controlling the chest expander 24 of guide cooperation seat 4 and the motion of the portion 5 that agrees with of control by temperature change, control the drive arrangement 22 of 24 actions of chest expander and control the controller 23 of the power-off power supply of drive arrangement 22, still be provided with on the second monitoring subassembly and monitor regulation and control module 6, monitor regulation and control module 6 with controller 23 connects.
In this embodiment, adopt split type monitoring subassembly to have the monitoring environment of vertical difference in height to the adaptability of the different operation scenes of improve equipment, improve the monitoring accuracy nature of equipment to the closed environment gas state simultaneously.
Specifically, first monitoring subassembly includes first sampling device 71, the vacuum pump body, isolator 72 and sample gas eduction gear 73, first sampling device 71 with sampling port 25 connects, the analysis appearance is installed on the isolator 72, the vacuum pump body is installed on first sampling device 71, the one end of isolator 72 with the one end that first sampling device 71 is connected and is kept away from sampling device with sample gas eduction gear 73 connects, sample gas eduction gear 73 with the sample discharge port 26 is connected.
In this embodiment, the integral load bearing mounting 21 is used for equipment stabilization.
As shown in fig. 1 to 2, the guide fitting seat 4 is further provided with an air guiding-out pipe 41 and an air guiding-in pipe 42, the isolator 72 and the second monitoring unit are respectively connected to the air guiding-out pipe 41 and the air guiding-in pipe 42, and the air guiding-out pipe 41 and the air guiding-in pipe 42 are spirally disposed between the movable base 3 and the guide fitting seat 4.
In this embodiment, the second monitoring assembly and the isolator 72 are connected to the outlet gas pipe 41 and the inlet gas pipe 42, respectively, to guide the gas to circulate internally or singly in the apparatus.
As shown in fig. 1, the second monitoring assembly 6 includes a depth monitoring device, a pressure monitoring meter 82 and a second sampling device 81, the monitoring device and the pressure monitoring meter 82 are installed on the second sampling device 81, and the first sampling device 71 and the second sampling device 81 are provided with a detachable filter layer.
In the embodiment, the pressure monitoring meter 82 is adopted to monitor the vacuum environment in real time during monitoring, and meanwhile, a filter layer is arranged to deal with the situation that unnecessary impurities enter the equipment, so that the equipment monitoring accuracy is affected, and meanwhile, the manual maintenance cost of the equipment is reduced.
As shown in fig. 1 to 2, a second embodiment of the present invention:
the lower terminal surface of guide cooperation seat 4 is equipped with and is the chamber is held to interior concavity's cylindricality, the activity of control by temperature change portion of agreeing with 5 sets up the cavity in the chamber is held to the cylindricality, one side of control by temperature change portion of agreeing with 5 still be equipped with the cylindricality holds chamber matched with temperature controller, the temperature controller is put into completely the cavity in the chamber is held to the cylindricality, the horizontal dimension of the lower terminal surface of control by temperature change portion of agreeing with the horizontal dimension of terminal surface keeps unanimous under the guide cooperation seat 4.
Specifically, the outer wall surface of the guide fitting seat 4 is provided with a heat insulation layer.
In this embodiment, adopt the temperature controller to carry out temperature regulation and control to equipment, prevent that equipment from leading to the problem that monitoring accuracy nature descends because of monitoring the environment.
The above is to the preferred embodiment of the present invention specifically explained, not therefore the limitation the patent scope of the present invention, all in the concept of the present invention, utilize the equivalent structure change made by the content of the specification and the attached drawings, or directly/indirectly use in other related technical fields all included in the patent protection scope of the present invention.